'
 
 0'nsiu.y
 
 A 
 
 SYSTEM 
 
 BY 
 
 AMERICAN AUTHORS. 
 
 \ 
 
 EDITED BY 
 
 WILLIAM PEPPER, M.D., LL.D., 
 
 PROVOST AND PROFESSOR OF THE THKORY AND PRACTICE OB' MEDICINE AND OF CLINICAL 
 MEDICINE IN THE UNIVERSITY OF PENNSYLVANIA. 
 
 ASSISTED BY 
 
 LOUIS STABR, M.D., 
 
 CLINICAL PROFESSOR OF DISEASES OF CHILDREN IN THE HOSPITAL OF THE UNIVERSITY 
 OF PENNSYLVANIA. 
 
 VOLUME I. 
 PATHOLOGY AND GENERAL DISEASES. 
 
 PHILADELPHIA : 
 LEA BROTHERS & CO. 
 
 ' 1885.
 
 WBIOO 
 
 Entered according to Act of Congres?, in the year 2885, by 
 
 LEA BROTHERS & CO., 
 in the Office of the Librarian of Congress. All rights reserved. 
 
 WESTCOTT & THOMSON, WILLIAM J. DORNAN, 
 
 Stereotypers and Electrotypers, Philada. Printer. Philada.
 
 PREFACE. 
 
 THE present work has been undertaken in the belief that by obtain 
 ing the co-operation of a considerable number of physicians of ackuow 
 ledged authority, who should treat subjects selected by themselves, thert 
 could be secured an amount of practical information and teaching 
 not otherwise accessible. It was determined to restrict the selection of 
 authors to those of this country including Canada not from any want 
 of recognition of the importance of the studies of certain special sub- 
 jects by European investigators, but because it was felt that the proper 
 time had arrived for the presentation of the whole field of medi- 
 cine as it is actually taught and practised by its best representatives in 
 America. 
 
 It is a matter of importance also that a comprehensive study shall be 
 made of the various forms of disease as occurring among our highly 
 composite population and under our varied and peculiar climatic influ- 
 ences. Of course, in the present work comparative studies of this kind 
 must occupy a subordinate position ; yet it cannot fail to enhance both 
 its interest and its value to have the various forms of disease as they 
 occur in this country discussed by those among us who are confessedly 
 the most competent and experienced. 
 
 The force of these observations must have been felt by the distin- 
 guished men to whom I made application, for with scarcely an exception 
 they joined cordially in the laborious undertaking. I take the greatest 
 pleasure in testifying to the courtesy which has marked all our relations, 
 and which has lessened materially the labor and strain inevitable in 
 the production of such a work. 
 
 To ensure greater accuracy in the revision of the large amount of proof- 
 sheets, as well as to relieve me of some of the details connected with the 
 editorial work, I associated with myself Dr. THOMAS HOLMES CATII- 
 CART, and, after sudden illness had cut short his very promising career, 
 I was fortunate in securing the assistance of Dr. Louis STARR for the 
 same purpose. 
 
 In order to render the work- as valuable as possible to the general 
 
 3
 
 4 PREFACE. 
 
 practitioner, its scope has been made as comprehensive as could be done 
 without exceeding the limits prescribed by the nature of the under- 
 taking. This will be particularly noted in the section on Gynaecology, 
 where is presented a series of articles by eminent specialists upon the 
 subjects of chief importance to the general practitioner, written with 
 special reference to their constitutional relations and their bearings on 
 associated morbid conditions, while, among the general diseases, a full 
 article on puerperal fever has properly been included. Important arti- 
 cles will also be found on Tracheotomy, the Diseases of the Rectum and 
 the Anus, and those of the Bladder and the male sexual organs. Com- 
 prehensive sections have further been provided, from the pens of distin- 
 guished specialists, upon medical ophthalmology, medical otology, and 
 on skin diseases, presenting these large and complicated subjects in a 
 clear and practical light and with special reference to their relations to 
 general medical practice. In the presentation of such subjects as hydro- 
 phobia, glanders, and anthrax care has been taken to ensure the full 
 discussion of these affections, not only as occurring in man, but also in 
 the lower animals, since it is highly important to provide the physician 
 with authoritative information on at least such points of Veterinary Sci- 
 ence as have a direct practical bearing on morbid processes in man. 
 
 In view of the intimate relations of all questions of hygiene to the 
 causation and prevention of disease, in regard to which medical men 
 are constantly consulted, and are, indeed, often obliged to assume 
 weighty responsibilities, interesting articles on Drainage and Hygiene 
 have been provided. 
 
 In order to avoid repetition and confusion, and at the same time to 
 secure a comprehensive presentation of the subjects of General Pathology 
 and of General Etiology, Symptomatology, and Diagnosis, considerable 
 space has been devoted to their full discussion. The chapter on General 
 Morbid Processes will be found to convey distinct and conservative 
 teaching on all points included under that comprehensive title, and 
 will thus supply a solid basis for the subsequent discussions of special 
 morbid conditions. In any work on General Medicine at the present 
 day frequent allusion must be made to the relations of various low 
 organisms to morbid processes. This question or rather the series 
 of questions which arise in connection with this subject, and which at 
 present form the most fruitful topic of discussion and of investigation 
 will be found treated by different authors in various places and from 
 various standpoints. No attempt has been made to secure uniformity of 
 views upon a matter which is still sub judice, and which demands 
 much more skilful and critical investigation before its true scien- 
 tific position has been finally determined. It has even been felt to be 
 desirable to allow a certain amount of repetition, which has naturally
 
 PREFACE. 5 
 
 resulted from the introduction of this discussion, not only in the chapter 
 on General Etiology, but in connection with the causation of scarlatina, 
 diphtheria, hydrophobia, pyaemia, puerperal fever, and phthisis. 
 
 Throughout the work the chief purpose of the editor and of his collab- 
 orators, to furnish a concise and thoroughly practical system of medi- 
 cine, has compelled the omission of bibliographical lists, of numerous ref- 
 erences, and of extended discussions of theoretical views or of contro- 
 verted questions, in order that more space might be devoted to clear 
 descriptions of disease and to a full presentation of the subjects of diag- 
 nosis and treatment. If it should seem, in consequence, that inadequate 
 recognition has been made of the labors of others, it must be borne in 
 mind that ample quotations and numerous references were inadmissible 
 in such a work as the present. 
 
 The classification and nomenclature which have been adopted are those 
 recommended by the Royal College of Physicians of England and by the 
 American Medical Association. Charts and tables have been inserted 
 wherever they were needed to elucidate the text, but after mature reflec- 
 tion it was felt necessary to omit all illustrations that were not impera- 
 tively required, although many original drawings and paintings of high 
 value were offered with the articles. 
 
 THE EDITOR. 
 
 OCTOBER, 1884.
 
 CONTENTS OF VOL. I. 
 
 PAGE 
 
 PEEFACE. . ... 3 
 
 GENERAL PATHOLOGY AND SANITARY SCIENCE. 
 
 GENERAL MORBID PROCESSES. By REGINALD H. FITZ, M. D 35 
 
 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS. AND PROGNOSIS. By 
 
 HENRY HAKTSIIORNE, M. D., LL.D 125 
 
 HYGIENE. By JOHNS. BILLINGS, A.M., M.D., LL.D. (Edin.) 173 
 
 DRAINAGE AND SEWERAGE IN THEIR HYGIENIC RELATIONS. By 
 
 GEORGE E. WARING, JR., M. Inst. C. E 213 
 
 GENERAL DISEASES. 
 
 SIMPLE CONTINUED FEVER. By JAMES H. HUTCHINSON, M. D 231 
 
 TYPHOID FEVER. By JAMES II. HUTCHINSON, M. D 237 
 
 TYPHUS FEVER. By JAMES H. HUTCHINSON, M. D 338 
 
 RELAPSING FEVER. By WILLIAM PEPPER, M. D., LL.D 369 
 
 VARIOLA. By JAMES NEYINS HYDE, M. D 434 
 
 VACCINIA. By FRANK P. FOSTER, M. D 455 
 
 VARICELLA. By JAMES NEYINS HYDE, M. D 481 
 
 SCARLET FEVER. By J. LEWIS SMITH, M. D 486 
 
 RUBEOLA. By W. A. HARDAWAY, A. M., M. D 557 
 
 ROTHELN. By W. A. HARDAWAY, A. M., M. D 582 
 
 MALARIAL FEVERS. By SAMUEL M. BEMISS, M. D 589 
 
 PAROTITIS. By JOHN M. KEATING, M. D 620 
 
 ERYSIPELAS. By JAMES NEVINS HYDE, M. D 629 
 
 YELLOW FEVER. By SAMUEL M. BEMISS, M. D 64C 
 
 7
 
 8 CONTEXTS OF VOL. I. 
 
 PAGl 
 
 DIPHTHERIA. By ABRAHAM JACOBI, M.D 656 
 
 CHOLERA. By ALFRED STILL*, M. D., LL.D 715 
 
 PLAGUE. By JAMES C. WILSON, A. M., M. D 771 
 
 LEPROSY. By JAMES C. WHITE, M. D 785 
 
 EPIDEMIC CEREBRO-SPINAL MENINGITIS. By A. STILLE, M. D., LL.D. 795 
 
 PERTUSSIS. By JOHN M. KEATING, M. D 836 
 
 INFLUENZA. By JAMES C. WILSON, A. M., M. D 851 
 
 DENGUE. By II. D. SCHMIDT, M. D 879 
 
 RABIES AND HYDROPHOBIA. By JAMES LAW-, F. R. C. V. S 886 
 
 GLANDERS AND FARCY. By JAMES LAW, F. R. C. Y. S 909 
 
 ANTHRAX (MALIGNANT PUSTULE). By JAMES LAW, F. R. C. V. S. . . 926 
 
 PYAEMIA AND SEPTICAEMIA. By B. A. WATSON, A. M., M. D 945 
 
 PUERPERAL FEVER. By WILLIAM T. LUSK, M. D 984 
 
 BERIBERI. By DUANE B. SIMMONS, M. D 1038 
 
 INDEX . . . f 1045
 
 CONTRIBUTORS TO VOL. I. 
 
 BEMISS, SAMUEL M., M.D., 
 
 Professor of Theory and Practice of Medicine and Clinical Medicine in the Univer- 
 sity of Louisiana, New Orleans. 
 
 BILLINGS, JOHN S., A. M., M. D., LL.D. (Edin.), 
 ' Surgeon U. S. Army, Washington. 
 
 FITZ, REGINALD II., M. D., 
 
 Shattuck Professor of Pathological Anatomy in Harvard University, Boston. 
 
 FOSTER, FRANK P., M. D., 
 New York. 
 
 HARDAWAY, W. A., A. M., M. D., 
 
 Professor of Diseases of the Skin in the St. Louis Post-Graduate School of Medicine 
 and in the Missouri Medical College, St. Louis ; President of the American Der- 
 matological Association. 
 
 IIARTSHORNE, HENRY, M. D., LL.D., 
 
 Late Professor of Hygiene in the University of Pennsylvania, Philadelphia. 
 
 IIUTCHINSON, JAMES H., M. D., 
 
 Physician to the Pennsylvania Hospital and to the Children's Hospital, Philadelphia. 
 
 HYDE, JAMES NEVINS, M. D., 
 
 Professor of Skin and Venereal Diseases in the Ensh Medical College, Chicago. 
 
 JACOBI, ABRAHAM, M. D., 
 
 Clinical Professor of Diseases of Children in the College of Physicians and Surgeons, 
 New York, etc. 
 
 KEATING, JOHN M., M.D., 
 
 Visiting Obstetrician and Lecturer on Diseases of Women and Children to the Phil- 
 adelphia (Blockley) Hospital ; Surgeon to the Maternity Hospital ; Physician to 
 St. Joseph's Hospital, Philadelphia. 
 
 LAW, JAMES, F. R. C. V. S., 
 
 Professor of Veterinary Science in Cornell University, Ithaca, N. Y. 
 
 LUSK, WILLIAM T., M. D., 
 
 Professor of Obstetrics and Diseases of Women and Children in the Bellevne Hos- 
 pital Medical College, New York. 
 
 9
 
 10 CONTRIBUTORS TO VOL. I. 
 
 PEPPER, WILLIAM, M. D., LL.D., 
 
 Provost and Professor of the Theory and Practice of Medicine and of Clinical Medi- 
 cine in the University of Pennsylvania, Philadelphia. 
 
 SCHMIDT, II. D., M.D., 
 
 Pathologist to the Charity Hospital, New Orleans. 
 
 SIMMONS, DUANE B., M. D., Yokohama, Japan, 
 
 Late Director, Physician, and Surgeon-in-Chief of the Government Hospital, also 
 Consulting Surgeon to Prison and Police Hospitals at Yokohama, Japan. 
 
 SMITH, J. LEWIS, M. D., 
 
 Clinical Professor of Diseases of Children in the Bellevue Hospital Medical College 
 New York. 
 
 STILLE, ALFRED, M. D., LL.D., 
 
 Emeritus Professor of Theory and Practice of Medicine in the University of Penn- 
 sylvania, Philadelphia. 
 
 WARING, GEORGE E., JR., M. Inst. C. E., 
 
 Engineer of Sanitary Drainage, Newport, E. I. 
 
 WATSON, B. A., A. M., M. D., 
 
 Surgeon to the Jersey City Charity, St. Francis, and Christ Hospitals, Jersey City, 
 . N. J. 
 
 WHITE, JAMES C., M. D., 
 
 Professor of Dermatology in Harvard University, Boston. 
 
 WILSON, JAMES C., A. M., M. D., 
 
 Physician to the Jefferson Medical College Hospital and to the Philadelphia Hospital, 
 Philadelphia.
 
 ILLUSTRATIONS. 
 
 FIGURE PACK 
 
 1. MICKOCOCCI 142 
 
 2. BACTERIA 142 
 
 3. BACILLUS MALARIA 4 143 
 
 4. BACTERIA FROM GELATIN SOLUTION 143 
 
 5. VIBRIOS IN GELATIN CULTURE-FLUID ]44 
 
 6. PROTOCOCCUS FROM SLIDES EXPOSED OVER SWAMP-MUD 144 
 
 7. BACILLI FROM SWAMP-MUD 145 
 
 8. BACILLI FROM SEPTIC.&MIC RABBIT 145 
 
 9. BACILLI FROM HUMAN SALIVA 146 
 
 10. BACILLUS ANTHRACIS 146 
 
 11. BACILLUS TUBERCULOSIS 147 
 
 12. CHART OF TYPICAL RANGE OF TEMPERATURE IN TYPHOID FEVER, AFTER 
 
 WUNDERLICH 282 
 
 13. CHART SHOWING RECRUDESCENCE OF FEVER FROM INDISCRETION OF DIET. 283 
 
 14. CHART SHOWING FALL OF TEMPERATURE FROM INTESTINAL HEMORRHAGE 
 
 IN TYPHOID FEVER 284 
 
 15. PULSE-TRACING IN RELAPSES OF TYPHOID FEVER 304 
 
 16. CHART OF TEMPERATURE IN TYPHOID FEVER WITH RELAPSE. ORIGINAL 
 
 ATTACK 306 
 
 17. CHART OF TEMPERATURE IN TYPHOID FEVER WITH RELAPSE. RELAPSE. 306 
 
 18. TEMPERATURE CHART OF TYPHOID FEVER. ABORTIVE ATTACK, FOLLOWED 
 
 BY TYPICAL ATTACK 308 
 
 19. SPIRILLUM FROM THE BLOOD IN A CASE OF RELAPSING FEVER 374 
 
 20. TEMPERATURE CHART OF TYPICAL CASE OF RELAPSING FEVER, WITH THREE 
 
 RELAPSES TERMINATING IN RECOVERY 379 
 
 21. TEMPERATURE CHART OF TYPICAL CASE OF RELAPSING FEVER, TERMINAT- 
 
 ING IN RECOVERY 380 
 
 22. TEMPERATURE CHART FROM A CASE OF THE BILIOUS TYPHOID OR GRAVE 
 
 SUBINTRANT FORM OF RELAPSING FEVER 397 
 
 23. TEMPERATURE CHART SHOWING THE LAPSE OF A REMITTENT FEVER INTO 
 
 AN INTERMITTENT 600 
 
 24. CHARTS SHOWING THE TEMPERATURE CURVE IN TYPHO-MALARIAL FEVER: 
 
 PART I., SHOWING PREDOMINANCE OF TYPHOIDAL ELEMENT ; PART II., 
 
 SHOWING PREDOMINANCE OF MALARIAL ELEMENT ' ' . . 617 
 
 11
 
 GENERAL PATHOLOGY. 
 
 GENERAL MORBID PROCESSES. 
 GENERAL ETIOLOGY. 
 HYGIENE AND QUARANTINE. 
 
 DRAINAGE AND SEWERAGE IN RELATION TO THE PREVENTION 
 OF DISEASE. 
 
 VOL. I. 3
 
 GENERAL MORBID PROCESSES. 1 
 
 INFLAMMATION; THROMBOSIS AND EMBOLISM; EFFUSIONS; 
 DEGENERATIONS; TUBERCULOSIS; MORBID GROWTHS. 
 
 BY REGINALD H. FITZ, M. D. 
 
 GENERAL MOKBID PROCESSES. 
 
 DISEASE is to be regarded as representing the result of a series of pro- 
 cesses called morbid or pathological, from the fact that they are man- 
 ifested by disturbances in the organism. 
 
 The processes concerned are the same in kind as those essential to 
 health, but they are modified in time, place, or quantity. 
 
 Morbid processes, therefore, are to be considered as modified physio- 
 logical processes tending to cause disease. 
 
 All physiological processes are subject to certain variations which 
 tend to produce disturbances in the functions of the body In the 
 healthy organism this tendency is checked by the automatic regulators 
 of the functional activity of the various organs, to the importance of 
 which Virchow 2 long ago called attention. By their action the influ- 
 ence of external agents is controlled within certain limits. The lids 
 close and prevent injury to the eye. Sneezing, coughing, and vomit- 
 ing bring about the expulsion of noxious irritants. Sweating aids in 
 neutralizing the injurious effects of exposure to high temperatures. 
 Rapid respiration permits a sufficient cleansing of the blood in rarefied 
 atmospheres. When the limits, within which the regulation of physio- 
 logical processes is possible, are exceeded, such processes become patho- 
 logical and disease begins. A morbid process, therefore, is usually inca- 
 pable of recognition till disease is present. It may exist and disease be 
 unsuspected and denied. A diminished blood-supply may be one link in 
 the process which eventually leads to the production of disturbances. 
 
 1 In the ^reparation of this subject full and free use has been made of the following works: 
 Die Cellular Patholoyie, Virchow, 4te Auilage, Berlin, 1871 ; Hnndbuck tier Altyemeinen 
 Pathologie, Uhle und Wagner, 7te Auflage, Leipzig, 1876; Handbuch der Al/yemeincn 
 Pathologic als Patltologische Physiologic, Samuel, Stuttgart, 1879; Vorlesimyen iiber AUye- 
 meine Pathologic, Cohnheim, 2te Auilage, Berlin, 1882 ; Lehrbitch der Pathologischen Anato- 
 mie, Birch-Hirschfeld, 2te Auflage, ler Band, Leipzig, 1882; Lehrbncli der Allf/emeinen un<l 
 Speciellen Pathologixchcn Anatomie, Ziegler, ler und 2er Theil, Jena, 1882 and 1883. 
 
 1 Handbuch der Spcciellen PaLholoyie und Tkerapie, Virchow, ler Band, p. 15, Erlangen, 
 1854. 
 
 35
 
 36 GESEEAL MORBID PROCESSES. 
 
 Another link is to be found in tlie fatty degeneration resulting from this 
 luck of blood. 
 
 Such a degeneration may have long existed in the walls of a blood- 
 vessel, and yet the individual appear in the best of health. The sudden 
 rupture of the weakened wall results in death or disease. With the 
 manifestation of the disturbances which render the condition of the 
 vessel obvious the individual is said to be diseased. 
 
 In most instances, however, the morbid process makes itself early ap- 
 parent. Disturbances of nutrition, formation, or function soon become 
 sufficient in quantity to attract attention from the resulting discomfort, 
 and the presence of disease is then recognized. The latter is thus essen- 
 tially a conventional term, and begins when the morbid processes occasion 
 a sufficient degree of inconvenience. 
 
 The process is never at a standstill. It cither tends toward a return to the 
 physiological conditions, or its course LS in the direction of their destruc- 
 tion. As physiological processes are absolutely dependent upon the vital- 
 ity of the elements of the tissues, so those which have become" pathological 
 cease to exist with the death of such elements. In the dead body there is 
 no disease, although its results remain, and furnish the most efficient means 
 of identifying the processes which occasioned them. 
 
 In the study of morbid processes, therefore, one must appreciate the 
 normal conditions and manifestations of life in the individual. Phys- 
 iological laws govern pathological phenomena, and the latter must always 
 be submitted to the tests furnished by the former. 
 
 Just as little, however, as the study of anatomy familiarizes the 
 student with the anatomical changes resulting from diseased processes, 
 does the study of physiology accustom the student to the features of 
 disease. Pathological processes must be studied by themselves and for 
 themselves, although the means which are employed may be the same 
 as those used in physiological research. 
 
 It is evident that the exactness of method which is the demand of 
 the physiological investigator cannot be secured by the pathologist. The 
 material of the latter lies farther, beyond his control. Nevertheless, much 
 of the ground to be gone over is common, and the object sought for is 
 essentially the same the knowledge of the conditions necessary to main- 
 tain life. 
 
 In an introduction to the study of disease there are certain processes 
 which deserve early recognition. They are both the cause and the result 
 of disease, and may occur in various diseases, either limited to one organ 
 or present in a series of organs. Their treatment at -present obviates the 
 necessity of repetition, and prepares the reader for the special consideration 
 of their occurrence in the various structures and systems of the body. 
 
 These processes are named in virtue of some prominent characteristic, 
 and each is made up of a complex series of conditions and disturbances. 
 In part, they represent modifications in the circulation of blood and 
 lymph ; in part, they consist of nutritive derangements, whose conse- 
 quences appear as the various degenerations, or as the additions to the 
 body, the new formations. 
 
 The processes and groups of processes in question are those included 
 under the following heads: inflammation; thrombosis and embolism; 
 effusions; degenerations; tuberculosis; and morbid growths.
 
 INFLAMMATION. 37 
 
 Inflammation. 
 
 Inflammation is characterized now, as in the time of Galen, by the 
 presence of redness, heat, swelling, and pain. The disturbance of func- 
 tion, added to modern definitions, is to be regarded either as a result or 
 a cause, or both, of the variously modified physiological processes whose 
 sum is the inflammation. 
 
 The redness of inflammation is obviously dependent upon the presence 
 of an increased quantity of blood. This is readily apparent in the direct 
 observation of the blood-vessels of an inflamed, transparent part of the 
 body, as the mesentery of the frog or rabbit, or the tongue and webbed 
 foot of the former animal. The redness of inflammation consequently 
 demands the presence of blood-vessels in the affected region, and becomes 
 all the greater the more vascular the part i. e. the richer it is in such 
 vessels. 
 
 Redness does not suffice for the existence of inflammation, for it may 
 be found in the absence of other evidence of the latter. The diffused red- 
 ness, often extensive, of birth-marks, that from venous obstruction or 
 temporary congestions, from vaso-motor disturbances the section of the 
 sympathetic furnishing a well-known instance are examples of non-in- 
 flammatory redness. Inflammation may even be present without redness, 
 as may be constantly observed in the occurrence of parenchymatous in- 
 flammation and of the chronic interstitial varieties. 
 
 The heat of inflammation is one of the most important clinical features, 
 yet not indispensable, as appears from its absence in chronic interstitial 
 forms of inflammation. In the acute varieties of inflammation an ele- 
 vated temperature is constant, and its observation and record furnish a 
 most valuable means of determining the beginning and progress of an in- 
 flammation, which, for a time, may furnish but little additional evidence. 
 
 The heat of inflammation is the prominent characteristic of inflam- 
 matory fever, and it is the study of this variety of fever of late years 
 which has resulted in an intelligible and relatively satisfactory theory 
 concerning fevers in general. Information of much value is to be found 
 in the recent work of Wood, 1 which contains abundant historical informa- 
 tion, as well as extensive original observations and conclusions. 
 
 Inflammatory fevers are distinguished from idiopathic forma. The 
 latter variety includes the occurrence of fever as an attribute of the 
 disease concerned, the more characteristic symptoms of which follow the 
 febrile outbreak. Local inflammatory processes may take place during 
 the progress of the disease with its fever, but such processes are co-effects 
 of the cause of the latter, rather than its cause. Most of those diseases 
 in which fever occurs as one of the joint effects of the cause of the disease, 
 are included among the infective or zymotic classes. 
 
 The inflammatory fevers are those attending an acute inflammatory 
 process, and are secondary to, and occasioned by, the latter. The type 
 of this variety is seen in the fever occurring during the progress of a 
 wound, whether its course is tow r ard healing or extension. Such trau- 
 
 1 Fever: A Study in Morbid and Normal Physiology, H. C. Wood, A. M., M. D., Phila- 
 delphia, 1880. (Keprint from the Smithsonian Contributions to Knowledge, No. 357.)
 
 38 GENERAL MORBID PROCESSES. 
 
 malic fevers are characterized as septic or aseptic ; the former including 
 the conditions of septicaemia and pyaemia. The aseptic traumatic fevers, 
 as described by Volkmann, 1 are those which pursue their course with an 
 elevated temperature, but without most of the other febrile phenomena. 
 
 Fever in general is characterized by a combination of disturbances in 
 the physiological processes of the body. Such processes are those con- 
 cerned in the production and dissipation of heat, in respiration and circu- 
 lation, digestion and secretion, and in mental, motor, and other sensorial 
 action. Such disturbances are manifested by a persistent elevation of 
 temperature, an increased destruction of tissue, a quickened and modified 
 pulse, accelerated breathing, increased thirst, diminished appetite, and 
 diminished quantity and altered quality of the secretions. The sensorial 
 disturbances include wakefulness and stupor, headache, delirium, twitch- 
 ings, cramps, and other symptoms indicative of functional impairment of 
 the nervous system. 
 
 Of all these manifold evidences of fever, the elevation of temperature 
 is the one whose cause, range, and results have been most carefully and 
 critically investigated. No record of a case in which fever is present is 
 regarded as complete without the chart of the daily variations in temper- 
 ature, respiration, and circulation. The practical value of such records 
 is thus admitted, and in the experiments relating to the origin of animal 
 heat the observations of temperature are as essential as the chemical 
 analyses, each of which supplements the other. 
 
 The more accurate determination of the heat produced in the body is 
 obtained either by the use of the calorimeter (an apparatus for measuring 
 the collected heat liberated from the body) or by estimating the quantity 
 of heat produced in the destruction of the constituents of the body from 
 quantitative analyses of the discharged carbonic acid and urea. The 
 results of such investigations are regarded by Rosenthal 2 as possessing 
 only a relative value, but justify the conclusion that most of the heat 
 produced in the organism results from the oxidation of its constituents. 
 
 For the preservation of health it is essential that this heat should be 
 removed from the body in such qTiautity that the temperature of the 
 latter shall not vary to any considerable extent, for any considerable time, 
 from 37.2 C. (98.4 F.)." The removal of the heat is mainly accom- 
 plished by its radiation or conduction into a surrounding cooler medium, 
 and by the evaporation of moisture from the surface of the body. Too 
 great a removal of heat results in death from freezing, while too great an 
 accumulation of heat terminates fatally from the effects of an unduly 
 elevated temperature. To ensure the normal range of temperature, con- 
 stantly changing relations must exist between the production of heat and 
 its dissipation. The cooler the surroundings, the more must heat be 
 produced, or the less must heat be evolved from the body. 
 
 An increased production of heat is obvious under conditions of climate 
 demanding prolonged exposure to low temperature. An abundantly fatty 
 diet promotes the formation of hont, while suitable clothing checks its 
 dissipation. Although it is claimed by Liebermeister that sudden 
 exposure to cold stimulates heat-production, Rosenthal 3 disputes this 
 
 1 Beitrage zur Chirurgie, Leipzig, 1875, p. 24; Sammlung KliniscJier Vortrage, No. 121, 
 Genzmer und Volkmann. 
 
 1 .Hermann's Handbuch der Physiologic, Leipzig, 18S2, iv. 2, 375. ! Op. cit. t 413.
 
 INFLAMMATION. 39 
 
 statement, and maintains that it is still to be regarded as doubtful 
 whether the production of heat can be varied to suit the demands of 
 sudden and temporary changes of temperature. With the admission of 
 this doubt, the regulation of the temperature of the body, under the 
 circumstances just referred to, is mainly accomplished through the 
 influence of agencies favoring or checking the loss of heat. Since heat 
 is largely brought to the surfaces of the body by the circulating blood, 
 modifications in the fulness and rapidity of this superficial current pro- 
 duce corresponding differences in the amount of heat and moisture pre- 
 sented. Such variations are considered to be accomplished through the 
 action of the vaso-motor nervous system, whose differing effects are 
 apparent in the pale, cool skin and the flushed, warm surface. 
 
 The search for the regulation of such vaso-motor action has led to the 
 view that the production of heat, as well as its dissipation, may be 
 influenced from a nervous centre. Wood 1 claims that the result of 
 experiments made by him proves the existence of such a heat-centre in 
 or above the pons. Although admitting the possibility of its being a 
 muscular vaso-motor centre, he regards it rather as an inhibitory heat- 
 centre, which acts, as suggested by Tscheschichin, by repressing the chem- 
 ical changes in the constituents of the body through which heat is pro- 
 duced. 
 
 This view is objected to by Rosenthal, 2 on the ground that the facts 
 are not universally agreed upon, and their interpretation is somewhat 
 vague. Even the increased production of heat as determined by Wood, 
 if admitted, may be regarded as the result of a modified circulation. 
 
 The preservation of a normal range of temperattire in general is to be 
 recognized as the result of variations in the relation of heat-production 
 to heat-dissipation. The causes which influence this relation may act 
 from without or from within, and are regarded as producing their effect 
 by means of the vaso-motor nervous system. The causes which act from 
 within are those concerned in the febrile elevation of temperature. 
 Whether the latter is associated with, or independent of, inflammatory 
 processes, the question of first importance relates to the modification of 
 physiological conditions. The causes of the physiological production of 
 heat and its dissipation have already been referred to, and the same 
 elements demand consideration in the pathological range of temperature 
 so striking in fever. 
 
 Relatively accurate inductions with regard to the origin of febrile heat 
 were first rendered possible by the experiments of Billroth and Weber. 
 These observers found that the introduction of putrid material into the 
 circulation of animals produced fever. It was afterward shown that 
 various substances, not necessarily of a putrid character, might produce 
 the same result. 
 
 From measurements with the calorimeter of the heat produced, it was 
 concluded by Wood 3 that in the fever of pyremic dogs more heat was 
 produced than in healthy, fasting dogs, although less than in high-fed, 
 healthy dogs. An increased production of heat in the fevered animal is 
 thus obvious, as his capacity to receive and assimilate food is considerably 
 less than that of a high-fed, healthy dog. The calculations of Sanderson, 
 referred to by Wood, 4 based upon the analyses of eliminated carbonic 
 1 Op. cit., 254. * Op. cit., 442. 3 Op. cit. 236. 4 Op. cit. 239.
 
 40 GENERAL MORBID PROCESSES. 
 
 acid and urea, show that the febrile human subject produces very much 
 more heat than the fasting, though less than the fully-fed, healthy, man. 
 
 An increased production of heat in fever is generally admitted, although 
 it alone is not to be regarded as the essential feature in the elevated range 
 of the temperature. The fasting man or animal under ordinary circum- 
 stances is not febrile, and an increased production of heat from full feeding 
 in health, equal to that observed in fever, not being associated with fever, 
 it is apparent that the retention of the produced heat is of importance for 
 the existence of fever. Although it has been shown by various observers 
 that more heat is dissipated during fever than in health, this increased 
 loss is not in proportion to the increased production of heat. A persistent 
 elevation of temperature is the necessary result. This elevation is subject 
 to daily and hourly differences, as is the temperature of the healthy 
 individual. These variations in the range of the febrile temperature are 
 apparently due to an agency like that which dominates the course of 
 normal temperatures viz. a varying action of the vaso-motor nervous 
 apparatus, as well as of that controlling the secretion of sweat, now per- 
 mitting, now checking, the dissipation of the produced heat. 
 
 For the existence of the elevated temperature of fever, therefore, there 
 is demanded the presence of an agent within the body which, as stated by 
 "\Vood, 1 shall act " upon the nervous system which regulates the produc- 
 tion and dissipation of animal heat a system composed of diverse parts 
 so accustomed to act continually in unison in health that they become, as 
 it were, one system and suifer in disease together." It may be that there 
 exists, as claimed by Wood and Tscheschichiu, a heat-centre independent 
 of the vaso-motor and other centres, through which heat is dissipated, or 
 it may be, as maintained by Rosenthal, that the vaso-motor system alone 
 is concerned in the regulation of temperature. Such action may be 
 inhibitor} 7 or excitant, according to the views of the one or the other 
 author, without aifecting the main question as above stated. 
 
 The elevation of temperature suffices to explain for the most part 
 certain of the other phenomena of fever, as thirst, digestive disturbances, 
 increased respiration, and emaciation. A coincident affection of various 
 cerebro-spinal centres is demanded to explain the altered action of the 
 heart and the numerous nervous symptoms which are to be found in 
 fever. The agent producing such manifold effects is obviously no unit. 
 It may be introduced from without or it may arise within the body, and 
 its transfer to the nervous centres is undoubtedly accomplished through 
 the circulation. 
 
 Among those agents which act from without are to be included the 
 specific causes of infective diseases. It is probable that these produce 
 the fever, as they occasion other symptoms of the disease, and their 
 action may be regarded as direct, or indirect through the secondary 
 products of their own vital changes. In the light of the existing facts 
 the products of minute organisms developed outside the human body may 
 give rise to fever when introduced, without the organism, into the body. 
 The history of septicaemia contains numerous illustrations of the pyro- 
 genetic properties of material produced in connection with wounded 
 surfaces of the body exposed to the action of minute organisms. The 
 introduction of blood of the same, or of a different animal, into the cir- 
 
 1 Op. cit. 255.
 
 INFLAMMATION. 41 
 
 dilation of a given animal is followed by fever, as is the injection of 
 considerable quantities of water into the blood-vessels. The same is 
 true of various chemical substances. 
 
 It is further obvious that the agents producing fever may arise within 
 the body. The fever resulting from the deprivation of water, and from 
 the destruction of tissues, are instances of the probable origin of pyro- 
 genetic substances from the rapid metamorphosis of tissues. 
 
 It is suggested by Samuel [ that under given circumstances the fever 
 may be sanatory. This view is based upon the probability that certain 
 parasitic organisms are destroyed at such temperatures as may be produced 
 within the body. The growth of 'the bacillus of malignant pustule takes 
 place most vigorously at a temperature of 30.5 C. (95 F.), while its 
 development is feeble at 40 C. (104 F.). The bacillus of tuberculosis, 
 as shown by Koch, thrives at temperatures between 37 C. (98.6 F.) and 
 38 C. (100.4 F.), but its growth ceases at temperatures above 41 C. 
 (105.8 F.). The spiral fibre of relapsing fever, which is present in the 
 blood in great abundance at the beginning of the febrile onset, disappears 
 at the close, the temperature being 42 C. (107.6 F.). It is not to be 
 found in the intervals between the febrile paroxysms, but reappears a few 
 hours before the recurrence of the fever. The history of intermittent 
 fever suggests a similar relation between its cause and the febrile periods. 
 
 The value of pain as evidence of inflammation is merely relative. Its 
 existence depends upon the presence of sensitive nerves, and those inflam- 
 mations are the least painful which occur in parts where such nerves are 
 fewest. 
 
 The pain of inflammation is attributable to the pressure upon the nerves 
 of that product of the inflammation known as the exudation. This pres- 
 sure becomes all the greater the more abundant the exudation, or the greater 
 the obstruction offered to its diffusion throughout the inflamed part. The 
 intense pain resulting from inflammation of the fascia or of the periosteum 
 is thus explained, while an inflammation of the loose connective tissue 
 may be diffused over a wide area with little or no pain. In the chronic 
 varieties of inflammation, where the exudation is but scanty, and its ac- 
 cumulation extended over a long period of time, there may be no pain 
 during the entire course of the inflammation. 
 
 Swelling remains for consideration as the most important of the four 
 cardinal symptoms. Like the others, its presence is not absolutely essen- 
 tial. It may exist at one time in the course of the inflammation, and may 
 be absent at another. Even a diminution in the size of an organ may 
 suggest the existence of an inflammation, for the yellow and cirrhotic 
 atrophies of the liver give evidence, respectively, of an> acute and chronic 
 inflammation of this organ. 
 
 The swelling of an inflamed part is due to the presence of an increased 
 quantity of blood, and lymph, and to the exudation. These constituents 
 of the swelling are not of equal importance. Although the quantity of 
 blood in the part is increased, no considerable swelling is produced, pro- 
 vided the flow of blood and lymph from the part be unobstructed. The 
 current of lymph through the larger lymphatics may be greatly increased, 
 yet a decided swelling be absent, unless there is an obstruction to the 
 passage of lymph from the inflamed region. 
 
 1 Op. dt. 155.
 
 42 GENERAL MORBID PROCESSES. 
 
 The exudation is the most essential element of the swelling, and our 
 knowledge of its origin and fate includes the most important features of 
 the general pathology of the processes concerned. 
 
 The inflammatory exudation is represented by the accumulation, outside 
 the blood-vessels, of material previously within them. The prevailing 
 views concerning the manner of origin of this exudation, and its relation 
 to inflammatory processes, are essentially due to the rediscovery by Cohn- 
 heim of the forgotten observation of Addison, that white blood-corpuscles 
 pass through the apparently intact walls of the blood-vessels. 
 
 In the observation of the mesentery or other transparent part of a suit- 
 able animal, the changes taking place in inflammation are, at the outset, 
 limited to the blood-vessels and their immediate vicinity. The vessels 
 become dilated and the rapidity of the flow within them is soon dimin- 
 ished. In the veins particularly the white blood-corpuscles separate in 
 considerable numbers from the general current and line the wall in con- 
 stantly-increasing numbers, while the red corpuscles are borne along the 
 middle of the stream. The white corpuscles stagnate, stick to the wall 
 for a longer or shorter time, and often change their place, while the red 
 corpuscles are in constant and progresssive motion. In the capillaries a 
 considerable number of white corpuscles are found in contact with the 
 wall, but numbers of red corpuscles are associated with them. The for- 
 mation of the exudation noAV begins by the passage of white corpuscles 
 through the apparently intact wall of the veins and capillaries, especially 
 of the former. Limited numbers, under ordinary circumstances, of red 
 corpuscles also make their way through the walls of the capillaries. This 
 is the phenomenon of emigration, and is associated with the amoeboid 
 movements of the white corpuscles. 
 
 With the passage outward of the white and red corpuscles there is also 
 the effusion of liquid material. Both the liquid and solid constituents 
 continually escape and spread in all directions beyond the wall, following 
 the course of the least resistance. It is probable that this course is de- 
 nned by the pre-existing spaces within the tissues of the part, the lymph- 
 spaces. The exudation is more abundant in parts richly provided with 
 blood-vessels and in those containing the larger spaces ; it is diminished 
 where the vessels are less numerous or the surrounding parts more resist- 
 ant, with smaller and fewer lymph-spaces. The resulting swelling is the 
 less when .ready opportunities for the diffusion and removal of the exuda- 
 tion by lymphatics and veins are presented, and when the material appears 
 upon surfaces over which it may flow away. 
 
 The liquid portion of the exudation represents something more than 
 the transuded blot)d-serum, and a certain practical importance results 
 from the distinction drawn between an exudation and a transudatiou. 
 Such a distinction is especially called for when the inflammatory or non- 
 inflammatory origin of considerable quantities of fluid in the larger cav- 
 ities of the body is concerned. From a recent contribution to our know- 
 ledge of this subject by Eeuss 1 the following information is derived : The 
 percentage of albumen is always greater in exudations than in trans- 
 udations, and is more constant in the former than in the latter. It in- 
 creases with the severity of the inflammation, being highest in the ichorous 
 forms, less in the purulent, and least in the serous exudations. When an 
 1 Deutscfies Archivfiir Klinische Aledicin, 1879, xiiv. 5S3.
 
 INFLAMMATION. 43 
 
 inflammatory exudation is found to contain less albumen than usual, the 
 existence of a transudation with secondary inflammation is suggested, or 
 the exudation may have taken place in a hydnemic individual. A suf- 
 ficient number of exceptions are met with, however, to interfere with the 
 absolute nature of this test. 
 
 The coagulation of an inflammatory exudation apparently depends 
 upon the contained white blood -corpuscles ; the more numerous (within 
 certain limits) these are in a serous exudation, the more abundant is the 
 formation of fibrin. The cellular element likewise is that which in abun- 
 dant liquid exudations characterizes them as purulent. Although it is 
 generally agreed that most of the corpuscles of pus are emigrated white 
 blood-corpuscles, it is not necessary to admit that all are of this nature. 
 The cells present in an inflamed part include those pre-existing, as well as 
 those which escape from the vessels. The former are the wandering cells 
 of the connective tissues, as well as the fixed variety, the epithelial cells 
 of the surface of a mucous membrane in addition to the subjacent con- 
 nect ive-tissTie cells. Amoeboid cells outside the blood-vessels have been 
 seen to divide, and it is possible that such duplication may serve as the 
 method of formation of a certain number of pus-corpiiscles. The state- 
 ments concerning the proliferation of the fixed connective-tissue cells and 
 of epithelium are derived from appearances, and are interpretations of 
 these appearances, not observations of a* process. 
 
 The changes taking place along the walls of the blood-vessels being the 
 feature of prime importance in the observation of the progress of an in- 
 flammation, numerous investigators have directed their attention to the 
 determination of the nature of the changes in the vessel wall by means of 
 which the escape of the corpuscles is permitted. Arnold represents the 
 most strenuous advocates of the stomata theory, according to which the 
 leucocytes pass through canals normally existing in the wall. By means 
 of the silver method of staining, and by injections of various insoluble pig- 
 ments into the blood-current, certain results are met with, which give color 
 to the view that pores and canals are present upon and in the walls of the 
 vessels, analogous to those found in the diaphragm. As the latter have 
 been shown to be in direct communication with the lymphatic system of 
 tubes and spaces, so the walls of the blood-vessels have been assumed to 
 present similar channels of communication. 
 
 The prevailing views at the present time are in favor of the artificial 
 nature of the stomata and pores in the walls of the blood-vessels. An in- 
 creased porosity of the vascular wall in inflammation is necessary for the 
 occurrence of the exudation, but such porosity is regarded rather as a 
 physical condition permitting an observable filtration, and a filtration of 
 solids as well as liquids. 
 
 In this connection reference should be made to the observation of 
 AViniwarter, who has demonstrated that colloid material, a solution of 
 gelatin, passes through the vascular wall in inflammation more readily 
 i. e. under less pressure than through the normal wall of the blood- 
 vessel. 
 
 The causes of inflammation are to be regarded as those which produce 
 an increased porosity of the vessel wall without causing its death, for no 
 exudation escapes from a dead vessel, its contents becoming clotted. 
 
 These causes may act from without or from within, primarily affecting
 
 44 GENERAL MORBID PROCESSES. 
 
 the tissues outside the vessels, or exerting their action, at the outset, upon 
 the wall itself. The usual histological relation of vessels and surrounding 
 tissues is such that both arc simultaneously affected. The occurrence of an 
 inflammation in non-vascular parts, however, as the cornea, from irritation 
 of its centre, the part farthest removed from the surrounding blood-vessels, 
 shows that the affection of the vessels may be indirect as well as direct. 
 This indirect action is to be regarded as taking place through the agency 
 of nerves or through that of the nutritive currents. That nervous influ- 
 ence alone does not suffice to transmit the effect of an applied cause is 
 apparent from the absence of inflammation of the cornea which has become 
 anesthetized by section of the trigeminus nerve. With the protection of 
 the cornea from external irritation there is an absence of inflammation. 
 
 The consideration of the final symptom of inflammation, the disturb- 
 ance of function, which has been added in recent times, belongs to special 
 rather than general pathology. It varies according to the seat of the 
 inflammation, the disturbed function of the brain or heart differing from 
 that of the liver or kidney. The clinical importance of this symptom 
 of inflammation is greater than of all the rest, as it is the one whose 
 presence is constant and indispensable. 
 
 An inflammation may exist, as already stated, without heat, redness, or 
 pain. The swelling may escape observation from the limited quantity of 
 the exudation and other causative agents, or from the inaccessibility of 
 the inflamed part to physical examination. The disturbance of function, 
 however, becomes early apparent, and is present throughout the course 
 of the inflammation. A knowledge of its nature enables the seat of the 
 latter to be recognized, and its variations furnish a desired test of the 
 efficiency of therapeutic agents. 
 
 The causes of inflammation may be divided into the traumatic, toxic, 
 parasitic, infectious, dyscrasic or constitutional, and trophic. 
 
 The traumatic causes are those which act mechanically, producing an 
 injury to tissues by pressure, crushing, tearing, stretching, and the like. 
 Others represent modifications in temperature, thermic agencies, and 
 include extremes of cold as well as of heat. The chemicals whose 
 action is direct, as caustic, include a third variety of the traumatic 
 causes. Such chemicals are applied to surfaces, cutaneous or mucous, 
 and comprise the active element producing the perforating ulcer of the 
 stomach and duodenum, as well as such substances as potash or sulphuric 
 acid which may have been swallowed intentionally or accidentally. 
 
 The toxic group of causes is closely allied to the chemical variety of 
 the traumatic agencies. It includes chemicals whose action is indirect, 
 through absorption in a diluted form rather than from direct application 
 in a concentrated condition. Such chemicals are derived from without, 
 as arsenic, phosphorus, and antimony; or may be formed within the 
 body, and the latter include the chemical products of putrefactive changes 
 in the urine, for instance and, with considerable probability, certain 
 of the active agents of blood-poisoning in septic diseases. It is not 
 unlikely that some of the inflammatory affections met with among the 
 so-called constitutional diseases, as rheumatism and gout, may owe their 
 origin to the production of chemical substances within the body, excessive 
 in quantity if not changed in quality.
 
 INFLAMMATION. 45 
 
 The parasitic causes of inflammation are both animal and vegetable, 
 and act upon the surfaces of the body or within its deeply-seated parts. 
 Some of the animal parasites act locally at their place of entrance, while 
 others produce but slight disturbances in this region, their eifects usually 
 resulting from the transfer of their offspring to remote parts of the body. 
 The vegetable parasites are for the most part the various fungi, which 
 act locally upon the skin or on those transitional surfaces lying between 
 skin and mucous membrane. The resulting parasitic inflammations are 
 known as favus, sycosis, ringworm, thrush, etc. The border-line between 
 such parasitic diseases and those included among the infective diseases is 
 somewhat arbitrarily drawn. Parasites in the limited sense act chiefly as 
 foreign bodies, while the effect of minute vegetable organisms is rather 
 that of ferments, in virtue of their products. Such a distinction is of 
 relative value merely, as the micrococci and bacteria are capable of acting 
 in other ways than by the production of septic material. 
 
 The infectious causes of inflammation are for the most part parasitic in 
 their nature, although the discovery and identification of the parasite are 
 in most, of these inflammations assumed rather than demonstrated. The 
 relation of the anthrax bacillus to malignant pustule no longer admits of 
 a doubt, mainly in consequence of the researches of Koch. This investi- 
 gator has been enabled to establish a definite etiological relation between 
 the septicaemia of certain animals and accompanying minute vegetable 
 organisms. His recent discovery of the bacillus of tuberculosis definitely 
 removes the tubercular process from the group of dyscrasic or constitu- 
 tional affections to that of the infective diseases. The constant presence 
 of minute organisms in relapsing fever, leprosy, malaria, typhoid fever, 
 diphtheria, erysipelas, and numerous other affections associated with, if 
 not characterized by, inflammatory conditions, renders extremely probable 
 the closest pathological relation between such diseases and a microscopic 
 organism. That an inflammatory process may be regarded of infectious 
 origin, it is necessary, according to Koch, 1 that a characteristic organism 
 should be found in all cases of the disease, and in such numbers and dis- 
 tribution as to account for all the phenomena of the disease in question. 
 
 These organisms may act in virtue of their growth and the consequent 
 demand for oxygen, as seems probable in certain cases of malignant pus- 
 tule, where the affected individual dies with symptoms of asphyxia. Their 
 operation may also be like that of ferments, which produce chemical ma- 
 terial whose effect may be remote from the immediate presence of the 
 minute organism. They may likewise, in connection with their coloniza- 
 tion in various parts of the body, act more immediately upon the walls 
 of the blood-vessels, and produce that increased porosity which is so essen- 
 tial a factor in inflammation. 
 
 The discovery of the immediate cause of the various infective diseases, 
 as measles, scarlatina, variola, cholera, dysentery, mumps, whooping 
 cough, cerebro-spinal meningitis, and numerous other epidemic and en- 
 demic affections, still remains a question for the future. The constant 
 association of microbia with any or all of such diseases is but one fact in 
 connection with them, and such a discovery is to be regarded merely as 
 a step forward, to be followed by others, each of which represents not 
 only an advance, but confirms the position attained. 
 
 1 Untersuchunr/en uber die Aetiologie der Wundinfectioiiskrankheilen, 1878, 27.
 
 46 GENERAL MORBID PROCESSES. 
 
 The dyscrasic or constitutional causes of inflammation are those which, 
 though long established, appear less demanded as our knowlege advances. 
 Regarded as the result of an alteration in the composition of the blood, it 
 is obvious that such changes may arise from the introduction, from with- 
 out, of wholly foreign material. The dyscrasia may also represent mod- 
 ifications in the relative proportion of the normal constituents of the 
 blood. In the former series are included what, for the most part, have 
 already been referred to under the toxic and infectious causes of inflam- 
 mation. The dyscrasiae from lead, alcohol, and the like belong to this 
 series. Still more -important are the poisons, the virus of tuberculosis and 
 scrofula, of leprosy and syphilis. The dyscrasiae known as anaemia, leu- 
 caemia, uraemia, icterus, and diabetes are to be regarded less as inflamma- 
 tory causes than as predisposing conditions which favor the action of other 
 groups of causes. 
 
 The trophic causes of inflammation are those whose action is supposed 
 to take place through the influence of nerves. Although, as has already 
 been stated, a faulty iunervation of tissues is an important element in 
 favoring the action of various inflammatory causes, there remain certain 
 forms of inflammation where the disturbance of nervous action seems to 
 be the essential feature. The occurrence of an acute peripheral gangrene 
 soon after certain traumatic or inflammatory lesions of the brain or spinal 
 cord, of articular inflammation following chronic affections of the cerebro- 
 spiual axis, are instances in point. The origin and distribution of herpes 
 zoster, the occurrence of sympathetic ophthalmia and symmetrical gangrene, 
 suggest a predominant disturbance of innervation as the exciting cause. 
 At the same time, it is desirable to call attention to the recent observations 
 of MacGillavray, Leber, and others, 1 which suggest that a sympathetic 
 ophthalmia is due to the extension of a septic choroiditis along the lymph- 
 spaces of the optic nerve. It is further apparent that in certain so-called 
 trophic inflammations, as the pneumonia after section of the pneumogastric, 
 and the inflammation of the eye following paralysis of the trigeminus, the 
 paralysis of the nerve is a remote, rather than an immediate cause, of the 
 inflammation. There still remain, however, a number of localized inflam- 
 mations whose origin is so intimately connected w r ith nervous disturbances 
 as to demand, for the present at least, a corresponding Classification. 
 
 The course of an inflammation is often indicated by the predominance 
 of certain symptoms, which, for the most part, indicate a condition of the 
 individual acted upon rather than a peculiarity of the cause. The sthenic 
 inflammations take place in robust individuals with powerful hearts and 
 an abundant supply of blood. In such persons a strong pulse, high fever, 
 and an injection of the superficial blood-vessels suggested, in former times, 
 the necessity of bloodletting as the essential therapeutic agent. The 
 sthenic form of inflammation was most commonly associated with pneu- 
 monia, where the obstruction to the passage of blood through the 
 lungs w r as an important cause of the superficial injection of the blood- 
 vessels. 
 
 The asthenic inflammations, on the contraiy, are those occurring in 
 feeble individuals, debilitated in consequence of pre-existing disease, 
 exposure, or habits. A weak heart, low febrile temperature, and super- 
 
 1 Wadsworth's " Report of Recent Progress in Ophthalmology," Boston Medical and 
 Surgical Journal, 1882, cvi. 517.
 
 INFLAMMATION. 47 
 
 ficial pallor, characterize tlje asthenic inflammations, which show a fre- 
 quent tendency to become localized in the more dependent parts of the 
 body, the force of the circulation being too feeble to overcome the effect 
 of gravitation. 
 
 In the typhoidal inflammations are associated those symptoms which 
 are so prominent in the severe varieties of typhoid fever. These are the 
 predominant symptoms : hebetude or low, muttering delirium, picking at 
 the bed-clothes, involuntary evacuations, stertor, and the like. The ner- 
 vous disturbances are associated with a feeble pulse and a dusky hue of 
 the skin. 
 
 The constituents of an inflammatory exudation are frequently used as 
 a basis of classification, and characterize the inflammation from the ana- 
 tomical point of view. As the exudation is complex in its composition, 
 the predominant element is made use of to designate the variety, and in 
 doubtful cases a combined adjective indicates the presence of the two most 
 abundant constituents. As the exudation is directly derived from the 
 blood and contains serum in addition to white and red corpuscles, the 
 serous, purulent, and hemorrhagic varieties of exudation naturally arise. 
 The fibrinous and diphtheritic inflammations relate to the presence of 
 membranes or false membranes. Finally, there are the productive inflam- 
 mations, resulting in the new formation of tissue, and the destructive 
 inflammations, where losses of substance occur. 
 
 Serous inflammations are most frequent in those parts of the body 
 where the structure contains the largest lymph-spaces. The so-called 
 serous cavities of the body offer the most favorable opportunities for the 
 accumulation, as well as for the exudation, of the inflammatory product ; 
 then follow the regions of the larger lymph-spaces, according to the size 
 and number of the latter. 
 
 The serous inflammations may also arise from the epithelial coverings 
 of the body, as the cutaneous, alimentary, and respiratory surfaces. The 
 serous exudations of the skin are those present in vesicles, blisters, or 
 bullse, which owe their limitation to the resistance offered to the spreading 
 of the liquid inflammatory product by the coherent epidermis. Serous 
 inflammations of the alimentary canal may assume a vesicular character, 
 although, from the structure of its mucous membrane and the macerating 
 influence of its contents, the vesicles are apt to be of an extremely tran- 
 sitory character. 
 
 The more important serous inflammations of the intestines are those 
 manifested by profuse watery evacuations, the extreme form of which is 
 to be found in cholera. 
 
 Serous inflammation of the lungs accompanies the more severe forms, 
 and usually represents but a limited and circumscribed affection, asso- 
 ciated with .more abundant cellular and fibrinous products. 
 
 Serous inflammations of the peritoneum, pleura, pericardium, tunica 
 vaginalis, and central ventricles often give rise to the presence of enor- 
 mous quantities of fluid, whose partial removal from many of the cavities 
 concerned by operative measures frequently represents a most beneficial 
 result of treatment. 
 
 The smaller lymph-spaces of the connective tissue in various parts of 
 the body are the frequent seat of the inflammatory oedema, so called, 
 whose presence is an important indication of the direction assumed by a
 
 48 GENERAL MORBID PROCESSES. 
 
 spreading inflammation, as well as a suggestion of the frequent virulence 
 of its cause. 
 
 In general, the serous inflammations are to be regarded as less severe 
 than other varieties, or as representing an early stage of what later may 
 be otherwise characterized by a change in the nature of the products. 
 
 The purulent variety of inflammation is present when the exudation is 
 abundantly cellular. As has already been stated, such cells are, for the 
 most part, white blood-corpuscles. The purulent exudation, like the 
 serous variety, may appear either on surfaces, when the term secretion is 
 applied, or within the lymph-spaces of the connective tissue over a con- 
 siderable space, when the pus is said to be infiltrated. When the infil- 
 tration is more circumscribed and the walls of the affected lymph-spaces 
 are destroyed, so that adjoining cavities are thrown into larger holes, 
 an abscess is present, from whose wall pus is constantly derived, while 
 the inflammation is progressive. 
 
 The attention of the surgeon, in particular, has been directed to the 
 isolation of the immediate cause of suppurative inflammation, and the 
 modern, antiseptic, treatment of wounds is essentially based upon the view 
 of the infectious origin of pus. The frequent presence of microbia in 
 purulent exudation where no precautions are taken to exclude their 
 admission, and their frequent absence or presence in minute quantities 
 where such precautions are taken, have suggested that through their 
 influence an inflammatory exudation is likely, if not actually compelled, 
 to become purulent. 
 
 Whether the microbia or their products are the cause of most suppura- 
 tive inflammations may be regarded as an open question. It is generally 
 admitted, however, that, as a rule, an inflammation becomes purulent in 
 consequence of the presence of an infective agent ; in other words, that 
 most pus is of an infectious origin and possesses infectious attributes^ 
 The labors of Lister in insisting upon the exclusion of all possible putre- 
 factive agencies in the treatment of wounds have met with universal 
 approval, and the basis of his treatment remains fixed, although different 
 methods have been devised for its enforcement. His researches, and 
 those stimulated by his work, have resulted in the establishment of prin- 
 ciples which affect the whole field of theoretical as well as practical 
 medicine. 
 
 Although most pus may be considered as due to the action of a virus 
 introduced from without, and capable of indefinite progressive increase 
 within the body, all pus is not to be regarded as of infectious origin. 
 There are pyrogcuetic agencies, like petroleum, turpentine, and croton 
 oil, which, introduced into the body, produce suppurative inflammation 
 without the association of microbia. 
 
 A bland pus is usually in a state of beginning putrescence, so that it 
 is only relatively bland, and acquires extreme virulence when long 
 exposed to putrefactive agencies. It is possible that those agencies 
 producing an ichorous pus are the same or different from those present 
 in bland pus. The iehorous exudation contains less corpuscles than 
 bland pus, is more fluid, less opaque, strongly alkaline, of a greenish 
 color, and of offensive odor. 
 
 In hemorrhagic inflammation the exudation contains large numbers of 
 red blood-corpuscles. The occurrence of this form is sometimes associated
 
 INFLAMMATION. 49 
 
 with peculiarities of the cause, as is obvious from the epidemics of hem- 
 orrhagic small-pox, measles, scarlatina, and cerebro-spiual meningitis. It 
 is also associated with peculiarities of the individual, as in such epidemics 
 all cases are not equally hemorrhagic, and in scurvy the hemorrhages 
 are attributable to the abnormal conditions to which the sufferers are 
 exposed. Hemorrhagic exudations are also met with in those inflamma- 
 tions of serous surfaces accompanying the outcropping of tubercular and 
 cancerous or sarcomatous growths. In all cases a hemorrhagic exuda- 
 tion represents a grave complication, and when found in serous cavities 
 has a certain diagnostic, as well as prognostic, importance. 
 
 Fibrinous inflammations are characterized by the presence in the exu- 
 dation of considerable quantities of fibrin. As the prevailing theory of 
 the formation of fibrin demands fibrino-plastic as well as fibrinogenous 
 material, both are to be sought for in the exudation. The latter is present 
 in the liquid portion of the exudation ; the existence of the former, as 
 well as that of the ferment, is dependent upon the presence of the white 
 blood-corpuscles. The more numerous these, within certain limits, the 
 more abundant the formation of fibrin. As their death appears essential 
 for the fibrinous coagulation, the latter is most constantly met with in 
 those parts of the body where the white blood-corpuscles are quickest 
 separated from influences favoring their life. The farther removed they 
 are from the blood-vessels, the more likely is their early death. Fibrinous 
 exudations are therefore frequent and abundant in cellular and serous 
 (sero-cellular) inflammation of the great serous cavities of the body. 
 The clotted fibrin appears as false membrane lying upon the serous 
 surface, either smooth or rough, tripe-like, or as villosities projecting 
 above the surface, and again as bands, fibrinous adhesions, stretching 
 across the cavity and uniting opposed surfaces. 
 
 The frequent occurrence of fibrinous exudations on the mucous mem- 
 branes of the larynx and trachea, accompanied by the suffocative symp- 
 toms known as croup, has led to the use of the term croupous inflam- 
 mation as synonymous with fibrinous inflammation, and it& application 
 to various parts of the body where croupous i. e. suffocative symptoms 
 are not in question. Croupous inflammation, when used, is to be 
 considered as an anatomical term, indicating merely the production of 
 fibrin, and, for the avoidance of confusion, it is preferable to substitute 
 fibrinous for croupous when such inflammations are described. 
 
 The disease, croup, it is well known, may exist without a croup- 
 ous that is, fibrinous inflammation, as is familiarly recognized in the 
 constant use of the terms spasmodic, membranous, and diphtheritic 
 croup. 
 
 Fibrinous inflammation of the mucous membrane of the larger air- 
 passages is much more frequently met with than that of mucous mem- 
 branes elsewhere, as of the intestines, uterus, and bladder. The psnedo- 
 membranous inflammations of the latter tracts are more commonly the 
 result of the catarrhal and diphtheritic varieties than of the fibrinous 
 form. Fibrinous exudations on mucous surfaces, according to Weigert, 
 can only take place when the epithelium is destroyed. Hence those 
 causes which give rise to the destruction or detachment of the epithelium 
 are alone capable of producing a fibrinous inflammation of mucous mem- 
 branes, and a fibrinous laryngitis, trachitis, and bronchitis may result from 
 VOL. I. 4
 
 50 GENERAL MORBID PROCESSES. 
 
 the local application of such irritants as steam or ammonia, as well as 
 occur in the diseases croup and diphtheria. 
 
 Fibrinous exudations may also be present within tissues, especially in 
 those whose meshes are wide, provided the essential elements of coagula- 
 tion are present. The coagulative necrosis of various organs, to be more 
 fully mentioned hereafter, is closely allied to fibrinous clotting, the 
 fi brine-plastic element being derived from the death of the pareuchy- 
 matous cells of the part. 
 
 In the existence of a fibrinous pneumonia the conditions are somewhat 
 analogous to those present in the fibrinous inflammation of serous surfaces 
 and of the areolar connective tissue. There is present an abundantly 
 cellular exudation, held in the place of its origin, the cells undergoing 
 rapid death and surrounded by a wall whose superficial cells resemble in 
 structure, if not in origin, the endothelial cells lining the smaller lymph- 
 spaces of connective tissue, as well as the larger cavities within the same, 
 known as serous cavities. 
 
 The diphtheritic inflammation is no more to be confounded with the 
 disease diphtheria than is the fibrinous inflammation with the disease 
 croup. Although diphtheria owes its name to the frequent presence of 
 an apparent membrane, it may be said that the latter is not essential to 
 the existence of the former. Diphtheria, like croup, is an affection in 
 which various exudations may be present, and the anatomical product 
 alone does not suffice in all instances for the recognition of the disease. 
 In croup there may be a swollen mucous membrane, with a slight super- 
 ficial mucous exudation, or a more abundant exudation of desquamated 
 epithelium and mucus, as well as a fibrinous false membrane. In diph- 
 theria the same varieties of exudation may occur, and in addition the 
 diphtheritic exudation may also be present. The latter, however, is not 
 limited to the disease diphtheria, for its presence is apparent in other 
 mucous membranes than that of the air-passages, and in the pharyngeal 
 mucous membrane in other diseases than diphtheria. A diphtheritic 
 conjunctivitis, enteritis, cystitis, and endometritis are recognized. The 
 cutaneous surfaces of the body may also furnish a diphtheritic exudation. 
 The diphtheritic inflammations of wounds and of variolous eruptions are 
 instances in point. 
 
 The characteristics of a diphtheritic inflammation are the presence 
 within the tissues of a clotted exudation, which is associated with a 
 defined swelling and death of the part. The exudation contains not only 
 dead leucocytes and interlacing fibres, but is also provided with abundant 
 granular material, much of which presents the well-known peculiarities 
 of microscopic organisms. The apparent false membrane is thus dead, 
 infiltrated tissue, which may be torn away from the continuous unaffected 
 tissue, leaving a raw, rough surface, but not peeled from a comparatively 
 smooth surface, as in other forms of pseudo-membranous inflammation. 
 
 The frequent association of a superficial false membrane, corresponding 
 in area with that of the deeper-seated changes, in which cells and fibres 
 may be present, is to be recognized. The diphtheritic process, however, 
 is localized within, and not upon, the tissues affected. The diphtheritic 
 exudation represents a local death, a necrosis, of the part concerned, and 
 the mult has frequently been compared with the death consequent upon 
 the action of a caustic.
 
 INFLAMMATION. 51 
 
 The immediate cause of a diphtheritic inflammation is now generally 
 attributed to the action of microbia which enter the tissue from without, 
 and in their growth beneath the surface produce not only the local, but 
 also the remote, constitutional disturbances which are associated with a 
 diphtheritic inflammation. The investigations of Wood and Formad l 
 point to ordinary putrefactive organisms as a sufficient cause for the 
 diphtheritic inflammation of diphtheria, while other observers demand a 
 specific organism as the exciting cause. The occurrence of diphtheritic 
 inflammations in various parts of the body, in regions, as the intestine, 
 where putrefactive processes are constantly present, and in the bladder 
 and uterus, where the phenomena of putrefaction are often associated 
 with diphtheritic inflammation, suggest the efficacy of ordinary putre- 
 factive agencies in producing the latter. As all microbia found in putre- 
 faction are not alike, and as the properties of certain, differ from those of 
 others, and as our knowledge of the effects of all is but fragmentary, the 
 characteristics of specific germs for a diphtheritic inflammation of one 
 part of the body, or of all parts of the same, must still be regarded as not 
 proven. 
 
 Productive inflammations are those which result in the new formation 
 of tissues. One of the frequent products of inflammation is fibrous 
 tissue, which, at first abundantly cellular, later becomes more vascular, 
 and is finally transformed into a tissue whose fibres predominate over 
 its cells. This formation of a cicatricial tissue demands further recogni- 
 tion when the termination of inflammation is considered. 
 
 In a more limited sense certain inflammations are called productive 
 when multiple circumscribed new formations, as cancer, sarcoma, tubercle, 
 and the like, arise in connection with the ordinary products of inflam- 
 mation. Such new formations are of frequent occurrence in serous mem- 
 branes, and a tuberculous pericarditis or a cancerous peritonitis, indicates 
 that a growth of tubercles or cancerous nodules has taken place, in addition 
 to a more or less abundant exudation with various proportions of serum 
 fibrin and cells. This association of ordinary and transitory inflammatory 
 products with the formation of more permanent tissues may be found 
 within organs as well as upon surfaces. A tubercular arachnitis or lepto- 
 meniugitis presents the various products of an inflammation of the pia mater 
 with an abundant formation of tubercles. In like manner, a tubercular 
 pneumonia, or a tubercular nephritis suggests an association of neoplastic 
 growth and inflammation, in the lung and kidney. Such a relation offers 
 a basis for the theory in favor of the inflammatory origin of tumors, and 
 is, in part at least, a cause for the frequent consideration of tubercles as 
 mere inflammatory products, wholly cellular or cellular and fibrous, 
 subject to the same modifications as take place during the course of 
 ordinary inflammations. 
 
 Even if tuberculous and scrofulous inflammations are regarded as 
 inflammatory processes, modified by a specific cause and by peculiarities 
 of the individual, the cancerous and sarcomatous inflammations are still 
 to be considered as representing an association of inflammatory disturb- 
 ances and specific new formations, the cause of the latter not being the 
 cause of the former. As ordinary inflammations of the regions con- 
 cerned may take place in the absence of the neoplasms, so may the 
 1 Research on Diphtheria for the National Hoard of Health, 1880, Supplement No. 7.
 
 52 GENERAL MORBID "PROCESSES. 
 
 specific growth appear in the same regions without anatomical or clinical 
 evidence of inflammation. 
 
 The classification of inflammation as to its products is supplemented 
 by distinctions drawn with reference to the scat. The exudations may 
 be superficial or deep-seated ; they may lie within the cells, parenchyma, 
 of an organ, or within the interstitial tissue of the same. 
 
 The product of superficial inflammations may lie on the surface, as in 
 the case of inflamed mucous membranes, or immediately below the surface, 
 as in numerous cutaneous inflammations, of which erysipelas may serve 
 as the type. The term catarrhal, applied to superficial inflammations, 
 carries with it the idea of displacement, flowing, of the exudation. The 
 product of a catarrhal inflammation must be largely liquid, that such a 
 displacement may readily take place, and the catarrhal exudation is chiefly 
 composed of an excess of those elements which are present in the normal, 
 physiological secretion from the membrane concerned. Mucus therefore 
 represents a frequent constituent of the catarrhal exudation, and mucous 
 as well as muco-purulent catarrhs of the gastro-intestiual, bronchial, 
 genito-urinary, and other mucous membranes are recognized. The 
 catarrhal inflammation of the respective membranes usually represents 
 the mildest form, as it demands an intact epithelium, and a ready removal 
 of the inflammatory product. 
 
 As the cause of a catarrhal inflammation may occasion a destruction 
 of the epithelium or a necrosis of the mucous membrane, the frequent 
 association of catarrhal with fibrinous or diphtheritic inflammations is 
 obvious. In such cases the clinical importance of the latter varieties 
 gives them the precedence in the designation of the inflammation. The 
 retention of the catarrhal products is the frequent cause of permanent dis- 
 turbances of a more or less serious nature. These result in part from 
 the mechanical obstruction oifered to the function of parts beyond the 
 seat of obstruction, as pulmonary atelectasis; and in part from the changes 
 taking place in the retained product. Purulent otitis media w r ith its 
 dangerous or fatal results, and gangrene of the lung terminating in septic 
 pleurisy, are not infrequent instances of severe disturbances from putre- 
 faction of the retained products of a primarily catarrhal inflammation. A 
 cheesy degeneration of the catarrhal cells leads to a surrounding fibrous, 
 or destructive, inflammation, with a corresponding diminution in the 
 function of the organ affected. 
 
 Of the deep-seated varieties of inflammation, that requiring special 
 mention is the phlegmonous form. This runs its course within the less 
 dense fibrous tissue known as the areolar or cellular tissue. The term 
 cellulitis is usually employed by English writers to indicate the seat and 
 nature of the process, and although the use of the term cellular tissue 
 is rapidly becoming obsolete, the convenience of cellulitis favors the reten- 
 tion of the latter name. 
 
 The exudation lies within the larger lymph-spaces, and is therefore 
 sometimes designated as the result of a lymphangitis, the deep-seated, 
 wider lymph-spaces being concerned rather than those more superficial. 
 Certain forms of phlegmonous inflammation are of decidedly infectious 
 origin, and, when seated subcutaneously, are known as phlegmonous 
 erysipelas, being thus distinguished from the simple erysipelas, whose 
 seat is denned by the small superficial lymph-spaces of the skin.
 
 INFLAMMATION. 53 
 
 Infective forms of cellulitis are also frequently met with in the loose, 
 sub-peritoneal tissue of the pelvis. The infectious element usually pro- 
 ceeds from the uterus, and excites the malignant oedema of the broad 
 ligament, the septic parametritis, or the pelvic cellulitis, according as the 
 lymph-spaces inflamed lie nearer the fundus or cervix, and as the direction 
 of the current is upward toward the spine, or outward toward the sub- 
 peritoneal lymphatics of the pelvic wall. 
 
 Parenchymatous inflammation is present when the exudation is taken 
 into the cells of an organ, or when the changes dependent upon inflam- 
 mation of an organ take place within its functionally important cells. 
 Virchow originally used the term pareuchymatous inflammation in con- 
 tradistinction to secretory inflammation, the changes in the former occur- 
 ring within the elements of the tissues, while in the latter the exudation 
 made its appearance on the surface of the organ. 
 
 Parenchymatous inflammation is manifested by a degeneration of the 
 cells affected. This may terminate in their destruction through the con- 
 version of their protoplasm into fat-drops, fatty degeneration ; although 
 more frequently a simple accumulation of albuminoid granules (granular 
 degeneration) occurs. The latter represents a transitory condition, from 
 which a return to the normal state readily takes place. This form of 
 inflammation is met with in those organs which present a sharply-defined 
 contrast between the functionally important cells and the connective tissue 
 which surrounds them. The liver, kidneys, heart, spleen, pancreas, and 
 glands in general, are consequently the most frequent seat of pareuchy- 
 matous inflammation. 
 
 Opposed to this variety is the interstitial inflammation. The exuda- 
 tion of the latter remains within the connective-tissue framework of the 
 organ. It is essentially cellular in character, and the number of cells is 
 comparatively small. With their presence and the possibility of their 
 nutrition a permanent increase in the quantity of the fibrous tissue of the 
 organ is permitted. This becomes relatively greater in the course of 
 time, and the parenchymatous cells become degenerated and absorbed. 
 Interstitial inflammations are likely to become chronic in character, and, 
 from the outset, are usually associated with parenchymatous changes. 
 
 An important clinical distinction is drawn with reference to the dura- 
 tion of an inflammation. Acute inflammations are those whose course is 
 rapid, whose progress is associated with graver disturbances of function, 
 and with a greater prominence of the cardinal symptoms. The chronic 
 forms occupy more time in their progress, the functional disturbances, 
 though severe, are injurious more from their protracted persistence, than 
 their temporary violence, while redness, swelling, heat, and pain are 
 symptoms of trifling prominence. 
 
 The exudation in acute inflammation, if recovery takes place, is rap- 
 idly removed from the place of its origin, Avhile in the chronic variety 
 it tends to become a part of the region in which it lies, or, if removed, 
 slowly disappears, and may be constantly replaced. Acute inflamma- 
 tions may become chronic, and the chronic variety is liable to acute 
 exacerbations. 
 
 The distinction between acute and chronic inflammations is essentially 
 one of convenience, and, when considered from the anatomical point of 
 view, relates rather to the persistence of the results. These may be pres-
 
 54 GENERAL MORBID PROCESSES. 
 
 ent as a variously modified exudation or as a degenerated condition of the 
 parenchyma of the organ or tissue affected. 
 
 Inflammation terminates in resolution, production, or destruction. 
 
 For resolution to occur it is necessary that the causes of inflammation 
 cease to act, either by their removal or their isolation, and that their re- 
 sults be removed. With the removal of the results there is often asso- 
 ciated the removal of the cause. That such may take place it is necessary 
 that the function of the vessel walls be so restored that the exudation ceases 
 to escape. Inflammatory products already outside the vessels, if present 
 on surfaces with external outlets, are carried along in the course of the 
 excretions. If they lie within the cavities of the body not opening ex- 
 ternally, their removal is accomplished through the medium of the circu- 
 lating lymph and blood, by absorption. The liquid portion of the exuda- 
 tion becomes a part of the circulating fluids of the body. The fibrin is 
 converted into a granular detritus, which eventually disappears from the 
 place of its formation. The leucocytes may return to the blood-vessels 
 or enter the lymphatics ; the latter course probably being the one taken by 
 the larger number of the corpuscles. Many undergo a fatty degeneration, 
 and as they lie in lymph-spaces their conversion into an emulsion permits 
 a removal of the mechanical obstruction to the flow of lymph through the 
 spaces in which they were accumulated. The red blood-corpuscles are 
 destroyed, their pigment being dissolved by the surrounding fluid and 
 removed in the course of the circulation and excretions, or it becomes 
 transformed into granules or crystals, which may remain in the place of 
 their formation, or be transferred, within amoeboid cells, to remote parts 
 of the body. 
 
 When the exudation is abundant, as in the great lymph-sacs of the 
 body the several serous cavities and especially when the openings in 
 the walls of these sacs are obstructed or the currents within them are 
 feeble, absorption takes place with great difficulty, and demands a long 
 interval of time. The fibrinous and cellular portion of such an exudation 
 frequently becomes converted into a caseous mass, from a partial fatty de- 
 generation and inspissatiou. This mass becomes isolated from the cavity 
 in which it lies, usually at the most dependent portion, by the formation 
 of a capsule of connective tissue. It may subsequently become infiltrated 
 with lime salts, calcified, and thus remain comparatively inert throughout 
 the life of the individual. 
 
 The productive termination of inflammation is manifested by the new 
 formation of connective tissue. This tissue is variously designated, as 
 the inflammatory process is limited to the surfaces of the body exposed to 
 the air, or the surfaces of cavities and organs, or as it lies within organs 
 or the deep-seated parts of the body. In numerous instances it becomes 
 a permanent constituent of the body, and, as time is usually essential for 
 its formation, its occurrence is indicative of a chronic, rather than an acute 
 inflammation. Certain chronic inflammations are progressive in charac- 
 ter, the production of connective tissue being continuous, with perhaps 
 occasional intermissions, as in the chronic interstitial inflammations of 
 organs and tissues. The new-formed tissue, which at the outset is rich in 
 cells, becomes in time more fibrous, and associated with this change in 
 structure is a physical modification, manifested by its shrinkage. This 
 new formation may fill a gap resulting from the destruction of tissue in
 
 INFLAMMATION. 55 
 
 the progress of an inflammation, when it is present as cicatricial tissue 
 the scar which is usually met with upon the surfaces of the body or of 
 certain of its organs. When opposed surfaces are united by the new- 
 formed tissue, the term adhesion is applied ; the adhesions being pres- 
 ent as fibrous bauds, cords, or membranes. The pericardial milk-spots 
 and thickenings, the tendinous or semi-cartilaginous, indurated patches 
 of serous membranes and of the intirna of arteries, are all regarded as 
 manifestations of a chronic inflammation of these tissues. With the local- 
 ization of the inflammation in the outer walls of the bronchi and blood- 
 vessels a thickening of the external sheath results, called a peri-bronchitis, 
 arteritis, or phlebitis, as the case may be. 
 
 The new formation of blood-vessels is essential for the production and 
 preservation of this connective tissue, and both arise from pre-existing 
 tissues. Pus-corpuscles represent the simple cellular product of an in- 
 flammation, and their existence is but transitory. With the new forma- 
 tion of blood-vessels imbedded in abundant cells there exists a granulation- 
 tissue, likewise transitory, but out of which arises the permanent fibrous 
 tissue. The question is still mooted as to the part played by exuded 
 white blood-corpuscles in the production of the permanent results of 
 inflammation. It is generally conceded, especially since the observations 
 of Ziegler, that they are capable of transformation into lasting constituents 
 of tissue, into blood-vessels as well as into cells and fibres. Whether all 
 the resulting permanent products of inflammation are dependent upon 
 their activity, or whether the pre-existing fixed elements participate, is 
 still to be considered undecided. 
 
 What, at present, appears most probable is, that from exuded leucocytes 
 there arise, in the course of several days, larger cells epithelioid or endo- 
 thelioid which are eventually associated with still larger cells, more 
 irregular in shape, and provided with projecting filaments, giant-cells. 
 Both varieties may result from the enlargement of leucocytes by fusion 
 or by the assimilation of nutriment. The epithelioid cells eventually 
 become fusiform or stellate, and their projections, as well as those of many 
 of the giant-cells, become fibrillated. The fibrils of adjoining cells, be- 
 coming united, are thus transformed into a mesh work of fibrous bundles 
 enclosing irregular spaces, while the nuclei of the cells, with the imme- 
 diately surrounding protoplasm, remain upon these bundles as the per- 
 manent cells of the new-formed tissue. The blood-vessels arise from pre- 
 existing vessels, chiefly capillaries, and probably are also formed from the 
 cells present in the exudation. The former method is indicated by the 
 projection of solid sprouts from the wall of a capillary, which may unite, 
 forming arches, and communicate with sprouts from neighboring capil- 
 laries, thus forming bridges. Both arches and bridges then become hol- 
 lowed and admit the circulating blood. Ziegler maintains that the pro- 
 jections of the larger epithelioid cells and giant-cells become elongated, 
 and eventually fused with capillaries, or the projections from capillaries. 
 When this fusion is accomplished the cells become hollowed, their cavities 
 communicating with those of the blood-vessels. These epithelioid cells, 
 whose formation and transformation are of such importance in the history 
 of productive inflammation, are designated by Ziegler as formative cells, 
 and are frequently derived from the exuded white blood-corpuscles, though 
 not identical with them.
 
 56 GENERAL MORBID PROCESSES. 
 
 The inflammations not terminating in resolution or production, end in 
 the destruction of the part. This result occurs when the nutrition of the 
 inflamed territory is so diminished, by the changes in and around the 
 vessels, as to become insufficient for its preservation. As the nutriment 
 is derived through the blood-vessels, the more complete and the more 
 permanent the stagnation in them the more likely is death to result. 
 This event also depends upon the quantity and quality of the exudation. 
 The more abundantly cellular the latter, the more likely is an abscess or 
 ulcer to result. 
 
 As most abundantly cellular exudations are considered to be dependent 
 upon the presence of putrefactive agencies, those inflammations of a pre- 
 dominant putrid character (gangrenous inflammations) are those termi- 
 nating in destruction. The dead product is present as a slough or seques- 
 trum, when dead soft or hard tissues are detached, entire or in part, from 
 the living ; or as a granular detritus contained in a more or less abundant 
 liquid. The inflammatory process producing the slough and sequestrum 
 is characterized as a gangrenous inflammation of soft parts or a caries of 
 bone, while the process resulting in the formation of the granular detritus, 
 and which has no necessary connection with putrefactive agencies, is called 
 a softening, from the physical condition of its result. 
 
 Thrombosis and Embolism. 
 
 A blood-clot formed within a blood-vessel during life is called a 
 thrombus. The entire process of which the thrombus is the essential 
 element is designated thrombosis. 
 
 These terms were introduced by "Virchow 1 to avoid the confusion which 
 resulted from regarding the process and result as synonymous with in- 
 flammation of the vessel. All writers, even at present, do not adhere to 
 this strictness of meaning. For a thrombus of the vulva indicates a clot 
 of extravasated blood within the connective tissue of the labium ; in like 
 manner, a vaginal thrombus is the effused and clotted blood in the loose 
 connective tissue surrounding the vagina. These exceptions are gradually 
 disappearing, and the word hsematoma, tumor composed of clotted blood, 
 is being substituted in both instances. A cancerous thrombus represents 
 a mass of cancerous tissue whose growth is extended along the course of 
 a vessel, its wall having been penetrated. In general, however, the term 
 thrombus, unless otherwise qualified, is used as first stated. 
 
 Although thrombosis is commonly a morbid process, it is not uni- 
 formly so. Its physiological significance is illustrated by the part it 
 takes in the closure of the umbilical and uterine vessels, after childbirth. 
 The surgeon makes use of it in his efforts to overcome certain of the ill 
 effects of amputation, and to accomplish a cure of such local diseases as 
 aneurism, where it is deemed important to diminish the supply of blood. 
 
 The thrombus being a blood-clot, it is composed, like the latter, of 
 fibrin and blood-corpuscles. It is presumable that the fibrinous part of a 
 thrombus owes its origin to the same conditions which determine the 
 presence of fibrin in blood removed from the vessels during life or in that 
 within the vessels after death. 
 
 1 Handbuch der Sptciellen Pathologic und Tkerapie, Erlangen, 1854, i. 159.
 
 THROMBOSIS AND EMBOLISM. 57 
 
 According to A. Schmidt, 1 the blood and other fluids, in which clotted 
 fibrin makes its appearance, contain two generators, called fibrino-plastic 
 and fibrinogenous. The former is considered to be paraglobulin, a sub- 
 stance contained mainly in the white blood-corpuscles, while the fibrinog- 
 enous generator is held in solution in the plasma of the blood. When 
 these materials are acted upon by a third, the fibrin ferment, clotting 
 takes place and fibrin is formed. It is thought that the ferment is inti- 
 mately connected with the white blood-corpuscles, for with the microscope 
 coagulation is seen to advance as these become destroyed, and where the 
 leucocytes are most abundant, there coagulation advances most rapidly. 
 The elements of clotted fibrin are always present in circulating blood, 
 but Briicke has shown that blood remains fluid, under ordinary circum- 
 stances, because of its constant contact with the normal vascular wall. 
 
 The general causes of thrombosis are those which produce an abnormal 
 condition of the endothelium, a rapid destruction of the white blood- 
 corpuscles, or a stagnation of the blood. With the presence of one of 
 these causes there is often conjoined another, and the conditions under 
 which they are present are conveniently used in the classification of 
 thrombi. 
 
 Although stagnation of the blood is often an important immediate 
 cause of its coagulation, it is apparent, from the investigations of Duraute 2 
 and others, that stagnant blood clots in the living vessels only Avhen their 
 eudothelium is in an abnormal condition. With the co-existence of 
 abnormal endothelium and stagnant blood, thrombi form with greater 
 frequency and become more, voluminous in a given interval of time. 
 
 The importance of the death of white blood-corpuscles in the formation 
 of thrombi is generally admitted, and is especially insisted upon by 
 Weigert. According to the observations of Zahn, the nucleus of certain 
 thrombi is the result of the death of these leucocytes and their accumu- 
 lation upon an altered intima. The experiments of Naunyn, Kohlcr, and 
 others show that a thrombus may be rapidly produced by the injection 
 into the blood of fibriuo-plastic substances, and of those through which 
 free haemoglobin is admitted into the circulation. The former may be 
 expressed from a fresh blood-clot; the latter may be obtained by thawing 
 frozen blood, or by injecting such material (bile-acids, for instance) into the 
 circulating blood as rapidly destroys the red blood-corpuscles. Although 
 Weigert lays special stress upon the destruction of white blood-corpuscles 
 in the formation of the thrombus, it appears, from the experiments above 
 referred to, that indirectly the destruction of the red corpuscles is also of 
 importance. 
 
 Although largely made up of fibrin, a thrombus also contains blood- 
 corpuscles, both red and white, and the appearance of the mass is 
 modified according to the variations in the relative proportions of these 
 constituents. 
 
 Zahn 3 divides thrombi, according to their color, into red, white or 
 colorless, and mixed varieties. The red owes its color to a large number 
 of red blood-corpuscles, while the white and mixed forms contain various 
 proportions of white blood-corpuscles and fibrin and a diminished number 
 
 1 Rollett, Hermann's ITanrfbuch der Physiologic, Leipzig, 1880, iv. 1, 114. 
 
 2 Wiener Medizinische Jahrbuclier, 1871, 321. 
 5 Virchow's Archiv, 1875, Ixxii. 85.
 
 58 GENERAL MORBID PROCESSES. 
 
 of red corpuscles. The cause of this difference in the color of thrombi is 
 to be sought for in their method of origin. When blood clots slowly in 
 a dish, the heavier red corpuscles settle to the bottom, and the lighter 
 white corpuscles form a superficial layer. Stagnant blood clotting rapidly 
 furnishes a uniformly red mass. The red thrombus, like the red clot, is 
 the result of the rapid coagulation of stagnant blood. The white 
 thrombus, on the contrary, largely composed of white blood-corpuscles, 
 reprasents a constantly increasing deposition of these from flowing blood. 
 The mixed thrombi arise from a combination of both conditions, and are 
 usually white at the outset. Thrombi formed in the heart and larger 
 arteries are usually white, those in the auricular appendages and on 
 venous valves are mixed, while red thrombi are more common in 
 arteries and veins, since the conditions favoring their origin are more 
 frequently met in such vessels. 
 
 Thrombi are frequently stratified, in consequence of the successive 
 deposition of new layers of blood-corpuscles and fibrin upon a pre-existing 
 thrombus. Circulating blood is therefore necessary for the stratification, 
 and such thrombi are likely to be mixed in color. Unstratified thrombi 
 are usually white or red, the former largely composed of agglomerated 
 white blood-corpuscles so moulded and situated as to prevent a stagnation 
 of blood in their vicinity, while the red thrombus is rarely stratified, since 
 its formation demands a stoppage of the blood-current. Stratification is 
 intimately connected with the enlargement or growth of the thrombus, 
 which takes place from the surface exposed to the flowing blood, and 
 which is greater or less according to the seat of the thrombus. 
 
 Thrombi are usually divided into those from compression, dilatation, 
 traumatism, and marasmus ; in all of which groups an abnormal condition 
 of the eudothelium is to be met with. 
 
 Thrombi from compression are frequently formed in veins, in the 
 vicinity of growing tumors. Their presence is most constant when the 
 vein is compressed between a resistant surface, especially bone, and the 
 tumor. A compression of the smaller blood-vessels within an organ, as 
 the liver or kidney, may take place in consequence of chronic interstitial 
 inflammation, or the growth of cancerous or other malignant tumors in 
 such organs. The production of this form of thrombus is sought for in 
 the treatment of certain aneurisms by direct pressure, the resulting 
 stagnation of blood being followed by a coagulation within the aneuris- 
 mal sac. 
 
 Thrombi from dilatation are met with both in dilated arteries and veins. 
 In aneurism and varix a slowing of the blood-current is present, and the 
 intima of the diseased region is frequently in such an abnormal condition 
 that a slotting of the blood readily takes place. The shape and situation 
 of the dilatation are of importance in promoting the formation of the 
 thrombus ; the more pedunculate and the more voluminous the sac the 
 more certain is the thrombosis. 
 
 Traumatic thrombi result from a direct injury to the vessel. This may 
 be mechanical, as in the application of ligatures for the obliteration of 
 vessels, the tearing of the veins during childbirth, and the infliction of 
 wounds of every variety. The injury may likewise be chemical, from 
 the action of caustics ; somewhat analogous to which, are the effects of 
 heat and cold. Allied to the traumatic thrombi are those which arise
 
 THROMBOSIS AND EMBOLISM. 59 
 
 from acute inflammation of the intima extending from wounds or inflam- 
 matory processes in the vicinity of blood-vessels. 
 
 Marantic thrombi are those whose origin is attributable to that 
 enfeebled condition of the body known as marasmus. This represents a 
 weakening of the several functions, especially the circulation, respiration, 
 and locomotion. Such may take place in disease or old age ; and it is 
 important to bear in mind those diseases in which marasmus is likely 
 to arise, as thrombosis often proves a complication of such affections. 
 Protracted fevers, as typhus and typhoid, puerperal diseases, the disturb- 
 ances following surgical operations, chronic wasting diseases, as the tuber- 
 culous and scrofulous affections, are all likely to be accompanied by throm- 
 bosis. Stagnation of the blood, as well as alterations of the intima, is an 
 important local condition in this variety of thrombosis, which is usually 
 valvular or parietal at the outset, and may be both arterial and venous. 
 Such thrombi are likely to become continued and to serve as a frequent 
 source of embolism. 
 
 Thrombi are also divided into primitive, or autochthonous, and secondary 
 varieties. The primitive thrombus is one which owes its local origin to 
 conditions existing at the place of its formation and attachment. The 
 secondary variety demands for its existence a primitive thrombus, whose 
 place of development is remote in time and seat, and from which a part 
 has been transferred to serve as the nucleus for the secondary formation. 
 
 The continued thrombus is often confounded with the secondary 
 variety. Continuance is rather a quality of all thrombi, and is essen- 
 tially growth, whether by lamcllation or agglomeration. Such continued 
 thrombi arc extended in the course of the circulation, usually by a conical 
 end, which is pointed toward the heart in the case of venous thrombi, but 
 away from this organ when the thrombi are arterial. 
 
 Parietal and obstructing thrombi form another subdivision. The former 
 arise from a limited part of the wall of the heart or blood-vessel, and project 
 into its cavity. They are always in contact with flowing blood, and are 
 white or mixed in color and primitive. They may attain a considerable 
 size, and may eventually become obstructing thrombi. The latter are so 
 called when they are of sufficient size to cause a considerable or total 
 obstruction to the current of blood. In the last case the vascular canal 
 is wholly filled by the thrombus. The shape of the older parietal forms 
 is usually globular or pedunculate, owing to the growth in all directions 
 except at the place of attachment ; the obstructing thrombi are elongated. 
 
 Thrombi are also characterized by consistency and relative absence of 
 moisture. A thrombus is brittle and dry as compared with a clot. In 
 distinguishing between the two, difficulty arises only in the case of a throm- 
 bus which may have formed within a few hours before death. Post-mortem 
 clots are moist, elastic, readily withdrawn from blood-vessels, and have a 
 smooth and lustrous surface. Their color is either red, gray, grayish- 
 yellow, or yellow, and is very often mixed. The lighter colors are due 
 to causes which favor the precipitation of red blood-corpuscles before 
 actual clotting takes place, or which occasion an increase of the white 
 blood-corpuscles in fibrin. The thrombus becomes adherent to the vessel 
 wall within a few hours, after its formation, in the case of the red throm- 
 bus, and at once, in the case of the white variety. A clot is never adherent, 
 although it may seem so from its entanglement between the trabeculse and
 
 60 GENERAL MORBID PHO CESSES. 
 
 tendons of the heart and the cavernous framework of venous sinuses. 
 Such apparent adhesions are easily recognized by the smooth, shining, 
 intact intima which is disclosed after the removal of a clot. 
 
 The thrombus not only tends to become enlarged by further depositions 
 of material from the blood, but it also tends to become diminished in size 
 from the contractile properties of its fibriuous constituent. Moisture is 
 forced from the thrombus in consequence of this shrinkage, and its dry- 
 ness is increased by subsequent absorption through the wall to which it 
 adheres. 
 
 The changes eventually taking place in the thrombus are known as 
 organization, calcification, and softening. 
 
 Organization is the transformation of the thrombus into a mass of 
 fibrous tissue. This is accomplished, according to the researches of 
 Baumgarten, 1 by an outgrowth of endothelium from the iiitima of the 
 vessel, the thrombus being absorbed as the growth of tissue advances. 
 In the case of a thrombus due to the ligation of a vessel, a granulation-tissue 
 also makes its way into the thrombus between the ruptured coats, and the 
 new- formed fibrous tissue which replaces the thrombus becomes vascular- 
 ized through this granulation-tissue. The vascularization of thrombi 
 surrounded by unbroken walls is most likely to result from the extension 
 into the thickened intima of new-formed branches of the vasa vasorum. 
 Cohnheim claims that the organization of the thrombus may take place 
 solely through the entrance of migratory cells, without any active partici- 
 pation of elements of the vascular wall. The canal is thus obstructed or 
 obliterated by a fibrous tissue, which is pigmented or not, as the pre-exist- 
 ing thrombus contained red blood-corpuscles or not. These, when present, 
 become transformed into granular or crystalline hasmatoidin, which may 
 remain as a permanent constituent of the new-formed tissue. 
 
 Even when the thrombus is completely obstructing at the outset, it is 
 not necessary that a total obliteration of the vessel should result from its 
 organization. It not rarely happens, either before or after the thrombus 
 has yielded to the fibrous growth, in consequence of the shrinkage of the 
 fibrin of the thrombus or of the contraction of the fibrous tissue replacing 
 it, that gaps arise Avhich become communicating canals. Through these 
 the blood flows, and the vessel thus becomes only obstructed, not oblit- 
 erated. The sieve-like tissue thus formed is spoken of as the result of a 
 cavernous or sinus-like transformation of the thrombus. The length of 
 time necessary for the removal of the thrombus and its replacement by 
 fibrous tissue varies considerably. A vascularized granulation-tissue may 
 be present within a week, and in the course of a month the thrombus may 
 have been wholly removed, or a period of months may elapse and the 
 thrombus and granulation-tissue still be present side by side. 
 
 The calcification of a thrombus takes place when the latter becomes 
 impregnated with salts of calcium and magnesium. The condition may 
 be present in thrombi which are exposed to a rapidly-flowing arterial 
 stream, as well as in those which lie in venous pockets outside the course 
 of the direct current of blood. The well-known phlebolites are examples 
 of the latter variety. A calcified thrombus may be intimately united to 
 ihe vascular wall, the results of calcification and organization being asso- 
 ciated. Calcification and, in particular, organization represent favorable 
 1 Die sogenannte Organisation der Thrombus, Leipzig, 1877.
 
 THROMBOSIS AND EMBOLISM. 6J 
 
 events in the history of thrombosis, as through their occurrence the process 
 comes to an end, and disturbances, either local or remote, are prevented. 
 
 The softening of the thrombus, on the contrary, is always a source of 
 clanger. This is partly due to the nature of the products of the soften- 
 ing, whether bland or septic, and partly to the mechanical disturbances 
 produced by the transfer of portions of the softened thrombus to remote 
 parts of the body. All thrombi may become softened. When the pro- 
 cess of organization advances normally, the softened parts are absorbed 
 as rapidly as the formation of vascularized fibrous tissue progresses. If 
 this formation is checked or stopped, the process of disintegration still 
 continues. White corpuscles undergo fatty degeneration ; red corpuscles 
 give up their coloring matter and become converted, like the fibrin, into 
 granules, and there results a granular detritus. This is present as a 
 viscid, semi-fluid material, either red, gray, or yellow, according to the 
 color of the thrombus. This simple softening is to be regarded as essen- 
 tially chemical in character, and begins at the oldest portion of the throm- 
 bus and advances toward the periphery. Its products are capable of 
 absorption without the production of serious disturbances, and are usu- 
 ally prevented from direct entrance into the blood-vessel containing the 
 thrombus by the continuation of the latter from new coagulation or depo- 
 sition upon its surface. The thrombus is thus extended as the softening 
 progresses. 
 
 When the thrombus is comparatively free from red blood-corpuscles, 
 the softened product, in consequence of its yellowish color, opacity, and 
 viscidity, resembles pus. The so-called encysted abscesses projecting into 
 the cavity of the heart, from its wall, are parietal and globular thrombi, 
 in the interior of which softening has occurred. This form of softening 
 is called simple or bland, as it is free from any. evidence of local suppura- 
 tion, inflammation, or general constitutional disturbance attributable to an 
 absorption of poisonous material. 
 
 Septic softening is accompanied by general evidences of a blood-poison- 
 ing, and by the local phenomena of purulent inflammation. A suppurative 
 thrombo-phlebitis or arteritis, occurs ; that is, an acute inflammation of the 
 wall of the vessel, corresponding in its origin to the seat of the thrombus,- 
 and characterized by the formation of pus. In the earliest stage the soft- 
 ened thrombus need not present products differing in appearance from 
 those occurring in simple softening, but their effect is manifested by a 
 rapidly-advancing inflammation of the vascular wall and by the evidence 
 of septicaemia. Inoculation with such material produces a group of symp- 
 toms classified under the head of blood-poisoning. 
 
 Cohnheim Iqys special stress upon the presence of micrococci in the 
 softened material, and it is generally agreed that the virulence of septic 
 softening is connected with, if not due to, the presence of microbia. A 
 septic softening may be induced by besmearing, with septic material, the 
 outside of a blood-vessel containing a thrombus, and this form of soft- 
 ening is usually associated with those conditions favoring this relation. 
 Such are the gangrenous wounds following surgical operations, the putrid 
 inflammatory processes affecting the uterine wall after childbirth, the 
 offensive inflammations of the middle ear, and the like. It is possible 
 for a septic softening to occur independently of such contiguous or con- 
 tinuous relations with the surfaces of the body. It is considered, how 7 -
 
 62 GENERAL MORBID PROCESSES. 
 
 ever, that the micrococci present in a softened thrombus must have 
 obtained admission from without through one of the surfaces of the 
 body, mucous or cutaneous, or through undiscovered abrasions of even 
 intact surfaces of peculiar structure, as the alveolar Avail or the intestinal 
 mucous membrane. The thrombus is regarded as affording a favorable 
 soil for the growth and activity of the organism. 
 
 The mechanical effect of a thrombus varies according to the venous or 
 arterial seat of the same. Venous thrombi, as they are continued toward 
 the heart, tend to become completely obstructing thrombi. In most parts 
 of the body the venous anastomoses are so numerous that the obstruction 
 of a vein is readily compensated for through the collateral venous circu- 
 lation. When such a compensation is prevented by an extension of the 
 thrombus from branch to branch, and finally to the trunk, an accumulation 
 of blood in the peripheral veins must result. The remote parts become 
 swollen, from the distension of the vessels with blood and the transudatiou 
 of liquid, and eventually solid material from the blood. Venous throm- 
 bosis thus leads to oedema, and even hemorrhage. The more rapidly the 
 obstructing thrombus extends, the earlier and more extreme is the oedema 
 likely to become, while the slower the advance of the thrombus, the more 
 favorable is the opportunity for an enlargement of the collateral vessels 
 through which a sufficient flow of blood is permitted to check oedema 
 and preserve nutrition. 
 
 Local mechanical disturbances from arterial thrombi are scarcely per- 
 ceptible till obstruction is produced, and the results of arterial obstruc- 
 tion will be mentioned in detail in connection with the phenomena of 
 embolism. Cardiac thrombi may occasion local disturbances from inter- 
 fering with the action of the valves of the heart. Those thrombi which 
 are attached to the valves, especially when calcified, may produce inflamma- 
 tion and aneurism of the opposed wall of the heart, by friction. The most 
 frequent mechanical disturbance from the non-obstructing parietal 
 thrombi of the heart and arteries results from the detachment of frag- 
 ments and their transfer as emboli to remote parts of the body. 
 
 An embolus is a foreign body in a blood-vessel, usually too large to 
 pass through the smallest capillaries, and the disturbances resulting from 
 its presence are included under the term embolism. Although most 
 emboli are detached portions of thrombi, any foreign body of suitable 
 size may become an embolus. Such are tissues, as the pulmonary elastic 
 fibres, fragments of diseased valves of the heart and of the intima of 
 arteries, or portions of tumors growing into vascular canals. Others are 
 globules of oil entering the torn veins when fat-tissue becomes crushed, 
 or air-bubbles admitted through veins either wounded by instruments or 
 opened after parturition by the dislodgmeut of their obstructing thrombi. 
 Still others are granules of pigment derived from the coloring-matter of 
 the blood, as in melauremia, or introduced from without, as india-ink and 
 cinnabar. The ecjiinococcus has been found as an embolus, and it is 
 highly probable that the cysticercus, the trichina, and other animal para- 
 sites may be disseminated as emboli over the body. 
 
 Vegetable parasites, like the bacterium and aspergillus, have also been 
 included in the list, although the disturbances resulting from their pres- 
 ence are less due to mechanical obstruction than to colonization and 
 growth. The experimenter uses the most various objects as emboli bits
 
 THROMBOSIS AND EMBOLISM. 63 
 
 of wood, rubber, and glass, globules of mercury, fragments of tissue, etc. 
 Eniboli are to be regarded as of arterial or venous origin. The arterial 
 emboli are carried toward the capillaries, while venous emboli are carried 
 toward the heart. The effect of both is partly or wholly mechanical, and 
 partly due to the specific properties of the constituents. 
 
 The mechanical effect of an embolus is manifested by the obstruction 
 it offers to the circulation, and the degree of the obstruction depends upon 
 the size, shape, and density of the embolus and the nature and size of the 
 vessel obstructed. An embolus may be so large as to be unable to pass 
 through the valvular orifices of the heart. A long and narrow embolus 
 might pass through a vessel which would not admit one which was short 
 and thick. A jagged and dense embolus, by repeated blows or prolonged 
 and forcible contact, might cause a weakening or rupture of the wall of a 
 vessel, and thus produce an aneurism. Certain vessels (the terminal 
 arteries of Cohnheim) furnish the sole supply of arterial blood to a dis- 
 trict, and when they are obstructed, the results, to be mentioned later, 
 differ widely from those taking place where free vascular anastomoses 
 exist. When a trunk bifurcates, the larger branch usually receives the 
 embolus. 
 
 Venous emboli are those which approach the heart by the peripheral 
 veins of the body or the pulmonary veins, and the liver by the radicles 
 of the portal vein. Emboli from the veins of the body are carried 
 through the right side of the heart, if not so large as to be stopped at 
 the tricuspid or pulmonary opening. As they enter the latter, they are 
 carried along its course under the influence of gravity and the direction 
 and force of the current, which are determined by the direction and rela- 
 tive size of the bifurcations of the artery, the right primary branch being 
 larger than the left. Eventually, a point of the artery is reached whose 
 diameter is less than that of the embolus, and the latter is stopped. This 
 point usually corresponds with a place of bifurcation, and the embolus 
 frequently rides the wall separating the branches. 
 
 Emboli from the radicles of the portal vein owe their most frequent 
 origin to thrombi associated with inflammatory processes in the intestine, 
 especially of the csecum and vermiform appendage, to inflammatory pro- 
 cesses in the spleen and obstruction to the flow of blood through the 
 splenic artery, or to inflammatory changes proceeding from the kidneys. 
 Such venous emboli are carried toward the heart, but are stopped on the 
 \vay by the intrahepatic branches of the portal vein. 
 
 Arterial emboli are those which enter the left side of the heart from 
 the lungs, which arise in the left ventricle or auricle, which may pass 
 through an open foramen ovale from the right auricle, or which arise 
 from the arterial wall. They are carried along the course of the arterial 
 circulation, and are distributed over the different regions and organs of 
 the body. Usually following the more direct course of the circulation, 
 they are more likely to enter the abdominal aorta than to be carried 
 toward the brain or upper extremities. Embolism of the carotids, espe- 
 cially of the left carotid, is more likely to ensue than embolism of the 
 subclavians. Embolism of the coronary arteries is rare, while embolism 
 of the splenic artery, the left renal and left iliac arteries, is comparatively 
 common, and in the order mentioned. 
 
 When an embolus is found, or embolism suspected, the source is always
 
 64 GENERAL MORBID PROCESSES. 
 
 to be searched for in those regions from which the affected part receives 
 its blood. The source of arterial and portal emboli is usually found 
 with ease, while the pulmonary embolus may come from so wide a region, 
 the body-veins, that much time may be spent before its place of origin is 
 discovered. An appreciation of the laws of the transfer of emboli ren- 
 ders such a discovery almost certain. 
 
 "When the embolus reaches a point beyond which it cannot pass, the 
 resulting disturbance depends essentially, as shown by Cohnheim, upon 
 the presence or absence of arterial anastomoses beyond the place of 
 obstruction. He gives the name terminal arteries to those which have 
 no anastomosing arterial branches. These are met with in the spleen, 
 kidneys, lungs, brain, and retina. If the obstructed artery is not termi- 
 nal, the embolus may produce no further disturbance, the collateral sup- 
 ply of blood through the anastomoses sufficing for the nutrition and 
 function of the part. If, however, the vessel is a terminal artery, and 
 the embolus is completely obstructing, the supply of arterial blood must 
 be wholly cut off from the region beyond the seat of obstruction. 
 
 If the embolus does not completely obstruct at once, it soon becomes 
 sufficiently large for this result to ensue in consequence of a secondary 
 coagulation. The rider assumes legs extending into the arterial branches 
 beyond the place of obstruction, and a body which extends backward in 
 the course of the circulation to the nearest branch. The result of the 
 total obstruction of the vessel is to cut off the admission of arterial 
 blood, producing a local anaemia. The contraction of the elastic tissues 
 of the part propels toward the capillaries a certain quantity of the 
 blood in the vessels beyond the point of obstruction, till this force 
 becomes neutralized by the blood-pressure in the vessels surrounding the 
 obstructed region. The anaemic part may subsequently become engorged 
 with blood ; it may die, a region of anasmic necrosis resulting, or the dead 
 portion may become softened. 
 
 The engorgement of the obstructed territory has received the name of 
 hemorrhagic infarction. A solid, wedge-shaped mass of a reddish-brown 
 color is present, whose shape is due to the arborescent branching of the 
 terminal arteries. According to Cohuheim, the engorgement of the 
 region with blood takes place from venous regurgitation into the 
 obstructed part, till the intravenous pressure is overcome by the resist- 
 ance of the tissues in the region affected. The capillaries and larger 
 vessels thus become distended, and an escape of liquid and solid con- 
 stituents of the blood takes place. If the veins are provided with valves, 
 or the venous regurgitant current is opposed by gravity, the hemor- 
 rhagic infarction is prevented or greatly impeded. 
 
 Litten, 1 on the contrary, who has furnished a recent contribution to 
 this subject, claims that the hemorrhagic results of embolism are not 
 accomplished through venous regurgitation, unless increased venous ten- 
 sion is produced by coughing, vomiting, and like efforts. His experi- 
 ments lead him to maintain that arterial blood from surrounding tissues 
 is supplied to the obstructed region th rough the anastomosing capillaries. 
 The force is not sufficient to drive the blood through the capillaries into 
 the veins beyond, but an accumulation takes place in the capillaries, 
 which become dilated and distended. The escape of blood-corpuscles and 
 
 1 Untcrsuchungen iiber den hemorrhagischen Infarct., etc., Berlin, 1879.
 
 THROMBOSIS AND EMBOLISM. 65 
 
 serum then takes place, the more freely, as Weigert 1 suggests, the larger 
 and more numerous are the pre-existing spaces in the organ. Hence the 
 infarction becomes the most characteristically developed in such organs 
 as the lungs and spleen. Causes which obstruct the venous flow, as well 
 as those which increase the arterial tension, promote the hemorrhagic 
 infarction. 
 
 A necrosis of the part whose direct arterial supply is cut off takes 
 place when the structure of the organ affected is such that the admission 
 of arterial blood is wholly interfered with. This is the case in the heart 
 and kidneys, and to a less extent in the spleen. The opportunity is pre- 
 sented for the diffusion of a fibrinogenous fluid, lymph or blood-serum, 
 through the cells of the organ which contains the other essentials for 
 coagulation, and the dead part presents the characteristics attributed by 
 Weigert 2 to death from clotting of the protoplasm, coagulative or 
 ischaemic necrosis. 
 
 Embolism of the cerebral arteries produces softening of the brain, not 
 a hemorrhagic infarction or a yellowish necrosis. Weigert attributes 
 this result, on the one hand, to the absence in the brain of abundant cells 
 from which are to be had the ferment and fibrino-plastic material neces- 
 sary for coagulation, and, on the other, to the closure of the spaces into 
 which blood might collect by the rapid swelling of the tissues from the 
 exuded lymph. 
 
 The hemorrhagic results of embolism are also met with in obstruction 
 of branches of the mesenteric artery, which is considered by Litten, at 
 least from its function and in connection with its sluggish current, to 
 correspond with a terminal artery. 
 
 If the patient outlives these more mechanical results of embolism, the 
 local changes taking place are those tending to remove the extravasated 
 blood or the dead tissues. The embolus has become an obstructing 
 thrombus, and its removal is accomplished in the manner already 
 stated in connection with the subject of thrombosis. The wedge-shaped 
 nodule of hemorrhagic infarction becomes decolorized through the 
 absorption, in part, of the blood-pigment. That portion which is not 
 absorbed remains at the site of the original lesion as granular or crystal- 
 line blood-pigment. A granulation-tissue is formed at the periphery, 
 which extends into the infarcted region, very much as the endothelial 
 and vascularized growth extends into a thrombus. Eventually, a 
 patch of cicatricial tissue remains as the sole indication of the previous 
 disturbance. This termination is rather suggested for the hemorrhagic 
 infarctions of the lungs. The results are more apparent and more easily 
 demonstrated in the case of the anemic necroses, and the somewhat irreg- 
 ular depressions with wedge-shaped scars, seen upon the surface of the 
 spleen or kidneys, call attention to the probable nature of the process 
 giving rise to these results. A source of embolism must also be asso- 
 ciated, that these scars may be regarded as of embolic origin. The 
 embolic softenings of the brain are likewise represented in after years by 
 losses of substance. The superficial, yellow patches or localized cede- 
 matous blebs, with corresponding atrophy of the convolutions beneath, call 
 attention to a nutritive disturbance, as do cyst-like cavities in the deeper 
 parts of the brain. Here, too, a source of embolism must be found, that 
 1 Virchow's Archiv, 1*78, Ixxii. 250. 2 MM-, 1880, Ixxix. 87. 
 
 VOL. I. 5
 
 66 GENERAL MORBID PROCESSES. 
 
 the local destruction of tissue may be attributed to embolic obstruction 
 of vascular territories. 
 
 "When the embolus arises from a septic thrombus, the results differ 
 from those above described. The embolus then carries not only mechan- 
 ical possibilities, but also a virulent action. The latter is manifested by 
 the rapid production of local inflammatory disturbances, as circumscribed 
 abscesses and gangrenous destruction of tissue. Since emboli are fre- 
 quently lodged near the surfaces of organs, a septic pleurisy, pericarditis, 
 or peritonitis is the usual result of the dissemination of the virus con- 
 tained in the embolus. This virus is similar in character to that found 
 in septic softening of the thrombus, and, like it, is intimately connected 
 with the presence of microbia. Whether the latter are specific in cha- 
 racter, as maintained by Klebs and others, or whether they are to be 
 included among those associated with putrefactive processes, still remains 
 an open question. 
 
 The symptoms of thrombosis obviously depend upon the resulting 
 obstruction to the circulation of blood, and in the case of primitive 
 thrombi are gradual in their occurrence. The degree of mechanical 
 obstruction is determined by the nature of the thrombus, whether pari- 
 etal or obstructing, and by that of the vessel, whether provided with anas- 
 tomoses sufficient to permit a compensatory collateral circulation or not. 
 In the former case, if the thrombus is small and deep-seated, there may 
 be no symptoms to indicate its presence. When the collateral circulation 
 is insufficient to remove the blood from a region whose efferent venous 
 trunk is completely filled w r ith a thrombus, the phenomena of stagnation 
 are produced. The part becomes cedematous, and red blood-corpuscles 
 escape from the distended vessel. If the obstructed vein is superficial, 
 the seat of the thrombus is indicated by the resistance and sensitiveness 
 of the part. Characteristic disturbances of function are associated with 
 thrombosis of the various organs of the body. If the cerebral sinuses are 
 affected, mental disturbances arise ; if a cardiac thrombosis is present, it 
 is frequently accompanied by irregularity and feebleness of the heart. 
 When the portal and renal veins are obstructed, functional disturbances 
 arise in the parts from which they receive their blood. 
 
 The symptoms of embolism, like those of arterial thrombosis, are 
 primarily due to anaemia. Suddenness is their characteristic in embol- 
 ism, while they are gradual and progressive in the case of thrombosis. 
 An embolic anemia is complete or incomplete according to the terminal 
 or anastomosing character of the obstructed vessel. The effect of the 
 anaemia is to stop or check the function of the part, and varies according 
 to the size and situation of the vessel. Hemiplegia, or perhaps aphasia 
 or other evidence of localized disturbance, follows central embolism ; 
 angina pectoris, with a disturbed cardiac action, results from embolism 
 of the coronary artery. Sudden suffocative symptoms, with open air-pas- 
 sages, suggest embolism of the larger branches of the pulmonary artery. 
 A considerable hsematuria often excites suspicion of an embolism of the 
 renal artery, the hemorrhage coming from the vessels in the neighbor- 
 hood of the obstructed region. Embolism of a large artery of an 
 extremity is often localized by the sensation of a blow at the part, to be 
 followed by absent pulsation, pallor, and coldness of the region beyond 
 the place of obstruction.
 
 EFFUSIONS. 67 
 
 The symptoms of the subsequent effects of thrombosis and embolism 
 are to be inferred from what has already been stated with regard to the 
 nature of the possible fesions. To enter into their detailed consideration 
 would demand more space than is permitted, and would modify an estab- 
 lished sequence or necessitate a repetition, which is undesirable iii a sys- 
 tematic treatise. 
 
 Effusions. 
 
 The various fluids of the body are derived from without, and admitted 
 into the blood-vessels. The physiological transudation through the 
 walls of these vessels, in the main modified serum, becomes lymph as it 
 appears in the several lymph-spaces. From the latter the transuded 
 fluid either returns through the lymph-vessels to the blood-current or 
 makes its appearance upon surfaces as secretions. These are variously 
 modified as they pass through the specific cells of glands or as they are 
 met with in the several closed cavities of the body. 
 
 The transudations thus occurring may vary in quantity within certain 
 limits, the latter being somewhat indefinite, owing to the difficulties in 
 the way of exactly measuring the fluid transuded. The greater part of 
 this transudation is represented by the quantity of lymph flowing through 
 the main lymph-trunk, and of the secretion from the glandular surfaces 
 of a given region of the body ; but that transuded fluid is not included 
 which may return to the blood-vessels without being carried into the 
 general lymph-current or secreted from a gland. Such a direct return 
 may be considered to take place whenever the pressure upon the outside 
 of the vessel wall is greater than that within the latter, or when the 
 chemical composition of the fluids on the two sides of the filter permits 
 endosmosis as well as exosmosis. This varying relation in the direction 
 of the current through the vessel wall is likely to be of frequent, if not 
 constant, occurrence in connection with the physiological processes taking 
 place throughout the body. 
 
 The undue accumulation of the transudation in the various closed 
 cavities of the body is known as dropsy, and the fluid present is regarded 
 as an effusion or an exudation. These terms are often applied somewhat 
 vaguely, now being used as synonymous, again as representing different 
 conditions of the transudation, which are attributed to the varying condi- 
 tions of its accumulation. 
 
 Exudation is more generally used when an inflammatory process is the 
 cause of the increased transudation, while effusion is more strictly associ- 
 ated with causes other than inflammatory. In the present consideration 
 this etiological distinction will be maintained. 
 
 To appreciate the conditions under which pathological accumulations 
 of fluid, whether effusions or exudations, may arise, it is desirable to bear 
 in mind the essential conditions which prevail in the occurrence of trans- 
 udation, since the former are likewise chiefly derived from the blood and 
 are transuded through the walls of its vessels. These conditions are 
 largely dependent upon the laws governing the diffusion of substances 
 through an animal membrane, the vascular wall representing the filter. 
 As a living membrane its relation is dependent upon vital as well as
 
 68 GENERAL MORBID PROCESSES. 
 
 physical conditions, and the former produce certain important modifica- 
 tions in the physical process of filtration. 
 
 The transudation through the vessels takes place chiefly through those 
 with the thinnest walls, the capillaries, although it is probable that a cer- 
 tain degree of transudation may also occur through the walls of the 
 smallest veins. The causes which are instrumental in promoting the 
 circulation of the blood viz. the contraction and dilatation of the heart, 
 the contraction of the arteries, the inspiratory action of the thorax, and 
 muscular movements throughout the body are also essential in produ- 
 cing the flow of lymph ; and the existence of pressure upon the hsemic 
 side of the filter is the first feature of importance in occasioning the 
 trausudation. The constant removal of the transudation from the outer 
 side results from the pressure being less in this position. 
 
 At the same time, an increase in the quantity of blood in the vessels is 
 not necessarily productive of any considerable increase in the fluid trans- 
 uded. Cohnheim calls attention to the experiments of Worm Miiller, 
 which show that a plethoric condition may readily be produced by the 
 injection of quantities of blood into the circulation of animals, the amount 
 of which cannot exceed twice the volume of the animal's blood without 
 producing death. Although a temporary increase of the blood-pressure 
 results, a return to the normal quickly follows. This is permitted by the 
 propulsion of the excess of blood into the capillaries and veins, which 
 become consequently distended, especially those of the abdominal organs. 
 There is no increased transudation corresponding with the quantity of 
 fluid introduced, nor is there any considerable distension of the blood- 
 vessels of the skin, subcutaneous or intermuscular connective tissue. 
 Such experiments show no permanent increase in the blood-pressure 
 within the large veins if there is no obstruction to the admission of 
 venous blood into the heart, presumably owing to their capacity for 
 considerable distension. 
 
 Although experiments show that a simple plethora with great disten- 
 sion of the capillaries of the abdominal organs occasions no considerable 
 increase of transudation, a different result follows a hydrsemic plethora l 
 induced by the injection of immense quantities of salt water into the 
 blood-current often six times as much liquid as the animal had blood. 
 Here, too, the arterial blood-pressure shows no permanent increase, nor 
 does that Avithin the large veins become perceptibly increased till enor- 
 mous quantities of fluid are injected. The blood flows through the vessels 
 with increased rapidity in consequence of the diminished friction of the 
 diluted blood, and an increased transudation begins at once. The various 
 glands, salivary and gastro-intestinal, kidneys and liver, secrete more 
 copiously, and the flow of a dilute lymph from the thoracic duct becomes 
 greatly increased, while that from the cervical lymphatics becomes mode- 
 rately accelerated. The lymph from the extremities, however, is no 
 greater in quantity than that flowing from an animal in a perfectly normal 
 condition. The localization of the increased trausudatiou from the blood- 
 vessels is further characterized by the abundant accumulation of watery 
 fluid in all the abdominal organs and abdominal cavity, in the salivary 
 glands and surrounding connective tissue, while elsewhere in the body 
 the organs and tissues are almost invariably in the same condition with 
 1 Cohnheim and Lichtheim, Virchow's Archiv, 1877, Ixix. 106.
 
 EFFUSIONS. 69 
 
 regard to moisture as are those of a healthy animal under normal cir- 
 cumstances. 
 
 The importance of these experiments with reference to the causes of 
 the transudation of fluid from the blood is obvious. The pressure upon 
 the walls of the blood-vessels cannot become sufficiently increased to be 
 accompanied with augmented transudation until limits are reached which 
 are beyond the possibilities of occurrence in the human body. When 
 such limits are attained in animals, the increased pressure, however great 
 it may be, does not suffice to produqg a general transudation, but one 
 limited to the vessels of those parts of the body whose normal function 
 is connected with too abundant transudation of fluid. A simple 
 hydrremic condition of brief duration has been proven, by experiment, 
 insufficient to give rise to increased trausudatiou, neither increased secre- 
 tion nor increased flow of lymph taking place. The inference from these 
 experiments is that an increased transudation is more dependent upon con- 
 ditions of the filter than upon those of blood-pressure. The absence of 
 any observable changes in the filter leads to the assumption of an 
 increased permeability, of physiological occurrence in certain parts of 
 the body, as the chief feature in the occurrence of increased trans- 
 udations. 
 
 Dropsy arises when the transudation is accumulated. As dropsical 
 accumulations are transudations from the blood, essentially blood-serum 
 with a diminished percentage of albumen, and as such blood-serum is 
 practically lymph from its presence in the lymph-vessels, dropsical effu- 
 sions are to be regarded as stagnant lymph. Such stagnations may be 
 present in the small lymph-spaces within the connective tissue, or in the 
 larger lymph-sacs, as the peritoneal, pleural, pericardial, and scrotal 
 cavities. In like manner, the stagnation may take place in the cavities 
 of joints and in those of the brain and cord, although the latter represent 
 functional rather than structural lymph-canals. 
 
 The term osdema is applied to the accumulation in the connective-tissue 
 lymph-spaces in general, while the term auasarca is confined to those cases 
 where the subcutaneous lymph-spaces are concerned. The accumulation 
 in the great lymph-cavities is known as ascites when peritoneal, hydro- 
 thorax when pleural, hydropericardium when pericardial, hydrocele when 
 in the cavity of the tunica vaginalis, hydrocephalus if within the ventri- 
 cles of the brain, and hydromyelocele when within the central canal of the 
 spinal cord. 
 
 The accumulation of dropsical effusions may be considered as possibly 
 resulting from an obstruction to the channels through which the transuda- 
 tion should flow, or from insufficient force to overcome normal obstruc- 
 tions, or from an abnormally increased transudation. 
 
 Lymph-channels are frequently obstructed, but no appreciable diffused 
 retention of lymph results unless the thoracic duct is obstructed. _ This 
 rare affection is followed by enormous distension of the thoracic and 
 abdominal portions of the parts beyond the stenosis. Ascites and hydro- 
 thorax may follow, but not necessarily any considerable oedema of the 
 peripheral parts of the body. As a result of the distension of the thoracic 
 duct, rupture is not unlikely to take place, and the effused fluid contains 
 chyle. 1 
 
 1 Quincke, Deutsches Archivfiir Klin. Mod., 1875, xvi. 121.
 
 70 GENERAL MORBID PROCESSES. 
 
 That the obstruction is not followed by oedema is attributable to the 
 innumerable anastomoses between the lymph-spaces, and also to the prob- 
 ability that a part of the transuded fluid returns to the blood-vessels 
 when the obstruction is impassable. 
 
 The forces necessary to promote the flow of lymph have already been 
 mentioned, and their entire removal is inconsistent with life. A diminu- 
 tion of their activity is more likely to result in a diminished flow of 
 lymph than its accumulation, although a slowing of the lymph-current 
 may represent a favoring element in the accumulation of an increased 
 transudation. 
 
 The occurrence of dropsy with unobstructed lymph-channels, and in 
 the presence of efficient agencies in promoting the flow of lymph,, indicates 
 the importance of an increased transudation as the chief element in the 
 occurrence of a dropsical accumulation. An increased trausudation, with 
 resulting oedema, is readily produced by preventing the flow of blood 
 from a part, and may be directly observed with the microscope. Cohn- 
 heim states that after a sudden venous obstruction, in case an efficient 
 collateral circulation does not interfere, the capillaries and small veins 
 become distended with stagnant blood and appear as masses of red blood- 
 corpuscles. This distension results from the continuance of the arterial 
 flow into the capillaries of the obstructed region under a pressure which 
 is only neutralized by the resistance of the tissues and the transudation 
 from the capillaries. Sotnitschewsky 1 shows that a concurrent paralysis of 
 the vaso-motor nerves, as claimed byffanvier, is unnecessary. The transu- 
 dation through the capillary wall is increased, the flow of lymph from 
 the part is accelerated, and oedema arises when the trausudation is so 
 much augmented that the calibre of the lymph-vessels is insufficient for 
 for its removal ; and the greater this insufficiency the greater is the oedema. 
 With the continuance of the arterial flow and intravenous resistance, red 
 blood-corpuscles are forced through the filter, and form an important 
 constituent of the effusion from venous stagnation. 
 
 Although the existence of an increased pressure upon the capillary wall 
 is obvious from the experiment referred to, there is no increased arterial 
 pressure rather a diminution and the important element in occasioning 
 the increased permeability of the capillary wall is the obstruction to the 
 outflow of venous blood from the oedematous region. In consequence of 
 the latter the arterial flow is followed by increased transudation. 
 
 Dropsies resulting from venous obstruction, as well as those following 
 an obstruction of the thoracic duct or its branches, or of the several 
 lymphatics of a part, are classified as mechanical dropsies. That from 
 venous obstruction is the most frequent, and its seat may lie in the course 
 of venous trunks or in the heart, lungs, or liver. The venous obstruc- 
 tion must be so situated that the stagnant blood is unable to find a ready 
 escape through collateral branches. The more sudden and complete it is, 
 the more likely is the effusion to contain considerable numbers of red 
 blood-corpuscles. 
 
 In addition to the element of venous stagnation in producing increased 
 
 transudation, the condition of the filter is of importance. The occurrence 
 
 of oedema in chronic diseases, especially of the kidneys, and in those 
 
 attended with protracted suppuration, continued hemorrhage, and the 
 
 1 Virchow's Archiv, 1879, Ixxvii. 85.
 
 EFFUSIONS. 71 
 
 rapid growth of tumors, has usually been attributed to the watery con- 
 dition of the blood, with a diminution of the albumen. Cohnheim, how- 
 ever, suggests that the condition of the vessel wall is of more importance 
 than the contents as the immediate cause of the increased trausudatiou. 
 The more or less protracted action of various agents temperature, in- 
 sufficient oxygen, and diminished albumen is likely to so modify the 
 condition of the endothelium as to favor an increased permeability of the 
 wall. Experiments show that a simple acute hydrsemia produces no 
 increased transudation, and that a chronic hydrsemia, if connected with 
 dropsy, is likely to be influential by increasing the permeability of the 
 wall. Even in those cases where a hydrsemia and an oedema co-exist, the 
 localization of the latter is favored by obvious disturbances of the func- 
 tion of the capillary walls, as in case of the cutaneous oedema after scar- 
 latina. In like manner, a feeble heart, favoring venous stagnation, and 
 gravitation are of importance, as general causes, in promoting dropsy in 
 hydrsernic conditions. 
 
 The possibility of the occurrence of oedema through nervous influence 
 is not to be denied. The localized and fleeting oedema of urticaria and 
 erythema, the swollen lip and tongue in connection with digestive disturb- 
 ances, are not to be explained by the two main factors of oedema viz. 
 venous stagnation and increased permeability of the vascular walls. 
 Cohnheim refers to the rapid occurrence of oedema of the tongue as a 
 result of irritation of the lingual nerve, and oedema is known to occur 
 rapidly in cases of acute myelitis. A similar result follows the experi- 
 mental destruction of the spinal cord, although the mechanism of its pro- 
 duction is not apparent. 
 
 Dropsies are subdivided, as regards their distribution, into general and 
 local forms. The causes producing the two varieties are essentially those 
 already described. The causes of all local dropsies are not always to be 
 regarded as the same. Regions which are the seat of mechanical dropsies 
 are often affected by inflammation, with abundant serous exudation the 
 so-called inflammatory dropsy. The properties of the effusion and exuda- 
 tion are quite different, the former having a small percentage of albumen, 
 but few leucocytes, with a corresponding absence of fibrin, and few or 
 many red blood-corpuscles. The exudation, on the contrary, is highly 
 albuminous, though less so than the blood-plasma ; it contains numerous 
 leucocytes and much fibrin ; under ordinary circumstances there are but 
 few red blood-corpuscles. 
 
 The local dropsies are often characterized by special terms. Hydrops 
 ex vacuo is applied to the collections of fluid found in closed cavities with 
 unyielding walls, as the cranium and thorax, or to the recurrence of fluid 
 in cavities from which the same has been rapidly removed, in the absence 
 of inflammatory disturbances. Collateral oedema is usually applied to the 
 association of oedema with inflammatory disturbances, and represents an 
 extension of the inflammatory process to the region concerned. (Edema 
 of the glottis and circumscribed oedema of the lung are instances. 
 The term hypostatic oedema is often used to designate the association of 
 oedema and inflammation, the former caused by the latter, and to indicate 
 the effect of gravitation in the localization of oedema from the general 
 causes already mentioned. 
 
 Another localized oedema of interest, from its frequent occurrence and
 
 72 GENERAL MORBID PROCESSES. 
 
 importance, is oedema of the lungs, often taking place toward the end 
 of life, at times quite suddenly. This form has usually been attributed 
 to increased transudation from arterial congestion or venous stagnation. 
 The former view is diivctly refuted by the experiments of Welch, 1 who 
 offers the explanation now accepted. With the obliteration of three- 
 fourths of the arterial supply to the lungs of the animals experimented 
 upon, no O2dema resulted from the assumed collateral fluxion into the 
 branches of the pulmonary artery which were left open. The obliteration 
 of the same area of venous distribution was nec ary before the occur- 
 rence of oedema, CEdema of the lungs was further found to result from 
 a ligature of the aorta near the heart. The comparative frequency of 
 oedema of the lungs in man, and the rarity of <uch extreme mechanical 
 disturbances as those produced experimentally, led Welch to paralyze the 
 left ventricle. The conditions as regards the pulmonary circulation then 
 corresponded with those mentioned as causes for (edema from venous 
 obstruction. The continued action of the right ventricle forced blood into 
 the pulmonary capillaries, where it was compelled to accumulate in con- 
 sequence of the inability of the left ventricle to receive and expel it. 
 Welch consequently regards the immediate cause of this form of pul- 
 monary oedema as a predominant weakness of the left ventricle. A 
 weak heart does not suffice for the production of the oedema, since this 
 condition is not found when both ventricles are alike enfeebled. 
 
 Degenerations. 
 
 The degenerations represent disturbances in the nutrition of the tissues 
 of the body, in consequence of which their functions become impaired, 
 if not destroyed. The latter result obviously attends the death of cells, 
 which may occur in the course of the degeneration. The processes con- 
 cerned are called uecrobiotic by Virchow, as they represent vital pro- 
 cesses leading to death. Although in many of them the cell is decaying 
 during their continuance, its recover}' is possible with the disappearance 
 of the conditions which have transformed physiological into pathological 
 processes. The degenerations affect intercellular substance as well as 
 cells, and are called metamorphoses, infiltrations, or degenerations, as a 
 transformation of normal into abnormal material, or the addition of 
 extraneous substances, or the functional impairment of the part aumes 
 the greatest prominence. 
 
 Cloudy Swelling, Albuminoid Infiltration, Granular Degeneration, Paren- 
 ckymatous Degeneration. 
 
 Of the various modifications in the appearance of cells under patho- 
 logical conditions, there is none, perhaps, more commonly met with than 
 that known by the above terms. A granular appearance may be regarded 
 as an essential characteristic of protoplasm, and is an attribute of cells of 
 epithelial origin as well as of tnoee which belong to other groups of tis- 
 sues. The abundance of granules present in a normal cell depends largely 
 upon its shape, size, and situation. These granules present various rela- 
 1 Virchow' s Archil', 1878, Ixxii. 375.
 
 DEGENERATIONS. 73 
 
 tions to chemical agents, some being soluble in alcohol and ether, others 
 in acids and alkalies, and many of them, especially those met with in the 
 form of degeneration now being considered, show from the various reac- 
 tions that they are of the nature of albumen. Since their exact compo- 
 sition, in all instances, is undetermined, they are called albuminoid, and 
 when in excess the cell is considered to be infiltrated with these granules, 
 and the organ presents the appearances regarded as characteristic of an 
 albuminoid infiltration. A granular cell becomes much more granular 
 when it is thus infiltrated, and it is therefore a matter of difficulty to 
 recognize from the appearance of certain single cells, as those of the liver 
 or kidney, whether or not the number of granules present is abnormally 
 increased. When, however, a large number of cells of any given organ 
 contain more than the normal quantity of these albuminoid granules, the 
 appearance of the organ becomes modified. In extreme cases the latter 
 is swollen, doughy in consistency, with ill-defined structural details, and 
 in all instances presents an opaque appearance. The term cloudy swell- 
 ing is thus purely descriptive, and was applied by Virchow to designate 
 the optical appearances of the condition in question. The granules, which 
 disappear on the addition of acids and alkalies, are apparently either added 
 to the cell or result from a precipitation within the same. 
 
 Frequently associated with these albuminoid granules are others, dis- 
 tinctly recognizable as globules of fat. An apparent increase of nuclei is 
 often observed, and in certain organs, as the kidneys, the cells seem less 
 coherent than is normally the case. The study of this condition in the 
 kidneys is further of interest as indicating that the border-line between 
 a parenchymatous degeneration and a parenchymatous inflammation is 
 purely arbitrary. From similar exciting causes there may be associated, 
 with the described alterations of the epithelial lining of the tubes, the 
 exudation of albumen, the formation of casts, the dcsquamation of epi- 
 thelium, and the presence of leucocytes within the tubules. 
 
 AVhen the macroscopic changes are of moderate degree, and the disturb- 
 ance of function relatively slight, while the concurrent alterations else- 
 where, from the simultaneous action of the same cause, are predominant 
 and characteristic of the disease, the condition is conveniently regarded as 
 a degeneration occurring in the course of the latter, rather than an inflam- 
 mation. The latter term, on the contrary, is to be applied when the 
 granular infiltration of the cells is associated with other evidences of an 
 inflammatory exudation, and when the pathological disturbances are to 
 be directly attributed to the parenchymatous changes. 
 
 It- is customary to speak of cloudy swelling as a nutritive change, and 
 the condition may be induced by those causes which interfere with the 
 nutrition of parts or of the whole of an organ. Many authorities regard 
 this granular or parenchymatous degeneration as closely allied to fatty 
 degeneration, since many of the causes which produce the one occasion 
 the other. The former is often spoken of as an earlier stage of the latter, 
 from the frequent association of the albuminoid granules with numer- 
 ous globules of fat as a result of the more prolonged or more intense 
 action of a given cause. 
 
 Organs which give evidence of a granular degeneration contain, as a 
 rule, a diminished quantity of blood. This feature is usually attributed 
 to the pressure of the swollen cells upon capillary blood-vessels. The
 
 74 GENERAL MORBID PROCESSES. 
 
 ansemic organ obviously becomes still more cloudy, gray, and opaque in 
 appearance from the diminished quantity or impoverished quality of the 
 blood. 
 
 The granular degenerations of the heart, liver, and kidneys, as a whole, 
 usually occur simultaneously, and afford a most important means for the 
 post-mortem recognition of the infective diseases. The condition is there- 
 fore to be looked for in the exanthemata, especially in small-pox and 
 scarlet fever, also in erysipelas, septicaemia in its manifold forms, diph- 
 theria, typhoid and typhus fevers, cerebro-spinal meningitis, etc. A 
 common feature in all these cases is the occurrence of fever, and it has 
 been claimed that this element is the cause of the degeneration. In oppo- 
 sition to this view is the well-known fact of its presence in afebrile cases 
 of poisoning from carbonic oxide, and its absence in certain cases of 
 pneumonia and exposure to high temperatures. 
 
 The universal occurrence of cloudy swelling in fatal cases of the affec- 
 tions above mentioned leads to the inference of its presence in those 
 instances terminating in recovery without obvious permanent impairment 
 of the organs and tissues concerned. It is therefore agreed that the 
 process may terminate in resolution i. e. in a disappearance of the excess 
 of granular material. On the other hand, its association, under circum- 
 stances, with fatty degeneration suggests as extremely probable that the 
 latter condition may represent a result of the albuminoid infiltration. 
 Even if this more serious issue exists, the possibilities are still at hand 
 for an absorption of the degenerated material and a restitution of the 
 destroyed protoplasm. The effect upon the individual is evidently deter- 
 mined by the persistence and dissemination of the condition, which, in 
 turn, are controlled by the immediate cause and the peculiarities of 
 the individual acted upon. 
 
 Fatty Metamorphosis, Fatty Degeneration, and Fatty Infiltration. 
 
 The fat which is present within the body under physiological condi- 
 tions owes its origin primarily to the food taken. A diet which is abun- 
 dantly fatty furnishes a direct source for much of the fat which appears 
 accumulated in the various organs and tissues.. Although it may now 
 appear that such a statement needs but little confirmation, it is not long 
 since the opinion prevailed that nearly all the fat in the body came from 
 the hydrocarbons of the food. This seemed all the more plausible as 
 the herbivora readily accumulated fat, although their diet might contain 
 this element in very small quantities. Hofmaun 1 made a decisive experi- 
 ment with reference to the origin of fat from fatty food by feeding a dog, 
 made lean by starvation, with bacon in abundance, but with little meat. In 
 the course of a few days the greater part of the fat introduced was depos- 
 ited within the tissues of the animal. Other experimenters have arrived 
 at a similar result, and it can no longer be questioned that fat, accumu- 
 lated within the body, owes its origin chiefly to the absorption of fat from 
 the food taken. 
 
 Another source for the fat of the body has long been suggested 
 namely, the albuminates of the food. In the admirable article on the 
 formation of fat by Voit, 2 from which most of the information herein 
 
 1 Zeilschrift filr Biologie, 1872, viii. 153. 
 
 9 Herrmann's Ilandbuch der Physiologie, 1881, vi. 1, 235.
 
 DEGENERATIONS. 75 
 
 presented is derived, it is claimed that he and Pettenkofer were the first 
 to prove the origin of fat in the body, under normal conditions, from 
 albumen. This proof was an inference, however, although presenting a 
 high degree of probability. Valuable evidence in the same direction 
 was furnished by Kemmerich, who found that the milk of a cow during 
 a certain period held more fat than was contained in the food ; Subbotin 
 and Voit have shown that more milk is secreted the richer the diet in 
 albumen. Still other observers have furnished more decisive proof that 
 fat is formed from albuminates. 
 
 Two sources for fat in the body under physiological conditions are 
 thus recognized : 1, the free fat in the food ; 2, the fat derived from the 
 decomposition of the albuminates of the food. 
 
 Voit admits the possibility of the hydrocarbons serving as a third 
 source, although this possibility is unnecessary in most cases. Should 
 instances arise, however, where other sources for fat are found insufficient, 
 the hydrocarbons must be regarded as filling the gap. 
 
 Fat which is taken into the body is considered to be either consumed 
 or stored. That which is stored is chiefly accumulated in the great res- 
 ervoirs viz. the subcutaneous and periuephritic fat tissue, the mesentery, 
 omentum, and bone-marrow although it may be found elsewhere, in 
 the fluids and tissues of the body. This accumulation serves as a source 
 to be drawn from in case of need, and is called upon where the easily- 
 decomposed soluble albumen is disposed of by the functional activity of 
 the cells. An acting muscle demands food for its work, and consumes 
 first the soluble albumen, then the fat. An excessive waste of fat is 
 delayed by the decomposition of hydrocarbons, but the demands may 
 become so great that albumen, fat, and hydrocarbons are consumed more 
 rapidly and constantly than they can be supplied. It being, therefore, 
 admitted that fat is formed from the albuminates, as well as from the 
 fat of the food, the question readily presents itself whether fat may not 
 be formed from the fixed albuminates of the body, especially from those 
 contained within its cells. 
 
 It is well known that in the secretion of sebum the superficial cells of 
 the sebaceous follicles contain fat in great quantity, while the deeper layers 
 are comparatively free from any appearances indicative of the presence 
 of fat. It is further admitted that when pus is retained for a time the 
 individual corpuscles contain i fat-drops in quantity and become trans- 
 formed into fatty granular corpuscles. Eventually, the pus is trans- 
 formed into a detritus in which fat-drops are found in great number. 
 
 Similar appearances may be present in the protoplasm of muscular 
 tissue, the cells of the liver, kidneys, and gastric glands, when poisonous 
 doses of phosphorus or arsenic are given. The occurence of an acute fatty 
 metamorphosis of the cells of various organs in new-born children has re- 
 peatedly been observed. The presence of fat in various organs of the body 
 in pernicious anaemia, and in the heart in connection with stenosis of the 
 coronary artery, is universally recognized. The abuse of alcohol, long-con- 
 tinued obstruction to the flow of venous blood, exposure to high tempera- 
 tures, are all known to be conditions in connection with which fat-drops are 
 found in the various cells of the body. The effects of poisoning with phos- 
 phorus and arsenic are of special importance, as showing that the abundance 
 of fat present in the cells represents a result of the degeneration of these cells,
 
 76 GENERAL MORBID PROCESSES. 
 
 since it takes place when the animal is deprived of food. Although 
 there is an evident destruction of albumen, there is also a diminished 
 elimination of carbonic acid and admission of oxygen. These facts are 
 explicable on the ground that the fat present is not consumed, and the 
 accumulation in the cells is evidence of this lack of consumption. The 
 fat is not simply stored, as none is taken in, nor is any food received 
 from which fat might be formed. Its presence, therefore, must be re- 
 garded as due to degeneration. 
 
 Since fat may be formed in the body as a result of the metamorphosis 
 of cell-protoplasm, it is desirable to ascertain whether there are any 
 means by which stored fat may be distinguished from that present as the 
 result of a degeneration of the cell. The term fatty infiltration lias 
 been used to indicate the presence of stored fat, the latter being regarded 
 as simply taken into the cell and retained for a longer or shorter time, 
 without any necessary interference with other functions possessed by the 
 cell. 
 
 In fatty degeneration, on the contrary, it is considered that the quantity 
 of fat present indicates a corresponding diminution in the albumiuatcs of 
 the cell, and is connected with a diminution in the function of the latter, 
 all the greater the more abundant the fat. 
 
 It is found that in fatty infiltration, as a rule, the fat is present in large 
 drops, the size of the cell being increased in proportion to the quantity 
 of fat present. Although there may be several drops present, they tend 
 to run together, as is suggested by their different size, varying proximity, 
 and the constant presence of a considerable quantity of protoplasm. In 
 organs, on the contrary, whose function is seriously, even fatally, 
 impaired, the fat, as a rule, assumes rather a granular form. Many 
 minute fat-drops are present, and the cell is not particularly, if at all, 
 increased in size. The more abundant the fat the less the protoplasm. 
 Appearances are met with indicating a transition between cells with few 
 fat-granules and those with many. 
 
 If the morphological appearances of fatty infiltration and of fatty 
 degeneration were constant, there would obviously be little or no difficulty 
 in determining the nature of the process manifested by the presence of 
 fat. The exceptions occur both in fatty infiltration and fatty degenera- 
 tion. In the cells of the liver of an animal poisoned with phosphorus 
 fat makes its appearance in large drops, while in the heart and kidneys 
 of the same animal the fat is present in a granular form. 
 
 During absorption from the intestine in the process of digestion fat 
 is present in the epithelium in a finely granular form. When diges- 
 tion is completed fat is no longer met with in these cells. The pres- 
 ence of large or small drops, therefore, cannot be regarded as a sufficient 
 test of the origin of the fat. It is of equal, if not greater, importance 
 to bear in mind the organ concerned. 
 
 In the heart, liver, kidneys, and gastric glands, as well as elsewhere, 
 with the exception, perhaps, of the mammary gland, the presence of many 
 small fat-drops in the cells indicates a degeneration of its protoplasm. 
 The presence of large fat-drops, on the contrary, in the organs and tissues, 
 with the exception of the liver, indicates an infiltration. Large fat-drops, 
 then, may be present in the cells of the liver as the result of an infiltration 
 or of a degeneration. In order to form a satisfactory opinion of the
 
 DEGENERA TIONS. 1 7 
 
 nature of the appearances in the liver in doubtful cases, it is important to 
 note the condition of those organs which may be simultaneously in a 
 state of fatty degeneration. 
 
 The accumulation of fat under physiological conditions is obviously 
 brought about, on the one hand, by those causes which permit a free 
 introduction, absorption, and deposition, and, on the other, by those 
 which check its oxidation or elimination with the secretions of the body, 
 as the bile, in which it may be present to a considerable extent. A diet 
 rich in fat, or in albuminates readily converted into fat, offers a favorable 
 element for the absorption of fat by the healthy individual. If the organ- 
 ism demands but little of this fat for oxidation, as in the case of the seden- 
 tary person, an accumulation is likely to occur. This may become so 
 considerable that obesity results. Tissues in which normally but little 
 fat is accumulated may become infiltrated to a large extent. The inter- 
 muscular fibrous tissue thus becomes loaded, and the activity, as well as 
 the nutrition, of the muscles is impaired. This accumulation may be 
 manifested not only in the voluntary muscles, but in the heart as well, 
 which may present abundant sub-pericardial and sub-endocardial fat, the 
 myocardium also being interlarded with streaks of fat, the so-called fatty 
 infiltration of the heart. The abdominal walls may become thickened to 
 the extent of a couple of inches, and the mesentery, omentum, peri- 
 nephritic tissue, and liver may become enormously increased in weight 
 from the mass of accumulated fat. 
 
 This infiltration of fat may take place under pathological as well as phys- 
 iological conditions. It is apparent that those causes which check oxidation 
 are likely also to prevent the consumption of fat, and it is well known 
 that the destructive processes in the lung, grouped under the term pul- 
 monary consumption, accomplish this result. Something more, however, 
 is necessary than the obliteration of pulmonary blood-vessels and the de- 
 struction of an aerating surface. There may be, as in emphysema of the 
 lung, a diminished respiratory and vascular surface, yet evidences of 
 fatty infiltration, particularly of the liver, are wanting. It seems prob- 
 able that the constant anaemia, with the loss of the blood-corpuscles, of 
 pulmonary phthisis is an important additional factor in checking oxida- 
 tion in this disease. This factor, it is needless to say, is not a necessary 
 occurrence in pulmonary emphysema. 
 
 Litten 1 has shown that when certain animals are exposed to high tem- 
 peratures the appearances of fatty infiltration and degeneration are present 
 in various organs of the body. He attributes the fatty degeneration to a 
 direct poisoning of the red blood-corpuscles and a resulting diminution 
 of the oxidizing processes. 
 
 It is universally admitted that in chronic alcoholism a fatty liver is 
 frequently met with, even in the absence of those chronic interstitial 
 tissue-changes usually characterized under the name cirrhosis. Alcohol is 
 known to check the reception of oxygen and the elimination of carbonic 
 acid, and, whatever other disturbance of cell-activity it may produce, its 
 effect in favoring the accumulation of fat is directly attributable, in part 
 at least, to this disturbance of oxidation. 
 
 In those conditions known as cachexise, the constant accompaniment of 
 progressive and wasting diseases, as cancer, leucaemia, chronic dysentery, 
 
 1 Virch&uts Archiv, 1877, Ixx. 10.
 
 78 GENERAL MORBID PROCESSES. 
 
 etc., a fatty infiltration, particularly of the liver, is a frequent accom- 
 paniment. A cachexia is dependent upon a complex series of processes, 
 many of which tend to check oxidation, and in this respect is to be 
 grouped with the conditions previously mentioned. That the associated 
 fatty infiltration is intimately connected with the deficient oxidation is 
 not to be doubted, although the agents producing this deficiency may 
 vary in detail. 
 
 The causes which favor fatty degeneration are numerous, and the result 
 represents one of the most serious conditions which can affect an organ. 
 As oxidation represents the chief means of normally disposing of fat, so, 
 pathologically, deficient oxidation favors the retention of fat due to degen- 
 eration. Were a constant renewal of protoplasm to take place, the 
 degenerated fat might be displaced into the circulation or retained within 
 the cell. If the latter event should occur, the result would be apparent 
 as an infiltration, owing to the increased size of the cell, although the 
 condition giving rise to the presence of the fat is a degenerative process. 
 The importance of impairment of nutrition as the chief cause for fatty 
 degeneration is thus obvious. It may readily be produced, experimentally, 
 by measures which check the flow of blood to a part. The same meas- 
 ures necessarily prevent the presence of abundant oxygen, as fewer red 
 blood -corpuscles are presented. 
 
 Fatty degeneration resulting from impaired nutrition is apparent in 
 the heart in consequence of stenosis of its coronary arteries, in the kid- 
 neys as a result of interstitial processes obstructing the capillary circula- 
 tion, in the brain from obliterative processes in the arteries at the base or 
 within the organ, and in blood-vessels from the effect of age. 
 
 The cause of fatty degeneration may be general as well as local. In 
 poisoning from phosphorus and arsenic the appearances in most of the 
 organs indicate an actual destruction of protoplasm. Analysis of the 
 secretions confirms this inference, as the production of urea is largely 
 increased. Furthermore, there is less oxygen taken in and less carbonic 
 acid eliminated. As has been previously stated, these conditions may be 
 present in the starving animal. The fatty degeneration is thus easily 
 explained as a metamorphosis of cell -protoplasm, and the deficient oxi- 
 dation of the fat calls direct attention to its accumulation rather than 
 elimination. 
 
 In acute yellow atrophy of the liver and in cases of severe jaundice 
 fatty degenerations are constantly met with. That the origin and accu- 
 mulation of fat in these affections is also due to rapid tissue-metamor- 
 phosis and checked oxidation is highly probable. Although the elim- 
 ination of urea diminishes rather than increases, as shown by Schultzen 
 and Biess, there are other links in the chain of retrograde changes, as 
 the appearance of leuciu and tyrosin, indicative of the extensive destruc- 
 tion of albuminates. 
 
 It is unnecessary in a work of the present character to call attention to 
 all the possible circumstances under which fat is present in the body as 
 the result of degeneration. Mention may be made of the acute paren- 
 chymatous (fatty) degeneration of new-born children, of the results of 
 excessive bleeding, and of pernicious ancemia otherwise occasioned. The 
 fatty degeneration of the uterus after parturition, of paralyzed muscles, 
 and of tumors, the atrophic fatty degeneration of the liver in chronic
 
 DEGENERATIONS. 79 
 
 passive congestion (nutmeg liver), are all well-known examples. To 
 these may be added the fatty degenerations associated with amyloid and 
 interstitial processes. It is apparent that in most of these instances 
 the common features of rapid tissue-metamorphosis and deficient oxida- 
 tion are present, and, being present, offer a ready explanation for the 
 appearance of the fat. 
 
 The clinical importance of fatty metamorphosis requires consideration 
 in connection with the description of the diseases in which its occurrence 
 is a constant feature. As the presence of fat in cells is not necessarily 
 pathological, so an interference with the function of the cell is not invari- 
 ably implied by its presence. When its existence is suggestive of a local 
 destruction of albuminates, a diminution of cell-activity is a necessary 
 consequence. Such diminished activity must produce different results as 
 the cells are those of muscles, of vessels, or of glandular organs. 
 
 Even if fat is found in cells under conditions favoring such a sugges- 
 tion, it does not follow that the destruction of the cell must result. Not 
 only is it possible that the fat may be reserved for eventual oxidation, 
 and its place in the protoplasm be filled by normal constituents, but it 
 is also possible that the fat may be eliminated, as such, from the body. 
 The latter event is made apparent by the experiments of numerous 
 observers referred to by Cohnheim, who have found free fat in the urine 
 after its introduction into the venous current. 
 
 Cheesy Metamorphosis, Cheesy Degeneration, Caseation. 
 
 Virchow introduced the term cheesy metamorphosis, tyrosis, to desig- 
 nate the process resulting in the incomplete absorption of pus and the pro- 
 duction of apparently similar changes in certain other occasional constitu- 
 ents of the body. The characteristic cheesy appearances were regarded 
 as due to the inspissation of the material concerned, in consequence of 
 the absorption of its fluid. With this inspissation there was frequently 
 associated a partial fatty degeneration, and the cheesy matter repre- 
 sented dead material, which might undergo further changes, of which soft- 
 ening and calcification were the more important. 
 
 Inflammatory products, as pus and fibrin, were especially prone to 
 become thus transformed, as well as other relatively transitory materials 
 of new formation viz. tubercle and parts of various tumors. The 
 type of the cheesy metamorphosis was found in the enlarged lymphatic 
 glands, commonly called scrofulous. 
 
 The importance of a clear understanding of the cheesy metamorphosis 
 is now a matter of history. It is merely necessary to allude to the fact 
 that these cheesy products were formerly regarded as indicative of 
 the presence of tubercle, and were the tubercles. Tuberculization and 
 the cheesy condition were synonymous terms, and their indiscriminate 
 use led to much confusion with reference to the nature of tubercle. 
 
 Quite recently Weigert 1 has called attention to the conditions present 
 in necrosis resulting from the intermediate stoppage of the blood-current 
 in a part. The effect is manifested, under favoring circumstances, by a 
 cheesy appearance of the affected region, to which the terms decolorized 
 hemorrhagic infarction, anaemic or ischsemic necrosis, have been applied. 
 1 Virchow's Archiv, 1880, Ixxix. 87.
 
 80 GENERAL MORBID PROCESSES. 
 
 Weigert lavs stress upon the existence of a coagulation of the protoplasm 
 of the cells, with an early disappearance of the nuclei, as the essential feature 
 of this form of necrosis, the conditions present being regarded as analogous 
 to those met with in the coagulation of the blood. The term coagulative 
 necrosis has consequently been introduced by Cohnheim to represent the 
 process first fully described in detail by "Weigert. The optical and phys- 
 ical properties of the ischremic or coagnlative necroses of tissue are often 
 manifested as cheesy appearances, although the term coagulative necrosis 
 includes conditions which do not present a suggestion of cheese. It is 
 thus apparent that cheesy appearances may result in two ways : 1, by the 
 inspissation of material in a state of partial fatty degeneration ; 2, by a 
 coagulation of the constituents of cells whose blood -supply is suddenly 
 and completely cut off. In the more restricted sense these caseous appear- 
 ances are regarded as indicative of a cheesy metamorphosis which arises 
 by the former of these methods. Cheesy appearances, on the contrary, 
 dependent upon the sudden death of a part, indicate an ischsemic or 
 coagulative necrosis. 
 
 Whatever may be the origin of the cheesy condition, the material pre- 
 senting this appearance is liable to further changes, known as softening 
 and calcification. The former event results from the soaking of the dead 
 part with liquid, in consequence of which a detritus results. The soften- 
 ing usually begins at the oldest part of the cheesy mass, and advances 
 toward the periphery. The sanatory evacuation of the emulsive detritus 
 is permitted when a surface continuous with that of the external surface 
 of the body is reached, as instanced by the escape of softened cheesy 
 material from the lungs through a bronchus. The possibility of the com- 
 plete removal of the dead mass is thus at hand, and an eventual oblitera- 
 tion of the resulting cavity may take place by an adhesive inflammation 
 of its walls. 
 
 The complete absorption of the cheesy material of an ischaemic necrosis 
 may occur by the extension into the latter of a granulation-tissue from 
 the periphery. Whenever cheesy appearances are found on surfaces, as 
 the degenerated tubercles of mucous membranes or the circumscribed 
 necroses in diphtheritic inflammation or in typhoid fever, healing may 
 be accomplished by their detachment as sloughs, a clean ulcer being left. 
 Cheesy material is frequently encapsulated i. e. imbedded in a layer of 
 dense connective tissue, a condition which indicates a local cessation of 
 the process through which the cheesy appearances arose. The same may 
 be said of the infiltration of the cheesy mass with earthy salts calcifica- 
 tion an event which will again be referred to in connection with the 
 consideration of the general subject. 
 
 Hyaline Degeneration, Fibrinom Degeneration, Croupous Metamorphosis. 
 
 Certain of the conditions now regarded as indicative of a coagulative 
 necrosis or a hyaline degeneration were previously described by Wagner 
 as the result of a croupous or fibriuous metamorphosis. According to this 
 observer, the cell-contents were transformed, under certain circumstances, 
 into a substance resembling externally clotted fibrin. The formation of 
 croupous and diphtheritic membranes, especially of the larynx, pharynx, 
 and trachea, was thus explained, also the hyaline casts of the kidney.
 
 DEGENERATIONS. 81 
 
 The results of this metamorphosis presented a hyaline appearance under 
 the microscope, and the term hyaline degeneration is now applied more 
 especially to indicate the production of microscopic changes, while the 
 hyaline appearances visible to the eye are rather included under mucous, 
 colloid, or amyloid metamorphoses. 
 
 The limitations in the use of the term hyaline degeneration are but ill 
 defined. On the one hand, there is included the transformation of mus- 
 cular tissue, first discovered by Zenker ; on the other, the various changes 
 described by Recklinghausen and others, among which are embraced the 
 results of Wagner's croupous metamorphosis. As the hyaline appear- 
 ances are a frequent result of coagulative necrosis, these terms are fre- 
 quently used to indicate the same condition, according as the optical or 
 etiological features are uppermost in the mind of the observer. 
 
 The hyaline or waxy degeneration of muscular fibre described by 
 Zenker represents a metamorphosis of the protoplasm of striated muscle 
 in particular, although the fusiform cells of the muscular coat of the 
 stomach and intestine may present a similar transformation. 
 
 The microscopic appearances are more characteristic than those visible 
 to the naked eye. To the latter the muscle appears paler, more translu- 
 cent, and homogeneous, and proves to be more brittle than normal. The 
 muscular fibres are found with the microscope to be swollen, irregular in 
 outline, the myosin transformed into flaky, glistening masses, without 
 evidence of the normal transverse striation. These appearances have 
 given rise to the term waxy degeneration, which suggests a possibility 
 of confusion with the earlier recognized waxy degeneration of organs, 
 due to the presence of amyloid material. The w r axy transformation of 
 muscular fibre, however, does not present the reaction with iodine charac- 
 teristic of amyloid substance. The degeneration of the muscle is usually 
 regarded as the result of a coagulation of the myosin, and it is claimed 
 by Cohuheim that the latter takes place only in dead muscle, either 
 during the life of the individual or as a post-mortem appearance. 
 
 The hyaline degeneration of muscular fibre is found in certain febrile 
 diseases, as typhoid and typhus fevers, scarlatina, variola, and cerebro- 
 spinal meningitis. It may also be met with when a muscle has been 
 exposed to violence, as in the insane who have been placed under mechan- 
 ical restraint. It has further been found in the vicinity of tumors, 
 especially where muscles have been invaded by their growth. Cohn- 
 heim and Weil describe a similar condition in the tongue of frogs after 
 ligature of the lingual artery. 
 
 The pathological importance of the above-mentioned degeneration of 
 muscle is most prominent in cases of typhoid fever. The occurrence in 
 this disease of the hsematoma or blood-tumor of the rectus abdominis is 
 thus explained, the degenerated muscle and its contained blood-vessels 
 being ruptured. The muscles of the thigh and the diaphragm frequently 
 undergo this degeneration ; the change is more rarely met with in other 
 muscles of the body. 
 
 Recklinghausen regards a hyaline substance, hyalin, as a normal con- 
 stituent of cell-protoplasm which escapes in drops when the cell dies. 
 Its presence indicates a diminution in the vitality of the cell from various 
 causes. Under the microscope it appears as a sharply defined, highly 
 refractive meshwork, enclosing spaces of irregular shape and size, in 
 VOL. I. 6
 
 82 GENERAL MORBID PROCESSES. 
 
 which are frequently found nuclei, more rarely cells or granules. Lang- 
 hans has described this appearance as channelled fibrin. It has been met 
 with in the placenta, diphtheritic membranes, blood-vessels, tubercles, 
 and gummata. 
 
 The latest contribution to the history and nature of this form of degen- 
 eration has been furnished by Vallat, 1 from whose article many of the 
 above data have been obtained. 
 
 Mucous Degeneration, Mucous Metamorphosis, Mucous Softening. 
 
 Of the various degenerations presenting a colloid i. e. gelatinous 
 condition, the mucous variety is one of the most striking. Its gross 
 appearances may not diifer materially from those to be described under 
 the head of colloid degeneration, but the diagnostic characteristic of the 
 change is to be found in the presence of mucin. The presence of this 
 substance is readily detected by the addition of acetic acid to mucus, the 
 effect being a fibrillated appearance of the latter, the fibres presenting a 
 more or less parallel distribution. This fibrillation of mucus is regarded 
 as the result of a coagulation of its mucin, previously held in solution by 
 an alkali. Mucin is thus present in the body as a normal constituent, 
 and, in the secretions from mucous membranes, owes its origin to the 
 existence of epithelial cells, whether these represent gland-cells, as in the 
 case of the muciparous glands of the bronchial mucous membranes, or 
 whether they are superficial cells, as those of the gastric and intestinal 
 mucous membranes. 
 
 In the origin of mucus as a secretion from glands Heidenhain 2 claims 
 that a destruction of gland-cells accompanies the continuance of the secre- 
 tion. At the outset, however, the mucin escapes from the cells, the latter 
 remaining relatively intact. With the persistence of the secretion there 
 results a destruction and a new formation of the muciparous cells. In the 
 pathological production of mucus from mucous membranes, as in catarrh, 
 there is no reason to doubt that the persistence of an irritation is the 
 cause of abundant mucus, and that the latter is dependent upon the rapid 
 formation and destruction of epithelial cells. 
 
 The origin of mucus from epithelial cells under physiological and 
 pathological conditions being apparent, it readily follows that the epi- 
 thelioid cells of tumors might be supposed to be liable to a similar meta- 
 morphosis. It is well known that cancerous tumors, especially those of 
 the stomach and large intestine, are frequently met with, which present 
 an abundant gelatinous material, more or less completely filling the 
 spongy, fibrous meshwork. These are the alveolar, gelatinous, or colloid 
 cancers. 
 
 The gelatinous or colloid material often gives the reaction of mucin, 
 and the microscopic appearances of the tumor show that the jelly-like 
 substance lies in that part of the tumor which corresponds with the posi- 
 tion of the epithelioid cells. The latter are found in various stages of 
 degeneration, the appearances being similar to those observed in the 
 mucous degeneration of true epithelium. 
 
 The prevailing theory of the origin of cancer from epithelial structures 
 
 1 Virchmu's Archiv, 1882, Ixxxix. 193. 
 
 2 Hermann's Hundbuch der Physiologic, 1880, V. 64.
 
 DEGENERATIONS 83 
 
 readily suggests an explanation for the frequency of the mucous variety 
 of cancer in connection with those parts from which mucus normally 
 arises from the degeneration of the epithelium. 
 
 The mucous metamorphosis aifects connective tissues as well as epithe- 
 lium. The "Whartonian jelly of the umbilical cord and the vitreous 
 humor of the eye are known, through the investigations of Virchow, to 
 owe their gelatinous condition to the presence of mucin. The latter lies 
 in the intercellular substance ; that is, between the cells. The appear- 
 ance of these indicates ^no degenerative process, but the presence of 
 mucin is obviously an essential constituent of the tissue. Whether this 
 mucin represents a transformation of the gelatin of the intercellular sub- 
 stance, or a secretion from the fixed cells, or a metamorphosis of the 
 migratory cells of the tissue, is not known. In mucous tissue, however, 
 there is present mucin, wholly independent of any epithelial degeneration. 
 Mucous tissue is present in the eye as a normal constituent of the adult, 
 and in the umbilical cord as a normal constituent of the infant at full 
 term. It is also abundantly met with in the subcutaneous and inter- 
 muscular tissues of the foetus. Its pathological occurrence in the adult 
 as a circumscribed tumor, the myxoma, may also be mentioned. 
 
 A gelatinous substance containing mucin is found in the adult inde- 
 pendent of the mucous tissue, but obviously arising from a transfor- 
 mation of intercellular substance. The most striking example of this 
 occurrence is the cystoid softening of cartilage, especially of the costal 
 cartilages of old people, the basis substance being transformed into a fluid 
 containing mucin. A similar metamorphosis is of frequent occurrence 
 in the intervertebral disks and in the destruction of cartilage in acute 
 and chronic inflammations of the joints. The intercellular substance of 
 cartilaginous tumors also becomes softened and converted into a liquid 
 containing mucin. 
 
 In osteomalacia and in the absorption of bone the mucous degeneration 
 of the bone-cartilage plays an important part. The lime salts are 
 first set free, and the cartilage then undergoes a mucous degeneration ; the 
 product is either absorbed or remains as a liquid within cavities of large 
 or small size. The mucous metamorphoses of fibrous and fat-tissues, 
 likewise of bone-marrow, are well recognized instances of the occurrence 
 of a mucous transformation of the intercellular substance of connective 
 tissues. Finally, clotted fibrin, so often met with as the product of the 
 inflammation of serous surfaces, may undergo a mucous metamorphosis, 
 and, thus transformed, offer a suitable material for absorption. 
 
 Colloid Degeneration, Colloid Metamorphosis. 
 
 Laennec used the term colloid in a descriptive sense to indicate a 
 gelatinous appearance, and for a long time its use was thus restricted. 
 As the colloid appearances were found to differ in their chemical reaction, 
 their distribution, and their pathological importance, and as the term was 
 further extended to include appearances seen with the microscope, it 
 obviously became necessary to subdivide the colloid series of changes 
 according to the observed differences. Its use is now limited to those 
 gelatinous conditions or appearances due to the presence of a fixed albu- 
 minate, homogeneous or finely granular, translucent, colorless or pale
 
 84 GENERAL MORBID PROCESSES. 
 
 yellow, of varying consistency, which does not become fibrillated on the 
 addition of acetic acid, and which does not change in color when acted 
 upon by iodine. This albuminate is considered in most instances to repre- 
 sent the result of a transformation, a metamorphosis of cells, and is asso- 
 ciated with an impairment of their function a degeneration which is 
 progressive, and leads, sometimes, to the destruction of the organ, a? 
 occurs in certain instances of colloid degeneration of the thyroid body. 
 Usually, the process is limited, affecting particular parts rather than 
 the whole of an organ. The reaction presented by a solution of sodium 
 albuminate in the presence of neutral salts leads to the view that colloid 
 material may represent a coagulation of an albuminous substance or sub- 
 stances under favoring conditions. The presence of colloid masses in the 
 kidney thus meets with a plausible explanation. 
 
 The place of its typical occurrence is the thyroid body in certain cases 
 of goitre, and it is early met with as a homogeneous substance replacing 
 the granular cell-protoplasm. With its increase the latter disappears, 
 and the entire cell is transformed into a homogeneous sphere. At times 
 the colloid substance may be seen to project from the surface of the cell 
 as a pale rounded clump. The aggregation of these clumps results in the 
 presence of masses of various size, in which may be found granules of 
 fat or pigment and crystals of cholesterin, which are accidental, not 
 essential. Colloid masses are sometimes met with in lymphatic glands, 
 for instance as concretions, mulberry-like aggregations of stratified 
 colloid bodies, which may be infiltrated with earthy salts. Colloid 
 material may eventually become liquefied, transformed into a sodium 
 albuminate ; and the presence of cysts in certain varieties of goitre is thus 
 explained. The coexistence in the kidney of colloid accumulations and 
 watery cysts has led to the view that the latter may, under certain cir- 
 cumstances, result from the former through the liquefaction of the colloid 
 material. The same view is held with regard to the origin of cysts fre- 
 quently met with in the choroid plexuses. 
 
 The colloid metamorphosis of cells is also to be found in the epithelium 
 of mucous membranes and their glands, in the prostate, suprarenal cap- 
 sule, sebaceous glands of the skin, and in the cells of certain tumors. 
 
 Amyloid Degeneration, Amyloid Infiltration, Waxy Degeneration, Larda- 
 
 ceous Degeneration. 
 
 The colloid appearances due to the amyloid degeneration of cells are 
 of the greatest clinical importance from their frequent occurrence and the 
 gravity of the symptoms connected with their presence. In amyloid 
 degeneration there is the transformation of the cell-protoplasm into an 
 albuminous material different from other albuminates found in the body. 
 This transformation is at the expense of the functional activity of the 
 cell, and the latter becomes inert. Amyloid degeneration represents no 
 mere substitution, but an addition, since the affected tissue is increased in 
 volume. The albuminate Avas called amyloid by Virchow in consequence 
 of its color-reaction with iodine. Its method of origin is wholly 
 unknown, never being found in the circulating fluids nor in articles of 
 food. It is met with chiefly in the cell, although its presence in the 
 intercellular substance of old people is recognized, and its occurrence in
 
 DEGENERATIONS. 85 
 
 the midst of the thrombotic deposition on inflamed valves and in the 
 results of inflammatory processes is also recorded. 
 
 At present the question is under discussion whether the amyloid degen- 
 eration may affect cells' of the most varied character, or whether it is 
 limited to those of connective tissues. Eberth 1 maintains that in all 
 cases the amyloid disturbance is seated in the connective tissue. Kyber, 2 
 the latest investigator, in opposition to this view maintains that this affec- 
 tion is not limited to the connective tissue, but may also be seated in the 
 parenchymatous cells of organs. Whether the one of these views is to 
 exclude the other, or whether both are not correct, remains for future 
 investigation to decide. 
 
 Wherever the amyloid material may be situated, the result is a trans- 
 formation of the cells into a homogeneous, glistening, colorless material, 
 which occupies more space than the original cell, and, when abundant, is 
 accompanied with a loss of the primitive details of the cell-structure. 
 This material is recognized by the color it presents when acted upon by 
 iodine alone, by iodine and sulphuric acid, or by methyl-aniline. The 
 first produces a reddish-brown color, the second a blue, and the last a 
 violet or purple color. These reactions are all characteristic, and the first 
 is of special value in the macroscopic recognition of the process, while 
 the last two are of special importance in the microscopic recognition of 
 the earlier stages of the affection. 
 
 With the advance of the degeneration and its dissemination, the organ 
 affected presents, in the diseased portions, pale-gray, glistening, translucent 
 patches, and becomes increased in size and density in proportion to the 
 quantity of amyloid material present. The change appears primarily 
 in the vessel wall or outside the same, and there results a diminution 
 in the calibre of the vessels, with a lessened quantity of blood in the 
 organ. 
 
 From the homogeneous and translucent appearance of the surface and 
 the increased density of the tissues the resemblance to bacon or wax is 
 suggested, and the terms lardaceous, bacouy, or waxy degeneration have 
 been applied. Notable differences in degree and seat occur in connection 
 with the organs diseased. In the spleen, for example, the change may 
 be limited to the arteries of the Malpighian bodies and their immediate 
 surroundings. To this condition the term sago spleen is applied, the 
 enlarged, rounded, translucent, and projecting bodies suggesting gran- 
 ules of boiled sago. The appearances of the diseased part are further 
 affected by the association of other conditions, as the presence of fat or 
 pigment. When fat is present, it is often to be regarded as a result of 
 the gradual and progressive increase in the obstruction to the circulation 
 of blood in the organ. 
 
 Athough so little is known of the immediate cause of amyloid degen- 
 eration, its distribution in the various organs of the body is fully ascer- 
 tained, as well as certain of the conditions which are likely to be followed 
 by its presence. It is known to occur as a localized process in cartilage, 
 in the conjunctiva, in certain tumors, cardiac thrombi, scars, retained 
 inflammatory products, and renal casts. The causes of this localized 
 appearance are wholly obscure, and little or no general inconvenience 
 results. Its presence, however, on a large scale and in various parts of 
 
 1 Virchow's Archiv, 1880, Ixxx. 138; 1881, Ixxxiv. 2 Ibid., 1880, Ixxxi. 7, 111.
 
 86 GENERAL MORBID PROCESSES. 
 
 the body at the same time, is met with under such circumstances as indi- 
 cate a distinct etiological relation. An appreciation of these circum- 
 stances is of importance, since their existence demands an investigation 
 as to the probable presence of the degeneration. The organs thus affected 
 are the spleen, liver, kidneys, and intestine. It is to their disturbance 
 of function that the pathological importance of amyloid degeneration is 
 to be especially attributed. 
 
 Other organs which may sometimes be affected are the lymphatic 
 glands, pancreas, suprarenal capsules, omeutum, uterus, bladder, prostate 
 gland, heart, and thyroid body. In the case of a general diffused infil- 
 tration these organs are variously degenerated, now some, and again 
 others, showing a more extensive alteration, while few or many may be 
 simultaneously diseased. The longer the process has continued, the 
 greater the degree of the disturbance and the larger the number of the 
 organs infiltrated. Although, in general, a period of months and years 
 may be demanded for these extensive changes, very serious disturbances 
 may arise within a short time, and Cohnheim l records several cases which 
 suggest that widely diffused amyloid degeneration may occur within a few 
 months in one instance in less than four months. 
 
 All that is at present known with regard to the etiology of this process 
 applies to certain general diseases with which in the course of time it is 
 likely to be associated. These have one element in common, that of 
 chronicity, and are likewise the occasion of a progressive wasting of the 
 body. Of these affections, that which holds the first place is chronic pul- 
 monary consumption, especially that form in which extensive destruction 
 of the lungs and ulcers of the intestine are present. Another disease whose 
 effects are in like manner to be regarded as general is syphilis, and in the 
 later stages of this disease amyloid degeneration is likely to occur, and often 
 to represent by its resulting disturbances the immediate cause of death. 
 Again, chronic suppurative processes, especially those due to disease of 
 the bones and joints, are a frequent antecedent of amyloid degeneration. 
 Finally, the process has been found in connection with leucaemia, chronic 
 intermittent fever, rickets, gout, and certain malignant tumors. This 
 last group, however, is one in whose sequence the degeneration is to be 
 regarded as exceptional. 
 
 The clinical importance of this process is due to the resulting disturb- 
 ances in the function of such important organs as the liver and intestines, 
 the spleen and lymphatic glands, and the kidneys. The nature of Ihese 
 disturbances obviously demands detailed consideration in connection with 
 the description of the diseases of the respective organs. It may be men- 
 tioned here that the infiltration of the walls leads to a narrowing of the 
 calibre of blood-vessels, and thus a diminution in the supply of blood to 
 the part or organ. The resulting impairment of nutrition becomes 
 enhanced from the condition of the blood, which is impoverished from 
 the simultaneous infiltration of the blood-making organs. The nutrition 
 of the individual thus suffers as well as that of the immediately diseased 
 organ. Fatty degeneration and atrophy of the parenchymatous cells of 
 organs like the liver and kidneys is the constant result of long-continued 
 and extensive infiltration of these glands. 
 
 Mention is intentionally omitted of the so-called amyloid bodies, cor- 
 
 1 Virehou/s Archiv, 1872, liv. 271.
 
 DEGENERATIONS. 87 
 
 pora amylacea, considered in connection with amyloid degeneration in 
 most text-books on pathology and pathological anatomy. They usually 
 present a different reaction with iodine, their origin has but little in com- 
 mon, their distribution is for the most part unlike, and little or no clin- 
 ical importance is to be attached to their presence. 
 
 Calcification, Ossification, Petrifaction. 
 
 "When salts previously held in solution are precipitated under abnormal 
 circumstances in the tissues of the body, the part is said to be calcined, 
 ossified, or petrified. Although these terms are often used as equivalent, 
 the last is to be regarded as more general than its predecessors, since it 
 includes the deposition of other than the calcareous salts. 
 
 In the pathological ossification, as well as its physiological prototype, 
 the carbonates and phosphates of calcium and magnesium are present in 
 a specially formed tissue of the nature of bone-cartilage, whereas calcifi- 
 cation occurs independently of such a new-formed tissue. The deposition 
 of the calcareous salts takes place either in the cells or intercellular sub- 
 stance of living or dead tissues, when the terms calcification or ossification 
 are applied, or as accumulations of various size in tissues or canals, which 
 are known as concretions and calculi. 
 
 The immediate causes of the physiological deposition in the formation of 
 bone are so obscure that only more or less probable explanatory theories 
 are advanced, to all of which obvious objections arise. The causes of a 
 pathological precipitation may be regarded as equally hidden. It is 
 apparent, however, that old age usually furnishes the necessary factors. 
 This in part may be due to the feeble nutrition associated with impair- 
 ment of function in advancing years. In part it may be the result 
 of the numerous opportunities offered in a long life for the occurrence of 
 inflammation, the products of which are frequently infiltrated with cal- 
 careous salts. The latter are apparently kept in solution by the action 
 of living cells, for, though presented to all in the fluids of the body, they 
 are precipitated most constantly in dead parts or in the vicinity of those 
 cells whose function is presumably lessened from disease or age. The 
 solvent action of living cells is further demonstrated by the effect of the 
 giant-cells in removing calcium salts from living or dead bone. 
 
 The causes of calcification are therefore to be regarded as local, depend- 
 ing upon a destruction or weakening of the cells of a part conditions 
 which are directly attributable to an interference with nutrition. The 
 deposition of calcium salts thus represents a disorder of nutrition, and 
 may be experimentally produced by agencies which occasion a necrosis 
 of tissues. 
 
 Although the immediate causes of the precipitation of the calcium salts 
 must be expressed somewhat vaguely, the places and effects of their accu- 
 mulation are sufficiently well known, as are the resulting appearances. 
 The presence of these salts in sufficient quantity produces a homogene- 
 ous, granular, strongly refractive appearance of the cell or intercellular 
 substance, in addition to a greatly increased resistance to pressure. When 
 muriatic acid is added to the affected part, the salts are dissolved, with 
 the escape of abundant bubbles of gas when a carbonate is present, and 
 with a rapid fading of the glistening appearance, without effervescence,
 
 88 GENERAL MORBID PROCESSES, 
 
 when the salt is a phosphate. After the removal, the cell or intercellular 
 substance is readily recognized, with such modifications in its appearance 
 as may be due to the action of the strong acid. The parts in which this 
 deposition or infiltration has taken place are either relatively normal ID 
 appearance or variously altered from disease, and the calcium salts are to 
 be regarded as absorbed from the constituents of the food and deposited, 
 or as taken up and transferred from the bones of the body. That both 
 sources are drawn upon is obvious from the abnormal presence of calcareous 
 material in the soft parts, in connection with increased density of the bones, 
 as well as with a diminution in the density of the latter. The term 
 calcification is more correctly applied to the presence of the salts in nor- 
 mal tissues other than bone, or in the products of disease not simulating 
 bone-cartilage in structure. A pathological ossification is to be consid- 
 ered present when an actual new formation of bone has taken place so 
 limited and so situated as not to suggest a tumor of bone, or when the 
 calcium salts are deposited in a new-formed tissue whose structure stimu- 
 lates that of bone-cartilage. 
 
 Tissues which may become calcified are, in the first instance, the con- 
 nective tissues, and of these fibrous tissue and cartilage are especially 
 liable. Epithelial, muscle in particular the unstriped variety and 
 ganglion-cells may also become calcified. The frequency with which 
 blood-vessels, especially arteries, are affected is such that it is re- 
 garded as almost normal in advancing years that calcareous mate- 
 rial should be deposited within the vascular walls. A distinction is 
 drawn between an ossification and a calcification of the blood-vessels. 
 The former term should be limited to the osteoid plates so often found 
 as circumscribed thickenings of the aortic intiina, and which are obvi- 
 ously new-formed patches of fibrous tissue in which the calcium salts 
 are accumulated. A calcified artery, on the contrary, is one usually of a 
 size varying between that of the common iliac and the temporal arteries, 
 whose wall has become rigid and unyielding, suggestive of a pipe-stem, 
 from the presence of calcareous deposits in the muscular middle coat. 
 
 From the frequency with which the osseous plates of the aorta are 
 associated with the fatty and fibrous changes in chronic inflammation of 
 the intiina, the so-called atheromatous degeneration of the same, it is 
 customary to speak of the calcified artery at the wrist or temple as an 
 atheromatous artery or as evincing an atheromatous degeneration. The 
 common feature in the aortic changes and in the calcified muscular coat is 
 the element of age. They are frequently, though not necessarily, associ- 
 ated. The one is the result of an inflammatory process productive of a 
 new, fibrous, tissue in which the calcium salts are infiltrated; while the 
 other is due to a deposition of the latter in the normal, pre-existing, mus- 
 cular elements of the vessel. 
 
 Calcification and ossification of blood-vessels are frequent when the 
 latter become dilated, as in aneurisms, whether these occur as circum- 
 scribed tumors or as a serpentine elongation and widening of the affected 
 vessel. 
 
 Cartilage is also a tissue which presents a double relation to calcareous 
 deposition. On the one hand, there may exist an ossification resulting 
 from the extension of a growth of bone from the perichondrium into the 
 cartilage. The structure of this bone presents all the details found in nor-
 
 DEGENERATIONS. 89 
 
 mal bone lacunae, lamellae, and marrow-spaces. On the other hand, a 
 section of the cartilage, especially the costal cartilages, may contain opaque, 
 gray, or grayish-yellow patches, grating under the knife, which are wholly 
 due to the presence of calcium salts in the hyaline intercellular substance 
 of the cartilage. This calcification of the cartilage, which may also involve 
 the capsules of the cells, is frequently associated with an ossification, 
 although this relation is in no way essential. 
 
 Calcification of the placenta, of the fibrous framework of the lungs, of 
 the mucous membrane of the stomach, or of the atrophied glomeruli of the 
 kidney, are well-recognized instances of the infiltration of calcareous ma- 
 terial in normal or atrophied tissues. On the contrary, ossification of the 
 fibrous inflammatory products of the pleura, pericardium, and peritoneum 
 are instances of a pathological bone-formation, analogous in its nature 
 to that met with in the ultima of the aorta. The fibrinous and fibrino- 
 cellular products of the inflammation of serous surfaces are favorable posi- 
 tions for the deposition of calcium salts, as are thrombi arising from the 
 walls of blood-vessels. The latter are rather instances of the calcification 
 of dead parts, analogous to the members of the group which includes the 
 formation of calculi and concretions, the calcification of the dead foetus in 
 abdominal parturition, of cheesy lymphatic glands, and of cheesy material in 
 the lungs and elsewhere. Finally, there remains the calcification of tumors 
 of the most varied nature, the salts being present either in living or dead 
 parts of the tumor. 
 
 Instances of the deposition in the tissues of other than calcareous salts 
 are abundantly met with in gout. In this disease cartilage, ligaments, 
 and tendons, bone-marrow, muscle, the endocardium and aorta, the mem- 
 branes of the brain and spinal cord, the skin and kidneys, may contain 
 deposits of acicular crystals and amorphous granules. Although these 
 deposits are largely composed of sodium urate, calcium urate may be 
 present with other salts, as sodium chloride and calcareous compounds. 
 According to Ebstein, 1 the earthy salts in gout are deposited in necrotic 
 patches of previously diseased tissue. The local conditions are therefore 
 analogous to those concerned in the formation of chalky concretions. 
 
 Concretions and calculi are collections of earthy salts, the former lying 
 within tissues, the latter being present in canals opening externally. Both 
 represent the results of a deposition in and upon organic material, which 
 is often an inflammatory product, at times surrounding a foreign body act- 
 ing as the exciting cause of the inflammation. 
 
 The earthy matter of which the concretion is composed consists mainly 
 of carbonate and phosphate of calcium, while the chemical properties of 
 the calculi often vary in accordance with the nature of the secretion which 
 flows by them. The salivary, pancreatic, intestinal, lachrymal, and pros- 
 tatic calculi are chiefly formed of calcareous salts. These salts also are an 
 important, if not the chief, constituent of biliary and urinary calculi. In 
 the former pigment, bile acids, and cholesterin may also be present. Uri- 
 nary calculi are of still more varied composition, containing not only the 
 calcium salts, as the oxalate, phosphate, and carbonate, but also uric acid 
 and the urates of sodium and ammonium, in addition to the ammoniaco- 
 magnesian phosphate. 
 
 The infiltration with calcium salts may prove beneficial as well as inju- 
 1 Die Naiur und Behandlung der Giclit, Wiesbaden, 1882, 45.
 
 90 GENERAL MORBID PROCESSES. 
 
 rious beneficial under those circumstances where further changes might 
 prove harmful, as in the softening of cheesy material or the maceration of 
 a dead foetus in the abdominal cavity. The calcification of certain tumors, 
 as the fibro-myoma of the uterus, is equally sanatory, the further growth 
 of the calcified parts being thus checked. The calcification of an aneuris- 
 mal sac may prove beneficial in strengthening a weakened blood-vessel. 
 
 The injurious effects are seen more particularly in case of the calca- 
 reous infiltration of the middle coat of arteries. Such vessels become 
 converted into rigid and unyielding tubes at various parts of their course, 
 and the nutrition of peripheral parts becomes correspondingly lessened. 
 Hence, in great measure, the liability of old people to serious inflammatory 
 processes from trivial irritation of peripheral portions of the body, such 
 inflammations often terminating in gangrene. 
 
 The calcification and ossification of the cardiac valves and the calcifica- 
 tion of attached thrombi, furnish frequent and constant occasion for dis- 
 turbances in the functions of the heart, resulting in dilatation and hyper- 
 trophy, with the sequence of symptoms of chronic valvular endocarditis. 
 
 The great clinical importance of the presence of calcium salts in the 
 circulatory apparatus is such that further reference in this place to its 
 results is unnecessary, as its special relations are more important than its 
 general features. 
 
 Calculi act as local causes of inflammation, and their presence is likely 
 to be followed by ulceration, abscess, and stenosis, perhaps obliteration, of 
 the smaller canals in which they may lie. 
 
 Pigmentation. 
 
 The pathological pigmentation of the body results, presumably, from 
 the metamorphosis of the coloring matter of the blood or from the intro- 
 duction from without of pigments insoluble in the fluids of the body. 
 The former of these methods has recently been studied by Langhans 1 
 and Cordua, 2 and the present views of this subject are chiefly due to their 
 observations, as well as to the earlier investigations of Virchow and others. 
 
 The haemoglobin contained in red blood-corpuscles is considered to be 
 composed of a coloring matter, hsematin, combined with an albuminate, 
 globulin. When blood is removed from the body the haemoglobin is 
 readily separated from the corpuscles by various agents, and is then dis- 
 solved in the plasma, which becomes lac-colored. This solubility of the 
 haemoglobin is of importance in connection with the absorption of extra v- 
 asated blood. During the time necessary for this process to take place, 
 observable changes are apparent in the color of the affected part when 
 its seat is superficial, especially cutaneous. These changes in color are 
 largely dependent upon the modifications undergone by the haemoglobin. 
 
 It is well known that a yellowish discoloration of the general surface fre- 
 quently takes place when extensive internal hemorrhages have occurred, con- 
 stituting a form of jaundice (haematogenous) attributed to the presence of the 
 coloring matter of the blood. As yet there has been no satisfactory chemical 
 analysis of this diffused pigment, which if not hsematin must be regarded 
 as its derivative, although a coexistent increase of the urobilin in the 
 urine has been observed. The association of the stained skin and urine, 
 
 1 Virchouu's Archiv, 1870, xlix. 66. 
 
 2 Ueber Resorptionsmechanixmus von Elutergussen, Berlin, 1877.
 
 DEGENERATIONS. 9] 
 
 in the absence of causes favoring an absorption of bile-pigment, leads to 
 the inference that the abnormal discoloration is due to the absorption 
 into the circulating fluids of the body of a pigment dissolved out of the 
 extravasated red blood-corpuscles. This view is confirmed by the 
 microscopic examination of the latter, which discloses the presence of 
 pale, shadowy, round outlines enclosing faintly granular material, which 
 are regarded as decolorized red corpuscles. In the course of a few days 
 glistening crystals and granules of a yellowish-red color make their 
 appearance in the midst of the unabsorbed blood. The crystals are 
 usually oblique rhombic prisms, varying in size from the larger symmet- 
 rical shapes to the more minute, apparently granular, forms. Acicular 
 crystals are also to be met with, more yellow than red in color, and are 
 sometimes present in great abundance, although they may be wholly absent. 
 Virchow has applied the term haematoidin to these crystals. Owing to 
 the resemblance in the chemical reactions of solutions of haematoidin and 
 of the biliary coloring matter, bilirubin, and to the similar crystalline 
 forms of the latter, it has been maintained that the two are identical. 
 Late investigations indicate that solutions of crystals with the appear- 
 ances of haematoidin are not invariably alike in their reaction. A solution 
 of these in chloroform may become decolorized when acted upon by a 
 dilute alkali, or it may not be thus altered. Bilirubin presents the 
 former relation, while chloroform solutions of the coloring matter of 
 the yelk of egg and of the corpus luteum, called lutein or hsemolutein, 
 are not decolorized by an alkali. Although the crystalline forms of 
 hsematoidin and bilirubin are not to be distinguished, it is not to be 
 conceded that the two substances are identical. As Maly, 1 the latest 
 writer on this subject, states, the term haematoidin is merely indicative 
 of a microscopical picture. Although the identity of the coloring mat- 
 ter of the blood and of the bile is not admitted, the intimate relation 
 of the two is not only suggested by the similarity of crystalline form, 
 but by the relation determined between urobilin, bilirubin, and haema- 
 globin. Urobilin is the coloring matter extracted from the urine in fever 
 by Jaffe, and it has since been obtained from bilirubin by Maly, 2 who 
 has given it the name of hydrobilirubin. This hydrobilirubin has also 
 been derived from haemoglobin. According to Maly, this genetic relation 
 between the coloring matter of the blood and bile, shown in the produc- 
 tion of hydrobilirubin, is the only chemical evidence of the connection 
 of the two pigments. 
 
 Haematoidiu is to be regarded not only as directly derived from solu- 
 tions of haemoglobin, but as originating through the medium of indifferent 
 cells. Langhans claims that this pigment is formed within movable cells 
 which accumulate in great numbers in the vicinity of the blood-clot, and, 
 in virtue of their amoeboid properties, take into themselves the extravasated 
 corpuscles, entire or in fragments. The indifferent cell may become en- 
 larged into a giant-cell, and then contain numbers of whole or disinte- 
 grated red corpuscles. In time these colored corpuscles and fragments 
 become smaller, more glistening, and darker-colored, and eventually are 
 transformed into granular or crystalline haematoidin. These granules 
 may be set free by the fatty degeneration of the cell, or may be trans- 
 ferred within the cell to distant parts. 
 
 1 Hermanns Handbuch der Physiologic, 1880, vii. 155. ' Op. cit., 161.
 
 92 GENERAL MORBID PROCESSES. 
 
 The diffusion and absorption of a solution of haemoglobin, and the 
 formation of crystals of haematoidiu from the same or through the 
 medium of cells, are supplemented by an apparent inspissation and 
 condensation of the haemoglobin. The resulting dark-brown pigment 
 may remain at the seat of the hemorrhage indefinitely, and may be 
 accompanied with reddish-brown flakes, which, as shown by Kunkel, 1 
 are composed of hydrated ferric oxide. 
 
 Another feature in the absorption of extravasated blood is to be found 
 on examination of the nearest chain of lymphatic glands. These may be 
 seen swollen, of a dark-red color, and homogeneous surface. In density 
 and color, as well as shape, they suggest the small supplementary spleens 
 so frequently met with. These glands owe their change in appearance 
 to the presence of large numbers of unaltered red blood-corpuscles 
 which have entered the lymphatics traversing the region of hemorrhage. 
 Within the lymph-glands they undergo a metamorphosis similar to 
 that taking place at the part from which they were transferred. In 
 the course of weeks or mouths there remains in the place of extrav- 
 asation simply pigment, either as crystals or granules. Such pigment 
 may remain for years imbedded within the tissues, or it may become 
 absorbed, no trace of the original disturbance remaining. Its removal 
 may take place presumably through a local solution of the pigment or 
 the transfer of the granules or crystals by means of wandering cells to 
 the nearest lymphatic glands or to the more remote parts of the body. 
 An eventual elimination may occur through the secretions, especially the 
 urine or bile, or there may result a deposition and permanent retention 
 of the granules. 
 
 The investigations of Langhans are especially interesting, as suggesting 
 efficient means for the production of pigment by cells whose function is 
 intimately connected with pigmentation, as the cells of the rete Malpighii, 
 of the choroid, and of certain tumors. The observations of Gussen- 
 bauer, 2 however, lead to the conclusion earlier advanced by Virchow, 
 that pigment may be produced by the diffusion into cells, outside the ves- 
 sels, of a solution of the pigment of the blood in the plasma of the latter. 
 A precipitation of this dissolved pigment into granules is considered as 
 eventually taking place. 
 
 The method of origin of pigment thus described applies only to those 
 discolo rations which are unquestionably due to the metamorphosis of the 
 coloring matter of the blood. Examples are furnished not only by the 
 extravasation of blood on a large scale, but also by the escape of red 
 blood-corpuscles in small numbers. Such an escape takes place from the 
 pulmonary vessels in chronic obstruction to the admission of blood into 
 the left side of the heart. The resulting brown induration of the lungs 
 owes its color to the metamorphosed blood-pigment which is present as 
 haematoidin in the interstitial tissue of the lungs, as well as contained 
 within amoeboid cells in the alveolar and bronchial cavities. 
 
 It is probable that a similar transformation of haemoglobin takes place 
 in the spleen and elsewhere in melanaemia. In this condition the black 
 granules of pigment, although differing in color and form from haema- 
 toidin, contain iron, and have received the name melanin. These granules 
 are either free in the blood or are contained within the white blood-cor- 
 
 1 Virchorfs Archiv, 1880, Ixxxi. 381. * Ibid., 1875, Ixiii. 322.
 
 DEGENERATIONS. 93 
 
 puscles. Their origin in the spleen is directly suggested by their fre- 
 quent presence, often in considerable numbers, in the large, so-called 
 splenic, corpuscles of the blood in the hepatic capillaries. Eventually, 
 the pigment is found at more remote points in the circulation, and 
 becomes fixed in the interstitial tissue of the various organs of the 
 body. 
 
 The black pigment of the cells of melanotic tumors, also called mela- 
 nin, is not to be directly traced to the haemoglobin. Virchow 1 early called 
 attention to the absence of iron in such pigment. Ferrated and non-fer- 
 rated varieties of melanin are thus to be recognized, the term being used 
 in the same way as hsematoidin, indicative of a microscopical appearance. 
 A still further complication in the composition of melanin is suggested 
 by Kunkel, 2 who has isolated a ferrated pigment from melauotic tumors. 
 It shows, however, with the spectroscope, no relation to hcematin, biliru- 
 bin, or hydrobilirubin. That its nature is similar to the normal pigment 
 of the skin and choroid is suggested by the customary origin of the mela- 
 notic tumors in such pigmented tissues, and by the resemblance in appear- 
 ance and reactions. 
 
 That pigment of the most varied sort may be introduced into the body 
 from without, and may remain indefinitely in the organism, is sufficiently 
 well known from the results of tattooing. What is essential in such cases 
 is, that the pigment shall be finely divided and insoluble in the fluids of 
 the body. The most important of such pigmentations are those taking 
 place through inhalation into the lungs. The reception by this channel 
 of particles of soot is so common that it is most exceptional for the lungs 
 of an adult to be free from the bluish-black discoloration due to this 
 agent. Particles of coal-dust presenting the details of vegetable struct- 
 ure are met with in the lungs of individuals exposed to an atmosphere 
 charged with this material. The worker compelled to inhale the dust of 
 iron eventually accumulates a store of this substance, the quantity of 
 which is essentially dependent upon the length of exposure, the degree 
 of impregnation of the atmosphere, and the insufficient nature of the 
 protectives employed. 
 
 Although a large part of the pigmentation under such circumstances is 
 due to the direct presence of the foreign bod), the appearances are also 
 partly the result of consequent minute hemorrhages. The coal-dust and 
 the iron-filings are often sharp and jagged fragments, which penetrate the 
 delicate tissues, and the escaping red blood-corpuscles are acted upon by 
 the amoeboid cells in the air-passages, with the consequent formation of 
 haematin or hsematoidin, as are the blood-corpuscles in larger hemorrhages. 
 The inhaled pigment finds its way, either directly or by the agency of 
 amoeboid cells, into the lymphatics and fibrous tissue of the lungs, and 
 remains indefinitely either in the bronchial and pulmonary lymphatic 
 glands or in the interstitial tissue of the lungs. 
 
 Attention may be here called to that pigmentation of the skin and 
 deeper-seated parts of the body, especially of the kidneys, known by the 
 term argyria. The long continued internal use of nitrate of silver, in 
 former years so extensively employed, especially in diseases of the nervous 
 system, results in the reduction of the silver and its deposition as minute 
 particles in the tissues. Whether the silver is first reduced in the intes- 
 
 1 Virchow's Archiv, 1847, i. 378. 2 Ziegler, op. tit., 100.
 
 94 GENERAL MORBID PROCESSES. 
 
 tine and then absorbed, or whether it is absorbed as an albuminate and 
 subsequently reduced, still remains an open question. 
 
 Although the pathological pigmentations form an extended series of 
 alterations, the clinical importance of the condition may be regarded in 
 many instances as trivial. The pigments resulting from extravasation 
 produce no disturbance of function. The presence of bile-pigment does 
 not account for the symptoms of jaundice. The clinical importance of 
 melanaBmia has perhaps been overrated. The earlier observations led 
 directly to the inference that mechanical obstruction to the circulation in 
 various organs might take place. The particles of pigment and the cells 
 containing them were so numerous that this inference seemed quite prob- 
 able. The evidence is still lacking, however, which proves the existence 
 of definite symptoms and characteristic lesions as the result of the mela- 
 nsemic condition. 
 
 The inhaled foreign bodies, as coal and iron, are productive of greater 
 disturbances, and are well known as efficient causes in the production of 
 chronic pulmonary consumption. The coal-miner's and scissors-grinder's 
 phthises usually have, as an anatomical basis, catarrhal conditions of the 
 aerating surfaces and interstitial inflammations of the pulmonary con- 
 nective tissue. Mechanical obstruction to the aeration of the blood may 
 also be present from the extreme quantity of the foreign material in the 
 lungs. 
 
 Tuberculosis. 
 
 Until the investigations and discoveries of the past few years, the pres- 
 ence of tubercles in the various organs and tissues of the body had been 
 regarded as the essential element of tuberculosis. The evidence to be 
 presented in the following pages will show that the immediate cause of 
 tubercles may produce other lesions as well, and that the presence of a 
 specific virus as the efficient cause of whatever may be the lesion, rather 
 than the existence of tubercles, is to be regarded as the characteristic 
 feature of the disease tuberculosis. 
 
 The tendency of the present is to regard the latter term as including 
 the various morbid processes connected with the origin, presence, and 
 growth of a specific, organized virus, their dissemination, metamorphoses, 
 and effects. Whether all those processes in connection with which the 
 virus is found are due to the latter, or whether some may not arise and 
 exist independently of the same, are among the questions whose answer 
 is remote rather than at hand. 
 
 As the presence of the cause of tuberculosis is the test demanded by 
 some authorities for the existence of the process, so the anatomical classifi- 
 cation has depended upon the existence of the tubercle. The substitution of 
 tubercle for organized virus in the general definition of tuberculosis repre- 
 sents the distinction between the anatomical and the etiological classifica- 
 tion of this affection. 
 
 A tubercle was originally a small rounded body, a little tuberosity, and 
 at the close of the last century the specific tubercle was distinguished from 
 other rounded nodules. 
 
 Till the discovery of Yillemin, the recognition of the tubercle was essen-
 
 TUBERCULOSIS. 95 
 
 tially based upon its anatomical characteristics. Previous to the studies 
 of Reinhardt and Virchow these related to appearances, which yere at- 
 tributed to a deposition of material, scrofulous or tuberculous, from the 
 blood or lymph. The idea was eventually maintained that this material 
 formed the basis of a growth or new formation, and Virchow showed 
 that the tubercle was composed of a tissue, of cells and intercellular sub- 
 stance, growing within and from pre-existing tissues. He classified the 
 tubercles among the tumors as circumscribed new formations whose 
 structure resembled that of granulation-tissue. The specific tubercle was, 
 at the outset, minute, smaller than a millet-seed, submiliary, although 
 indefinite numbers of these minute tubercles might be grouped together 
 and form closely massed aggregations. From this agglomeration of 
 single tubercles, and their frequent association with inflammatory prod- 
 ucts, both of which were prone to early death and transformation into a 
 cheese-like mass, the extensive tubercular infiltrations of organs arose. 
 The latter were regarded as a frequent cause of the wasting disease phthisis, 
 which was either pulmonary, intestinal, or renal according as the lungs, 
 intestine and mesenteric glands, or kidneys were the predominant seat of 
 the tubercular growth. 
 
 The histological features of the tubercle were further investigated by 
 Wagner, 1 who described the resemblances and differences of the structure 
 of the tubercle and the lymphatic gland. Schiippel 2 soon after published 
 his monograph, essentially confirming the statements of Wagner. Ac- 
 cording to these observers, the typical tubercle, as found in lymphatic 
 glands, presents essentially the same peculiarities of structure when seen 
 elsewhere in the body. This structure consists of a non-vascularized net- 
 work of fibres, in the meshes of which cells are imbedded. The fibrous 
 network resembles the reticulum of a lymphatic gland, and nuclei are 
 often found at those points where the fibres are united. This appearance 
 has suggested that the network is formed of branching and anastomosing 
 cells. Within the meshes are three sorts of cells viz. giant-cells, epi- 
 thelioid (endothelioid) cells, and small, round, indifferent cells. One or 
 several giant-cells, each with its abundant nuclei, lie near the centre" of 
 the tubercle or are diffused throughout the same. These are usually 
 immediately surrounded by the large epithelioid cells, with one or more 
 nuclei, which are often so numerous as to compose the greater part of the 
 tubercle. The indifferent cells, resembling lymph-corpuscles, occur singly 
 or in groups, distributed throughout the tubercle more abundantly at the 
 periphery, between the cells previously described, and with them com- 
 pletely fill the spaces of the fibrous network. 
 
 Although the typical tubercle is thus constituted, the structural fea- 
 tures depend somewhat upon its age. It is generally admitted that the 
 freshest tubercles, as found in the external coat of the smaller arteries of 
 the pia mater, are composed of little else than a circumscribed accumulation 
 of small, round cells, without a distinct reticulum. The giant-cells, the 
 epithelioid cells, and the well-characterized reticulum appear as the tuber- 
 cle increases in age. It is thought probable that the giant-cells represent 
 the agglomeration of the small, round cells in pre-existing cavities, lymph- 
 atics, blood-vessels, or secretory canals. The epithelioid cells in like 
 
 1 " Das tuberkelahnliche Lymphadenom," Archiv der Heilkunde, 1870, xi. 6 ; xii. 1. 
 a Untersuchungen iiber Lymphdrusen- Tuber kulose, 1871.
 
 96 GENERAL MORBID PROCESSES. 
 
 manner are considered to result from the enlargement or fusion of the 
 smaller cells, while the reticulum represents either a secretion from, or a 
 transformation of, the cellular elements of which the tubercle is composed. 
 
 The subsequent history of the tubercle is dependent upon its meta- 
 morphoses. These are known as cheesy degeneration, calcification, and 
 fibrous transformation. 
 
 The absence of blood-vessels, already stated, and the abundantly cell- 
 ular nature of the growth, with the possible action of micro-organisms, 
 result in a tendency to the early death of the cells and a necrosis of the 
 tubercle. This is the cheesy degeneration, and is regarded as a form of 
 coagulative necrosis, which begins at the centre, advances toward the 
 periphery, and results in the transformation of the gray into a yellow 
 tubercle. This termination in cheesy degeneration likewise affects inflam- 
 matory products surrounding the tubercle, and even relatively normal 
 tissues in which numerous tubercles may lie. This cheesy material either 
 softens or becomes infiltrated with lime salts, calcified. The softening 
 of the tubercle results in the formation of a material capable of removal 
 as a discharge from the surfaces of the body or by absorption through 
 the lymphatics and blood-vessels. In the former event ulcers arise upon, 
 and cavities com'municate with, the surfaces of the body opening externally. 
 
 The cheesy material frequently becomes calcified, thus remaining as a 
 comparatively inert mass. The earthy salts may be diffused throughout 
 a uniformly cheesy basis, or they may be deposited in a partially softened, 
 cheesy menstruum, when a mortar-like material results. 
 
 The tubercle becomes fibrous with the diminution in the number of its 
 cells and the increase in the thickness of the reticulum, with the trans- 
 formation of the latter into a homogeneous hyaline substance. The corni- 
 fied, horn-like tubercle is one whose size is diminished from the shrinkage 
 of its cells into glistening flakes, without an evident associated cheesy or 
 fatty degeneration. 
 
 The intimate relation of scrofula to tuberculosis has been variously 
 expressed from time to time in accordance with the amount and accuracy 
 of the existing knowledge. At the outset the enlargement of the lymph- 
 atic glands, especially of the neck, characterized the scrofulous affec- 
 tion. As the enlargements of the glands were found to present intrinsic 
 differences connected with differing clinical histories, only those glands 
 were regarded as scrofulous which presented the cheesy appearances. 
 With the recognition of the cheesy condition of tubercles the latter were 
 identified with the scrofulous gland, from the cheesy condition common to 
 both. 
 
 This identification of scrofula and tubercle prevailed till Virchow 
 showed that cheesy material might have a different origin, and maintained 
 that there were cheesy lymphatic glands without tubercle, as well as 
 tuberculous lymphatic glands which might become cheesy. A distinc- 
 tion was thus drawn between scrofula and tuberculosis. The former 
 term was applied to that condition of the individual which favored the 
 retention and cheesy degeneration of inflammatory products, not only in 
 the lymphatic glands, but elsewhere in the body. Tuberculosis, on the 
 contrary, was characterized by the production of tubercles which w r ere 
 often accompanied by retained inflammatory products, both of which 
 were prone to undergo cheesy degeneration.
 
 TUBERCULOSIS. 97 
 
 The frequent association of well -defined tubercles with what were 
 regarded as antecedent scrofulous disturbances also suggested an intimacy 
 of relation between scrofula and tuberculosis. Virchow l had always 
 maintained the possibility of regarding tuberculosis as a heteroplastic or 
 metastatic scrofula. The occurrence of cases of tuberculosis without evi- 
 dence of an antecedent scrofula prevented him from making a more abso- 
 lute statement of the above relation. 
 
 The views with regard to the connection between scrofula and tuber- 
 culosis have become essentially modified of late years as a result of the 
 investigations concerning the etiology of tuberculosis. 
 
 In 185G, Buhl 2 first published his view, although he had for several 
 years been impressed with the idea, that miliary tuberculosis was an infec- 
 tive disease resulting from the absorption of a specific virus. He based 
 his theory upon the almost constant coexistence of one or several cheesy 
 collections and miliary tubercles. The former were recognized as the 
 remains of previous inflammatory processes, and the tubercles were 
 looked upon as the immediate result of the absorption of this cheesy 
 material. The individual thus infected himself. Buhl 3 claimed that 
 the simultaneous occurrence of tubercles and inflammatory products was 
 the co-effect of the same cause, and that the acute miliary tuberculosis, as 
 a localized process, was merely an inflammation with the development of 
 tubercles. He restricted the term tuberculous inflammation, however, to 
 those forms which necessarily and from the beginning, produced tuber- 
 cles whose presence was limited to the tissue inflamed. The tuberculous 
 inflammation was regarded as a primary condition, while the acute 
 miliary tuberculosis was a secondary process resulting from infection. 
 
 The tuberculous inflammation of this author was largely characterized 
 by those features which, with the exception of the constant presence of 
 tubercles, were recognized by others as attributes of a scrofulous inflam- 
 mation. At the same time, he objected to the latter term as a substitute, 
 since its use would imply that no other cheesy product than that from a 
 tuberculous inflammation would serve as the origin of tubercles. Buhl 
 strictly maintained that the absorption of any cheesy material, whatso- 
 ever its source, might give rise to a general growth of tubercle in the 
 body. 
 
 The views of this author were popularized mainly through the teach- 
 ings of Niemeyer 4 concerning pulmonary consumption. The latter 
 adhered to Virchow's views relating to scrofulous inflammation, but. 
 maintained that most consumptives were in imminent danger of becom- 
 ing tuberculous in accordance with the doctrines of Buhl. 
 
 The theory of an infectious origin of tuberculosis, advanced from time 
 to time by others, but most forcibly presented and maintained by Buhl, 
 was first demonstrated by Villemin 5 in 1865. This observer showed 
 that certain animals, especially rabbits and guinea-pigs, might be suc- 
 cessfully inoculated, beneath the skin, with fragments of gray tuber- 
 cle, cheesy products, sputum, and blood from cases of phthisis. The 
 development of tubercles took place within three weeks after the inocu- 
 
 1 Die Krankhnften Geschwiilste, 1864-65, ii. 629. 
 
 2 Lungenentsi'mdung, Tuberkulose und Sc.hwwdsucht, 1872, iii. 8 Op. cit., 123. 
 
 4 tylinische Vortrage uber die Lungenschwindsucht, 1867. 
 
 5 Eludes sur la Tiiberculose, Paris, 1868, 528. 
 
 VOL. I. 7
 
 98 GENERAL MORBID PROCESSES. 
 
 lation, and became general within four weeks. He also demonstrated 
 that rabbits became tuberculous when inoculated with bits of the tumors 
 occurring in the pearly distemper of cattle. 
 
 Villemin's observations have been repeatedly confirmed and extended ; 
 although subjected to the severest criticism and control, their results are 
 so constant that the law of the iuoculability of tubercle is almost uni- 
 versally regarded as fixed. Its value as a test is evident from the state- 
 ment of Cohuheim, 1 who regards as tuberculous only that which pro- 
 duces tuberculosis when transferred to suitable animals. The transfer 
 may be made in various ways. Chauveau and others were successful in 
 producing an intestinal tuberculosis by the introduction of tuberculous 
 material into the intestinal canal of animals, especially the Herbivora. 
 Tappeiner 2 succeeded in producing pulmonary tuberculosis, with or with- 
 out general tuberculosis, in dogs, by compelling them to breathe air in 
 which were contained minute particles of sputa from tuberculous pulmo- 
 nary cavities. 
 
 The production of a tuberculosis of the iris, as well as of remote 
 organs, by the inoculation of tuberculous material into the anterior 
 chamber of the eye, was an ingenious method devised by Cohuheim and 
 Salomonsen. 3 It permitted the direct observation of the several steps in 
 the process of absorption of the inoculated material and development of 
 the tubercles. 
 
 The objections to the various experiments above alluded to are based 
 upon the assumption that the results of the inoculation are not tubercles, 
 but inflammatory products resembling tubercles. It is further advocated 
 that the inoculation of indifferent material, as bits of glass or hairs, as 
 well as other foreign substances, will produce the so-called artificial 
 tuberculosis, especially in rabbits and guinea-pigs. It is admitted that 
 these animals readily become tuberculous when exposed to simple inflam- 
 matory irritants, the local action of which frequently results in the pro- 
 duction of cheesy material. This termination is now regarded as due to 
 faults in the method of experimentation, the animals not being thor- 
 oughly protected from the influence of the virus of tuberculosis. 
 
 The objection on the ground of structure loses its force in connection 
 with the well known differences in the structure of miliary tubercles in 
 the human body, already mentioned. The tubercles resulting from 
 inoculation often resemble in structure the meuingeal tubercles of the 
 brain rather than the type presented by tubercles in lymphatic glands. 
 The development of tubercles in the iris may take place without any 
 permanent inflammatory reaction. The association of evidences of in- 
 flammation with the development of the tubercle is therefore unnecessary. 
 
 The experiments of Villemin have not only demonstrated the infec- 
 tious nature of tuberculosis, but have also led to a more accurate know- 
 ledge of the relation between tuberculosis and its allied affections, scrofula 
 and pearly distemper. 
 
 The anatomical characteristics of scrofula have obviously proved insuf- 
 ficient in determining the relation presented by this affection to tuber- 
 culosis. The tendency to cheesy degeneration of its inflammatory prod- 
 
 1 Di-e Tuberkulose vom StandpunJcte der Infect ions- Lehre, 1880, 13. 
 
 2 Virchow's Archiv, 1878, Ixxiv. 393. 
 
 s Cohnheim's Vorlesungen iiber Allyemeine Patholoyie, 2te Auflage, 1882, i. 707.
 
 TUBERCULOSIS. 99 
 
 acts was the feature of chief importance. Villemin showed that por- 
 tions of a scrofulous (cheesy) gland when inoculated were followed by tuber- 
 culosis, and that the inoculation of cheesy material from non-tuberculous 
 or non-scrofulous sources was not followed by this result. The assump- 
 tion of Buhl, that the absorption of cheesy material, as such, was the cause 
 of tuberculosis, was thus disproved. The frequency with which the 
 inoculation of cheesy material, from what were regarded as scrofulous 
 sources, wa3 followed by tuberculosis, led to more exact studies concern- 
 ing the anatomical peculiarities of scrofulous inflammation. Koster 1 
 called attention to the regularity of the occurrence of miliary tubercles in 
 the fungous granulations of the inflamed joints of scrofulous and tuber- 
 culous individuals. Wagner 2 and Schiippel 3 discovered that scrofulous 
 glands, in most if not in all instances, were tuberculous glands. The 
 regularity of the presence of tubercles in scrofulous abscesses and ulcers 
 of the skin and in scrofulous caries was shown by Friedliinder. 4 This 
 observer likewise called attention to the presence of agglomerated tuber- 
 cles as the chief constituent of the new formation of lupus. These 
 anatomical discoveries resulted in uniting more closely the affections 
 scrofula and tuberculosis from the histological standpoint, and the union 
 has become more firmly cemented from the etiological investigations. 
 
 Sch tiller 5 has shown that the introduction of finely divided material 
 from a scrofulos joint that is, from one containing tubercles into the 
 lungs of rabbits was followed by a tuberculosis of the tracheal wound, 
 the lungs, and liver. Similar experiments with reference to the intro- 
 duction of lupus-tissue produced results suggestive of tubercle, if not 
 actually tuberculous. 
 
 The intimacy of relation between tuberculosis and pearly distemper 
 is a necessary result of Villemin's 6 experiment, in which the rabbit became 
 tuberculous after inoculation with fragments of the pearly tumor. Ger- 
 lach, 7 and especially Schiippel, 8 showed that the structure of the nodules 
 of the pearly distemper is the same as that of the tubercles of man, 
 and that the two diseases are identical from the histological point of 
 view. 
 
 From the anatomical identification and the etiological connection, as 
 shown by Villemin, Gerlach, and Aufrecht, the pearly distemper became 
 designated as a bovine tuberculosis. 
 
 The experiments of Villemin were further productive in leading to the 
 discovery by Koch of the bacillus tuberculosis. It was early obvious 
 that certain cheesy material and gray tubercles possessed the infectious 
 qualities, and Villemin 9 maintained that the immediate cause of the latter 
 was a germ introduced from without, which propagated and perpetuated 
 itself in man and certain animals. This view acquired prominence 
 through the investigations of Klebs, who in 1877 claimed to have iso- 
 lated the micrococci which produced tubercles when injected into animals. 
 Three years later Schuller 10 confirmed the statements of Klebs, and asserted 
 that he had been enabled to obtain infective micrococci by cultivation from 
 
 1 FireWs Archiv, 1869, xlviii. 95. 2 Loc. cit. * Op. cit. 
 
 4 Volktmarm'a klinische Vortriiye, 1873, Ixiv. 
 
 5 Untermchungen iiber die Emkhung vnd Urscic/icn der Kkrophulosen und TvJ>erkulosen 
 Ge/enkleiden, 1880. 6 Op. cil., 537. 7 Virchovfs Archiv, 1870, li. 290. 
 
 8 Ibid., 1872, Ivi. 38. 9 Op. cil., G20. 10 Op. cit., 55.
 
 100 GENERAL MORBID PROCESSES. 
 
 miliary tubercles, scrofulous glands and joints, and from the tissue of lupus. 
 Aufrecht l found micrococci, single and in chains, and short glistening 
 rods, within tubercles resulting from inoculation with material from pearly 
 tumors. The same organisms were found in tubercles produced by the 
 inoculation of tubercles from man, and he regarded these rod-shaped 
 bodies as the specific element productive of miliary tuberculosis. 
 
 The isolation of the virus of tubercle was thus regarded as an open 
 question till the announcement by Koch 2 of the constant presence of a 
 hitherto unknown, characteristic, well defined organism in all tuber- 
 culous affections, which, when isolated and introduced into animals, 
 produced tuberculosis, the resulting tubercles likewise containing the 
 organism. 
 
 The latter, the bacillus tuberculosis, was to be seen in preparations 
 methodically treated and carefully stained with aniline colors, by all of 
 which, excepting the browns, the bacillus was tinged. It was found in 
 miliary tubercles of the lung, cerebral and intestinal tubercle, cheesy 
 bronchitis and pneumonia, phthisical sputa, scrofulous glands, and fungous 
 inflammation of the joints. It was also seen in the nodules of pearly 
 distemper and in the cheesy masses from the lungs of cattle. It was 
 furthermore met with in the cheesy lymphatic glands of swine, in the 
 tubercular nodules of a fowl, and in the tubercles of guinea-pigs, rabbits, 
 and monkeys. The bacilli were likewise found in the tubercles resulting 
 from the inoculation of animals with tubercular virus from its various 
 sources. 
 
 The microphytes were described as very slender rods, varying in length 
 from cne-fourth the diameter of a red blood-corpuscle to its entire diam- 
 eter, and spores were occasionally seen within the rods. In shape and 
 size they resembled the bacilli of leprosy, but the latter were narrower 
 and pointed at the ends. They were found in greatest abundance when 
 the tuberculous process was recent and rapidly advancing, and were 
 present within, as well as between, cells. The younger giant-cells con- 
 tained them in larger numbers than the older forms. They were present 
 at the periphery of cheesy nodules rather than at the centre. 
 
 The bacilli were cultivated through successive generations and required 
 a temperature of between 30 C. and 41 C. (86 F.-105.8 F.) for their 
 development, one of 37 C. or 38 C. (98.6 F. or 100.4 F.) being the 
 most favorable. The crop first became apparent on the tentli day after 
 sowing, and the growth extended through a period of three to four weeks, 
 forming a compact scale. The cultivated bacilli, even propagated through 
 several generations, when inoculated, produced the same positive results as 
 follow the inoculation of fragments of tuberculous material, although 
 animals might be used which are not easily infected with tuberculosis. 
 
 Koch's publication was immediately followed by a statement from 
 Baurngarten 3 of his discovery of rod-like bacteria in the tubercles of 
 rabbits resulting from the inoculation with pearly masses, and in the 
 pleural and perieardial tubercles of man. They were made evident by 
 treating the sections for microscopic examination with very dilute solutions 
 of soda or potash. 
 
 1 Pathologist-he MittheHungen, 1881, p. 43. 
 
 1 Berliner Hinische Wochcvxchrift, 1882, p. 15. 
 
 3 Centralblatt fur die med. Wissenschaften, 1882, xv. 257.
 
 TUBERCULOSIS. 101 
 
 The discoveries of Koch thus show that the production of tuberculosis 
 is dependent upon the presence of distinctive bacilli, and that these bacilli 
 are present not only in miliary tubercles, but in scrofulous glands and 
 joints, in cheesy inflammation of the lungs, and in the pearly distemper 
 of animals. The identification of tuberculosis with the pearly distemper 
 and certain scrofulous affections is thus established from the etiological as 
 well as the histological point of view. 
 
 As the bacilli are to be regarded as the virus of tuberculosis, so their 
 introduction into the human body is necessary for the production of this 
 disease in man. It is obvious, however, that other factors than the virus 
 are necessary, for not every one exposed to the reception of tubercular 
 bacilli becomes tuberculous. It may well be that scrofula is still to be 
 regarded as that condition of the solids and liquids of the body which 
 offers favorable opportunities for the retention and growth of the bacilli, 
 and thus for the production of tuberculosis. Forrnad 1 claims that lie has 
 discovered structural peculiarities of tissue as a cause for the scrofulous 
 habit, which he regards as synonymous with a predisposition to tubercu- 
 losis. These peculiarities are manifested by a narrowness of the lymph- 
 spaces and their partial obliteration by cellular elements. He also main- 
 tains that these features are not only of congenital origin, but may be 
 acquired through malnutrition and confinement. 
 
 The occurrence of a local, circumscribed tuberculosis in extreme old 
 age, without antecedent or other concurrent evidence of scrofulous dis- 
 turbances, suggests that favorable opportunities for the development of 
 the tubercular bacillus may arise in advancing years. In like manner, 
 the frequent termination in phthisis of cases of diabetes suggests the 
 likelihood of tuberculous inflammation arising in the absence of any 
 evidence of previous scrofulous or tuberculous disease. The scrofulous 
 condition or constitution, as indicated by vulnerable tissues, with a pro- 
 tracted course of inflammations, and a persistence of their products, 
 with a tendency to cheesy degeneration, may still exist without a sign of 
 tuberculosis. Those who claim that scrofula and tuberculosis are identical 
 must, in the light of Koch's discovery, demonstrate the presence of 
 the bacillus in all scrofulous inflammations, and deny the existence of 
 scrofula apart from indisputable manifestations of the activity of the 
 bacilli of tuberculosis. It may be that such evidence will be presented ; 
 until it is collected scrofula and tuberculosis are to be regarded as distinct 
 though often coexistent. The scrofulous person is frequently tuberculous, 
 the tuberculous person is usually scrofulous; the non-scrofulous person, 
 however, may die of tuberculosis, while the individual may be scrofulous 
 without containing tubercle. 
 
 The actual inheritance of tuberculosis is very unlikely, although this 
 disease is frequently found in successive generations of a single family. 
 The various members of the family are rather to be regarded as furnish- 
 ing a suitable soil for the growth of the tubercular bacillus, and their expo- 
 sure to its seed is favored by the existence of tuberculosis in one or more 
 members of the household. The scrofulous condition is still to be regarded 
 as hereditary as well as acquired, and the scrofulous remain as the class to 
 be especially protected from the reception and effects of the bacilli of 
 tuberculosis. 
 
 1 Studies from the Pathological Lab. of the Univ. of Penim., reprint, 1882, xi. 3.
 
 102 GENERAL MORBID PROCESSES. 
 
 It is obviously a matter of importance to determine in any given case 
 of phthisis whether bacilli are present or absent. A ready means of ascer- 
 taining this fact is offered by the examination of the sputum in cases of pul- 
 monary phthisis, the feces in intestinal phthisis, the urine in renal phthisis, 
 and the aspirated pus in cases of supposed tuberculosis of the joints. 
 Koch has found in examining the sputa from numerous cases of phthisis 
 that the bacilli were present in one-half the number, and that they were 
 absent from the sputa of individuals who were not phthisical. Balmer 
 and Fraentzel 1 have found bacilli in the sputum from one hundred and 
 twenty cases of phthisis, and concluded that the progress of a case of pul- 
 monary tuberculosis might be readily determined from the number and 
 degree of development of the typical bacilli present in the sputum. The 
 more numerous and well -developed bacilli, with distinct and constant 
 spores, were found in the graver cases, which advanced more rapidly. 
 The sputum of the protracted cases contained few, small, and thin bacilli 
 with scanty spores. The presence of fever was associated with numerous 
 bacilli, while its absence was noted in those cases where but few were present. 
 
 The bacilli are readily detected by means of the staining method 
 devised by Koch. Various modifications have been presented from time 
 to time, of which that of Ehrlich 2 has proved the most satisfactory'. The 
 essential features are to obtain a dry, thin layer of a selected portion of 
 the suspected sputum, which is then to be deeply stained with 'fuchsin or 
 methyl-violet ; the excess of color is to be removed with nitric acid, and 
 the preparation is then ready for examination with the microscope. A 
 power of four or five hundred diameters is sufficient for the recogni- 
 tion, and the object should be illuminated with a flood of light through 
 a large diaphragm or an achromatic condenser. The bacillus retains 
 the color notwithstanding its exposure to the acid, and the violet colors 
 are more strongly presented if the preparation is tinted yellow after 
 the action of the acid. If the bacilli are stained red with fuchsin, the 
 background should be made blue. It is important that the reagents 
 should be freshly prepared and filtered, that other bacteria may not 
 obscure the picture, and that all the apparatus employed should be 
 thoroughly clean. 
 
 A fragment of thick, opaque sputum is to be taken in forceps, placed 
 on a cover-glass, and spread into a thin layer by means of a second cover- 
 glass. The prepared slide is then to be passed slowly through an alcoholic 
 flame, or that of a Buusen burner, till the layer of sputum is dried. A satu- 
 rated alcoholic solution of methyl-violet or fuchsiu is made and filtered, and 
 added, drop by drop, to a filtered, saturated solution of aniline oil shaken in 
 water. The color is to be added with stirring till an opalescent film forms 
 on the surface of the mixture. The slide containing the dried sputum is 
 to be placed in or on this staining fluid, and allowed to remain for half an 
 hour or less, the application of warmth hastening the process, when it is 
 removed, and the specimen is decolorized in a solution of one part of nitric 
 acid and two parts of water. The preparation is then washed in water, and 
 may be examined directly in water, glycerin, or, after dehydration in 
 alcohol, in oil of cloves. The tinted bacilli are made more prominent by 
 a secondary staining, for a minute or two, of the red (fuchsiu) preparation 
 
 1 Berliner klinisclie Wochenschrifi, 1882, xlv. 679. 
 *Allg.med. Centr Zeitung, 1882, xxxvii. 458.
 
 TUBERCULOSIS. 103 
 
 in a concentrated solution of methyl-blue, the violet preparation being 
 secondarily stained in a like solution of aniline-brown. If the prepa- 
 ration is to be permanently preserved, it should be dehydrated in strong 
 alcohol after washing with water, and it may then be treated with oil of 
 cloves and mounted in Canada balsam. 
 
 After the observer has become thoroughly familiar with the tubercle 
 bacilli by means of the method of Ehrlich, much time may be saved by 
 following that of Baumgarten. 1 The cover-glass bearing the dried sputum 
 is placed in a very dilute solution of caustic potash (two drops of a 33 
 per cent, solution in a watch-glass of distilled water) till the layer of 
 sputum becomes transparent. The cover is then placed on a slide moist- 
 ened with a drop of water, tapped slightly, and examined with the micro- 
 scope. The bacilli are readily seen, and may be differentiated from other 
 varieties of bacteria, if necessary, by again drying the object and exam- 
 ining it in a drop of a dilute watery solution of aniline-violet or of other 
 preparations of aniline used for staining nuclei. The tubercle bacilli 
 remain unstained, while putrefactive bacteria are tinted. 
 
 The tubercular products of the invasion of the body by the bacillus 
 tuberculosis are regarded as primary or secondary, according as they are 
 present at that part of the body which directly receives the organisms or 
 as they are dependent upon the transfer of the latter to parts remote from 
 the region of their admission and immediate effects. This differing rela- 
 tion is also expressed by the terms local and general tuberculosis. In 
 the former the bacilli excite the growth of tubercle only at a given part 
 of the body. Their apparent effects may be wholly limited to this 
 region, and it not rarely happens that the same is quite distant from the 
 channels through which the bacilli are admitted. A general tuberculosis 
 occurs when the latter are disseminated over the body, and their effects, 
 especially the production of numerous tubercles, are found at various 
 parts. The dissemination may take place at the time of entrance, or, as 
 is more commonly the case, apparently occurs at some subsequent period, 
 the immediate disturbances being localized at a given portion of the body. 
 The necessary conditions being here offered for the propagation of the 
 bacilli, their sudden distribution in great numbers is afterward permitted 
 when favorable opportunities arise for their absorption. Such conditions 
 are present when the local tubercular growths extend into lymphatics or 
 blood-vessels. The frequency with which scrofulous glands are tuber- 
 culous that is, contain miiiary tubercles is already fully recognized, 
 and a tuberculosis of the lymphatic glands is essentially regional. These 
 glands become affected in consequence of disturbances, the local effects of 
 which may have wholly disappeared, in the region from which they receive 
 their lymph. The cervical glands become permanently enlarged, perhaps 
 tuberculous, in connection with persistent or recurrent inflammatory pro- 
 cesses in the tonsils and pharynx, the bronchial glands from similar bron- 
 chial or pulmonary affections, and the mesenteric glands from like intes- 
 tinal disturbances. In such instances, the direct reception of the bacilli 
 into the lymph-current is assumed rather than demonstrated from a 
 knowledge of the possibilities of absorption and an appreciation of the 
 conditions in the glands. 
 
 That an actual growth of tubercles from the wall of the intestinal lymph- 
 1 Centralblatt fiir die med. Wissenschaften, 1882, xxv. 433.
 
 104 GENERAL MORBID PROCESSES. 
 
 atics may take place has long been known, and Ponfick lias recently 
 discovered that tubercles may be found growing from the wall of the 
 thoracic duct. The possibility of the direct admission into the lymph- 
 current of the infective element in tuberculosis is thus apparent, and its 
 indirect entrance into the blood-current is equally obvious. That the 
 bacillus of tubercle may be directly received into the blood-current is 
 likewise evident from the observations of Weigert, who found tubercles 
 growing from the walls of the pulmonary blood-vessels, venous as well 
 as arterial. This discovery of a tuberculosis of the blood-vessels was 
 confirmed by Klebs, who had found a tuberculosis of the azygos veins. 
 The occurrence of multiple miliary tubercles of the pulmonary veins, 
 especially near the place of entrance of smaller branches, has been asserted 
 by Miigge, 1 although appearances similar to those described by him may 
 be met with, due simply to the agglomeration of white blood-corpuscles 
 and their necrosis. Such a condition simulates very closely the miliary 
 tubercle, but is usually analogous to the appearances figured by Virchow, 2 
 and described by him as one of the phenomena of coagulation. In his 
 observation the white bodies were adherent to the red clots, and were 
 with them drawn from the pulmonary artery. 
 
 With the admission into the body, and the colonization of the tubercular 
 bacilli, their effects may either be progressive until the death of the indi- 
 vidual is occasioned, or, with the cessation of the growth of the bacilli or 
 a possible modification of their noxious properties, recovery may ensue. 
 The history of scrofulous glands, as well as that of circumscribed pul- 
 monary inflammation in scrofulous persons, both presumably of a tuber- 
 culous nature, show that the effects of an invasion of the parasites may 
 be overcome. 
 
 The regions of the body which are usually the seat of a primary 
 tuberculosis are unquestionably the respiratory and intestinal tracts. 
 With regard to the first of these regions, the one most frequently 
 affected, there can be no doubt that in most instances the inhaled air 
 carries the bacilli or their spores, or both. Their constant presence in 
 the sputum of the frequent cases of tuberculous phthisis suggests a ready 
 means for their escape into the atmosphere. The well recognized infec- 
 tive qualities of the sputum, as demonstrated by the various experiments 
 before the bacillus was discovered, demand the thorough disinfection of 
 phthisical sputa, since these are in all probability the chief source of the 
 dissemination of the disease. 
 
 The tuberculosis of the intestine in like manner is to be regarded in the 
 main as the result of an absorption from its surface of the specific agent. 
 An obvious direct means of the approach of the bacilli is offered in the 
 sputum, which, when swallowed, is likely to retain its virulent properties. 
 The frequent coexistence of chronic pulmonary and intestinal tubercu- 
 losis is thus most readily explained. To what extent the presence of 
 the bacilli in the pearly distemper of rnttle and in the tuberculosis of 
 other edible domesticated animals, as fowls and swine, may lead to an 
 infection of the intestinal wall, still remains an unsolved problem. It is 
 not yet determined at what temperatures the bacilli are destroyed, 
 although their growth takes place only between 30 C. (86 F.) and 
 
 1 Virchou?* Archi'v, 1879, Ixxvi. 243. 
 
 2 Die Cellular Pathologic, 4te Auflage, 1871, 184.
 
 MORBID GROWTHS. 105 
 
 41 C. (105,8 F.). The inoculation of pearly masses produces tubercu- 
 losis in certain animals, yet the effect of cooking in destroying the bacilli 
 and their spores is likely to prove of great importance. Aufrecht's 1 
 attempts at inoculating rabbits with cooked pearly masses proved unsuc- 
 cessful. Schottelius 2 publishes an interesting series of observations 
 relating to the prolonged use of meat from cattle affected with the 
 pearly distemper, and shows that after a period of years no disease of the 
 nature of tuberculosis occurred among the one hundred and thirty indi- 
 viduals included in the families concerned. Whatever may be the value 
 of this negative testimony, there is, as yet, no evidence 011 the other side 
 which satisfactorily determines the point in question viz. that the flesh 
 of animals affected with pearly distemper produces tuberculosis in the 
 human consumer. 
 
 The milk from cows thus diseased has likewise been regarded with 
 suspicion, and the frequency of intestinal tuberculosis among children 
 has been attributed to this source. Although the theoretical possibility 
 of the escape of the bacilli into the milk of COW T S affected with pearly dis- 
 temper is obvious, their presence in such milk is first to be demonstrated 
 under conditions which necessitate their origin from the animal. If 
 boiling the infective material for three minutes destroys its virulence, as 
 claimed by Aufrecht, a ready means is offered of destroying the tubercle 
 bacilli which may be present, not only in the milk from animals affected 
 with pearly distemper, but in all milk which has been exposed for a cer- 
 tain time to an atmosphere which may contain the bacilli of tuberculosis. 
 In the light of our present knowledge extreme hygienic precautions are 
 only demanded in those cases where such a congenital or acquired basis 
 (constitution) is present as facilitates the development of tuberculosis. 
 
 Morbid Growths. 
 
 In a system of practical medicine it is obviously important to include 
 under the head of Morbid Growths not only what is spoken of by the 
 surgeon as a tumor, but also those new formations of tissue which, in vir- 
 tue of their nature, seat, manner of growth, and retrograde changes, pro- 
 duce an important series of disturbances in the physiological processes of 
 the individual. The surgeon deals essentially with the swelling, which, 
 producing irregularities in the outline of the accessible surfaces of the 
 body, is regarded as an excrescence or outgrowth. It is important for 
 him to realize the nature of this swelling, that he may follow a different 
 treatment for the abscess, the wen, the watery accumulation, or the fleshy 
 mass. The last is the tumor in the limited sense ; it is the growth which, 
 though called morbid, becomes so only in consequence of its presence 
 being associated with symptoms whose existence and persistence interfere 
 witli the Avell-beiug of the possessor. 
 
 The physician, on the contrary, is more concerned with the tumor as a 
 growth than as a swelling. The latter element in deeply-seated portions 
 of the body may not be brought to his attention. The growth takes 
 place in such a manner as to be productive of certain symptoms more 
 or less serious, among which swelling is least obvious. The morbid 
 
 1 Op..cit., 51. * Virchou/s Archiv, 1883, xci. 129.
 
 106 GENERAL MORBID PROCESSES. 
 
 growth to him becomes prominent as it displaces or replaces normal 
 tissues by those newly formed, which may or may not be normal to the 
 part in which the growth is situated. His tumor is therefore a morbid 
 growth, a new formation, a neoplasm or pseudoplasni, rather than a 
 swelling, a bunch, or an excrescence. 
 
 In a consideration of the general pathology of morbid growths the 
 first question which suggests itself relates to the method of origin of the 
 tumor. The tendency of the present seeks for a local cause, and the 
 most recent theory, that of Cohuheim, demands an accumulation of dor- 
 mant embryonal cells as such a cause. Cohuheim supports this view by the 
 experiments of Zahn and Leopold, which show that foetal cartilage trans- 
 planted into the tissues of a mature animal may grow so rapidly as to 
 present the characteristics of a cartilaginous tumor, while tissues trans- 
 ferred from the animal after birth do not increase in size, but are usually 
 absorbed. 
 
 As the active elements of the growth are cells, and all cells admissibly 
 arise from pre-existing cells, it follows that the primitive cells of a tumor 
 are derived from those resulting from the segmentation of the ovum or 
 are introduced from without. Numerous experiments have been made 
 with a view to the inoculation of tumors, the transplantation of living 
 fragments of the latter to the living tissues of a healthy individual, for 
 the sake of producing a tumor, but hitherto almost invariably without 
 success. The alternative remains that the embryonal cells are those 
 whose derivatives are present in, and form the essential element of, the 
 morbid growth. All tumors may thus be said to have an embryonal 
 origin. As the segmentation of the ovum eventually results in the 
 production of normal tissues and groups of tissues whose structure and 
 function are wholly different, so the possibility of the production of 
 abnormal groupings of tissue with corresponding irregular manifestations 
 of function is obvious. 
 
 The cells of the part from which a tumor arises may be regarded as 
 indifferent, those whose limitations of growth, like the early embryonal 
 cells, are only determined by the changes they undergo, or their limits 
 of growth may be already defined in kind, and their like be produced in 
 the formation of the tumor. The origin of a tumor thus presupposes 
 the existence of such indifferent cells, or the presence of those whose 
 limit of transformation has already been reached. The leucocytes of the 
 body, whether found as white blood-corpuscles or lymph-corpuscles, or 
 as the wandering cells of connective tissue, are, as Virchow has indicated, 
 such indifferent cells. Always present and apparently transitory, what 
 they are to become can only be determined from their condition and sur- 
 roundings at the time of observation. Although their actual transformation 
 into the various cells of a more permanent type is merely a matter of infer- 
 ence in the growth of tumors, the evidence presented by Ziegler l leads 
 directly to the conclusion that their presence is necessary to the new 
 formation of tissues whose growth is the result of an inflammatory pro- 
 cess. These tissues may occur under such restrictions as permit them to 
 be classified as tumors, and the granulomata, or tumors whose tissue 
 resembles that of the granulations upon the surface of a wound, repre- 
 sent a well defined group in structure as well as method of origin. 
 
 1 Op. tit., 150.
 
 MORBID GROWTHS. 107 
 
 The production of the cells of a tumor from indifferent cells is at 
 present an assumption, based upon the frequent presence of the latter 
 within tumors and in their vicinity ; and the obvious objection arises 
 that even if the presence of these cells is admitted as indispensable, it by 
 no means follows that they are directly transformed into the more charac- 
 teristic cells of the tumor. That they may serve for the nourishment of 
 the amoeboid cells of certain tumors is suggested by the existence of both 
 in morbid growths, and the well-known property of amoeboid corpuscles 
 to take in formed material, even cells, from without. 
 
 The origin of tumors from cells whose limits of growth are already 
 defined is rendered probable from the absence, entire or in great part, of 
 indifferent cells from certain tumors, and the direct continuity of the latter 
 with a similar normal tissue of the body. Various tumors show such an 
 intimate relation, and there is no sharply defined border-line between the 
 normal tissue and that which represents the tumor. The occasional 
 presence of islets of well characterized tissue at points more or less 
 remote from the normal position of such tissue at the time of their 
 discovery suggests a feasible source for an eventual tumor. Virchow 
 long ago called attention to isolated nodules of cartilage within bones in 
 the vicinity of epiphyseal cartilages, probably detached from the latter, 
 which might serve as the origin of a cartilaginous tumor in this region. 
 This inclusion of tissue is also suggested by the frequency of certain 
 tumors in certain regions where the developmental conditions are favor- 
 able. Liicke l mentions the frequency of dermoid cysts near the median 
 line of the head, the vicinity of the eye, and the side of the neck. Such 
 regions are those where fissures exist during foetal life, with normal invo- 
 lutions of the outer germinal layer; which involutions may become irreg- 
 ular, and eventually included or shut in, as the fissures become closed. A 
 similar explanation is offered for the frequent occurrence of cartilaginous 
 tumors at the angle of the jaw, it being thought probable that bits of 
 embryonal cartilage, during the formation of the ear, become included in 
 the salivary glands. 
 
 In like manner, Cohnheim explains the frequent occurrence of certain 
 epithelial tumors at the orifices of the body the cervix uteri and the 
 vicinity of the tracheal bifurcation not through the exposure of these 
 parts to injury, but because they are regions in which embryonal 
 irregularities of development are likely to arise. 
 
 That congenital, local peculiarities are an important element in the 
 origin of tumors has already been strongly advocated by Virchow. Not 
 only are children born with tumors, but instances of growths eventually 
 arising from birth-marks, and the occurrence of certain tumors in the 
 same locality in successive generations of the same family, are suffi- 
 ciently familiar. 
 
 Although certain tumors are admitted to be due to congenital peculiar- 
 ities of tissue, and even to represent atypical growths from embryonal tis- 
 sue, the theory of such an embryonal origin for all tumors seems unneces- 
 sary. The resemblance in symptoms as well as in appearance, and even in 
 structure, of certain tumors to inflammatory products, and their frequent 
 association with these, has led to the suggestion of an irritant an an exciting 
 cause for the tumor, even in the absence of local peculiarities of tissue. 
 
 1 Volkmann's Sammluny klinischer Vortrage, xcvii. 819.
 
 108 GENERAL MORBID PROCESSES. 
 
 It is obvious that were the embryonal theory of origin, as extended by 
 Cohuheim, universally applicable, the growth demands something more 
 than a focus of embryonal cells. An immediate cause for their growth 
 after a dormant period, extending even into old age, is required. Cohn- 
 heim finds such in a sufficient supply of blood. He attributes the devel- 
 opment or rapid growth of the tumor to this feature, and supports his 
 view by the usual appearance of exostoses when the skeleton is at its 
 period of most vigorous growth, and of dermoid cysts at a time when the 
 formation of the beard indicates active developmental conditions in the 
 outer germinal layer. 
 
 The growth of ovarian cystomata at and after puberty, and of these 
 and mammary tumors during pregnancy, are also explained on the ground 
 of a more abundant supply of blood at such periods. He and others find 
 in physiological conditions a source for the abundant blood-supply that 
 is, the efficient nutrition for the growth of a tumor. The necessity of 
 sufficient nutrition in the development of tumors is universally admitted, 
 and its source may be looked for in pathological as well as physiological 
 conditions. 
 
 The existence of an irritant of some sort often seems probable, and, 
 although its absence is more frequently determined than its presence, it 
 is obvious that when present it may be overlooked. Although traumatic 
 irritants of considerable mechanical severity exist in but a small percent- 
 age of tumors, their occasional influence in the production of morbid 
 growths is not to be denied. Their action may be explained as producing 
 a congestion or as enfeebling the opposition of physiological tissues to 
 pathological growths. The importance of an irritant as the exciting 
 cause, however its action may take place, is supported not only by the 
 sequence of injuries and tumors, but also by the frequent occurrence of 
 tumors in parts exposed to injury and irritation. Such exposure may 
 result from position, structure, or function. The orifices and prominences 
 of the body, the retained testis in the inguinal canal, are notoriously 
 liable seats of tumors. Soft, friable, and slightly resistant structures, like 
 mucous membranes, are not only the frequent place of origin of tumors, 
 but the most exposed parts of such structures are oftenest affected. The 
 exposure resulting from function is manifest by the relation presented by 
 the periods of greatest functional activity of the growth of tumors in such 
 organs as the mammary gland, uterus, and ovaries. 
 
 The importance of an irritant is still further suggested by the associa- 
 tion of tumors with inflammation. The growth of tubercles and cancer 
 from serous membranes is frequently accompanied by an acute inflamma- 
 tion of the latter ; fibrous tumors and chronic interstitial inflammations 
 often coexist, while elephantiasis is usually preceded by recurrent, erysip- 
 elatous inflammation of the skin. 
 
 The recent discovery of infective organisms as an exciting cause for 
 many of the members of an entire group of tumors, the granulomata, has 
 resulted in making prominent the etiological rather than the structural 
 features of the tumors concerned. 
 
 Local peculiarities of tissue, whether congenital or acquired, are thus 
 regarded as representing the beginnings of the growth. With the mul- 
 tiplication of the cells their transformation may take place or a change 
 in their grouping may arise. The essential condition in the production
 
 MORBID GROWTHS. 109 
 
 of the morbid growth is that the formation of the cells should take place 
 at an abnormal time or place and should progress in a normal or abnor- 
 mal manner. 
 
 The growth takes place with greater or less rapidity in one or another 
 direction according to the nature of the tumor and its seat. The more 
 closely the tumor resembles the normal structures of the body, the slower 
 is its growth ; the more it differs in composition, the more rapid is its 
 progress. This difference may arise from a predominance of cells over 
 intercellular substance, as in the case of the sarcoma, or it may result 
 from an atypical combination of tissues, as seen in the development of 
 epithelium and connective tissue in cancer. 
 
 The seat of the tumor is of importance mainly on account of the vascular 
 supply of a part and the more spongy or yielding nature of certain 
 regions. That the more abundant the nutrition of certain regions of the 
 body, the more favorable the opportunities for growth, may be admitted 
 without question. The spongy nature of tissues implies a predominance 
 of cavities over solid constituents. These cavities are lined by surfaces 
 which represent, on the one hand, the walls of lymph-spaces, on the 
 other the free surfaces of the body exposed to the air, as the mucous or 
 cutaneous surfaces and the pulmonary surface. The rapidity of growth 
 in the direction of the least resistance is amply shown in the projection 
 of tumors above the surface of serous membranes and the frequent pres- 
 ence of fungoid excrescences in various parts of the body. 
 
 The growth of tumors extends in all directions, but a distinction has 
 long been drawn between the concentric or interstitial manner of growth 
 and the excentric or infiltrating form. This distinction is based upon 
 the presence of a sharply defined limitation of pathological and normal 
 tissues or upon the absence of such a limitation. Such a distinction is 
 merely of relative importance, as certain tumors may grow in both 
 ways. This is best observed in those bulging superficial tumors whose 
 base is irregularly extended into the continuous healthy tissues. 
 
 The concentric variety of growth includes those tumors which have 
 commonly been described as encapsulated, and which are capable of 
 ready enucleation from their surroundings in virtue of a thin layer of 
 loose connective tissue lying between the tumor and the contiguous 
 tissue. Such a capsule represents the matrix, the pia mater, in which lie 
 the blood-vessels going to and coming from the tumor, and is often 
 nothing else than the distended and hyperplastic fibrous tissue remaining 
 after the absorption of the muscular fibres or gland-cells from the tissues 
 surrounding the morbid growth. 
 
 The excentric, peripheral, or infiltrating extension of the tumor takes 
 place when the surrounding parts are invaded by the active elements of 
 which the tumor is composed. The amoeboid property of the cells of 
 certain tumors is well known, and the possibility is admissible that the 
 indifferent cells of the body, so often accumulated at the periphery of 
 the growth, become impregnated with a formative function by the con- 
 stituents of the tumor. Such amoaboid and wandering cells represent a 
 means through which the growth of the tumor may become extended in 
 its vicinity as well as in more remote parts of the body. 
 
 The extension in the vicinity may be continuous or the reverse, 
 the latter through the formation of secondary nodules, which may event-
 
 110 GENERAL MORBID PROCESSES. 
 
 ually become fused with the primary mass. The continuous growth 
 takes place, as has been more particularly shown by Koster, along the 
 lymph-channels surrounding the tumor, which may become filled, dis- 
 tended, and eventually obliterated Jby projections from the neoplasm. 
 Both methods of peripheral growth, by secondary nodules and continu- 
 ous extension, represent an infection of the surrounding tissues, especially 
 if it be admitted that the cells through which the increase is accomplished 
 are direct descendants of the pre-existing cells of the part. Not only 
 docs the extension take place through the lymphatic vessels about the 
 tumor, but blood-spaces as well as lymph-spaces may be invaded. 
 Thrombi are then found whose structure is frequently that of the 
 tumor, and whose connection with the same is direct through the per- 
 forated wall of the vessel. These features in the growth of tumors lead 
 directly to the consideration of the means by which multiple tumors 
 appear in remote parts of the body after a single tumor has appeared 
 in a given locality, and after the removal of such a primitive growth. 
 
 The distinction between primary and secondary ttnriors is now so 
 obvious that one is inclined to forget that the presence of numerous 
 tumors at various parts of the body was at one time regarded as evidence 
 of the constitutional or dyscrasic nature of the morbid growth. Such a 
 multiplicity seemed to indicate that the blood was charged with the con- 
 stituents of the tumor, which were deposited at various parts of the 
 body. 
 
 Although certain multiple tumors may be present in different local- 
 ities without an apparent relation between an antecedent and a subsequent 
 growth, such tumors are usually limited to certain systems of the body. 
 Multiple bony tumors are found growing from bones, fibrous and warty 
 tumors from the skin, and h'bro-myomata from the uterus. Cohnheim's 
 theory of the embryonal origin of tumors may seem applicable in such 
 cases, but the frequent association of the osteomata with chronic inflam- 
 matory conditions, of cutaneous warts and fibrous tumors with local irri- 
 tative processes, makes such a hypothesis unnecessary. 
 
 Those tumors whose multiplicity is of the greatest clinical importance 
 are the rapidly growing forms terminating fatally. Such are those which 
 reappear in the scar after the removal of a cancer, or in the adjoining chain 
 of lymphatic glands or at remote parts of the body. The most satisfactory 
 explanation of their presence, and of the generalization, recurrence, or 
 metastasis of tumors, is derived from what has already been stated with 
 reference to the manner of the growth of the latter. 
 
 It is well known from experiments on animals that various living, 
 normal tissues when transplanted to remote parts of the same individual 
 or to other individuals may continue to grow. Cohnheim claims, as has 
 been previously stated, that a distinction is to be drawn in this respect be- 
 tween the tissues of the adult and the foetus, where the genesis of tumors 
 is concerned. This observer, in connection with Maas, 1 has found that 
 the transplanted material (periosteum), although growing for a while, dis- 
 appears at the end of five weeks, and it is asserted that fragments of 
 tumors, when transferred, suffer a similar fate. Wile, 2 on the contrary, 
 
 1 Virchoiv's Archiv, 1877, Ixx. 161. 
 
 * The Pathogenesis of Secondary Tumors, reprint from Philadelphia Med. Times, July, 
 Aug., and Sept., 1882.
 
 MORBID GROWTHS. 11 j 
 
 who has experimented with reference to the fate of transplanted tissues 
 and portions of tumors, reports that one hundred days after the transfer 
 of periosteum the lung was found to contain several centres of ossification. 
 Pie regards the latter as proceeding from the fragments of periosteum 
 introduced into the jugular vein, and his results thus widely differ from 
 those of Cohnheim. 
 
 Notwithstanding the numerous experiments which have been made in 
 various parts of the world to excite the growth of transplanted bits from 
 tumors, most of them have terminated unsuccessfully. Although a tempo- 
 rary growth of fragments of tumors has taken place after transplantation, 
 their eventual disappearance has usually occurred. Cohnheim lays stress 
 upon this fact in connection with his theory of the origin of tumors. He 
 considers that the fragments of tissue and tumors disappear in consequence 
 of the inability of the foreign particles to withstand the metamorphosis 
 of physiological tissues. If this opposition is neutralized, the existing 
 germs of tumors become capable of development. Wile, however, found 
 that eight weeks after the introduction of a bit of cancer into the lung of 
 an animal the fragment had increased nearly twice in size. He also refers 
 to the positive experiments of Newinsky, l who transplanted a bit of can- 
 cer from a dog to the subcutaneous tissue of another, young dog, and found, 
 after five months, not only an ulcerating cutaneous cancer at the place of 
 inoculation, but also a metastatic nodule of the size of a hazel-nut in an 
 axillary lymphatic gland. 
 
 For the present consideration it may be borne in mind that fragments 
 of normal (foetal) tissues, as shown by the experiments of Zahn and Leo- 
 pold, when introduced into the organs of animals, may become enlarged. 
 It is also certain that bits of tumors, after their introduction into 
 the tissues and organs of animals, have become increased in size. What 
 their eventual fate might have been does not appear ; and herein lies the 
 weak point of the experiments with reference to the production of sec- 
 ondary tumors. For such experiments to be regarded as crucial it is 
 necessary that a large number of previously healthy animals, after inoc- 
 ulation with fragments of morbid growths, should present in various 
 parts of the body well characterized tumors whose structure should be 
 like that of the particles introduced. 
 
 The experiments above referred to are of value in confirming the views 
 concerning the generalization of tumors which have been generally admit- 
 ted since Virchow's discoveries with regard to the phenomena of embo- 
 lism. 
 
 Tumors are said to become generalized when they appear not only in 
 various systems of the body, but in various organs and tissues. They 
 are found usually in considerable numbers, and with such differences in 
 size, shape, and appearance as to indicate different ages. Such tumors 
 are regarded as arising directly or indirectly from a common source. 
 This source is called the primitive or primary tumor, and its derivatives 
 the secondary tumors. The latter are usually considered as the direct 
 descendants of the former, although their relation may be that of several 
 successive generations. 
 
 The primitive tumor in its growth may extend into lymphatics and 
 blood-vessels, as has already been suggested. Such an extension may be 
 1 Allgem. medicinische Central- Zeitung, 1876, Ixxi. 875.
 
 112 GENERAL MORBID PROCESSES. 
 
 so little obvious when the tumor is removed by the surgeon that all 
 diseased tissues are apparently separated from the body. A recurrence 
 of the tumor is said to take place when the growth returns in the 
 cicatrix, frequently in a multiple form. The explanation of such 
 a recurrence is based upon the probable presence, at the time of the 
 operation, of fragments of the tumor within the tissues forming the 
 base and edges of the wound. During and after the healing of the 
 wound their growth is supposed to continue till they become appar- 
 ent as small tumors. The progress of these recurrent tumors is at 
 times extremely rapid, and they may attain a considerable size in the 
 course of a few weeks. Such nodules are secondary in point of time, 
 although they were actually a part of the primary growth. 
 
 Secondary nodules in descent as well as time are those which appear 
 at distant parts, often after the discovery of the primary tumor. Such 
 nodules are regarded as resulting from the transfer of particles of vari- 
 ous size from the primitive growth, either through the lymph-vessels 
 or blood-vessels. If the invasion of the body takes place through the 
 former, the fragments may be floated along to the nearest lymphatic 
 gland, where it remains when too large to pass through. If it retains 
 the capacity of growth or of stimulating a like growth, there results a 
 more or less complete transformation of the gland into a morbid tissue 
 like that from which the fragments came. Adjoining lymph-glands may 
 become infected from the first, until eventually an entire series becomes 
 more or less completely transformed into morbid growths. A like 
 invasion of the lymphatic glands may take place through a continu- 
 ous extension along the lymph-vessels; and it is not rare to find 
 the sub-pleural or sub-peritoneal lymphatics as an elevated meshwork in 
 consequence of the neoplastic growth within them. Such a method of 
 extension may take place when a cancer of the stomach or liver is asso- 
 ciated with a cancer of the pleura, the intervening lymphatics of the dia- 
 phragm offering a direct and continuous communication. 
 
 With the outcropping of a tumor upon a serous surface the possibility 
 of the detachment of particles is at hand. These may become trans- 
 planted to the opposed serous surface or may be transferred to the most 
 dependent parts, and there serve as seed for subsequent growth. 
 
 The probability of the embolic nature of many secondary tumors 
 was early suggested in the history of embolism. Rapidly growing 
 tumors were known to be capable of perforating the walls of adjacent 
 blood-vessels, especially veins, and to continue growing along the 
 course of such vessels. The possibility of the detachment of portions 
 of these tumors and their transfer along the course of the circulation 
 was an inevitable inference from the results of experimentation with 
 foreign bodies. Cancerous emboli were thus recognized as a possible 
 variety, and their distribution was subject to the same laws as those 
 governing emboli otherwise constituted. Multiple nodules were fre- 
 quently found in the lungs in connection with tumors growing into the 
 inferior vena cava, while multiple nodules in the liver were usually asso- 
 ciated with tumors of the gastro-intestinal canal or other regions whose 
 vessels formed a part of the portal circulation. The readiness with which 
 portions may be detached after death from the soft masses projecting into 
 the interior of veins suggests the ease with which particles may be sep-
 
 MORBID GROWTHS. 113 
 
 arated during life. The experiments already referred to show that iso- 
 lated fragments of tissue serving as emboli may grow in the place of 
 their reception, and it is presumable that the resulting growth takes place 
 under the same conditions as those prevailing at the place from which the 
 embolus started. The question whether the secondary tumor arises from 
 the reproduction of elements transferred from the primitive disease, or 
 whether these excite a characteristic, specific growth of the cells in the place 
 of their retention, may still be regarded as open. The experiments lavor 
 the former view, and they alone are capable of satisfactorily determining 
 the point in question. 
 
 The secondary nodules, whatever may be their method of origin, pre- 
 sent the peculiarities of the primitive growth. If the cells of the latter 
 are pigmeuted, those of the former show the same peculiarity. If the 
 structure of the primitive tumor contains bone, cartilage, or squamous 
 epithelium, the secondary growths show like characters, though they 
 may be present in the heart or other organs where such tissues are not 
 present as normal constituents. So constant and characteristic is this fea- 
 ture that the structure of the tumor is usually as well displayed in the 
 examination of the secondary as of the primitive nodule. Indeed, the 
 structural peculiarities of the growth may be more characteristically shown 
 in the former in those instances where the primitive tumor has undergone 
 degenerative changes obscuring its histological features. 
 
 The tissues of the tumor are subject to the various changes which take 
 place in the normal tissues of the body. Their growth is attended with 
 a multiplication of cells and a formation of intercellular substance. 
 Tumors whose growth is the most rapid are those whose blood-vessels are 
 the most numerous and whose relation to the cells is most intimate. The 
 slower the advance of the tumor, the more permanent is it likely to 
 become, while the more rapid the progress, the more transitory are its 
 elements. The growth may continue, and yet the actual size of the tumor 
 may diminish through the absorption of its degenerated parts. The cells 
 of the neoplasm may undergo fatty degeneration, or they may become 
 cornified. They may undergo the mucous metamorphosis or the amyloid 
 and colloid degenerations. They may take up pigment or they may pro- 
 duce the same, The intercellular substance varies in its character as does 
 that of normal tissues. It may be slimy, homogeneous, or fibrillated. It 
 may contain mucin, chondrin, or gelatin, and may be infiltrated with cal- 
 careous salts. Limited necroses with characteristic cheesy appearances are 
 of frequent occurrence. 
 
 Tumors may become the seat of inflammatory processes, indicated by 
 suppuration and fever, which may result in abscess or gangrene, or their 
 progress may terminate in the production of scars. Ulceration may 
 occur in consequence of the extension of an inflammatory process to the 
 surface, or it may result in the course of the degenerative softening of a 
 tumor. In both cases the cutaneous or mucous surface is involved and 
 destroyed, and the interior of the tumor being exposed putrefactive pro- 
 cesses, with fistulse and sinuses, arise, the latter favoring the retention of 
 the product and the persistence of the inflammatory process. 
 
 Tumors are always pathological, but the resulting disturbances vary 
 within wide limits and are often of a complex character. The familiar 
 distinction between benignant and malignant tumors is based chiefly 
 
 VOL. I. 8
 
 114 GENERAL MORBID PROCESSES. 
 
 upon this variance in the nature of the disturbances. Those are benig- 
 nant which closely resemble the normal structures of the body, increase 
 but slowly, and, if they attain a large size, produce mainly mechanical 
 disturbances. They may prove serious, even fatal, if so seated as to 
 interfere with the function of important parts of the body. Very large 
 and heavy tumors may prove burdensome solely on account of their 
 weight, while others of similar character, elsewhere seated, may interfere 
 with respiration or circulation, and eventually with nutrition. Tumors 
 in exposed situations may become important only in virtue of their 
 liability to injury, while others impede the function of a part or an 
 organ by pressure upon its nerves and vessels or by obstructing its 
 ducts. 
 
 The malignant tumors, on the contrary, differ in their structure 
 from the normal tissues of the body. Their growth is rapid and 
 infiltrating rather than slow and concentric. Such tumors usually 
 have a predominance of cells and thin walled blood-vessels. The 
 former may be little else than nuclei enveloped in an easily destruc- 
 tible protoplasm, or they may be composed of multi-nucleated masses 
 of protoplasm, and are then known as giant-cells. The most malig- 
 nant tumors are those which tend to become generalized as well as to 
 spread locally. They recur locally, and appear in the nearest lymph- 
 glands and at remote parts of the body. The disturbances produced 
 by the malignant tumors depend less upon their mechanical relations 
 than upon their tendency to destroy tissues and disturb functions. AVith 
 their presence and progress in vital organs there is associated, from their 
 manner of growth, a destruction of the cells of such organs, as the kid- 
 neys and liver, the lungs and heart. When they are seated in the 
 spleen and lymphatic glands, a disturbance in the blood-making process 
 must be associated. Their occurrence in the alimentary canal opposes 
 the admission, digestion, and expulsion of its contents, and pro- 
 duces disturbances varying as to the seat and peculiarities of the tumor. 
 The progress of the malignant tumor is often associated with ulcera- 
 tion, watery discharges, and hemorrhage. The frequent coexistence of 
 emaciation, weakness, ansemia, and a yellowish discoloration of the skin 
 forms a group of disturbances which, included under the name "cachexia," 
 have long been prominent as significant of malignant tumors. At the 
 present day this cachexia is regarded rather as the result than the cause 
 of the tumor, whereas formerly the reverse was the case. 
 
 The modern classification of tumors is based chiefly on their structure, 
 in part upon their method of origin, and in part upon their cause. 
 
 With the observation of the similarity of appearances in the flesh of 
 which the external and internal neoplasms are composed, ^:he suggestion 
 readily presented itself to regard the external tumors and the internal 
 growths as similar in character. External forms, physical characteristics, 
 clinical peculiarities, all proved insufficient as a means of identifying the 
 two, and the step was a short one which led to the minute study of the 
 flesh of the tumor and a comparison of its resemblances and differences. 
 This comparison obviously included a knowledge of the structure and 
 peculiarities of normal tissues. As histological studies advanced, so did 
 the pursuit of pathological histology, and the tumors which were once 
 designated as encephaloid, mastoid, pancreatoid, or nephroid, from real
 
 MORBID GROWTHS. 115 
 
 or fancied resemblances to certain organs of the body, became analyzed 
 into their microscopic rather than macroscopic characteristics. 
 
 It is unnecessary to say that the modern classification of morbid 
 growths owes its foundation and a large part of its superstructure to 
 Virchow, whose classic work, Die Krankha/ten Geschwulste, showed the 
 direction which future investigators were to pursue and the nature of 
 the discoveries likely to result. 
 
 The tumor represents the result of the growth of a tissue or tissues 
 which are like or resemble those which form the normal constituents of the 
 body. Although a new formation is present, it is composed of tissues lying 
 within the possibilities of the individual. A new formation of feathers, 
 as Virchow suggests, is beyond the productive powers of human tissues, 
 though within those of feathered animals. A goose can produce a tumor 
 containing feathers, not one in which hairs are found ; in the human 
 species tumors containing huirs may occur, not those, however, in which 
 feathers are present. Although the cells of the tumors of man may 
 deviate in their appearances from the cells of normal tissues, this devia- 
 tion is never so extreme that their analogue cannot be met with in some 
 part of the body. 
 
 As the normal tissues originate from pre-existing tissues, so the patho- 
 logical tissues of the tumor grow only from the antecedent tissues. The 
 matrix from which the tumor arises is a normal tissue. There is pro- 
 duced from it, as a neoplasm, either a tissue which follows the type of the 
 maternal tissue, a homologous tumor, or one which deviates in type from 
 that of the matrix, a heterologous growth. Although the latter diifers in 
 its composition from that of the matrix, it does not vary essentially from a 
 like tissue to be found elsewhere in the body. It occurs where it does not 
 belong either in place, time, or quantity. The homologous tumor appears 
 rather as a hypertrophy of the tissue from which it arises, and the line 
 between this variety of growth and a simple hypertrophy is often purely 
 arbitrary. 
 
 Although tumors, in the more limited sense, are solid, fleshy masses, the 
 ' new formation of tissues may result in the presence of a tumor within 
 which is a cavity with various contents. Such a cavity is not a mere hole, 
 but has a distinct wall of connective tissue lined with epithelium or 
 endothelium. A distinction is thus drawn between cysts and growths 
 one which is of daily importance in the practice of medicine and Vir- 
 chow's oncology includes the consideration of the two varieties of 
 tu mors. 
 
 Cystic tumors are subdivided according to the nature of their contents 
 and the method of their origin. One group is composed of clotted blood 
 within cavities resulting from the laceration of tissues or in preformed 
 spaces. If the cyst primarily is merely a rent, the wall becomes thick- 
 ened in time from a growth of the limiting tissues, and the blood-clot, of 
 which the tumor was chiefly composed, may remain or become absorbed. 
 If the latter event occurs, its place of deposit may become obliterated by 
 a fusion of the walls of the cyst, or may persist from the subsequent addi- 
 tion of serum. 
 
 The cystic tumor whose contents are extra vasated blood is the haema- 
 toma, familiar instances of which are met with in the hsematoma of the 
 dura mater, of muscle, of the vulva, and the polypoid haematoma of
 
 116 GENERAL MORBID PROCESSES. 
 
 the uterus. The latter is the long retained and constantly enlarging 
 blood-clot, due to the adherence of portions of the placenta after child- 
 birth. 
 
 The second group of cystic tumors has for its contents a more watery 
 fluid, and to this the term hygroma is applied. This watery fluid lies, 
 for the most part, within preformed cavities, and its accumulation is con- 
 nected with a dilatation of these cavities. Instances are met with in the 
 tumors resulting from the accumulation of fluid in the membranes of the 
 brain or spinal cord, and in the ventricles of the former or in the central 
 canal of the latter. These lead to the congenital cystic tumors of the cra- 
 nium or spine, with watery contents. The ganglion, the house-maid's knee, 
 as also the hydrocele of the tunica vaginalis, are regarded as hygromata. 
 The hydrocele of the neck and elsewhere in the subcutaneous or inter- 
 muscular connective tissue is now removed from the hygromata to the 
 tumors which arise from lymph- vessels. A like transfer of other hygro- 
 mata might be made in accordance with the prevailing views concerning 
 the cavities in which the watery fluid is accumulated. 
 
 A third group of cysts contains material which represents essen- 
 tially a production from the wall, with a difference of composition 
 dependent upon the nature of the wall. Such cysts give rise to tumors 
 through the retention of their contents, and they are called retention- 
 cysts or retention-tumors. In the wall of the cysts is a gland-tissue, 
 which may line the surface or lie beneath. The glandular structures 
 may be cutaneous, mucous, or represent a part of the great glands of the 
 body, as the liver and kidneys. The atheromatous cyst of the skin, the 
 mucous cysts of the gastro-intestinal mucous membrane, and the ovula 
 Nabothi of the uterus are examples of the retention of secretion within 
 glands. The dropsical dilatations of the antrum, the vermiform append- 
 age, the uterus, the biliary and renal canals furnish instances of tumors 
 resulting from the retention of secretion on a large scale. In the sub- 
 sequent history of these retention-cysts the secretion may be modified 
 chemically and physically ; the cells upon the walls may be transformed 
 from columnar forms into flattened and scale-like varieties. In time, 
 the original secretion frequently becomes a watery fluid, resembling the 
 contents of the hygroma previously mentioned. 
 
 This grouping of cysts in contradistinction to fleshy tumors omits the 
 consideration of a series of cystic tumors of enormous size, the multilocular 
 tumors of the ovary. This class represents a more complex form of cystic 
 growth one whose tendency is toward the reproduction of cysts, to which 
 the term cystoma is applied. The cystoma is the result of an active new 
 formation of epithelium and connective tissue, and is classified as a variety 
 of the epithelial group of tumors. 
 
 Morbid growths, as distinguished from cysts, are divided by Virchow 
 into the simple and complex forms. The former consist of a single tissue, 
 the histoid tumors ; the latter of several tissues suggesting an organ, the 
 organoid tumors; while still others, in which the number and grouping 
 of tissues is so complex as to simulate systems of the body, even mon- 
 strosities, have received the term systematoid or teratoid tumors. 
 
 Virchow claimed that the growth of most tumors took place from the 
 connective tissues, and that most of the organoid tumors, especially cancer, 
 arose from the formative action of the connective tissue in the part where
 
 MORBID GROWTHS. 117 
 
 it first made its appearance. The structure of cancer suggested an organ, 
 as it consisted of collections of cells resembling epithelium, within spaces 
 or alveoli whose walls were formed of connective tissue. The epithelioid 
 cells of the cancer, as well as the connective-tissue corpuscles, were con- 
 sidered to arise from pre-existing cells of connective tissue. 
 
 The first, most important, modification of Virchow's views, which has 
 led to a more rational appreciation of the relation of the various tumors, 
 especially of the epithelial group, to each other, arose in consequence of 
 the investigations of Thiersch and others with regard to the origin of 
 certain cancers. This observer l claimed that the epithelioid element of 
 cutaneous cancers arose in all instances from pre-existing epithelium, 
 either of the rete mucosum or cutaneous glands. Similar views were 
 suggested, with various degrees of precision, by other authors concerning 
 certain cancerous tumors elsewhere, but were first applied to all cancers 
 with a more exact formulation by "Waldeyer, 2 to whom the prevailing 
 views with regard to the histogenesis of morbid growths are due. Ac- 
 cording to him, the essential (epithelioid) element of all primitive cancers 
 arises from pre-existing epithelium ; consequently, no cancer-cell can arise 
 except in organs where epithelium is normally present. 
 
 This comprehensive statement was rendered possible by the embryo- 
 logical researches of Remak at the outset, and afterward by those of His 
 and Waldeyer. Eemak showed that after differentiation of the cells of 
 the ovum into the several germinal layers, those from one layer could 
 not serve to originate the cells belonging to another layer. The develop- 
 ment of normal tissues takes place within the limits defined by this differ- 
 entiation. Epithelium thus is not derived from connective tissue, nerves, 
 or muscles, nor was the reverse known to occur. To His is due the exact 
 appreciation of the superficial cells of serous membranes, which had been 
 previously called epithelium, and had thus been confounded with the epithe- 
 lial cells of mucous or cutaneous membranes and of secretory glands. He 
 showed that these cells had a wholly different origin from epithelium, and 
 were simply scale-like cells of fibrous tissue, to which he applied the name 
 endothelium. The latter is now used as the term for the thin, squamous 
 cells of fibrous tissue, whether they are found lining the walls of the great 
 serous cavities or the smaller lymph-spaces, the endocardium, or the inner 
 coat of blood-vessels and lymphatics. 
 
 The importance of this distinction is obvious when the occurrence of 
 tumors, called cancers, is observed in parts which contain no epithelium. 
 Aside from the vagueness of the term cancer, as applied clinically, tumors 
 are sometimes met with, even in parts where epithelium normally does 
 not exist, whose structure resembles more or less closely that of cancer 
 as usually recognized. Such tumors are to be regarded as of an endo- 
 thelial rather than epithelial character, and as such their histogeuesis falls 
 under the general laws of the development of tissues. 
 
 AValdeyer 3 has siiggested that the primitive basis for the development 
 of the genito-urinary tract contains cells which are equivalent in their 
 possibilities of ultimate development to the epithelium of the limiting 
 germinal layers a suggestion which is of importance in permitting the 
 
 1 Der Epithelial ICrebs, namentlir.h der Haul, etc., 18f>o. 
 
 2 Virchnw's Archiv, 1867, xli. 470; 1872, Iv. 67; Volkmann's Sammlung klinisrhcr Fo 
 trage, 1871, xxxiii. 3 Eierstock und Ei, 1870.
 
 118 GENERAL MORBID PROCESSES. 
 
 epithelial tumors of the ovary to be brought under the general embryo- 
 logieal laws of development. 
 
 A? the growth of embryonal tissues is so denned that descendants are 
 like their ancestors in all respects, so the development of tissues in the 
 adult is regarded as defined with equal precision. Eberth and "\\~ads- 
 \vorth 1 have shown that the regeneration of corneal epithelium takes 
 place from pre-existing epithelium. E. Neumann and others claim in 
 like manner the development of muscular tissue from antecedent mus- 
 cular cells. 
 
 The relation of cancer to epithelial tumors is regarded as similar to 
 that borne by sarcoma to tumors composed of connective tissues. The 
 growth of the epithelial elements into the neighboring pans is through 
 paths determined by pre-existing or new-formed connective tissue. The 
 active element of the cancer lies more especially in its epithelioid cells, 
 and its growth takes place in an atypical rather than a typical manner. 
 Of the various epithelial tumors, there are those like the cutaneous horn 
 or corn, the adenoma or eystoma, whose epithelial growth takes place in 
 accordance with normal methods of production. The epithelioid constit- 
 uent of the cancer, on the contrary, grows often with great luxuriance 
 and with but little tendency to carry out the normal mutual relations of 
 the epithelium and connective tissue of the part from which it proceeds. 
 The epithelioid masses or sprouts are composed of cells whose relation to 
 each other resembles that of normal epithelium in the absence of an 
 intercellular substance, while the shapes of the cells correspond more or 
 less closely with that of the epithelium in the region from which the 
 tumor arises. The epithelioid cells of cutaneous cancers resemble those 
 of the surface, the rete, or the glands of the skin. Cancers of the 
 stomach or uterus contain epithelioid cells whose shape simulates the 
 varieties in the stomach and uterus. Such resemblances are carried out 
 in the degenerations which the cells of ameer undergo. The horn- 
 like, keratoid, transformation of epidermoid cells in cutaneous cancers, 
 the mucous degeneration of the epithelioid cells of cancers of mucous 
 membranes, are sufficiently familiar. Notwithstanding these resem- 
 blances, which are also present in secondary tumors at remote parts of 
 the body, the epithelioid growth advances without limit and without 
 reproducing the normal type. Cancer is therefore defined as an atypical, 
 epithelial new formation. 
 
 Sarcoma, on the other hand, whose clinical features correspond so 
 closely with those of cancer, simulates, as shown by Yirchow, the con- 
 nective tissues. It is composed of cells and intercellular substance, both of 
 which may be as varied as are those of the connective tissues. The shapo 
 of the cells is as diverse and their contents as various, while their possi- 
 bilities of degeneration are alike. The cells of the sarcoma are not simply 
 cemented together, as are epithelial cells, but they are separated from each 
 other by an intercellular substance, which corresponds in its appearance 
 and chemical properties with that of mucous, fibrous, cartilaginous, or 
 osseous tissue. The structure of the sarcoma differs from that of these 
 tissues in presenting a predominance of evils over intercellular substance, 
 while the reverse is the characteristic of most varieties of connective 
 tissue. In this predominant cell-formation lies its absence of type. 
 
 Arehii; 1870, li. 361.
 
 MORBID GROWTHS. 119 
 
 whereas the atypical character of the cancerous growth is manifested 
 rather by the irregular grouping of the cellular masses than by an 
 abundance of cells. 
 
 As the original cancer is considered as possible only in parts where 
 epithelium is a normal constituent, so the primitive sarcoma is possible 
 only in parts where connective tissue is present. The apparent great fre- 
 quency of sarcoma in recent times is thus obviously .explained. With an 
 agreement as to its histological characteristics, its possible place of origin 
 is any of the connective tissues of the body, and their presence is uni- 
 versal. In the manner of its growth, its recurrence, and generalization 
 it is subject to the same laws which determine similar events in the 
 history of cancer. Its degenerations are often the same, and its symp- 
 toms are due to the action of like causes. 
 
 The importance of distinguishing between these atypical tumors is real, 
 in that it is only through the association of causes, symptoms, and results 
 with defined and constant characteristics that a practical knowledge of 
 tumors is to arise. The time-honored distinction between malignant or 
 semi-malignant and benignant growths is always to be sought for, and 
 can only be fully possessed when the natural history of the new forma- 
 tions is known. With an exact appreciation of the structure of a tumor 
 it becomes possible to study its special pathology. From a knowledge 
 of the latter are to be derived those features of importance in determining 
 the relation of morbid growths to other deviations from normal and 
 physiological processes. An immediately practical benefit arises from 
 the Thiersch-Waldeyer modification of Virchow's theory of the origin of 
 tumors, in that it permits with greater ease a more accurate clinical 
 diagnosis. Liicke 1 has been prominent in calling attention to the sugges- 
 tions thus presented. 
 
 The diagnostic value of the theory above-mentioned is rather negative 
 than positive. With rare exceptions, a tumor cannot be epithelial in 
 character if its origin is from an organ or a part in which epithelium is 
 absent. The possible exceptions admit theoretical explanations which 
 present considerable degrees of probability, and are also based upon the 
 existing views of the development of tissues. 
 
 A tumor whose origin from the connective tissues is determined par- 
 takes of the characteristics of its matrix, and is a connective-tissue tumor. 
 Its development from fibrous tissue is more likely to result in a fibroma ; 
 from fat tissue, a lipoma, or a niyxorna ; from cartilage or bone, a chon- 
 droma or osteoma. 
 
 Tumors developing at certain periods of life in certain parts of the body 
 are more likely to belong to one than another of the histogenetic groups. 
 Tumors of the connective-tissue series are stated by Liicke as more prev- 
 alent before the age of thirty-five years, while those of the epithelial 
 group are more likely to occur after this age, and cancer of the lip is of 
 special frequency in old age. The fibro-myoma is of most frequent 
 occurrence in the uterus, and rarely attains a large size till the approach 
 of the climateric. 
 
 The rapidity of growth of tumors is also associated with their genesis. 
 It has previously been stated that the more rapidly growing tumors 
 are those whose cells are most abundant and in the closest and most inti- 
 1 Volkmann's Sammluvg kliniicher Vortrdge, 1876, xcvii.
 
 120 GENERAL MORBID PROCESSES. 
 
 mate relation to blood-vessels. The type of such tumors is the sarcoma 
 with its scanty intercellular substance, while the other (histokl) tumors in 
 the same series, as the fibroma, lipoma, chondroma, etc., are of relatively 
 slow growth. Tumors of the epithelial series are of slow growth, from 
 the constantly increasing distance of the new-formed cells from the vas- 
 cular connective tissue which provides their nourishment. When, how- 
 ever, the growth of the epithelium advances into the connective tissue, 
 pushing out in all directions and coming in contact with new series of ves- 
 sels, the opportunities for nutrition are favorable. In like manner, when 
 the new formation concerns the connective-tissue stroma, as well as the 
 epithelial sprouts, vascularization proceeds with the development of the 
 tumor, and favorable conditions for rapid growth are presented. Large 
 epithelial tumors may thus arise within organs, but, as the surfaces are 
 reached, the sources of nourishment become farther removed and the 
 degeneration of the epithelium favors its detachment and the formation 
 of ulcers. Hence the tumors whose advance is associated with ulceration 
 belong rather to the epithelial than the connective-tissue group. 
 
 The tendency of the cancerous tumors to become generalized through 
 the lymphatics, and that of sarcomatous growths through the blood- 
 vessels, is admitted as an important feature in the differential diagnosis. 
 Although there are numerous exceptions, the rule is available. Its 
 explanation is based upon the assumed inability of the larger epithelial 
 cells of the cancer to pass through the lymph-glands; being detained, 
 they serve as new centres of growth. The smaller cells of the sarcoma, 
 on the contrary, are permitted a passage through the gland. The 
 numerous and thin Availed blood-vessels present in the rapidly growing 
 sarcoma permit an extension of the latter into their interior, and thus a 
 ready opportunity is offered for the formation of emboli. 
 
 Another important modification in the classification of tumors has 
 resulted from the recent discoveries regarding the nature and eifects of 
 infective agencies. Virchow grouped together under the term granulo- 
 mata certain growths composed of granulation-tissue occurring in syphilis, 
 lupus, leprosy, and glanders. Their relation to inflammatory processes 
 was very intimate, yet they were recognizable as tumors from their 
 possession of many of the characteristics generally admitted as belonging 
 to such morbid growths. Although at times their presence might be 
 regarded as evidence of an inflammatory disturbance, their frequent 
 appearance independently of general symptoms of the latter was apparent. 
 These tumors, furthermore, were so frequently accompanied by inflamma- 
 tory products as to suggest a like cause for both. Virchow r stated that 
 the recognition of the etiology of these tumors was indispensable to their 
 separate consideration, and laid stress upon the presence of a specific 
 virus, contagious and infectious, in the case of syphilis. His views con- 
 cerning the etiology of leprosy, though more guarded, yet carried the 
 suggestion of the importance of exact investigation concerning the 
 assumed contagious character of this disease. The contagiousness of 
 glanders was not only admitted, but the similarity of its manner of 
 origin and propagation to the invasion of syphilis was also stated. Not 
 only were the resemblances between glanders and syphilis recognized, 
 but lupus, leprosy, tubercle, and scrofula were also admitted as present- 
 ing a similar relation.
 
 MORBID GROWTHS. 121 
 
 The importance of recognizing the etiology of these tumors rather than 
 their anatomy as a basis of classification was strongly urged by Klebs, 1 who 
 proposed the term infective tumors for the group of granulomata, includ- 
 ing syphilis, lupus, leprosy, and glanders ; and for tubercle, scrofula and 
 the pearly distemper of animals, which Virchow had classified as lympho- 
 mata. This group has been still further extended by the addition of the 
 lymphomata occuring in typhoid fever, scarlet fever, and diphtheria. 
 Ponfick 2 has recently added the disease actinomycosis to the series, and 
 Cohnheim suggests that certain of the lympho-sarcomata may be similarly 
 classified. 
 
 The growths thus included have a common element of structure the 
 granulation-tissue, with its possible disappearance through absorption or its 
 transformation into an abscess or dense fibrous tissue. Such features are 
 those common to the granulation-tissue resulting from ordinary inflam- 
 mation. Their essential characteristic, however, lies in the etiology of 
 this granulation-tissue, and for many members of the group the cause has 
 been discovered to be microscopic organisms. The constant presence of 
 these is determined in sufficient numbers, in such distribution, and in such 
 relation, as to explain the nature and occurrence of the tumors. 
 
 The evidence recorded is not equally full and exact for all members of 
 this group. Neisser 3 has discovered the bacillus of leprosy, and the dis- 
 covery by Koch 4 of the bacillus of tuberculosis, scrofula, and pearly dis- 
 temper has already been referred to. Schiitz and Loffler 5 have lately 
 announced their isolation of the micro-organism causing glanders, and 
 Bollinger 6 discovered the fungus whose presence is necessary for the exist- 
 ence of actinomycosis. 
 
 In the above affections the organisms are to be regarded as the charac- 
 teristic active agent in producing the phenomena of the disease in which 
 they occur. The presence of micro-organisms in syphilis, typhoid fever, 
 scarlet fever, and diphtheria is admitted, yet their absolute identification 
 and constant presence as a cause of the various manifestations of the 
 respective diseases still remains to be proved. 
 
 The classification of tumors herewith presented is essentially that of 
 Virchow, with such extensions and modifications as have arisen in conse- 
 quence of the investigations and discoveries during the twenty years 
 which have elapsed since the delivery of his memorable series of lectures. 
 Cysts are mentioned, as well as growths, from the importance of the 
 former in practical medicine. The frequent simultaneous occurrence of 
 cysts and growths in the same tumor should be mentioned, and the cystic 
 feature is usually indicated as a qualification. 
 
 CYSTS. 
 
 Cavities, either new formed or pre-existing, with various contents. 
 The latter are blood, liquid other than blood, and gland-secretion or 
 retained secretion. The wall varies in structure in accordance with the 
 method of origin of the cavity. 
 
 1 Prayer Vierteljahrschr!ft, 1875, cxxvi. 116. 2 Die Actlnomykose des Menschen, 1882. 
 8 Virchow'8 Archiv, 1881, Ixxxiv. 514. 4 See page 99. 
 
 5 Deiitxche medicinische Wochenschrift, 1882, Hi. 707. 
 
 6 Centralbluttfiir die med. Wissenschaften, 1877, xxvii.
 
 122 GENERAL MORBID PROCESSES. 
 
 Hcematoma. 
 
 A collection of extravasated blood, usually within the tissues. Exam- 
 ples, hsematoma of the pericranium (periosteum), of the external ear, 
 muscle, dura mater, ovary, broad ligament, vulva, anus, uterus (from 
 retained placenta), hsematocele, dissecting aneurism. 
 
 Hygroma. 
 
 A collection of transuded or exuded fluid in pre-existing or new-formed 
 spaces. Examples, hydrocele, hydromeningocele, hydromyelocele, hydren- 
 cephalocele, ganglion, inflamed bursa. 
 
 Retention- Cyst. 
 
 An accumulation of retained secretion in follicles or canals from ob- 
 struction to its escape. Examples, atheroma and comedo of the skin, 
 mucous cysts of the gastro-intestinal mucous membrane, ovula Nabothi, 
 and cystic polypus of the uterus ; retention-cyst of the antrum, vermiform 
 appendage, gall-bladder, and bile-ducts ; dropsical dilatation of the ova- 
 rian follicles, Fallopian tube, uterus (hydrometra), parovarium (cyst of 
 the broad ligament); hydronephrosis and multilocular cystic kidney, 
 spermatocele, ranula, galactocele. 
 
 The growths are classified according to the tissues of which they are 
 chiefly composed and from which they originate, and according to their 
 etiology. There are consequently the connective-tissue group; that of 
 tissues of higher function, as muscle, nerve, and vessels ; and the epithelial 
 group, in which the new formation of epithelium is the essential feature. 
 The teratoid group comprises a more complex massing of tissues, repre- 
 senting a combination of those derived from all the germinal layers of 
 the embryo. The infective group includes those tumors whose structure 
 is closely allied to that of the products of inflammation, but whose origin 
 is the direct result of the introduction from without of a microphyte. 
 
 CONNECTIVE-TISSUE GROUP. 
 
 Each member mainly composed of a more or less typical growth of a 
 connective tissue : 
 
 Myxoma, Lipoma, 
 
 Glioma, Chondroma, 
 
 Fibroma (including papilloma Osteoma. 
 
 and melanoma), 
 
 To these are added tumors composed of an atypical growth of a con- 
 nective tissue, chiefly manifested by a predominance of cells : 
 
 Endothelioma, Sarcoma. 
 
 The sarcoma includes as many varieties as there are tissues in this 
 group, hence, 
 
 Myxosarcoma, Liposarcoma, 
 
 Gliosarcoma, Chondrosarcoma, 
 
 Fibrosarcoma, melanosarcoma, Osteosarcoma.
 
 MORBID GROWIIIS. 123 
 
 GROUP OF TISSUES OF HIGHER FUNCTION. 
 
 Myoma, of striped (rhabdorayoma) Angioma, of blood-vessels, 
 
 and smooth (leiomyoma) rnuscu- Lymphangioma, of lymphatics, 
 
 lar tissue, Lymphoma (?), of lymph-gland 
 
 Neuroma, of nerve tissue, tissue. 
 
 EPITHELIAL GROUP. 
 
 Callus, "| 
 
 Corn, 
 
 Keratosis, > Epidermis. 
 
 Horn, 
 
 Onychoma, J 
 
 Struma (?), ^ 
 
 Adenoma, V Epithelium of mucous membranes or glands. 
 
 Cystoma, J 
 
 In the above varieties the growth of epithelium is more or less typical, 
 a simple hyperplasia, either alone or combined with the new formation of 
 fibrous tissue. Only the last three members of the series are tumors in 
 the limited sense. 
 
 CANCER. 
 
 Cancer remains as an epithelial tunior, representing the atypical growth 
 of cells resembling epidermis or the epithelium of glands and mucous 
 membranes, extending into parts where epithelium is not found as a 
 normal constituent. A new formation of connective tissue is usually 
 associated with that of the epithelial cells. 
 
 Numerous varieties" of cancer are described, according to the physical 
 and structural peculiarities of the tumor. The scirrhus and encephaloid 
 of the earlier writers are now transformed into fibrous and medullary 
 cancer. This change in name is due to the stress laid upon the predomi- 
 nance of the fibrous stroma as the usual cause for the hard, dense, scirrhous 
 cancer, while an abundance of epithelioid cells in relatively large alveoli 
 is present in the encephaloid, marrow-like, medullary variety. 
 
 When the growth takes place from the skin or mucous membranes, the 
 surface frequently presents numerous and usually arborescent papillae or 
 villi. The papillary cancers of the skin and the villous cancers of mucous 
 membranes are thus distinguished. 
 
 Cancerous growths of the skin and transitional membranes, often called 
 epithelioma or cancroid, usually contain epithelioid cells resembling epi- 
 dermis, and are therefore designated as epidermoid or pavement-celled 
 cancer. The alveolar contents of certain cutaneous cancers are cells 
 resembling those of the deeper layers of the rete mucosum, while those of 
 other cancers of the skin resemble rather the epithelium of sweat-glands. 
 Growths of the former character extend laterally, ulcerate early, and are 
 known as superficial cutaneous' cancer. They form one of the varieties 
 of the so-called rodent ulcer. Cutaneous cancers, simulating in their 
 structure a reproduction of the epithelium of sweat-glands, represent a 
 variety of glandular cancer. The latter term is applied to cancerous 
 growths which arise in glandular organs, with suggested resemblances 
 of their cells to the gland-cells of the respective organ. Cylindrical-
 
 124 GENERAL MORBID PROCESSES. 
 
 celled cancer is frequently met with in those parts of which a cylindrical 
 epithelium is a normal constituent. 
 
 The degenerations of the epithelioid cells and stroma suggest qualifying 
 terms. The mucous and colloid cancers are those whose alveolar contents 
 or stroma havo undergone a mucous or colloid degeneration. The keratoid 
 cancer is one which presents the horn-like transformation of its epider- 
 moid cells. The melanotic cancer contains abundant pigment, melanin, 
 within its cells. 
 
 These differences in the structure and appearance of the tumor are 
 frequently associated with certain modifications of growth and clinical 
 properties. The epidermoid cancers are less likely to recur after early 
 removal ; the medullary cancers are of rapid growth and prone to ulcera- 
 tion ; while the fibrous or scirrhous forms are of extreme slowness of 
 growth. In general, however, the pathological importance of cancerous 
 tumors is essentially the same wherever the seat and whatever the pecu- 
 liarities of structure. 
 
 TERATOID GROUP. 
 
 Includes those tumors, usually of congenital origin and apparent at birth, 
 composed of connective tissue, epithelium, nerves, muscle, and vessels. 
 These tissues are often so grouped together as to suggest systems of the 
 body and parts of an individual. Cysts are often present which simulate 
 cavities found in the body, whether of normal or pathological origin. 
 
 In this group are the dermoid cysts with their various contents, epi- 
 dermis, sebum, hair, teeth, and bone. The solid teratomata, with all 
 varieties of connective tissue, as fibrous tissue, fat tissue, cartilage, bone, 
 ueuroglia, in addition to nerves, muscle, and vessels. Squamous, cylin- 
 drical, and ciliated epithelium may be present and line cavities, at times tubu- 
 lar, whose walls are formed of skin or mucous membrane. Other tumors 
 of this group are commonly included under monstrosities, and comprise 
 the varieties of duplication of parts of the body, of which the extreme 
 instances are such double monstrosities as the Siamese Twins, Ritta and 
 Christina, the Spanish Cavalier, and the like. 
 
 INFECTIVE GROUP. 
 
 The chief characteristic is the cause, micro-organisms, which, intro- 
 duced into the body, produce, through their dissemination and develop- 
 ment, multiple growths of tissue like those resulting from persistent 
 inflammation. As their structure corresponds with the productive results 
 of inflammation, and their cause is analogous to the infective causes of 
 inflammation, these morbid growths are closely allied to inflammatory 
 disturbances. Their classification among tumors is desirable, as they 
 represent circumscribed growths whose appearance, persistence, and 
 effects closely resemble those characteristics of the morbid growths, in 
 the limited sense, in which the new formation of tissue occupies a wider 
 range : 
 
 Granuloma of tuberculosis, scrofula, leprosy, glanders, actinomycosis, 
 syphilis, lupus. 
 
 Lymphoma of diphtheria, scarlet fever, typhoid fever.
 
 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, 
 AND PROGNOSIS. 
 
 BY HENRY HARTSHORNE, M. D. 
 
 ETIOLOGY. 
 
 RECOGNIZING pathology as simply morbid physiology that is, the 
 study of the body and its functions in states of disorder from morbid con- 
 ditions how these morbid conditions are produced is the complex ques- 
 tion to be answered by Etiology. 
 
 Nor is this question (or series of questions) by any means only of 
 speculative or theoretical importance. It is, indeed, eminently practical. 
 What a difference, for example, there must be in the diagnosis, prognosis, 
 and treatment of an attack of inflammation of the eye, in accordance 
 with its causation by ordinary conditional influences (taking cold), by a 
 particle of steel imbedded in the cornea, or by syphilis ! How great the 
 difference between the wound made by the teeth of an animal, in one case 
 with, and in another without, the presence of rabies in its system ! Take 
 the instance of what we call fever : at a certain stage it is almost the 
 same in half a dozen diseases. By the causation, when known, of this 
 common congeries of symptoms we judge of the essential nature of the 
 malady, and so of its proper treatment. 
 
 It is a maxim in philosophy that every event or effect must have at 
 least two causes. In medical etiology we often find many causes conspir- 
 ing to produce one effect. These may be, and commonly have been, 
 grouped together under two heads ; as, 1, predisposing, and 2, exciting, 
 causes. But under each of these may come a number of agencies con- 
 tributing toward the production or modification of disease. Thus, of 
 predisposing causes we may enumerate inherited constitution, habits of 
 life, previous attacks of disease, atmosphere, and other immediate sur- 
 roundings. Exciting causes say, of an attack of apoplexy may be, in 
 the same case, mental shock, a stooping posture, an over-heated room, etc. 
 One disease is very often the next preceding cause of another. So we 
 speak of the great class of sequelae of acute or subacute disorders ; as, 
 ophthalmia after measles, deafness following scarlet fever, or blindness 
 small-pox, abscesses following typhoid fever, paralysis diphtheria, etc. 
 But this kind of causation is extremely common also in chronic affections. 
 What a train of organic troubles, of kidneys, heart, arteries, brain, and 
 other parts, attend the affection to which we give the name of Bright' s 
 disease! How complex the sequence often of valvular disease of the 
 heart, itself in many instancas the effect of rheumatic fever, with endocar- . 
 
 125
 
 126 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 ditis as a local manifestation of that disorder ! Hardly any discovery in 
 pathology (or pathogeny, the generation of diseases) of the last half cen- 
 tury has been more remarkable and fruitful than that of thrombosis and 
 embolism, with their serious and not rarely fatal consequences, through 
 obstruction of the blood-supply to different organs. 
 
 Previous diseases constitute an often overlooked class of factors in pre- 
 disposing to new attacks, and also in determining their course and results. 
 Of some affections one attack prepares the way for another, as is the case 
 with intermittent fever, convulsions, delirium tremens, and insanity. 
 Just the reverse is true of yellow fever and of all the exanthemata, as 
 scarlet fever, measles, small-pox ; likewise of the analogous disorders, 
 mumps and whooping cough. The moot question in this regard con- 
 cerning syphilis may be left for discussion elsewhere. 
 
 Our classification of the causes of disease may be set forth in simple 
 form, thus : 
 
 1. Pre-natal causation viz. hereditary transmission of a proclivity to 
 certain disorders, and also the influence of circumstances acting on either 
 parent at the time of conception or on the mother during gestation. 
 
 2. Conditional causation i. e. that belonging to variations of tempera- 
 ture, humidity, etc., affecting individuals. 
 
 3. Functional causation that which is connected with excessive, defi- 
 cient, or abnormal exercise of any of the functions of the economy. 
 
 4. Ingestive causation e. g. bad diet, intemperance, poisoning. 
 
 5. Enthetic causation viz. that of all contagious, endemic, and epidemic 
 diseases. Closely allied to this is epithelic morbid influence namely, 
 that of the parasites producing certain affections of the skin, as itch, 
 favus, etc. 
 
 6. Mechanical causation. The effects of this belong chiefly, though 
 not exclusively, to the domain of surgery. 
 
 Pre-natal causation is of immense consequence, and its study takes in 
 the whole scope of the influences of species, race, family, and individual 
 parentage. Darwin's observations and speculations, and those of other 
 evolutionists, have not ignored the field of human life in considering the 
 struggle for existence and the survival of the fittest. If we are obliged 
 to admit that such a struggle and survival do exist for men as well as for 
 animals and for plants, it is nevertheless obvious that either man's reason 
 and will introduce exceptions to the ordinary laws of development and 
 selection in nature, or else a very peculiar standard of fitness must be 
 recognized in the survivals of humanity. Many feeble, inert, deformed, 
 and diseased forms survive and perpetuate offspring through a long series 
 of generations, while strong and admirable ones perish, often even destroy- 
 ing each other. 
 
 Leaving this theme, upon which biological science has not yet pro- 
 nounced its last word, we may inquire, What diseases are reasonably 
 ascribed to hereditary transmission? First, it must be remarked that 
 seldom is a disease actually received directly from a parent. Putting 
 aside a few asserted instances of variola and allied or analogous affections 
 in utero, congenital constitutional syphilis and (more rarely) scrofulosis 
 seem to afford almost the only examples of this. Nearly always it is a 
 predisposition merely that is inherited. This, however, may be very 
 strongly marked. Its seat is evidently in that (as yet) occult law or pro-
 
 ETIOLOGY. 127 
 
 cess of individual organic development to whose manifestation we give 
 the name of the constitution. In some families all the men grow bald 
 before forty ; in others, scarcely so at eighty. Some may expect deafness 
 in middle life, others blindness in old age, and others, again, have a prob- 
 ability of death from disease of the heart at about fifty or apoplexy at 
 about sixty years of age. Such considerations enter into every examina- 
 tion for life insurance, and they are no less important in our prognostica- 
 tions of the results of diseases in practice. 
 
 Speaking more definitely, gout is undoubtedly often hereditary. That 
 is, a healthy childhood may be followed by liability to gout in adult or 
 middle age, even in the absence of direct provocatives to that disorder, but 
 much more frequently when they are present. Gout affords an example 
 of the general fact that inherited proclivity to special diseases shows 
 itself at nearly the same time of life in each generation scrofula in child- 
 hood, phthisis in adolescence or early maturity, gout from thirty to forty, 
 apoplexy after sixty, etc. But exceptions to such rules are not at all rare. 
 Gout also exemplifies another important fact viz. the occasional mod- 
 ification of the transmitted morbid tendency or "diathesis." Parents 
 who have regular gout i. e. painful attacks of acute inflammation of the 
 smaller joints, followed by deposits of urates, carbonates, etc. not unfre- 
 quently have children who are subject to neuralgia or dyspepsia or mod- 
 ified rheumatic attacks (not sufficiently recognized in practical treatises), 
 to which the name " gouty rheumatism " is most applicable. Again, in 
 one generation there may be a marked tendency to insanity ; in the next, 
 to paralysis ; in a third, to tubercular meningitis during infancy. 1 Or 
 some of these successions may occur in a reverse order. 
 
 Constitutional syphilis is undoubtedly often conveyed by inheritance 
 from either parent. Sometimes the impression of this diathesis is so 
 intense as to devitalize the foetus in utero, causing still-birth. Or the 
 manifestations of the disease occur early in infancy, with symptoms like 
 those of the secondary or tertiary affection in the original subject of it. 
 Not often, indeed, is the exhibition, in some manner, of inherited consti- 
 tutional syphilis delayed beyond the time of childhood. 
 
 Scrofulosis is well known to follow in the same family through suc- 
 cessive generations, in a manner apparently demonstrative of hereditary 
 derivation. It is true that here we have a problem not without compli- 
 cation. Certain circumstances, as poverty of living, dampness of locality, 
 want of fresh air in houses, etc., promote scrofula in children. Now, are 
 we sure that it is from its parents that each child, exposed to these mor- 
 bific surroundings, has obtained its disposition to strumous disorders ? or 
 may it not be that every time the diathesis is thus originated de novo ? 
 It is to be answered that decisive evidence in favor of inheritance is pres- 
 ent in a number of cases where the affection occurs so early in infancy as 
 to be almost or quite congenital in its beginnings ; and in other instances 
 where removal of the parents into improved localities, and with better 
 living altogether, has not prevented the manifestation of the same tend- 
 ency in their offspring for two or three generations. The inquiry does 
 not differ very greatly in its nature from that concerning cases of enthetic 
 diseases e. g. cholera, yellow fever, typhoid fever ; as to which the suc- 
 
 1 For example, in one family known to me the grandmother had paralysis, the mother 
 died insane, and her three children all died of tubercular meningitis.
 
 128 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 cession of cases may be such as to allow hypothetical explanation, either 
 by transmission from one individual to another or by the subjection of all 
 to a common local infection or epidemic influence. But in both sorts of 
 cases crucial instances may, with care, be found which determine at least 
 the general etiological law for each malady. 
 
 Pulmonary phthisis has been always considered to be, in a marked 
 degree, a hereditary disease, until, latterly, the hypothesis of a tubercular 
 virus has threatened to displace old views about it. If, however, we 
 accept the classification of cases of pulmonary consumption approved by 
 several leading pathologists, in which a position is provided for non-tuber- 
 cular phthisis, we may at least place hereditary vulnerability, or proclivity 
 to consumption, in this category, while awaiting the final decision of science 
 upon the real nature and origin of tubercle. My own conviction con- 
 tinues to be positive, that tubercular phthisis is often transmitted by 
 inheritance, in the same sense as other diseases are generally so namely, 
 by the bestowal upon offspring of a constitution especially liable to the 
 occurrence of the disorder at the time of life when it is generally most apt 
 to appear. The investigations of Villemin, Cohnheim, Schiiller, Koch, 
 Baumgarten, and others have given (1882) much prominence to the idea 
 of the possibility of the transplantation of tubercle from one human or 
 animal body to another. Koch's elaborate experiments especially are 
 asserted to have shown the existence of a bacillus tuberculosis, a true, 
 minute vegetative organism, which can be cultivated outside of the body, 
 in a suitable material, at a temperature like that of living blood, and 
 which, when inoculated, produces tubercular disease. The discussion of 
 this subject will occur on a later page as a part of the general topic of 
 the causation of enthetic diseases. 
 
 Rickets occupies a much less prominent place in the experience of 
 American practitioners than in that of some countries abroad, and it is 
 therefore less easy here to obtain materials for the study of its etiology. 
 Among those who have had large opportunities for its observation, opinion 
 is divided very much in the manner above referred to. Thus, Wiltshire 
 and Herring assert it to be certainly hereditary ; Jenner denies this alto- 
 gether, while Aitken adopts the ground that predisposing causes are derived 
 from the parents or the nurse, which are so capable of influencing the 
 health of the child as to lead in course of time to the establishment of 
 the disease. 
 
 Goitre is manifestly a family disorder to a large extent in certain re- 
 gions, most familiarly in Alpine valleys in Switzerland. But this local 
 feature takes us back to the same kind of question : Is it the transmission 
 of a specially modified constitution from parents, or the direct action of 
 morbid local influences on the children themselves, that produces bron- 
 chocele and its frequent attendant, cretinism ? Undoubtedly, goitre often 
 occurs in children of healthy parents brought from another locality into 
 one where the disease is common ; and, per contra, goitrous subjects not 
 infrequently recover from the aifection when removed for a length of 
 time from the place where it was developed in them. We are, appar- 
 ently, at least safe in taking here a position like that of Aitken con- 
 cerning rickets : viz. that predisposing causes are derived from parentage, 
 whereby, more easily than in those of different descent, certain influences 
 will develop goitre or cretinism, or both together.
 
 ETIOLOGY. 129 
 
 As to leprosy, there seems no more room for doubt that it is often nay, 
 generally hereditary. The obscurity attending its history, however 
 (more than one cutaneous affection having been from time to time classed 
 under the same name), will justify our referring the reader for the par- 
 ticular discussion of its etiology to another part of this work. (See DIS- 
 EASES OP THE CUTANEOUS SYSTEM.) 
 
 Haemophilia is clearly hereditary in certain families. Immermann 
 asserts it to be even a race-liability in the Jews.- "Bleeders" upon occa- 
 sion of very small wounds of the skin, gums, etc. have been known in 
 several successive generations, including (Borner; Kehrer) women at the 
 time of parturition, who then are apt to have dangerous hemorrhages. 
 
 Cancer presents as unmistakable examples of inheritance as any other 
 disease. Paget asserts this to be traceable in one case out of three ; Sibley, 
 in one of nine ; and Bryant, one of ten cases. De Morgan and others 
 have shown the same thing to be true of non-malignant morbid growths. 
 But, as Paget has remarked, when other local disease or deformity is in- 
 herited, it usually involves in the offspring the same tissue, often the same 
 part of the body, as in the parent, but the transmitted cancerous tendency 
 may show itself anywhere : "Cancer of the breast in the parent is marked 
 as cancer of the lip in the offspring. The cancer of the cheek in the 
 parent becomes cancer of the bone in the child. There is in these cases 
 absolutely no relation at all of place or texture." 
 
 Cataract is believed by good authorities to be promoted by hereditary 
 tendency. It is of the nature of a degeneration. Possibly, in a greatly- 
 prolonged decay of all the organs with age, all eyes tend to become 
 cataractous from structural alteration of the crystalline lens. Under 
 observation a quite different rate of degenerative change takes place 
 among the organs of the body in different individuals and families. 
 Thus, the lens becomes opaque in some at an age when the hearing con- 
 tinues good and the muscles retain considerable vigor, while in members 
 of other families the eyes remain in a sound condition at a time when 
 other organs and powers have failed. Congenital cataract appears to be 
 altogether independent of any proclivity transmitted from parents in the 
 nature of an inheritance. 
 
 Affections of the nervous system very often show hereditary descent. 
 Neuralgia prevails strongly in certain families. Particularly, that form 
 of cephalalgia called sick headache is apt to appear, in the periodical 
 form, through several generations. Apoplexy and paralysis are prone 
 to occur at nearly the same time of life under the transmission of like 
 constitutions by parentage. Still more often this has been observed 
 of epilepsy and hysteria, and, most of all the neuroses, in insanity. 
 Monomania and melancholia have been in a great number of instances 
 traced to generative succession sometimes, especially suicidal monomania, 
 through four or five generations. Predisposition to intemperance, metho- 
 mania, is also a terrible inheritance in some families. Although the pro- 
 duction of this malady requires the provocative of indulgence in the use 
 of alcohol for its development, yet the facility with which this result 
 occurs under the same circumstances in different families is too marked 
 to leave room for doubt of its hereditary nature. 
 
 Less certainly, but with much probability, we may assign parental 
 endowment as one of the factors in the causation of organic disease of 
 VOL. I. 9
 
 130 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 the heart, arteries, liver, and kidneys, as well as of angina pectoris, 
 asthma, croup, dyspepsia, and hemorrhoids. 
 
 Is a special proclivity to any of the group of enthetic febrile diseases 
 ever inherited ? Dr. George B. Wood believed this to be the case with 
 enteric or typhoid fever. Few others have shared this opinion, but it is 
 not impossible that it has a basis of truth. 
 
 Reference has been made already to the difference between periodical 
 malarial fevers (intermittent, etc.) and yellow fever, in that an attack of 
 the latter does, and one of the former does not, protect the individual, 
 usually, from liability to the disease on exposure to its cause. Does this 
 protection extend to offspring of parents who have been "acclimatized " to 
 yellow fever ? Facts on this point are not easy to obtain. While, how- 
 ever, there appears to be no proof that a single generation can ever suffice 
 to outgrow (so to speak) liability to this disease, it is well known that 
 Creoles in Louisiana and the West Indies are less susceptible to it than 
 recent white residents, and that the negroes are much less so, as a race, 
 than the whites. Furthermore, negroes whose ancestors have long been 
 domesticated in our Southern States appear to re-acquire susceptibility to 
 yellow fever in a degree more nearly like that of white people than is 
 observed in natives of Western Africa imported within one or two gene- 
 rations. 
 
 As to autumnal malarial fevers (remittent, intermittent), the black race 
 exhibits a sort of race-acclimatization, giving negroes, both in Africa and 
 in America, a much less degree of liability than is common to all races 
 of European descent. 
 
 How far any similar modification may occur in the course of genera- 
 tions in regard to susceptibility to small-pox and allied diseases remains 
 at present a matter of speculation. Some authors insist that there must 
 be at least a kind of natural selection, according to which a great epi- 
 demic of variola, destroying the lives of many of those most predisposed 
 to suffer from it, will leave the remaining population less likely to be 
 attacked by it. The endeavor has even been made to explain away in 
 this manner much of the diminution of mortality from small-pox com- 
 monly credited to vaccination. But the statistics of the ravages of variola 
 in different countries before and after the introduction of vaccination 
 show that, while we cannot deny that some alternation (of generations 
 respectively more and less susceptible) may occur, no such law can com- 
 pare in influence with that of vaccination in the protection of individuals 
 subjected to it. Indeed, the argument may be inverted ; thus : if in the 
 days before Jenner small-pox itself weeded out the persons most liable to 
 it, or in some way prepared a partial family- or race-protection, such a 
 protection ought to be gradually conferred upon a whole population 
 through universal and persistent vaccination carried on for several gene- 
 rations. 
 
 Is it possible for one hereditary constitution or diathesis to become, 
 in transmission, not only modified, but transmuted, into another ? Some 
 of the older pathologists imagined this to be the case with syphilis, to 
 whose past influence upon parents and ancestors they traced the origin of 
 scrofula. But no sufficient ground for such a pathogeny can be ascer- 
 tained. All that appears to be left after scrutiny of the facts is, that 
 syphilis is a depressing and perverting agency, and so may join with
 
 ETIOLOGY. 131 
 
 other depressing causes in preparing the way for the engendering of 
 scrofulosis. 
 
 A few points still remain to be briefly mentioned in connection with 
 the hereditary conveyance of proclivity to disease. One or several mem- 
 bers of a family will often pass through life without any manifestation 
 of such transmission, while others, their brothers or sisters, give marked 
 evidence of it. Sometimes a whole generation may be passed over, and 
 yet the predisposition may be abundantly shown in that next following. 
 This is closely similar to atavism, as it is called in zoology and general 
 biology, according to which traits occurring under admixture or variation 
 of animal or vegetable stocks may be absent in the immediate oifspring 
 of a couple, but reappear in their next succeeding descendants, or even a 
 still later reversion may take place. Such instances are not rare, and 
 they need to be considered in the proper study of the influence of parent- 
 age, intermarriage, etc. upon health and disease. 
 
 A practical question of much importance (belonging, however, rather 
 to sanitary than to medical science) is, how far confirmation or modification 
 of hereditary proclivities may occur through the eifect of the conditions 
 of marriage upon offspring. Consanguineous marriages have been, time 
 out of mind, held to be very objectionable. The question has been much 
 discussed whether the ground of sanitary objection is properly against 
 such marriages as per se injurious to offspring, or whether the bad effect 
 consists merely in reduplicating and intensifying family constitutional 
 taints. It would not be in place here to go into this controversy. My 
 own conclusion is, that a natural law of sexual polarity or affinity 
 exists, according to which, in all the higher organisms, reproduction is 
 most normal and gives the best results when a considerable genetic differ- 
 ence (within the limits of species) exists between parents. While, how- 
 ever, this is probable, but difficult to demonstrate, it appears to be certain 
 that when a father and mother both possess morbid constitutional predis- 
 positions (say, to phthisis, insanity, or gout), their children will be at 
 least twice as likely to suffer from the same as if only one parent were 
 so endowed. Whether or not, then, the marriage of two perfectly healthy 
 first-cousins may be expected (as several statisticians aver to have been 
 shown) to be attended by defects of health in their progeny, the union 
 of such relations when their common progenitors were in marked degree 
 consumptive, or scrofulous, or liable to insanity, epilepsy, etc., has attached 
 to it so unfavorable a prognosis for offspring as to be rightly forbidden. 
 Morever, so few families possess an absolutely faultless health-record that 
 the chances of increasing existing morbid traits by intermarriages are 
 quite sufficient to justify the commonly held objection against them. 
 
 We must allude very briefly to the influence of conditions affecting 
 conception and gestation upon the health of offspring. Intemperance in 
 parents has, in many instances, been known to promote convulsions; 
 infantile or epileptic, and other cerebral or nervous disorders in children, 
 besides a general feebleness of constitution. Even intoxication at the 
 time of procreation has been asserted to mark a similar difference between 
 one child and another of the same parents. 
 
 All are familiar with the (no doubt often quite imaginary) accounts of 
 the effect on infants in utero of powerful sensory or mental impressions 
 upon the mother during gestation. Abortion has, unquestionably, been
 
 132 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 often produced by violent nervous shocks. Without deciding the question 
 whether "monsters" are ever developed in correspondence with particular 
 experiences of the mother, we may hold it to be clear that all depressing 
 and disturbing agencies may interfere with the process of nutrition of the 
 fretus, and thus develop mental anomalies, and that constitutional impair- 
 ments may thus be greatly promoted. 
 
 All inherited predispositions, it is important to remember, are aggra- 
 vated, and each proclivity changed to actuality, by those influences which 
 in individuals tend to like effects upon health. Such become exciting 
 causes of various diseases. If these be constantly avoided, and all the 
 surroundings and the mode of life of the individual be maintained in a 
 manner most favorable to health, the hereditary tendency may remain 
 inert through a long lifetime. Every physician must have seen this in 
 scores of instances. The application of the principle through special 
 precepts belongs to personal hygiene. But no physician can rightly 
 ignore the study of this subject, or omit the utilization of his acquaint- 
 ance with it by preventive advice to members of the families under his 
 professional care. 
 
 Our last remark in connection with pre-natal causation must be upon 
 the effects of circumstances and modes of living on masses of men, especially 
 in large cities and populous countries. Something has been said already 
 of race-acclimatization by which there may be acquired a lessened sus- 
 ceptibility to certain endemic fevers. 1 Almost a reverse action is exhib- 
 ited in the gradual lowering of vital energy under what has been called 
 the "great-town system." While those having all the comforts of life 
 and avoiding excesses may manifest but little of this deterioration, it is very 
 observable in that mass of men, women, and children who become the 
 subjects of medical charities. Closeness and uncleanliness of living, with 
 more or less exposure to dampness and extremes either of heat or cold, 
 with intemperance and syphilis, are the main causes of this general 
 constitutional impairment. So important is it that it should never be 
 forgotten, not only in our estimate of the causation of diseases, but in 
 our anticipation of their results, and also in our adaptation of measures 
 of treatment, medical and surgical, to different classes of patients. All 
 that it is allowable here to suggest in this regard may be summed up 
 (although very imperfectly) in the word hospitalism. 
 
 Conditional causation has been, to a certain extent, included under what 
 has been above said, as it is the action, in part at least, of surrounding 
 conditions, that establishes a family- or race-proclivity and inheritance. 
 But we must say something more about the direct action of conditions 
 upon individuals. 
 
 Man, although organized with great delicacy of structure, is capable, 
 by the use of his intelligence, of adapting himself to a wider variety of 
 external conditions than any other animal. He is the only truly cosmo- 
 politan being on the earth. From the remote Arctic regions to the hottest 
 tropical climates there are tribes whose ancestors have dwelt for centuries 
 in the same localities. Not that no unfavorable influence attends these 
 extremes. The Esquimaux are stunted, the Southern Hindoo and 
 
 1 It is important (but not before remarked in this article) that cholera does not appear 
 to allow of any such diminution of liability to it among the natives of the country in 
 which it is endemic.
 
 ETIOLOGY. 133 
 
 Central African are enfeebled and degenerate, partly from climate. But 
 with man's numerous protective devices, great cold and great heat only 
 exceptionally affect individual health. Freezing to death folloAvs unusual 
 exposures; the loss of an extremity by sphacelus from congelation is 
 more often met with; heat-stroke also is tolerably frequent; and the 
 influence of heat in producing cholera infantum in some large cities is 
 very important ; but much the most common kind of conditional morbid 
 causation is produced either by sudden changes of temperature or by diver- 
 sity of exposure of different parts of the body. These are the two usual 
 modes of " taking cold." When dampness accompanies a relatively low 
 temperature, such an effect is much more apt to follow than in a cold dry 
 atmosphere. 
 
 Actual cold-stroke, the analogue of heat-stroke, may sometimes happen. 
 I once saw such a case in a previously healthy boy twelve years of age, 
 who, after standing for an hour in his night-shirt on a cold winter 
 night, became almost immediately ill, fell into a comatose state, and died 
 in about thirty-six hours. 
 
 A simple rationale may be discerned for the phenomena of catching 
 cold. When, for example, a draught of air blows for a time upon the 
 back of a person at rest (especially one who has just before used active 
 exertion), the local refrigerant impression induces constriction of the 
 superficial blood-vessels. Hence follow two effects : one, the repulsion 
 of blood in undue amount toward interior organs ; the other, diminution, 
 perhaps arrest, of excretion from the skin of the exposed portion of the 
 body, and consequent retention of some effete material, promoting eso- 
 toxsemia. 1 If, then, there be in the body any weak organ that is, 
 one whose circulation is partially impeded or whose nutritive and func- 
 tional activity is low it suffers first and most from the impulsion of 
 blood from the surface. Congestion, irritation, and inflammation may fol- 
 low, and we have an attack of pneumonia, pleurisy, bronchitis, or some 
 phlegmasia. 
 
 Excessive heat with dryness, as under the blasts of the Simoon or the 
 Harmattan of Arabia or Northern Africa (apart from insolation, sun- 
 stroke, or heat-stroke), may sometimes parch the body even to a fatal degree. 
 Much more common is the combination of high temperature with hu- 
 midity. This has a relaxing effect, promoting indolence of temperament 
 and predisposing to disorders of a catarrhal nature, especially of the 
 digestive organs, such as were called fluxes by the older writers. 
 
 Cold climates are well known to present the greatest number of cases 
 of acute and chronic affections of organs of the respiratory system ; warm 
 and hot climates, those of the stomach, liver, spleen, and bowels. But we 
 must recollect what various complications belong to climate. Two import- 
 ant factors, especially, must be kept in view in comparing the causation 
 of diseases in colder and warmer countries namely, the difference in the 
 articles of food partaken of in each, and the external sources of euthetic 
 disorders ; e, y. endemic and epidemic fevers, etc. 
 
 With humidity must be considered variations in atmospheric pressure. 
 Physicists have long known that while watery vapor, by itself, is heavier 
 than air which is perfectly dry, moist air is lighter than air containing 
 
 1 That is, blood-poisoning, originating within the body itself; exotoxsemia being that 
 which is enthetic i, e. resulting from a poison derived from without.
 
 134 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 little or no moisture. Hence the barometer falls as the quantity of atmo- 
 spheric moisture approaches saturation. Other causes, however, also 
 affect barometric pressure. With the same degree of humidity, cold air 
 is denser and heavier than warm air, and by its contraction lowering the 
 " column " of atmosphere the temperature of which is reduced a flow 
 toward the upper part of the column increases the actual mass of air 
 pressing upon a particular place. Elevation of a locality above the 
 general level of the earth reduces atmospheric pressure, sensibly as well 
 as measurably. So " the difficult air of the iced mountain-top " has 
 become proverbial. 
 
 These variations are familiar, though all their effects upon human 
 health have been by no means, as yet, fully studied. Most difficult to 
 determine and analyze are the influences of changes of pressure, chiefly 
 hygrornetric, upon the course of diseases and upon the result of severe 
 surgical operations. Among the few important series of observations 
 bearing on this topic have been those of Dr. S. Weir Mitchell on 
 neuralgia, 1 and Dr. Addiuell Hewson on the prognosis of major opera- 
 tions, 2 in connection with the state of the weather. The former ascer- 
 tained a marked relation between the approach of a wave of low baro- 
 metric pressure and attacks of irregularly periodic neuralgia ; the latter 
 proved, by the statistics of the Pennsylvania Hospital for a number of 
 years, that the most favorable time for amputations or other capital oper- 
 ations is when the barometer is high, or at least on the ascent. 
 
 Electrical atmospheric states and vicissitudes have, quite probably, 
 a practical consequence beyond what is usually ascribed to them in con- 
 nection with health and disease. But their effects are so difficult to dis- 
 entangle from those of other meteorological causes that we must be con- 
 tent at present without attempting their exact specification. The same 
 observation may be made with reference to ozone. 
 
 Elevation of site has importance, not only in regard to climatic hygiene, 
 but also to its therapeutic use, particularly in the treatment of phthisis, 
 goitre, and some affections of the nervous system. But in our brief and 
 general survey of Etiology this topic must be left without discussion, 
 since no disorder appears to be traceable to elevation alone, beyond the 
 temporary prostration on exertion, with hemorrhages from the nose, 
 lungs, etc., often produced in those who climb to great mountain-heights 
 or ascend rapidly in balloons. It has been shown by ample experience 
 that considerable populations may live in ordinary health through long 
 periods at altitudes more than 10,000 feet above the level of the ocean. 
 
 Depression below the surface of the earth has never become a part of 
 human experience beyond the limit of a few hundred feet. Miners living 
 underground in a few places in Europe have been found to exhibit com- 
 paratively feeble health, but the privation of sunlight, the confined atmo- 
 sphere, and the dampness of such unnatural abodes will suffice to account 
 for these effects. 
 
 Under functional causation of disease we may include all excessive, 
 deficient, or abnormal exercise of any of the organs of the body. To 
 simple excess may be ascribed the scrivener's or bank-officer's paralysis 
 of the muscles of the hand used in continuous writing ; brain exhaus- 
 
 1 American Journal of Medical Sciences, April, 1877, p. 305. 
 * Pennsylvania Hospital Reports, 1868.
 
 ETIOLOGY. 135 
 
 tion from mental labor or anxiety, unrelieved by sufficient sleep; and 
 sexual impotence, temporary or lasting (or sometimes even general paral- 
 ysis), from inordinate sexual or sensual indulgence. 
 
 Deficiency of functional exercise is observed to produce disability, as 
 when the muscles of a limb, for instance, are for a long time restrained 
 from use. Surgeons meet with this inconvenience (unless assiduously 
 guarded against) when a fractured limb is kept long at rest in a fixed posi- 
 tion. Atrophy of the mammae in single women of retired lives is 
 common ; atrophy of the testicles in unmarried men much less so. These 
 changes, however, are physiological, not pathological ; upon alteration 
 of conditions e. g. marriage the atrophy will disappear altogether. 
 
 Abnormal functional action as a cause of morbid results is seen when 
 the eyes are injured by reading, writing, or doing any delicate work in a 
 bad light ; for instance, late twilight. Also, in a secondary or accessory 
 manner, when a near-sighted person, having the action of the muscles of 
 convergence in excess of his accommodation, or a long-sighted (hyperopic) 
 person, whose accommodation is in excess of convergence, suffers from 
 asthenopia, perhaps with headache, distress, nausea, etc. Another example 
 of abnormal functional exercise and its effects is that of self-abuse, where 
 the unnatural mechanical imitation of the physiological act of sexual 
 coition induces disturbances of the nervous and circulatory systems, 
 besides debility from excess. 
 
 Ingestive causation is a sufficiently fit designation for all errors of 
 diet, as well as misuse of medicines, and poisoning. Starvation or inanition 
 belongs to the same category by negation. Gluttony and intemperance 
 are major members in the ingestive series, while haste in taking food, 
 without mastication, and the use of heavy bread, unripe fruit, and other 
 indigestible articles, account for many cases of dyspepsia and some of 
 colic, cholera morbus, diarrhoea, etc. With young children, especially, 
 no more frequently acting cause of disorder exists than dietetic misman- 
 agement, most of all during the period of dentition, and earlier, when, 
 from absence or insufficiency of mother's milk, they have to be artificially 
 fed. Then the supply of good fresh cow's, goat's, or ass's milk may carry 
 them well through infancy, while a regimen of arrowroot or gum-arabic 
 and water, or stale, half sour milk, may either starve or sicken them to 
 death. On the subject of poisons and of misuse of medicines we have no 
 occasion here to make special remark. Only it may be mentioned that 
 the possibility of either is always to be remembered by the physician in 
 making up his mind in regard to the origin of symptoms observed. 
 
 Euthetic causation is a large subject, including all origination of disease 
 by the introduction of morbid materials from without the body. 1 Medical 
 opinion has generally accepted, and facts fully sustain, the recognition of 
 three groups of enthetic disorders, viz. : those which are personally con- 
 tagious; such as are locally epidemic; and epidemic diseases. Of the 
 first group it will suffice to mention, as an example, syphilis ; of the 
 second, intermittent fever; of the third, influenza. 
 
 Were all maladies whose causation is evidently of external origin 
 capable of the same clear discrimination as these, we should have no 
 difficulty with the present topic. But, in fact, no subject connected with 
 
 1 Simon has proposed the term exopathic to indicate the origin of such maladies ; 
 autopathic disorders being those which originate within the body itself.
 
 136 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 the history of disease has become surrounded by more intricate contro- 
 versy. Many times the same facts are, or appear to be, explicable in two 
 or three different ways. What some hold to be proofs of contagion from 
 person to person, others are ready to account for by the subjection of a 
 number of persons or of a whole community to either a common local 
 or a widespread migrating (epidemic) influence. It is sometimes impos- 
 sible, in the nature of things, to obtain an absolute demonstration of the 
 truth of one or another of these theories without such experiments upon 
 human beings as are impracticable. 
 
 While endeavoring to ascertain the limits of our present knowledge 
 upon these questions, let us first notice what are the most positive facts 
 concerning them, some of which are common to the whole group or class 
 of what have been, since Liebig, often called zymotic, 1 but latterly more 
 often enthetic, diseases. 
 
 These diseases may be enumerated as follows : 
 
 1. Only produced by contact or inoculation. 
 
 Primary Syphilis, Vaccinia, 
 
 Gonorrhoea, Hydrophobia. 
 
 2. Contagious also by atmospheric transmission through short distances. 
 
 Variola, Scarlatina, 
 
 Varioloid, Rotheln, 
 
 Varicella, Mumps, 
 
 Measles, Whooping Cough, 
 
 Diphtheria, Typhus, 
 
 Relapsing Fever. 
 
 3. Endemic, occasionally epidemic. 
 
 Malarial Fevers (Intermittent, Remittent, and Pernicious Fever), 
 Dengue, Yellow Fever. 
 
 4. Other zymotic or enthetic diseases. 
 
 Influenza, Tropical Dysentery, 
 
 Cerebro-spinal Fever, Typhoid Fever, 
 
 Erysipelas, Cholera, 
 
 Puerperal Fever, Plague. 
 
 As all observers are agreed in regard to the personal transmission of 
 the first named of these series (variola, etc.), we need to give attention here 
 only to the other groups ; except merely to say that the easily demonstra- 
 ble existence of a morbid material (virus) in the instances of primary 
 syphilis, gonorrhoea, variola, and vaccinia presents a very cogent ana- 
 logical argument for the presumption that all clearly contagious (even 
 
 1 The term zymotic has, with many authors, fallen into disrepute, chiefly because Liebig's 
 hypothesis concerning the chemico-physical action of ferments, as well as of contagia, has 
 lost ground in comparison with the vital or disease-germ theory. Yet the analogy between 
 fermentation, putrefaction, and the action of a virus on an animal organism persists ; 
 whatever may be the theory of their explanation, something appears to be common or 
 similar in all these processes.
 
 ETIOLOGY. 137 
 
 though non-eruptive) maladies, such as mumps and whooping cough, 
 must also have a morbid material as their essential cause ; and also in 
 favor of the supposition that a morbid material may probably be the 
 "causa sine qua non" of each of the other maladies which are known to be 
 endemic or epidemic. A few theorists only have argued in favor of any 
 other view than this. Sir James Murray and Dr. Craig of Scotland, and 
 Dr. S. Littell of Philadelphia, have sustained an electrical hypothesis, 
 and Oldham and others have advocated one connected with changes of 
 bodily temperature, or ozone, etc., for the origination of certain endemic 
 and epidemic diseases. But all the facts point toward the existence of 
 material causes, specific for each of these disorders, and many observations 
 and much ingenuity of reasoning have been brought to bear upon the 
 question as to their intimate nature. 
 
 Are these materise morborum merely inorganic elements or compounds 
 entering human bodies and acting there as chemical poisons? Against 
 such a supposition we have, as almost decisive objections, not only the 
 absence, under the most searching analysis, of any chemical peculiarity in 
 the air of malarious or otherwise infected regions, but also the cling- 
 ing of many endemic and epidemic causes (as known by their effects) to 
 particular localities, notwithstanding the recognized law of the diffusion 
 of gases which must antagonize such concentration. Therefore, we may 
 rule out, as highly improbable at least, the hypothesis of the inorganic 
 gaseous nature of malaria, as well as of the essential causes of yellow 
 fever, cholera, plague, and the other analogous diseases. 
 
 By the once general use of the term zymotic, there is suggested a 
 line of thought which has been quite prevalent since the prominence of 
 Liebig's teachings in chemical physiology, until recently. That great 
 chemist did not imagine that a true zymosis or fermentation occurs under 
 the action of a virus upon the human economy. His thought was more 
 clearly expressed, in the phraseology of the late Dr. Snow of London, as the 
 theory of continuous molecular change. Its most striking physical instance 
 or analogue is the extension of flame from a burning body to combustible 
 matter within its reach. Sugar formation from starch by diastase, and 
 the change of albumen into peptone by pepsin, are familiar examples, in 
 organic materials, of the propagation of molecular movement in special 
 directions and with characteristic results. 1 It does not seem to be more 
 than a short step from these to the processes which we study in fermenta- 
 tion, putrefactiou, septicaemia, and the multiplication of small-pox conta- 
 gion, from the smallest inoculation, in the human body. 2 
 
 But here comes in a new hypothetical factor, introduced by the aid of 
 
 1 In anticipation of the argument concerning the necessity of the action of minute living 
 organisms to produce fermentation, putrefaction, and specific diseases, emphasis may be 
 here laid upon the fact that the above named changes, and many others like them, are 
 produced, in the absence of such organisms, by chemical agents formed in the body, or 
 even (as when sulphuric acid changes starch to sugar) by inorganic substances. Pasteur 
 considers that the yeast-cell secretes a sort of diastase which changes starch or cane-sugar 
 into glucose, on which the cell then lives, decomposing the glucose into alcohol, carbonic 
 acid, etc. Koch and others now assert that a bacillus produces the souring of milk, and 
 another the butyric acid fermentation. 
 
 * The assertion of some advocates of the "germ theory of disease," that only living organ-- 
 isms reproduce their kind, loses weight as an argument in view of the natural history of 
 Binall-pox and analogous diseases; unless it be proved that every particle of contagious 
 matter is (at one time at least) a living organism.
 
 138 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 the microscope, although anticipated conj ectu rally before actual discoveries 
 in this field were made certain. So prominent is this subject in the dis- 
 cussions of the present time, under the expression " the germ theory of 
 disease/' that we are justified in giving attention to it here somewhat at 
 length. 
 
 Stahl proposed a purely chemical theory of fermentation early in 
 the seventeenth century. Not much later Hauptmaun suggested 
 the probable causation of epidemic diseases by minute living organisms. 
 Linnaeus l revived this hypothesis in the eighteenth century. These two 
 topics of inquiry, with the intermediate one of putrefaction, then received 
 much attention, at first apart, but afterward with recognition of their 
 analogies. When Fabroui, Cagniard de la Tour, Schwann, and Kiitzing 
 had, with the aid of the microscope, made familiar the life-history of the 
 yeast-fungus 2 (Saccharomyces cerevisise), more close consideration still was 
 given to these remarkable changes in organic materials and forms, dead 
 and living. 
 
 Starting from the physical basis of inorganic chemistry, Liebig followed 
 the series up from the so-called catalytic 3 action by which the presence 
 of a substance, itself apparently unchanged, induces reaction between two 
 or more other bodies, to those Avhich occur within plants and animals, as 
 examples of vital chemistry. Such is the influence of diastase or inver- 
 tin, which in the seeds of plants brings on the conversion of starch into 
 sugar and of cane-sugar into glucose and levulose. Such is the agency 
 of ptyaliu in the saliva, of pepsin in the gastric juice, and of pancreatin 
 or trypsin in the secretion of the pancreas, in the processes of digestion. 
 From these it appears to be an easy transition to those changes w T hich 
 occur in organic matter no longer living, as in the fermentation of vege- 
 table juices and the putrefaction of animal tissues. 4 Liebig endeavored to 
 explain these also in the same manner as the chemico-vital processes ; 
 and he then went farther to apply the same generalization to the propa- 
 gation of disease, by what is called virus, in the instances of contagious, 
 endemic, and epidemic maladies. 
 
 But, meanwhile, observation and speculation gave almost equal prom- 
 inence to the importance of minute living organisms in the apparent insti- 
 gation of all these evidently analogous changes of fermentation, putre- 
 faction, suppuration, septicaemia (Piorry, 1835), infection, and contagion. 
 
 Upon this side the leading investigator for many years has been Pas- 
 teur. As long ago, however, as 1813 Astier, and in 1840 Heiile of 
 Berlin, and near the same time Sir Henry Holland of London and Dr. 
 J. K. Mitchell of Philadelphia, gave expression to opinions of a similar 
 kind, based upon many important facts before very much overlooked. 
 By exact experimentation, moreover, Schwann, Helmholtz, Schroeder, 
 and Dusch ascertained that the agent or agents causative of fermentation 
 and putrefaction can be detained by heated tubes, by animal membranes, 
 
 1 Linnaeus accepted the asserted observation by Rolander of acari in the stools in dysen- 
 tery. The great naturalist deviated somewhat here from his usual carefulness and accu- 
 racy, as that observation was not afterward verified. 
 
 2 Leiiwenhoek, however, had observed and described it in 1680. 
 
 3 The idea expressed by this term was especially favored by Berzelius and Mitscherlich. 
 * It is noticeable, however, although generally forgotten, that the one set of changes 
 
 and assimilations (namely, those of digestion) are formative actions of life, and the others 
 destructive, in the direction of, or subsequent to, death.
 
 ETIOLOGY. 139 
 
 and by cotton wool, anticipating the later observations of Pasteur, 1 Tyn- 
 dall, Chauveau, and others to the same or similar effect. These results of 
 experiments are commonly understood to prove the particulate character of 
 the agents so studied. What may be called an era in the practical appli- 
 cation of etiological inquiry dates from the introduction by Lister (about 
 I860) of the principles of antiseptic surgery, based upon the theory that 
 disease-germs, derived from the atmosphere or other external sources, 
 are the essential causes of suppuration, septicasmia, pyasmia, gangrene, etc. 
 following injuries or operations. 
 
 So far from this inquiry being yet terminated, while experiments and 
 observations have become more and more numerous and elaborate, opin- 
 ions continue to differ ; and we must yet await the time when, by suc- 
 cessively excluding, one after another, all the sources of error, a truly 
 scientific conclusion may be obtained. 
 
 Roughly speaking, it may be said that parties in the debate are chiefly 
 ranged upon two sides those who favor the probability that only chem- 
 ical, not vital, action is to be traced in fermentation, putrefaction, suppu- 
 ration, infection, and contagion ; and those who regard minute organisms, 
 discovered or undiscovered, as causative of, and indispensable to, all these 
 processes. 
 
 Without intention of injustice to other able investigators, the principal 
 names so far associated with the former of these views may be thus 
 mentioned: Panum (1856), Robin, Bergmann, Liebig, Colin, Lebert, 
 Vulpian, Ouimus, B. W. Richardson, 2 Beale, 3 Senator, Roseuberger, Hil- 
 ler, Nsegeli, Schottelius, Harley, Jacobi, Curtis, and Satterthwaite. Of 
 those maintaining, in some form and with more or less positiveness, the 
 disease-germ theory, the most conspicuous, especially as observers, have 
 been Tuchs (1848), Royer (1850), Davaine, Branell, Polleuder, Pasteur, 
 Tyndall, Lister, Mayrhofer, Ortel, Letzerich, Nassiloff, Hueter, Toussaint, 
 Hansen, Salisbury, Klob, Hallier, Basch, Virchow, Neisser, Eberth, 
 Tommasi Crudelli, Klebs, Talamon, Schiiller, Tappeiner, Colmheirn, 
 Koch, Baumgarteii, Buchner, Aufrecht, Birch-Hirschfeld, Greenfield, 
 and Ogstou. Besides these the elaborate studies of microphytes by 
 Cohii, and those of Coze and Feltz, Waldeyer, Recklinghausen, and 
 others upon septic poisoning, have been of acknowledged importance ; 
 and the experimental labors of Burdon Sanderson in England, and Stern- 
 berg, 4 H. C. Wood, and Formad in the United States (under the aus- 
 pices of the National Board of Health), possess great value. But the 
 scientific caution of these last inquirers, like that of Magnin, has pre- 
 vented them from formulating, as yet, positive and final opinions upon 
 the subject. It is not saying too much to assert nearly the same of 
 
 1 Pasteur's experiments with long-drawn bent tubes had especial significance. 
 
 2 Dr. Richardson lias long contended for the doctrine first proposed by Panum, that a 
 peculiar chemical agent, (called by Bergmann xepsin] is the cause of blood-poisoning from 
 virulent absorption or inoculation. Latterly, attention has been called by Selmi and 
 other observers to the existence of complex compounds called ptomaines in decomposing 
 animal substances e. y. the human body after death these having considerable resem- 
 blance in their toxic action to tlie poisonous vegetable alkaloids. 
 
 3 Opposed at least to the ordinary form of the germ theory of disease. 
 
 4 Sternberg's observations and experiments (following those of Pasteur) with the inocu- 
 lation of animals with saliva, proving that even when taken from_ perfectly healthy men 
 this may be fatally poisonous to animals, possess remarkable interest. They do noi 
 seem, however, to be decisive either way in regard to the germ theory of infection.
 
 140 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 several of those mentioned above, as inclining to one or the other side 
 of the controversy. 1 
 
 It would appear, then, that the data for a final conclusion have not yet 
 been made certain. Several hypotheses are conceivable, and capable, each, 
 of plausible support : 
 
 1. The purely chemical theory of Liebig, Gerhardt, Bergmaim, Snow 
 of London, and B. "W. Richardson. 
 
 2. The bioplastic hypothesis of Beale, according to which germinal 
 matter may be detached from a living body and planted, while yet 
 retaining vitality, upon another, and there may undergo changes more 
 or less morbid, and destructive of the body by which it has been 
 received. This theory of migrating or transplanted bioplasts has re- 
 ceived very little support besides that of its distinguished author. 
 
 3. That the minute organisms discovered so constantly upon diseased 
 parts of plants and animals (e. g. ergot of rye, Peronospora wfcstans of 
 potato-rot, Botrytis Bassiaiia of silk-worm niuscardiue, Panhistophyton 
 of silk-worm pebrine, JSmpusa muscce of the fly, Achorion, Tricophyton, 
 Oidium, and Leptothrix of human affections of the skin and mucous mem- 
 branes) are incidental or accidental only 2 acting, as JL Owen observes, 
 
 1 Billroth and Cohnheim are among those who have changed their opinions on this 
 subject after prolonged investigation. 
 
 2 This possibility lias not been as yet altogether ruled out in regard to Koch's Bacillus 
 tuberculosis ; concerning which active discussion has been going on during the past year 
 or two (1882-83). A very large number of observers confirm the statement that the 
 bticilli are found in most specimens of tubercle. Several, also, have repeated with success 
 Koch's inoculation experiments, in which tubercle appeared to be propagated by care- 
 fully isolated bacilli. But many facts still stand in the way of the conclusion that the 
 bacillus is the causa sine qua non of tuberculosis. First, examples of the production of 
 phthisis by apparent contagion or infection are few. Although Dr. C. T. \Villiams found 
 bacilli in the air of the wards of the Hospital for Consumptives at Brompton, yet of the 
 experience of that hospital Dr. Vincent Edwards, for seventeen years its resident medical 
 officer, reports as follows: "Of fifty-nine resident medical assistants who lived in the 
 hospital an average of six months each, only two are dead, and these not from phthisis. 
 Three of the living are said to have phthisis. The chaplain and the matron had each 
 lived there for over sixteen years. Very many nurses had been in residence for periods 
 varying from months to several years. The head-nurses, says the writer, sleep each in a 
 room containing fifty patients. Two head-nurses only are known to have died one from 
 apoplexy ; the other head-nurse was here seven months, was unhappily married, and 
 some time afterward died of phthisis. Of the nurses now in residence, one has been here 
 twenty-four years, two twelve years, one eight years, one seven years, one six and a half 
 years, and one five years. No under-nurse, as far as I am aware, has died of phthisis. 
 All the physicians who have attended the in-and-out patients during the past seventeen 
 years are living, except two, who did not die from phthisis." 
 
 Against the inoculation and inhalation experiments of Villemin, Tappeiner, Koch, Wil- 
 son Fox, and others, by which the specific character of tubercle has been said to be 
 proved, must be placed those of Sanderson, Foulis, Papillon, Lebert, Waldenburg, Schotte- 
 litis, Wood and Formad, Robinson, and others, by which tubercles have been induced by 
 the injection, inoculation, or inhalation of various non-tubercular materials. In answer 
 to the argument from these, it is asserted by Koch and his supporters that " there is no 
 anatomical or morphological characteristic of tubercle," its only sufficient test being its 
 inoculabiiity. This is almost begging the question ; at all events, it leaves it, for the 
 present, unsettled. Moreover, tubercular deposits do not always contain bacilli, as has 
 been shown by Spina, Sternberg, Formad, Prudden (N. Y. Medical Record, April 14 and 
 June Hi. 1883). The last named made, in one well marked case, six hundred and ninety- 
 five sections from ninety-nine tubercles in different portions of a tuberculous pleura, all 
 of Koch's precautions being observed in the examination. Belfield (Lectures on Micro- 
 O/v/iuu'.v//!.s find Disease) admits the possibility that tuberculosis may be produced by either 
 of several causes. It has, at least, not yet been demonstrated that the tubercular tissue is 
 more than a nidus or favorable " culture-ground " for the bacilli, or that, in the presence 
 of a constitutional predisposition, they may not merely promote a more rapid destruction 
 ul the invaded organs or tissues.
 
 ETIOLOGY. 141 
 
 most commonly as natural scavengers in the consumption of effete organic 
 material ; but that they may become noxious under two sorts of circum- 
 stances viz. when their numbers are enormously increased, as is known 
 to be the case with trichinae in the human body, and also when they are 
 brought in considerable number into contact with bodies already diseased, 
 or at least suffering under depression of vital energy. 
 
 4. That such organisms are the essential and direct causes of enthetic 
 maladies by invading the human and other living bodies as parasites, 
 consuming and disorganizing their tissues, blood corpuscles, 1 etc. Pasteur 
 considers the abstraction of oxygen an important part of their action. 
 
 5. That these microbes, microphytes, or mycrozymes act not as parasites, 
 but as poison-producers, secreting a sort of ferment which is the specific 
 morbid material (Virchow) ; or, when multiplying in excess of their food- 
 material, they may die, and their dead bodies, like other decaying organic 
 matter, may become poisonous. This possibility, although not distinctly 
 suggested (so far as I know) hitherto, appears to me to be not unworthy 
 of consideration. That the numbers of micro-organisms present have 
 some important relation to morbid conditions has long since been inferred 
 from familiar facts. 
 
 6. That they are not generators, but carriers, of disease-producing 
 poisons ; their vitality giving to the latter a continuance of existence and 
 capacity of accumulation and transportation not otherwise possible. 
 
 Briefly, the following is a summary of the most generally accepted 
 classification of those microscopic organisms 2 whose role in the causation 
 of diseases is now under discussion ; chiefly following Colin and Klebs : 
 
 Orders : Hyphomyceta?, Algse, Schizomycetse. 
 
 Hyphomyceta3, genera : Achorion, Tricophyton, Oidium. 
 
 Algoe, genera: Sarcina, Leptothrix. 
 
 Schizomycetoe, or Bacteria, genera: Micrococcus, Rod-bacterium, Bacil- 
 lus, Spirillum. 3 
 
 Micrococci (Sphrerobacteria of Cohn) are asserted (under certain condi- 
 tions) by Letzerich, Wood, and Formad 4 to be causative of diphtheria ; 
 Ogston has found them in ordinary pus; Rindfleisch, Recklinghausen, 
 Waldeyer, Birch-Hirschfeld, and others report them to be always present 
 in the abscesses of pyamia; Buhl, Waldeyer, and Wagner state their 
 occurrence in intestinal mycosis ; Eberth, Koster, Maier, Burkhardt, and 
 Osier, in ulcerative endocarditis; Orth, Lukomsky, Fehleisen, and 
 Loeffler, in erysipelas; Coats and Stephen in pyelo-nephritis ; Friedlander, 
 in pneumonia; Eklund (Plax scindens) in scarlet fever; Keating* and 
 
 ' Against this view stands especially the objection that, as Cohn, Burdon Sanderson, 
 and others have fully shown, bacteria and other SchizomycetiB obtain their nitrogen, not 
 from organized tissues, but from ammonia, and their carbon and hydrogen from the 
 results of decomposition in organic tissues. (See B. Sanderson, in Brit. Med. Journal, Jan. 
 16, 1875.) Pasteur has regarded the relation of these organisms to oxygen as important; 
 some of them requiring it for their existence (aerobic), and others not (anaerobic). He 
 has defined fermentation as "life without free oxygen." 
 
 . * For further details concerning these the reader is referred to the works of Magnin, 
 Belfield, and Gradle on The Bacteria, and on the Germ Theory of Disease. 
 
 3 Cohn also separates vibrio and spirochaete as genera distinct from spirillum. They may, 
 however, be regarded rather as species of that genus. Some recent authors included bac- 
 terium and bacillus under one genus, bacillus; against which simplification there seems to 
 be no valid objection. 
 
 4 Bulletin of National Board of Health, Supplement No. 17, Jan. 21, 1882. 
 6 The Medical- Nem, Philadelphia, July 29, 1882.
 
 142 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 Le Bel, in measles ; Leyden and Gaudier, in cerebro-spinal meningitis ; 
 Carmona del Valle, in yellow fever ; Prior, in dysentery ; Gaff'ky, Leis- 
 tikow, Bokai, and Bockhardt, in gouorrhosa ; l besides other similar ob- 
 servations by numerous writers. 
 
 Bacterium termo is regarded by leading authorities as the special fer- 
 ment or causative agent of putrefaction 2 (Billroth, Cohn). 
 
 Bacillus includes, hypothetically at least, several species; as Bacillus 
 subtilis, the innocent hay-fungus ; Bacillus anthracis, the microbe of 
 malignant pustule (anthrax, milzbrand, charbon) and the splenic fever 
 of sheep ; Bacillus typhosus (Klebs, Eberth, Meyer) of typhoid fever ; 
 Bacillus lepra (Hansen, Neisser, Cornil, Koebnerj of leprosy ; 3 Bacillus 
 rnalarise, reported as having been demonstrated 4 by Klebs and Tommasi 
 
 Crudeli, Marchand, Ceri, and Ziehl ; 
 Bacillus tuberculosis (Koch, Baumgar- 
 c? a jV*ten, 1882); the bacillus of malignant 
 *** / oetlema (Gaffky, Brieger, Ehrlich); that 
 ,{ * of syphilis (Aufrecht, Birch-Hirschfeld/ 
 / , / Morrison) ; of glanders (Loeffler, Schuetz, 
 ;%;*/ Israel, Bouchard); of pertussis (Burg- 
 ? \ er) ; besides the Actinomycosis of Israel, 
 **.' Ponfick, 6 Bellinger, and others. Koch 
 
 Micrococci: a, zooglcea form; b, microooc- , i /i r,n.->\ i i 
 
 cus from urine, in rosary chain; c, rosary has V6iy recently (188o) 06611 reported 
 solution of sugar of A _ i j; i ; 77 iii._ i :n.._ 
 
 FIG. 1. 
 
 
 FIG. 2. 
 
 to have discovered in Egypt the bacillus 
 of cholera. 
 
 Spirillum (Spirochseta of Ehrenberg) has its best ascertained example 
 in the minute forms first observed by Obermeier, and afterward by 
 many other observers, in the blood of patients suffering with relapsing 
 
 fever. They have been 
 found present in the blood 
 only during the febrile 
 paroxysm, disappearing 
 in the intermission and 
 through convalescence. 
 
 Hastening to close our 
 consideration of this sub- 
 
 ject, we may note, with- 
 out much argument, a few 
 of the points of difficulty 
 
 Bacteria: a, zooglcea of Bacterium termo; b, pellicle of bacteria nppr i; no , vp f + n U p mr, 
 from surface of beer; c, Bacterium lineola, free; d, zooglcea "W*IUK j ui 
 
 form of B. lineoia. f u l] y illuminated by care- 
 
 1 Steinberg's careful experimentation seems to show the identity of Neisser's gonococ- 
 cus with the Micrococcns urese, commonly found in decomposing urine. 
 
 2 Others have referred putrefaction to vibriones, less precisely described. 
 
 3 Dr. H. D. Schmidt of New Orleans, an experienced pathologist, reported (Chicago 
 Medical Journal and Examiner, April, 1882) that critical examination of numerous speci- 
 mens of tissues from three cases of leprosy under his care failed to verify the existence 
 of bacilli as characteristic of that disease. 
 
 4 Not certainly, however, as shown by Sternberg (Bulletin of Nat. Board of Health, Sup- 
 plement No. 14, July 23, 1881). Dr. Salisbury of Ohio in 1866 made a series of observa- 
 tions, on the basis of which he asserted the discovery of a genus of malarial microphytes, 
 which he referred to the family of PalmellnK. 
 
 The oval and spherical organisms described by Richard and Laveran as found in the 
 blood of malaria] patients resembled micrococci rather than bacilli. 
 
 5 More recently described by him as micrococci. 6 Die Actlnomykose, 1881.
 
 ETIOLOGY. 
 
 143 
 
 ful observation before any form of the germ theory can take its place 
 as an established doctrine in etiology : 
 
 1. The absence of the characters belonging to definite organisms 1 in 
 the easily-studied virus of small-pox and vaccinia stands, a priori, against 
 
 FIG. 3. 
 
 FIG. 4. 
 
 Bacillus malarix of Klebs and Tommasi 
 Crudeli. 
 
 Bacteria from gelatin solution, inoculated 
 from swamp-mud, X 1500 (Steinberg). 
 
 the probability of such organisms being essential to the causation of other 
 enthetic diseases. 
 
 2. Analogy in nature, showing the commonly beneficial action of nutri- 
 tive processes in re-appropriating the products of organic decay on a large 
 or on a small scale, makes the scavenger theory of the general function 
 of minute cryptogamic organisms more probable, per se, than that which 
 holds many of them to be destructive parasites or poison-producers in 
 the bodies which they may inhabit. Few well known parasites are capa- 
 ble of causing death in higher animals or in man. 
 
 3. These microbes are among the minutest objects which can be 
 studied under the microscope. Bacteria average about Q^O of an inch 
 in their longest diameter; micrococci and spores (Dauersporen, Bill- 
 roth) are yet smaller. Much care, therefore, as well as skill, must be 
 exercised in making observations upon them. 2 Huxley asserted a few 
 
 1 The particulate character of variolous and vaccine virus has been already alluded to, 
 as asserted to have been shown by Chauveau and others. Yet it is not absolutely demon- 
 strated that filtration may not produce an important chemical alteration in some kinds of 
 highly unstable organic material subjected to it. Cohn figures a Micrococcus vacciniae in 
 his article on Bacteria (Microscopical Journal, vol. xiii., N. S., pi. v., Fig. 2). Beale denies 
 (Microscope in Medicine, 4th ed.) the existence of any organisms in vaccine virus. Lug- 
 ginbuhl, Weigert, Klebs, Pohl-Pincus, and others have asserted their existence, but, espe- 
 cially in the absence of any successful culture experiments, it does not seem to be 
 proved. 
 
 2 A very interesting discovery was made by Tyndall, to the effect that while one boiling 
 of a liquid would sterilize it for the time by destroying all the bacteria present, their spores 
 might still retain vitality and be afterward developed. By repeated exposure to a boiling 
 temperature, taking these spores in their developing stage, they were destroyed, and com- 
 plete sterilization was effected.
 
 144 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 years ago that a distinguished English pathologist had mistaken for move- 
 ments of minute living organisms the " Brownian movements " seen in 
 the particles of many not living substances under a high magnifying 
 power. One observer, at least, 1 considers that the forms designated as 
 bacteria and micrococci, etc. are either forms of coagulated fibrin or 
 granules from morbidly-altered blood-corpuscles (zoogloea of Billroth, 
 Wood, Formad, and others). Koch denies the validity of the observa- 
 tion of organisms in tubercle by Klebs and Schiiller, while insisting upon 
 his own demonstration of a bacillus tuberculosis. Authorities must, by 
 mutual confirmation or correction, remove these obscurities. 
 
 4. Bacteria and micrococci have been abundantly discovered (Kolaczck ; 
 J. G. Richardson) in healthy bodies upon the various mucous membranes 
 and in the blood. The correctness of such observations has been denied, 
 but, so far at least as the mucous membranes are concerned, it has been 
 well established by Nothnagel, Sternberg, and others. Bacteria have 
 sometimes been found in countless numbers in fecal discharges. 
 
 5. Bacteria become most numerous in materials of a septic or infectious 
 character after their period of toxic intensity has passed by. 
 
 FIG. 5. 
 
 FIG. 6. 
 
 Vibrios in gelatin culture-fluid, X 1000 (Sternberg). Protococcus from slides exposed over swamp-mud, 
 
 X 400 (Sternberg). 
 
 6. Suppuration can be produced (Uskoff, Orthmann) without the 
 presence of minute organisms of any kind. Bacteria have been found 
 
 1 R. Gregg, A T . Y. Me.d. Record, Feb. 11, 1882. Sternberg, however, has replied to him 
 (N. Y. Med. Record, April 8, 1882, p. 368). The latter admits a doubt as to whether the 
 granules seen within the leucocytes by Wood and Formad in diphtheritic material, and 
 believed by them to be micrococci, are such, or are merely granules formed or set free by 
 disorganization of protoplasm within the leucocytes. This uncertainty well illustrates 
 the difficulty of these investigations. 
 
 A chemical test much relied upon is, that bacteria resist the action of acids and alka- 
 lies, which destroy granular material of animal origin ; also, that all these organisms are 
 deeply stained by aniline dyes and by haematoxylin. The most decisive test, however, is 
 cultivation in a liquid sterilized by heat. Koch prefers a process of dry culture for the 
 bacillus of tubercle. 
 
 Gradle (Lectures on the Germ Theory of Disease, Chicago, 1SS3, p. 28) says that the abso- 
 lute criterion of the life of bacteria is their power of multiplication.
 
 ETIOLOGY. 
 
 145 
 
 under Lister's antiseptic dressings without suppuration following. Paul 
 Bert destroyed all the microbes in a septic liquid, and yet found it to 
 retain its poisonous quality. Rosenberger (1881) has made similar 
 observations. 
 
 Panum, Coze, and Seltz, Bergmann and Schmiedeberg, Hiller, Vul- 
 pian, Rosenberger, dementi, Thin, and Dreyer have, by various elab- 
 orate investigations, proved that fatal septic poisoning can be produced 
 in animals by the products of organic decomposition, without the pres- 
 ence of living organisms. Zweifel's experiments seem to have shown 
 that normal blood, when deprived of oxygen, in the absence of micro- 
 organisms, may acquire septic properties. 
 
 As stated by Belfield, 1 many experiments by Schmidt, Edelberg, 
 Kohler, Nencki, and others, have shown that septicaemia may be induced 
 by the injection into the blood of free fibrin ferment and other sub- 
 stances, in the absence of minute organisms. To such an affection some 
 authors now give the name saprsemia, to distinguish it from bacterial 
 infective disorders. 
 
 Griffiui ascertained that mixed saliva, filtered through porous plates, and 
 thus containing no microbes, will still produce septicaemia in animals, when 
 subcutaneously injected. Colin (1876) has denied the collusiveness of 
 the experiments of Chauveau, which nave been held to prove the par- 
 ticulate nature of variolous and vaccine virus. Moreover, it is well 
 known that eggs with shells unbroken are tainted when placed near others 
 which are unsound. 
 
 7. While Klebs and Koch maintain the definite specificity of each 
 minute microphytic organism, Nsegeli and Billroth assert their mutual 
 
 FIG. 7. 
 
 FIG. 8. 
 
 Bacilli trom swamp-mud, X 1000 (Sternberg). 
 
 Bacilli from septtemic rabbit, X 1000 
 (Sternberg). 
 
 convertibility. Burdon Sanderson avers 2 that "the influence of 
 environment on organisms such as bacteria is so great that it seems 
 as if it were paramount." Buchner, Grawitz, Greenfield, Pasteur, 
 Wernich, Thorne, Willems, Law, Wood, and Formad report experi- 
 ments making it appear that modification by culture is possible with 
 bacilli and micrococci, converting an innocent into a malignant parasitic 
 organism, or a death-producing microbe into one capable only of causing 
 
 1 Leiturfs on the Relation of Micro-organisms to Disease, 1883. 
 *Brit. Med, Journal, Jan. 16, 1875. 
 VOL. I. 10
 
 146 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 a transitory and not dangerous local affection ; which nevertheless secures 
 to the animal thus treated immunity when subsequently exposed to the 
 deadly infection. Most interesting have been the successes with such 
 culture-inoculations obtained by Buchner, Greenfield, and Pasteur 
 with anthrax in sheep ; by Pasteur also in chicken cholera ; and by 
 Willems and Law 1 with the lung-plague of cattle. 
 
 In none of these cases is there reported any morphological change 
 whatever in the bacillus (Grawitz) or micrococcus (Wood and Formad) ; 
 
 FIG. 9. 
 
 FIG. 10. 
 
 Bacilli from human saliva, X 1000 (Sternberg). 
 
 Bacillus anihracis (Sternberg). 
 
 the change in the effects noted, and, in the case of the micrococci of 
 malignant diphtheria, the acquired capacity of reproduction through 
 several generations, are all. 
 
 8. The immunity against subsequent attacks on exposure (similar to the 
 protection given by vaccination) continues to be without full explanation 
 upon any theory. But it is especially difficult to reconcile it with the 
 hypothesis of the infection being caused by, and dependent upon, the 
 presence of peculiar microphytes. Why should not these, whether as 
 parasites or as poisons, always produce the same effects? 
 
 .9. The view entertained by Thome, Wood, and Formad, that a com- 
 mon benignant affection, such as ordinary sore throat, may be converted 
 into a violent infectious disease e. g. malignant diphtheria by modifica- 
 tion of innocent micrococci into those with lethal characters, through local 
 or bodily conditions, is sufficiently contravened by the great frequency of 
 such conditions compared with the decided relative rarity of such malig- 
 nant epidemics or endemics. 
 
 10. Throughout all the investigations which have been, and are likely 
 to be, conducted, there remains the extreme difficulty, if not impossibility, 
 of total separation between the microbes themselves and the matter of the 
 vehicle in which they exist the membrane, urine, blood, virus, artificial 
 culture-material, or whatever it may be. All the effects ascribable to the 
 disease germs may be, with no more difficulty, attributed to the toxic action 
 
 1 N. Y. Med. Record, June 18, 1881, p. 679. Exposure to the air for a considerable 
 period seems to be the agency chiefly relied upon for what may be called the dynamic 
 modification of these microphytes. When cultivated in the depth of a liquid, so that 
 air is excluded, they are supposed to acquire a habit of obtaining oxygen by decomposing 
 organic substances, and thus act destructively upon the cell-elements of living bodies. 
 Analogous differences have long since been observed in the study of fermentation between 
 surface and sedimentary yeast.
 
 ETIOLOGY. 
 
 147 
 
 Bacillus tuberculosis, within and outside of pus-corpuscles 
 (Sternbcrg). 
 
 of a portion, however minute, of the soil in -which they have lived, 
 whose modifications must be concomitant with those which they undergo. 
 It appears necessary, there- 
 fore, at the present time, FIG. 11. 
 to regard this whole ques- 
 tion as still undecided, with 
 a predominance of proba- 
 bility, however, in favor 
 of the view that these mi- 
 nute organisms, or some 
 of them, have a direct and 
 important relation of some 
 kind to the causation of 
 specific endemic, epidemic, 
 and contagious diseases. 
 Altogether, the strongest 
 arguments are on the side 
 of the view that the mi- 
 crococci, bacilli, etc. cause 
 diseases, not as parasites, 
 living upon their victims, 
 but as poison-producers 
 infecting them. 1 The 
 germ theory continues to 
 be in the position of a 
 probable hypothesis, not in that of an established doctrine of etiological 
 science. 
 
 Practically, the result is nearly the same as if it were altogether settled, 
 since it is admitted on all sides that the presence of microphytes (bacteria, 
 micrococci, spirilla) coincides with those conditions under which originate 
 several of the most malignant diseases. Measures which prevent the 
 appearance or promote the destruction of these minute organisms are at 
 least often, and to a great degree, preventive, if not curative, of such dis- 
 orders; and the glory of Jenner's discovery, by which the ravages of 
 small-pox have been made (potentially at least) controllable, seems not 
 unlikely to be paralleled by the achievements of Pasteur and others in 
 a similar preventive mastery over other maladies of men and animals. 
 There is, therefore, no branch of inquiry in connection with medical science 
 more worthy of being assiduously encouraged and extended. The pres- 
 ent may almost be said to be, in the history of medicine, an era of rnyco- 
 pathology. 
 
 For an exhaustive study of Etiology attention would now have to be 
 given to the modifying influences affecting the occurrence and character 
 of diseases in connection with age, sex, and temperament. But, as neither 
 of these is ever, per se, causative of any malacly, and they merely deter- 
 mine some modification of the action of morbid causes when these occur, 
 want of space must be our justification for leaving them to be considered, 
 in this work, in connection with the special causation of the different dis- 
 
 1 This comports much the best with the general natural history of parasites on the one 
 hand, and of venoms, ptomaines, etc. on the other. Gautier, Ogston, and others have 
 expressed the opinion that microphytes may produce ptomaines.
 
 148 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 eases which will be hereafter described. A larger treatment of our present 
 subject belongs rather to hygiene than to practical medicine. 
 
 MEDICAL DIAGNOSIS. 
 
 FOR the purposes of the medical practitioner all professional studies 
 unite to the end of furnishing pi'eparation for the diagnosis and treatment 
 of diseases. At the bedside the cardinal questions are, How does the 
 present condition of our patient differ from health ? and, What ought we 
 to do to bring about his recovery ? 
 
 Diagnosis involves three main directions of inquiry : 1, as to the gen- 
 eral bodily state of the patient ; 2, morbid changes in particular organs, 
 tissues, or functions ; 3, as to what name properly designates the disorder, 
 according to accepted nomenclature. 
 
 Pathology can never be out of view in connection with either the 
 theoretical or the practical study of diagnosis. But it is most closely 
 regarded when the last of these questions is before us, since the names of 
 diseases generally have a more or less distinct reference to their patho- 
 logical nature. Yet clinical observation always suggests the early use of 
 provisional terms for recognized groupings of morbid phenomena ; and 
 sometimes these clinical designations remain for a long time in use because 
 of the imperfection of pathology. 
 
 We ascertain, in practice, the nature of a given case, first, by consid- 
 ering its symptoms. These are those obvious evidences of deviation from 
 health which the patient himself is aware of, or which the physician 
 readily discerns or elicits by simple inquiry or examination. 
 
 Secondly, taking the clue furnished by symptoms, a closer inspec- 
 tion is made, with the intent of finding what is the actual state of import- 
 ant organs, as the heart, lungs, liver, spleen, kidneys, and alimentary 
 canal. 
 
 Lastly, when these means fail to remove all obscurity, or when special 
 scientific investigation is practicable, instruments of precision are em- 
 ployed, as the thermometer, sphygmograph, opthalmoscope, sesthesi- 
 ometer, or aspirator; or by the microscope and chemical analyses still 
 more minute examination is made into the particulars of the morbid 
 processes present and their results. 
 
 We may subdivide diagnosis, then, into : 1, symptomatology ; 2, 
 organoscopy or physical diagnosis ; 3, instrumental diagnosis. 
 
 Symptomatology. 
 
 SEMEIOLOGY (from ayfiicov, a sign) is a term much in use, with essen- 
 tially the same meaning as symptomatology, but less conveniently dis- 
 tinctive, since it does not so well indicate the contrast between obvious 
 signs, or symptoms, and those more recondite, obtained by the methods 
 of physical diagnosis. 
 
 Signs of disease cannot be recognized as such except by one who is
 
 MEDICAL DIAGNOSIS. 149 
 
 familiar with the appearances, actions, and manifestations which belong- 
 to health. Nor can they be understood, so as to infer what they mean, 
 without knowledge of normal physiology on the one hand, and, on the 
 other, of the natural history of diseases. Physiology constitutes the etymo- 
 logical grammar, symptomatology the vocabulary, and diagnosis the 
 syntax of practical medicine. Just as grammatical knowledge will not 
 enable any one to read or speak a language without acquaintance with 
 its words, so clinical observation is necessary to the physician over and 
 above all the knowledge he may have of physiology and pathology. 
 He must learn to know diseases by sight, or at least by personal contact 
 and observation. 
 
 Every one has, of course, a general familiarity with the state and 
 actions of his own and other bodies in health, yet a more exact know- 
 ledge of the movements of respiration, circulation, secretion, etc., as well 
 as the form, size, and relative location of all the organs of the body, is 
 needed. Physiology and medical anatomy furnish such information. 
 The more thorough this knowledge is appropiated, the better fitted the 
 student is for practical diagnosis. For its application, however, cultiva- 
 tion of all the perceptive powers is very important. Some men have a 
 genius for quick and clear discernment of symptoms and for their inter- 
 pretation, as well as for that of physical signs. But all can much improve 
 their senses, and their sagacity in using them, by experience. For this, 
 if for no other reason, scientific training, in field or laboratory studies, 
 affords the best introduction to the work of the medical student and 
 physician. The traits most needed for success in diagnosis are exactness 
 and comprehensiveness. First, to be sure precisely what each sign is that 
 comes under observation ; next, to overlook no existing symptoms or 
 physical signs; and, last, so to combine them into a mental map, diagram, 
 or picture, as to make a coherent and rational whole. This nosogram 
 may then be compared with the descriptions of standard authorities, to 
 find its place (if it has one) in technical classification. First, however, 
 ascertain the thing, the morbid state or combination of states; afterward 
 the name, or morbid species, when practicable. It is always to be 
 remembered that complication of diseases, or at least . the existence of 
 some irregular manifestations along with those which are characteristic, 
 is more common than the occurrence of purely typical cases. The por- 
 traits of most diseases in the books are averages, like the composite class- 
 photographs'of Douglas Galton. Not nearly every case will correspond 
 with such an average in all respects. Moreover, so great is the possible 
 variety of alterations among the different organs of the body that the 
 chances of two instances of disease being precisely alike in every par- 
 ticular are hardly greater than those in favor of every move being the 
 same in two games of chess with the same opening. 
 
 In an essay like the present it is not easy to decide upon the best 
 manner of treating the subject before us. Too much or too little may 
 be said. With advanced readers the whole history of symptoms and 
 physical signs might be left to the special discussions occurring in articles 
 upon different 'diseases. But it may be taken for granted that those who 
 consult the present work will do so either at a comparatively early stage 
 of their studies or when time has made desirable a renewal of what may 
 have been once known and then forgotten. Since, then, it is impossible
 
 150 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 to anticipate what may be the exact needs of either class, a somewhat 
 elementary statement of main facts appears justifiable here. 
 
 Following the natural method, we may suppose a call to visit a patient. 
 Arriving in his presence, the first question (mostly left out of view and 
 rarely expressed) may be, Is it a case of real or only imaginary indispo- 
 sition? Army medical officers, more than most others, can appreciate 
 the possibility of this inquiry sometimes disposing of the whole case. 
 
 Supposing it to be real, is it an illness or an accident or other injury? 
 Is it severe or of trifling account ? Acute or chronic ? We observe the 
 position of the patient, lying quietly in bed, sitting up, or walking rest- 
 lessly about the room. Then the countenance is observed pale or 
 flushed, tranquil or excited in expression. We feel the forehead, touch 
 the cheek and hand. Is the skin hot or cold, dry or moist ? The pulse 
 is felt ; the breathing also is counted. 
 
 Of the patient himself or of another (in serious acute cases better of 
 his care-taker, in another apartment) we ask questions whose answers give 
 us the general history of the case. When not before known these should 
 include his antecedent personal history, even extending to that of the 
 family, as far as can be learned. What tendencies have they, or has he 
 or she, shown by previous attacks and their results ? 
 
 So we come to the present attack : When did it begin, and how ? What 
 have been its prominent symptoms since? Questions are then to be put- 
 concerning the heat of the body, appetite, complaint of pain, sleep, move- 
 ment of the bowels, discharge of urine : in the female, menstruation ; if 
 married, pregnancy or parturition, how often and when occurring last. 
 Thus the practitioner is enabled to get a clue to the diagnosis, to be 
 followed out through his own observation and closer examination. If 
 the patient be a child and the attack be acute and febrile, an early question 
 must be as to its having passed or not through the different diseases of 
 childhood viz. the exanthemata, mumps, and whooping cough, and also 
 what exposure to any of these it may have been recently subjected to. 
 
 Going farther into particulars, let us review some of the possible 
 developments obtained in the above questioning of symptoms. 
 
 When lying in bed the decubitus may be significant, as, upon the back 
 with the knees drawn up in peritonitis ; with the hands pressing the 
 abdomen in colic; tossing to and fro in the delirium of fever or of early 
 cerebral inflammation ; on one side constantly in acute inflammation of 
 the liver or in pleurisy. Or the patient may be obliged to' be propped 
 in a sitting posture (orthopnoea) from heart-disease, asthma, or ascites, or 
 leaning forward upon the back of a chair or a pillow with aneurism of 
 the aorta. More remarkable still may be the subsultus tendmum of low 
 fever, the opisthotonos of tetanus, the respiratory spasms of hydrophobia, 
 or the clonic movements of epileptic, hysterical, or occasional convulsions. 
 
 In the face we see pallor in syncope and in anemia in any of its vari- 
 eties and with varied associations ; a general redness in some cases of 
 apoplexy and in remittent fever; flushing of the forehead and eyes 
 especially in yellow fever ; dusky redness in typhus, and a more purple 
 hue in typhoid fever ; yellowness in jaundice, in some cases of remittent 
 and in most of yellow fever ; sallowness in cancer ; a bright central glow 
 upon each cheek in early pneumonia or the hectic of phthisis ; a bine 
 or ashen appearance in the collapse of cholera, and blackish-blue in
 
 MEDICAL DIAGNOSIS. 151 
 
 cyanosis or carbonic acid poisoning ; bronzed in Addison's disease ; puffy 
 about the eyelids in Bright' s disease ; the surface swollen, yet resistant to 
 the touch, in myxredema. The eyes (one or both) glare prominently in 
 exophthalmic goitre ; squint in advanced cerebro-meuiugitis ; roll to and 
 fro often in the prostration of cholera iufantum and in convulsions ; are 
 clear and bright in phthisis ; yellowish in hepatic disorder ; dull and 
 clouded in low fevers ; without expression in imbecility and general 
 paralysis. 
 
 Contraction of the pupil is observed in inflammation of the retina or 
 of the brain, narcotism from opium (until near death) or eserine, or apo- 
 plectic effusion near the pons varolii. Dilatation of the pupil is seen in 
 most cases of hydrocephalus and of apoplexy ; in nerve-blindness (arnau- 
 rosis), glaucoma, cataract, and narcotism from atropia, duboisia, or hydro- 
 cyanic acid. Inactivity of the pupil (Argyll Robertson) under changes 
 of light and darkness is common in locomotor ataxia. Different states 
 of the two pupils under the same light show disorder, either ophthalmic 
 or cerebral in site, or may indicate pressure on the cervical sympathetic 
 ganglia, as from aortic aneurism. 
 
 In elderly persons we ought always to look for the arcus senilis, which 
 is a sign of a tendency to fatty degeneration. It is a ring, or part of a 
 ring, with ill-defined edges, best seen by lifting or depressing an eyelid, at 
 the junction of the cornea and sclerotic coat of the eye. In some quite 
 healthy old persoas there may be seen at the same junction a clearly- 
 defined circular line of calcareous nature. This must be distinguished 
 from the true fatty arcus senilis. 
 
 Of the face we may also notice the pinched nose, hollow eyes, and fell- 
 ing jaw of the facies Hippocratica, presaging death ; the square forehead 
 of the rickety child (not common in this country) ; ulcers on the forehead, 
 scars at the mouth-corners, or copper-colored eruptions in syphilis ; the 
 full, flabby lips of scrofula. In peritonitis or gastritis the mouth is apt 
 to be drawn up with a peculiar expression of suffering and nausea. Very 
 striking is the characteristic one-sided appearance in facial palsy, from lesion 
 of the seventh nerve. There may be a smile, a frown, or other expres- 
 sion on the sound side of the face, while the paralyzed side is quite 
 immovable. As the seventh nerve (portio dura) supplies the orbicularis 
 muscles, its paralysis (so often temporary) may cause inability to close the 
 eye upon the affected side. Ptosis, or inability to open the eye, involv- 
 ing the levator palpebra3, which is innervated by the third nerve (motor 
 oculi) is more significant of cerebral lesion. 
 
 Even the ears may have language, as when their lobes are full and 
 glistening red in the gouty diathesis, or wrinkled in prolonged cachexise, 
 or when they are running with discharges in the struma (scrofula) of 
 childhood. The hair becomes dry and lustreless in phthisis, and falls 
 out during convalescence from many acute diseases. 
 
 If we look at the gums in a case of lead-poisoning, we may expect to 
 find a blue line along their edges. Scurvy is betokened by a swollen, 
 spongy, and easily-bleeding state of the gums. Many scorbutic cases, 
 however, lack this so-called pathognomonic feature. It may be 
 remarked,, by the way, that absolutely pathognomouic signs of particular 
 diseases, never absent and exclusively seen in them, are very few. Albu- 
 minuria, for example, is not always present in Bright's disease, and is
 
 152 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 also met with in a number of other affections. Sugar in the urine may 
 follow inhalation of chloroform or an attack of cholera, as well as diabetes 
 mellitus. Rice- water discharges may be absent in the collapse of cholera, 
 and patients may die with yellow fever without black vomit. Still, these 
 symptoms have great diagnostic value, and, taken with others associated 
 with them, may often enable us to attain to a diagnosis of much import- 
 ance. 
 
 Perfect teeth in an adult in this country are rather the exception than 
 the rule. In the notched incisors of inherited syphilis, however, there is 
 something quite distinctive. The notches in Hutchiuson's teeth are 
 vertical, not horizontal. 
 
 Old as medicine is the examination of the tongue in disease. It may 
 be protruded with difficulty, as in low fevers, in apoplexy, and in cere- 
 bral paralysis (bulbar sclerosis, glosso-labio-pharyngeal paralysis) or thrust 
 to one (the paralyzed) side in herniplegia. It is pallid in anaemia; yellow 
 in bilious disorder ; red in glossitis (then swollen also), in scarlet fever, 
 and in gastritis ; furred in indigestion, gastro-hepatic catarrh, and the early 
 stage of various febrile attacks ; dry, brown, cracked, or fissured in typhus 
 or typhoid fevers and in the typhoid state of malarial remittent fever ; 
 bare of epithelium in advancing phthisis and in imperfect convalescence 
 from severe acute diseases. Coldness of the tongue is one of the worst 
 signs in the collapse of cholera. 
 
 As we examine the throat internally we look for signs of faucial inflam- 
 mation in redness and swelling, with or without enlargement of the ton- 
 sils, or relaxation and elongation of the uvula, or ulceration, or the gray 
 or brown membranous deposit of diphtheria. In the mouth of a child 
 we may find the little white vesicular patches called aphthoo, the curd-like 
 exudations of thrush, or possibly the much worse grayish ulcerations of 
 caucrum oris, or the rarer ashen sloughs of gangrene of the mouth. 
 
 Outside of the throat we must remember the significance of glandular 
 swellings or scars of suppurated glands in children ; nor overlook, if 
 present, stiffness of the muscles, or torticollis, or goitrous enlargement of the 
 thyroid gland. Observation should be made also of the site of the carotid 
 artery on each side, and of the jugular veins, since aortic regurgitatiou 
 may be indicated by violent action of those arteries or tricuspid regurgita- 
 tion by pulsation of the veins in the neck. 
 
 Long before vaso-niotor physiology had any place in science the pulse 
 was known to afford valuable indications in disease. Either of the acces- 
 sible arteries will answer instead of the radial ; its convenience merely 
 makes the wrist the common place of comparison. By careful examina- 
 tion of the pulse something may be learned of several of the factors con- 
 cerned in its production. These factors are 1, the muscular force of the 
 walls of the heart ; 2, the state of the cardiac valves ; 3, the muscularity 
 of the arteries ; 4, the elasticity of the arterial coats ; 5, the state of the 
 capillary circulation ; 6, the qualities of the blood ; 7, the condition of 
 the nervous system as to excitability or apathy. 
 
 A feeble heart must induce a feeble pulse. Moderate debility may be 
 attended by slowness of the pulse, but usually a weak circulation is 
 marked by frequent, small beats, like the vibrations of a short pendulum. 
 A strong heart-beat (other things being equal) is relatively slow, with a 
 proportionate pause after the second sound.
 
 MEDICAL DIAGNOSIS. 153 
 
 Valvular lesions produce various effects upon the pulse. Most notable 
 are the irregularity connected often with mitral insufficiency and the jerk- 
 ing pulse (Corrigan) of aortic regurgitation. 
 
 Believing, as the present writer does, in the existence of a true arterial 
 systole following and supplementing the ventricular contraction, 1 it must 
 be urged that a vigorous muscularity in the arteries promotes strength in 
 the pulse not by resistance, but by auxiliary propulsion of the blood. 
 Another condition altogether is tonic, spasmodic contraction of the arteries. 
 This is not often met with pure and simple, but a measure of it is seen in 
 the corded or wiry pulse of acute enteritis or peritonitis. 
 
 Deficient elasticity of the arteries is not easily separated in observation 
 from muscular relaxation. When arteries undergo degeneration (ather- 
 omatous, fatty, or calcareous), their middle coat suffers the deterioration 
 of both elastic and muscular tissues, these being substituted by materials 
 either more or less yielding, and always less resilient, than the natural 
 fabric of the vessels. 
 
 The influence of the condition of the capillary circulation upon that of 
 the arterial system and the heart is manifest in inflammations. By reflex 
 excitation the arteries are made to contract actively and impel the blood 
 more forcibly than in the normal state toward the centre of impeded 
 nutrition (stasis). This has been abundantly proved by the comparison 
 of the amount of blood flowing through the arteries of a sound limb and 
 those of its fellow, when the latter is the seat of a violent acute inflam- 
 mation. 
 
 Blood-states also affect the pulse by the differences in direct stimulation 
 to which the heart and arteries are subjected according to the qualities and 
 composition of the blood. It is probable that the fover-pulse of typhus, 
 typhoid, the exanthemata, septicaemia, and pyaemia has its origin in mor- 
 bid conditions of the blood, acting in a twofold manner directly upon 
 the heart and arteries themselves, and mediately through the vaso-motor 
 ganglia. 
 
 Lastly, the nervous system stands in an important relation to the action 
 of the heart and arteries, and thus to the pulse. In a nervous, excit- 
 able person, changes in the rate of the pulse may take place, with slight 
 significance, which in a different constitution might be of serious import. 
 
 To understand the language of the pulse care must be taken in several 
 respects : 
 
 1. Both wrists should be felt. Sometimes there is an abnormal varia- 
 tion in the course of the main radial trunk which may pass over the 
 thumb. Again, an aneurism may cause a great difference between the 
 two radial pulses, or, possibly, an embolus may occlude one of the radial 
 vessels, annulling its pulsation. . 
 
 2. Other arteries also, especially the carotids, should be examined 
 in all obscure cases at least. Visibly beating, distended, and tortuous tem- 
 poral arteries are occasionally met with. They are not pathognomonic of 
 any one malady, although often referred to the gouty diathesis. They 
 
 1 This view, although advocated by Sir Charles Bell, Legros and Onimus, Hermann of 
 Zurich, and others, is opposed to the most prevailing vaso-motor physiology. Several 
 
 complications and some contradictions in pathological discussion at the present time 
 would be cleared up by the abandonment of the now commonly-held stopcock theory of 
 arterial function, which has really nothing whatever to support it except the misinterpre
 
 154 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 may attend irregular malarial attacks, or may be connected simply with a 
 hypersemic state of the brain. 
 
 3. The heart's impulse should always be compared with the arterial 
 pulsation. The former may be strong and regular, while the latter L 
 small, feeble, or intermittent. Something must then be wrong, either in 
 the aortic valves or in the arterial system. 
 
 5. On account of possible nervous agitation, the pulse should usually 
 be examined more than once, during each visit to the patient. 
 
 6. Sex, age, position of the body, and time of day must all be taken 
 account of. In men the average rate of the pulse is between 65 and 75 
 per minute; in women, between 70 and 80. The pulse-rate of early 
 infancy varies from 100 to 120, and is very easily hurried. That of old 
 persons is commonly between 60 and 70, until, at a very advanced age, 
 with debility, its frequency may be increased, especially upon exertion. 
 Lying down, we find the slowest pulse ; sitting, somewhat more rapid ; 
 and most so in the standing position. In health the time of day makes 
 no constant difference apart from the effects of food and exercise. In 
 disorders attended by fever there are important changes to be reg- 
 ularly observed. Excepting the variable paroxysms of remittent and 
 intermittent, which are a law unto themselves, in febrile affections the 
 pulse may be expected to be slowest in the morning and most excited in 
 the early part of the night. A diminution of this difference is a favor- 
 able sign. Sleep generally slows the pulse decidedly. The ordinary 
 statement is, that the pulse is always slower during sleep, but I have 
 several times found that in states of exhaustion without fever it may be 
 considerably more rapid while the patient is asleep. Nothing is more 
 sure to increase the strength and rapidity of the pulse than high temper- 
 ature. 
 
 7. Very important is the relation between the pulse and respiration. 
 Normally, four pulsations occur to each respiratory act. In pulmonary 
 affections, while the circulation is often disturbed pari passu with the 
 breathing, it may be quite otherwise. Great acceleration of the rate of 
 breathing, with little increase in the rapidity of the pulse, should lead us 
 to suspect disease involving the respiratory organs. Conversely, a much 
 hurried or otherwise perturbed pulse, with little or no change in the 
 breathing, points toward the heart as either functionally or organically 
 the seat of disorder. 
 
 ' Let us further consider, briefly, the kinds of pulse to be met with and 
 interpreted in practice. 
 
 A natural pulse is always, per se, a good sign. Yet in the history of 
 a disease usually so well marked as yellow fever some fatal cases have 
 been recorded (walking cases) in which the pulse, almost to the last, 
 was natural. 
 
 Strength of the pulse, to a certain degree, belongs to it normally. But 
 this is often exaggerated, and we may have the strong, hard, full, per- 
 haps bounding, pulse of an inflammatory affection (of the brain, for ex- 
 ample, or of the joints in acute rheumatism) in a person of vigor. A 
 bounding pulse often accompanies mere palpitation of the heart, whose 
 source may be the sympathetic influence of indigestion or nervousness. 
 A similar pulse is apt to be constantly present in hypertrophy of the 
 heart. In this case it is made more forcible as well as more rapid by
 
 MEDICAL DIAGNOSIS. 155 
 
 active exertion; while palpitation, without organic trouble, is usually 
 diminished by moderately active exercise. 
 
 A full pulse is not always strong, nor is a small pulse necessarily weak. 
 Mention has been made already of the tense, corded pulse met with in 
 acute peritonitis, and sometimes in enteritis. Gastric inflammation, with 
 nausea, may exhibit a depressed pulse, weak and but little accelerated. 
 Under still other circumstances we may find a full pulse which is soft, 
 easily compressible, even gaseous. Most frequently a feeble pulse is 
 rapid, and a very rapid pulse is weak. Slowness, in marked degree, 
 attends apoplexy, opium narcotism, and fracture of the skull com- 
 pressing the brain. Functional disturbance of the heart may occasion- 
 ally exceed in effect these causes of retardation. I have met, under such 
 circumstances, with a pulse of 20 in the minute; one of 18 has been 
 recorded. A few apparently healthy persons have habitually a pulse 
 with but 40 or 50 beats in the minute. 
 
 Quickness in each beat may occur, while a long interval makes the rate 
 per minute slow. The jerking pulse of aortic regurgitation is the most 
 remarkable example of this. Galabin asserts that without imperfection 
 of the valves of the aorta a decidedly abrupt pulse may attend great 
 lowering of arterial tension. Something of the same kind may be noticed 
 in the temporarily excited pulse of very nervous subjects under agitation. 
 
 Dicrotism, or reduplication of the pulse-beat, is not uncommon in 
 typhus and typhoid fever. Here relaxation of the heart as well as of 
 the blood-vessels appears to allow a momentary interruption in the suc- 
 cession of the arterial upon the cardiac systole. 1 
 
 Intermittence and irregularity of the pulse are not exactly the same 
 thing. Occasional intermittence may be merely a nervous symptom or a 
 muscular twitch of the heart, like the twitches now and then occurring 
 without significance in voluntary muscles. Persistent intermittence, with 
 feebleness of the pulsations (these being generally somewhat rapid), is 
 among the signs of dilatation of the heart. 
 
 It is possible for intermittence of the radial pulse to accompany regu- 
 larity in the heart-beat. This usually results from narrowing (stenosis) 
 of the aortic valvular outlet from the left ventricle. Only a certain 
 number of impulses fairly reach the more distant arteries. This symptom 
 may result also from fatty degeneration of the heart. 
 
 Absence of pulse in one radial vessel, while it is present in the other, 
 shows the presence of an obstacle to the circulation on one side, which 
 may be an aneurism, or an embolus plugging the artery. 
 
 Irregularity of the pulse, a total derangement of its rhythm, while not 
 often important in young children, is a serious symptom at other times of 
 life. In one disease most common in childhood, acute hydrocephalus, 
 the pulse in the first stage is apt to be hard and rapid, in the middle 
 stage slow and tolerably full, in the third rapid, feeble, and often irreg- 
 ular. Mitral disease frequently presents considerable irregularity of the 
 pulse ; and so does dilatation, even without mitral lesion. Brain trouble, 
 especially late in life, whether structural or functional, may produce the 
 
 1 An exceptional phenomenon, noticed by a few observers, is the recurrent pulse ; 
 t. e. a pulsation felt below the finger, whose pressure interrupts the flow of blood through 
 an artery. It may be explained by supposing unusual fulness of the vessels (local, if 
 not general) with, at the same time, relnxation of their walls; bearing in mind, also, the 
 manner of anastomosis of the radial and ulnar branches which favors recurrence.
 
 156 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 same symptom. B. \V. Richardson lias pointed this out as one of the 
 effects of the excessive use of tobacco, even in young persons. 
 
 The pulse of continued, relapsing, and remittent fevers is, during the 
 febrile exacerbation, rapid (100 to 120) ; in the earlier part of the attack 
 full, but only moderately hard, or even soft and yielding. As the attack 
 passes its height and critical defervescence occurs, the pulse grows slower, 
 unless great prostration has supervened ; in which case it increases in 
 rapidity, while it fails more and more in fulness and resistance. 
 
 The pulse of the moribund state is nearly always small, very rapid 
 (130-150), and thready, without force or fulness. It may become imper- 
 ceptible before death. A pulse of 140 beats in the minute is alw r ays 
 alarming; if much beyond that rate the case is desperate. A pulse 
 of more than 150 beats in the minute is very difficult to count accu- 
 rately. 
 
 Exophthalmic goitre is attended characteristically by a full, somewhat 
 rapid, and bounding pulse, the cardiac impulse being also proportionately 
 violent and extended. Exercise much increases this hyper-pulsation. 
 
 Pulsation of the jugular veins is ordinarily explained by tricuspid regur- 
 gitation, a portion of the blood .being sent back to the vena cava with an 
 impulse reaching to the jugulars. In some instances, however, as the 
 writer has repeatedly observed, jugular pulsation takes place without any 
 abnormality in the action or condition of the heart, from a local inflam- 
 mation (as tonsillitis) causing a marked exaggeration of the muscular con- 
 tractility resident in the larger veins. 
 
 Retardation of the flow of blood through the veins is manifest during the 
 collapse of epidemic cholera. On pressing the blood back in a vein upon 
 the hand, for example, and then lifting the finger, instead of the move- 
 ment being, as in health, too swift to be seen, it is so slow as to be easily 
 followed. 
 
 Capillary movement may be estimated in a similar manner. If it be 
 very sluggish, pressure upon the cheek, forehead, or hand will cause a 
 pallor which remains for some seconds, instead of disappearing at once 
 when the pressure is withdrawn. This is, it may be noticed, entirely 
 different from the pitting upon pressure, without much if any change of 
 color, in local oedema or general anasarcous effusion. The tache m6ningi- 
 tique of Trousseau is a pink or rose-red line left for a time after draw- 
 ing the finger across the forehead or abdomen in cases of acute hydro- 
 cephalus (tubercular meningitis). 
 
 Respiration must be watched carefully in all cases of disease. Nor- 
 mally, in the adult, while at rest, from 16 to 18 respiratory movements 
 occur in each minute. The number is somewhat greater in women, and 
 is considerably increased in children, at birth being about 40 in the 
 minute. Men breathe most by the diaphragm ; in women there is a 
 greater lifting of the ribs. In either sex a disorder attended by pain in 
 breathing may modify this proportion. If pleurisy, for example, be 
 present, the ribs will be but slightly lifted, abdominal breathing taking 
 predominance. When peritonitis makes every movement of the abdomen 
 painful, costal respiration is maintained almost alone. Likewise, a uni- 
 lateral pleurisy or pneumonia will check the respiration on the affected 
 side, with an increased movement on the sound side. This difference is 
 less manifest to the eye than to the ear in auscultation. In all febrile
 
 MEDICAL DIAGNOSIS. 157 
 
 affections respiration is hurried proportionately with the pulse, unless 
 some complicating local disorder disturbs the relation. 
 
 Dyspnoea may be produced by many different causes, whose possibility 
 must be remembered in its interpretation as a means of diagnosis. In 
 asthma violent efforts are made to compel the entrance of air into the 
 lungs by the intercostal muscles and diaphragm, aided by all the accessory 
 muscles of respiration, including the steruo-cleido-mastoid and others of 
 the neck. Expansion of the nostrils may occur in sympathy with these 
 efforts. Yet the amount of resistance may be shown by a partial sink- 
 ing-in of the lower ribs, as well as by the patient's distress. These last 
 signs are sometimes very marked in the collapse of one or both lungs now 
 and then occurring in whooping cough. 
 
 Croup induces a similar struggle for breath, although the obstruction 
 is differently located. Early in the croupal attack a hoarse sound may 
 accompany each inspiration and expiration. Later, when the danger to 
 life from apnoea becomes more imminent, a hissing or whistling sound 
 succeeds. This last-mentioned kind of sound results temporarily, also, 
 from the spasmodic obstruction to breathing in laryngismus stridulus. 
 
 Besides the affections of the lungs Avhich impede respiration (as pneu- 
 monia, hydrothorax, etc.), we may have dyspnoea induced by extra-pul- 
 monary causes, such as dilatation of the heart, aneurism of the aorta, 
 mediastinal cancer, pleuritic effusion ; also by abdominal dropsy, extreme 
 elephantiasis, etc. Mention need hardly be made here of respiratory 
 obstruction from defective or injurious qualities of the air, threatening 
 or producing asphyxia. 
 
 Sighing respiration takes place in heart disease not infrequently. A 
 peculiar modification of the breathing movements has been associated 
 especially with fatty degeneration of the heart. From the distinguished 
 authors who first described it this is called the Cheyne-Stokes respiration. 
 Intervals of suspension of breathing occur, after which short, shallow 
 inspirations begin, and gradually increase for a time in depth ; then they 
 grow shorter and shallower again, until apnoea is reached. Such a cycle 
 may occupy from half a minute to a minute and a half, with from fifteen 
 to thirty increasing and decreasing respirations in all. It "has been shown 
 by several observers that this type of respiration is not peculiar to fatty 
 degeneration of the heart. It has been met with in cases of cardiac dila- 
 tation, aortic atheroma, cerebral hemorrhage, tubercular meningitis, and 
 urremia. 
 
 Sometimes a kind of dyspnoea common in advanced disease of the 
 heart, especially in mitral lesion with dilatation, has been confounded with 
 this. Here the breathing is constantly labored (orthopncea) ; but the 
 patient from time to time dozes off into an imperfect sleep, in which the 
 breathing almost entirely ceases. Then he is awakened with a start of 
 distress, perhaps out of a painful dream. This succession of dozing 
 apnoea and waking dyspnoea belongs to a late stage of heart disease, and 
 usually ends in death. 
 
 Stertorous respiration is familiar in apoplectic coma, as well as in that 
 of brain compression from injury or from opium or alcoholic narcotism. 
 In ursemic coma true stertor is less apt to be observed ; sometimes the 
 respiration in this condition has a hissing sound. 
 
 Along with the movements of respiration we may notice that the breath
 
 158 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 is hot and has a heavy odor in the early stages of all febrile disorders. 
 Disagreeable breath is common, however, in persons not ill, from bad 
 teeth or from indigestion. It is worst of all, putrid, in gangrene of the 
 lung. Certain cases of chronic or subacute bronchitis (as well as of 
 ozfena) also have very offensive breath. Coldness of the breath is a very 
 bad sign ; it is observed sometimes before death in the collapse of cholera. 
 
 Hiccough (singultus) is a spasmodic affection of the diaphragm. It is 
 innocent, though annoying, in most cases, resulting from indigestion or 
 from nervous disorder; in children, occasionally, from long crying. 
 When it takes place in cases of general prostration it betokens threaten- 
 ing depression or exhaustion of vital energy. 
 
 The voice is mostly altered by serious disease. It may be feeble and 
 whispering, from debility; hoarse, from laryngeal inflammation and 
 tumefaction; thick, from cerebral* oppression ; lost (aphonia), in some cases 
 of chronic laryngitis and in paralysis of the vocal muscles. The manner 
 of articulating w y ords is often changed in disorders of the nervous system. 
 A marked example of this is the monotonous scanning speech of cerebro- 
 spinal sclerosis. 
 
 Cough is an extremely variable symptom, always to be understood in 
 connection with the attendant circumstances. Usually, however, the 
 character of the cough itself is more or less distinctive. A dry, hard 
 cough may be merely sympathetic or nervous, or it may belong to the 
 first stage of acute bronchitis. A hacking cough, with little expectora- 
 tion, is not infrequently observed for a time in incipient phthisis. Pneu- 
 monia has, if any, a short and rather sharp cough. Progressing bron- 
 chitis is recognized by the deepening and greater or less loosening of 
 the cough. In advanced phthisis there are distressing spells of deep, 
 laborious coughing, especially in the night or in the morning after sleep. 
 Croup is known (whether sporadic or in the form of laryngeal diphtheria) 
 by the barking cough of the early stage and its whistling character toward 
 the fatal end. Nearly the same sort of hissing or whistling sound in 
 breathing has been mentioned already as occurring in laryngismus stridulus. 
 Paroxysms of coughing, with or without whooping, are pathognomonic 
 of pertussis. 
 
 Expectoration often affords important signs. Briefly, it may suffice to 
 say here that it is mucous, whitish, or colorless in early bronchitis ; more 
 or less yeltewish and muco-purulent in severe and protracted bronchitis ; 
 rusty, from admingliug of the coloring matter of blood, in pneumonia, 
 early and middle stages; bloody and muco-purulent in early and of heavy 
 roundish (nummular) masses in late pulmonary phthisis ; putrid, rotten, 
 in gangrene of the lung. 
 
 Continuing our survey of obvious symptoms, we must now take account 
 of the conditions of the general surface of the body. Temperature is of 
 great consequence. Most precisely determinable by the thermometer, the 
 touch, when educated, will give very useful indications of its changes. 
 It is difficult, and not commonly desirable, to separate variations of 
 moisture from those of temperature. Reserving for another place the 
 special consideration of medical thermometry, it may be here said that 
 the skin is hot and dry in the typical condition of fever, whatever its 
 special associations. Heat and moisture of the skin are more often met 
 with together in the fever of acute articular rheumatism than in any other
 
 MEDICAL DIAGNOSIS. 159 
 
 affection. As a rule, perspiration lessens febrile heat. Copious (colliqua- 
 tive) sweating is habitual in many wasting diseases, notable in pulmonary 
 phthisis. It is then a sign of great general relaxation of the system. 
 
 Coldness of the surface attends prostration, either from temporary col- 
 lapse or from positive exhaustion. The skin is perceptibly cold in the 
 algid stage of cholera. It may be so in very severe cases of sporadic 
 cholera morbus. In the chill of intermittent, while the patient has the 
 subjective sensation of coldness, his temperature is seldom reduced, and is 
 often higher than natural, although lower than during the febrile exacer- 
 bation. 
 
 The color of the skin is pallid in anaemia, phthisis, dropsy, etc., and in 
 syncope ; ashen or livid in cholera collapse and in the cold stage of per- 
 nicious malarial fever ; yellow in jaundice, remittent, and yellow fever ; 
 sallow in chlorosis, cancer, and chronic dyspepsia ; purple, almost black 
 (especially the lips and ends of the fingers), in asphyxia ; dark, as if 
 stained with ink, after long use of nitrate of silver; bronzed in Addison's 
 disease ; bright red in scarlet fever, etc. The eruptions of this and other 
 exanthemata, and of the different cutaneous diseases, will be best con- 
 sidered in the special articles treating them of in this work. 
 
 Odor is perceptible and peculiar (though not easily described) in some 
 bad cases of typhus fever and of small-pox ; less often in aggravated 
 chlorosis. Lunatics and paralytics (especially when assembled together 
 in institutions) often give off a noticeable smell. Most distinct, however, 
 is the cadaverous odor, sometimes perceptible for hours before death. 
 Corroborative of this, in summer, is the flocking of flies around the bed 
 of a dying patient. In a hospital ward this selection amongst a number 
 of patients may be quite observable. 
 
 Emphysema, from the presence of air in the connective tissue under the 
 skin, is rarely met with except as the consequence of an injury or of local 
 gangrene. 
 
 (Edema is local watery effusion, which may have various causes and 
 significance. Anasarca must have a general causation, either connected 
 with the state of the blood or with disorder of the heart, kidneys, or liver, 
 or of more than one of those organs at once. Pitting on pressure is the 
 sign of watery effusion. Soft crackling under the touch distinguishes 
 emphysema. A firm enlargement of the surface of the face and upper 
 part of the body occurs in myxoedema. 
 
 Swellings of all kind must be carefully observed, and their nature in- 
 quired into whether they be inflammatory or other chronic enlargements 
 of joints, tumors, fibrous, fatty, or cancerous, aneurisms, hernial protru- 
 sions, or of any other character. In protracted disease of the liver (cir- 
 rhosis) it is not uncommon to find the superficial abdominal veins dilated 
 and tortuous. 
 
 Abdominal enlargement may result from adipose accumulation (obesity), 
 distension of the bowels with wind (meteorism), ascites, ovarian cysts, 
 cancerous or other tumors, aneurism of the aorta, abscess, retention of 
 urine, or pregnancy. By the methods of physical diagnosis, along with 
 careful inquiry into the history of each case, we are to make out the dis- 
 tinctions amongst these different conditions. 
 
 Emaciation always marks either defect of nutrition or morbid excess 
 of tissue-waste. It is counterfeited in the sudden collapse of malignant,
 
 160 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 cholera, and exaggerated in appearance during the analogous condition of 
 cholera infantum. On recovery from these states, especially the latter, 
 roundness and fulness of the face and limbs may return much too soon 
 for the actual restoration of fat and flesh. A young child may be plump 
 and chubby to-day, seemingly wasted with acute illness to-morrow, and, 
 if soon relieved, the next day almost as rotund as ever. 
 
 Continued diarrhoea, phthisis pulmonalis, mesenteric disease, cancer, 
 and aneurism of the aorta are among the most frequent causes of great 
 emaciation. Sometimes, as in progressive pernicious anaemia, we are struck 
 with the comparatively slight degree of wasting of the body while the 
 disease is advancing toward death. 
 
 In myxoedema there is a swelling or general enlargement, especially of 
 the upper portions of the trunk. This is not anasarcous, but depends 
 upon a morbid change in the connective tissue throughout the body. 
 
 Articular enlargements may be (particularly in the knee in children) 
 scrofulous, or gouty (in the smaller joints), rheumatic, with evidences of 
 inflammation, acute or chronic ; or, what is not well named, rheumatoid 
 arthritis. In this last aifection there is a gradual swelling and stiffening, 
 with but little inflammation, of several, sometimes all, the joints of the 
 extremities. Locomotor ataxia is in some cases attended by a degenera- 
 tive alteration in one or more of the larger joints. 
 
 The limbs may furnish to the eye many expressive signs of disease or 
 disability. In the listlessness of one arm and hand, while the other can 
 perform various movements, we see reason to suspect hemiplegia. If 
 the fingers are rigidly contracted, as well as powerless, we have this 
 diagnosis confirmed, whether the rigidity be early or late in its stage. 
 We must then look for a similar condition of the lower extremity on the 
 .same side. Paraplegia and general paralysis have their more extended 
 (bilateral) indications in like manner. Characteristic also are the wrist- 
 drop, from paralysis of the extensors of the hand, in lead-palsy ; weak- 
 ness or incapacity of the flexors and extensors in writer's cramp ; the 
 hand fixed helplessly in the position for writing in paralysis agitans 
 (advanced stage) ; the main en griife, with shrunken muscles and drawn 
 tendons, of progressive muscular atrophy (wasting palsy). In the legs at 
 first and chiefly, but in time also in the arms, increase of bulk M-ith loss 
 of power in the muscles shows the existence of pseudo-hypertrophic mus- 
 cular paralysis. 
 
 Gouty fingers have their joints not only swollen, but distorted by 
 deposits of urates and carbonates. Clubbed finger-ends, in the adult, 
 are seen mostly, with incurvation of the nails, in advancing consumption. 
 The nails are sometimes striated after attacks of gout, the lines disappear- 
 ing gradually during the interval. In many acute diseases, transverse 
 ridges are noticeable on the nails, marking the date when their growth 
 was arrested and subsequently resumed. 'These are specially remarkable 
 after attacks of relapsing fever. 
 
 A tendency to dropsical effusion is generally first shown, besides a 
 puffiness of the face, in the feet and ankles, the shoe or slipper marking 
 off the enlargement above its margin. Often this has no other cause 
 than debility, with a watery condition of the blood. Varicose veins, 
 with old and resultant ulcers, are also among the possible things to be 
 found in examination of the legs and feet.
 
 MEDICAL DIAGNOSIS. 161 
 
 Movements of the hands are incessant and jerking in chorea; perpetually 
 trembling in delirium tremens, and often in one arm and hand only, in 
 paralysis agitans ; with tremor, seen in voluntary motions alone, in mul- 
 tiple cerebro-spinal sclerosis. More unusual is the rhythmical closing 
 and opening of the hand, successively, of athetosis. 
 
 In the walk of patients able to be upon their feet there may be much 
 significance. A hemiplegic subject will circumduct the feeble limb after 
 the other ; one suffering with paraplegia will shuffle the feet slowly along 
 the floor ; the hysterical paralytic drags the lame limb behind the other ; 
 the patient with spastic spinal paralysis rises on his toes in walking, 
 with his legs held close together ; the shaking paralytic rather trots for- 
 ward, with the body bent ; and the subject of locomotor ataxia lifts his 
 feet and kicks out forward or sideways, then bringing down the heels 
 with a stamp at each step. In progressive muscular atrophy and advanced 
 pseudo-hypertrophic muscular paralysis a waddling or rolling gait is seen. 
 Choreic patients are very irregular in their walk, as in all other move- 
 ments. Hip disease (coxalgia) shows itself in a child by its lifting the 
 pelvis and limb of the affected side and bending the knee, so as to touch 
 only the toes to the ground. Club-foot and other deformities require no 
 description in this place. 
 
 Sensibility of the extremities and of other parts of the surface of the 
 body needs to be examined into, with all its possible variations (hyper- 
 sesthesia, anaesthesia, analgesiae, etc.), especially when the nervous appa- 
 ratus is for any reason supposed to be involved. Motions of an unusual 
 character must likewise be carefully noticed. " Westphal's symptom " is 
 regarded as having considerable diagnostic value. It is otherwise called 
 the tendon-reflex, with its modifications. When a person in health is seated 
 with one leg crossed over the other or with the legs dangling over the 
 edge of a high bench or table, and a sudden blow is struck upon the 
 tendon of the patella, the leg and foot will be spontaneously jerked for- 
 ward. In locomotor ataxia, even from an early period, this tendon-reflex 
 is abolished. In spastic spinal paralysis (lateral spinal sclerosis) it is 
 exaggerated. Quite analogous to this is the ankle-clonus. This is 
 obtained by firmly flexing the foot and then tapping sharply upon the 
 tendo Achillis. The foot is then involuntarily extended and flexed 
 several times in succession. There is more doubt in regard to the 
 associations of this symptom than as to the knee movement, but it has 
 been clinically shown to be exaggerated in spastic spinal paralysis. 
 
 At our first acquaintance with a case of disease, while making inquiry 
 into its nature, the genital organs must not be forgotten. Not that we 
 need always make examination of them, but any pointing in symptoms 
 toward them must be borne in mind, so as to guide us in or toward 
 further procedures in diagnosis. In making, in obscure cases, a diag- 
 nosis by exclusion, we are sometimes driven to a scrutiny of the genital 
 system. 
 
 We have now, however incompletely, touched upon the greater number 
 of obvious signs or symptoms which a view of a patient would furnish 
 without making minute inquiry of himself or others concerning his or 
 their knowledge of the illness. Such are the objective signs of disease, 
 which must be still more exactly and extensively discerned and under- 
 stood by means of the processes of physical and instrumental diagnosis. 
 
 VOL. I. 11
 
 162 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 But the subjective symptoms also, and all those observed and described by 
 the patient and his or her friends, must receive very careful attention. 
 Much practical skill may be shown by the kind of questions asked and 
 the use made of the answers given. 
 
 First, as to the alimentary apparatus : 
 
 Taste is very commonly altered in disease, being sour in indigestion, 
 
 bitter in disorders of the liver, saltish in haemoptysis, rotten in ranffreue 
 
 / ,i i r J 
 
 of the lungs. 
 
 Dryness of the mouth is the rule in fevers. Sometimes the saliva is 
 viscid and adherent. Increased flow or salivation was formerly frequent 
 in practice under large doses of mercurials. Jaborandi or its alkaloid 
 pilocarpin will generally produce it. Iodide of potassium occasionally 
 has the same effect in less degree. 
 
 Loss of appetite nearly always attends serious diseases of any kind. 
 Excessive craving for food (bulimia) is rare. Tapeworm accounts for 
 it in some instances. Desire for strange articles of food, as slate-pencils, 
 ashes, etc., is met with in some instances of chlorosis and of hysteria. 
 A return of natural appetite is one of the best signs toward the close of 
 any acute attack of illness. 
 
 Thirst is seldom absent in fever. It is also usually present in the 
 state of collapse, as from cholera, pernicious intermittent, or the shock of 
 severe (especially railroad) injuries. 
 
 Dysphagia or difficulty of swallowing may result from simple debility, 
 as in the moribund state ; inflammation of the fauces, tonsils, or pharynx ; 
 stricture of the resophagus ; obstruction by a foreign body or by a cancer- 
 ous or aneurismal tumor ; retro-pharyngeal abscess ; paralysis of the 
 muscles of the throat, such as sometimes follows diphtheria. Soreness 
 of the throat is present in some, but not in all of these examples of dys- 
 phagia, being most marked in the inflammatory condition of pharyngitis, 
 tonsillitis, scarlet fever, and diphtheria. Ulceration of the throat should 
 always be carefully looked for, and if present investigated to ascertain 
 whether it is simple, diphtheritic, or syphilitic. We must be careful 
 not to mistake a mere local accumulation of mucus, or aphthous vesicle, 
 or the curd-like formation of thrush or muguet, either for ulceration or 
 pseudo-membranous deposit. Aphthae and thrush are most frequently 
 met with in children, though small aphthous ulcers frequently appear 
 toward the close of wasting, and especially cancerous, affections. If there 
 be a doubt, pass a moistened hair pencil lightly over the apparent deposit, 
 or allow the patient to gargle the throat with water, and then re-inspect it. 
 
 Many causes may produce nausea and vomiting, which almost always 
 occur together; that is, vomiting rarely takes place without previous 
 nausea, although the latter may exist without the former. In the man- 
 ner of vomiting there are some differences more or less characteristic, 
 as the distressing retching of sea-sickness and of tartar emetic or other 
 irritant poisoning, and the spasmodic out-spurting of rice-water fluid 
 in malignant cholera. The matter vomited is often very important 
 in diagnosis. In mere indigestion the food taken is apt to come 
 up, and the same may happen in flatulent colic. When the liver is in- 
 volved, as in bilious colic, bile also is ejected. Nothing peculiar exists in 
 the ejecta of morning sickness in pregnancy. The ejecta contain mucus 
 in gastritis, blood in ulcer and in cancer of the stomach, stercoraceous
 
 MEDICAL DIAGNOSIS. 163 
 
 material in obstruction of the bowels, black vomit in bad cases of yellow 
 fever. Hysterical vomiting sometimes closely imitates the latter in 
 appearance. Other affections attended by vomiting are cholera morbus, 
 remittent fever, brain disease, Bright's disease of the kidney, etc. 
 
 Spitting blood may be either haematemesis or haemoptysis proper. If 
 the former, nausea generally precedes the ejection of the blood by vomit- 
 ing, and it is apt to be mingled with food partly digested. It is coughed 
 up, bright red and frothy usually, when coming from the lungs or bron- 
 chial tubes. But blood may proceed from the gums or throat, or may run 
 back through the posterior nares from the nose, and then it gives alarm 
 by seeming to proceed from the chest. It is necessary to inquire very 
 particularly into all such possibilities in every case of hemorrhage. 
 
 Between vomiting of blood from ulcer and from cancer of the stomach 
 we have mostly these distinctions : in ulcer it follows soon after taking 
 food, in cancer (this being generally at the pylorus), an hour or more 
 after eating ; ulcer is attended also by tenderness on pressure at a cer- 
 tain spot over the stomach, without tumor; cancer presents a tumor, 
 with much less marked tenderness on pressure. By aid of the micro- 
 scope in examination of the matter vomited this diagnosis may be com- 
 pleted. 
 
 Constipation is an exceedingly frequent symptom under many and 
 diverse circumstances. Pathologically, we account for it in several ways : 
 1, torpor of the muscular coat of the intestinal canal ; 2, deficiency of 
 secretion in the glands of the bowels and in the liver ; 3, imperfect inner- 
 vation of the abdominal organs ; 4, mechanical obstruction, as by a foreign 
 body, intussusception, strangulated hernia, cancerous or other tumor, 
 stricture of the rectum, etc. Dyspeptic persons are ordinarily consti- 
 pated. So are almost all patients at the beginning of attacks of measles, 
 scarlet fever, small-pox, and other acute febrile maladies. Typhoid 
 fever is scarcely an exception to this ; although the bowels in that 
 affection become loose after a few days, they seldom are so at the 
 very beginning of the attack. Sea-sickness is commonly accom- 
 panied by total or nearly total inaction of the bowels, the secretion 
 of the intestinal glands being almost null, often for many days together. 
 Torpor of the brain is sometimes attended by marked constipation. 
 The latter may be a contributing cause of the former, as in certain severe 
 cases of scarlet fever, in which threatening coma may be relieved by active 
 purgation. We must not, however, occupy space here by attempting to 
 enumerate the many conditions under which constipation may present 
 itself as a symptom. 
 
 Almost as various are the associations of the opposite state of the 
 bowels, diarrhoea. Excessive or abnormally frequent discharges from 
 the bowels may be either fecal, bilious, mucous, membranous, purulent, 
 bloody, fatty, or watery, and they may occur with or without pain and 
 straining (teuesmus). 
 
 If, with frequent disposition to pass something, only small quantities 
 of bloody mucus escape, with pain and bearing down, we recognize dysen- 
 tery. When, instead, a large quantity of colorless fluid, with or with- 
 out floating flakes (rice-water), comes from the bowels at short inter- 
 vals, with vomiting of the same sort of material, we suspect epidemic 
 cholera, and must inquire for corroborative or corrective indications in
 
 164 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 reference to that suspicion. Very bad cases of cholera morbus also may, 
 at a late stage, present this symptom. So may exceptional cases of 
 pernicious malarial fever. The diarrhoea of typhoid fever exhibits 
 usually liquid stools of a brownish color (gutter-water passages). Occa- 
 sionally, hemorrhage from the bowels adds to the danger of this fever, 
 as well as to that of malarial remittent fever. In phthisis pulmonalis, 
 at a late stage, colliquative diarrhoea, like colliquative perspirations, 
 shows the breaking up of the system by excessive waste. Very foul, 
 oifensive discharges from the bowels may always be understood as 
 showing that in the alimentary canal, whether originating there or in 
 the blood, morbid changes have been going on. The indication is to 
 promote the elimination of such material as soon and as thoroughly as 
 possible. 
 
 Clayey stools show absence or deficiency of bile in the intestines, whether 
 from its non-secretion by the liver or from obstruction to its entrance 
 by a gall-stone in the common gall-duct. Green stools are not uncom- 
 mon in sick children. The cause of the color has been much disputed. 
 Probably it depends chiefly on a modification of the bile-pigment, with 
 some admixture of altered blood. When mercurials have been taken 
 sulphide of mercury may give a green color to the discharges. 
 
 Blood, nearly or quite unmixed, coming from the bowels, may have its 
 origin in internal hemorrhoids, intestinal ulceration, cancer of the rectum, 
 intussusception, rupture of an aneurism, typhoid or yellow fever, or vica- 
 rious menstruation. 
 
 Pus is discharged per anum in cases of dysenteric or other ulceration 
 of the bowel ; also when an abscess occurring in any part of the abdomen 
 (most frequently hepatic) opens into the intestine. Pseudo-membranous 
 discharges, shreds or other fragments of fibrinous material, appear some- 
 times in what may be called diphtheritic dysentery. Tubular casts 
 are occasionally seen (diarrhoea tubularis), which, however, are most 
 likely to consist of thickened and accumulated mucus. Fatty dis- 
 charges from the bowels are rare. Authors report observation of them 
 in cases of disease of the liver or pancreas, as well as in phthisis, typhoid 
 fever, diabetes mellitus, cholera, and tubercular enteritis of children. 
 
 Lientery is the term applied when imperfectly changed food appears in 
 the stools. It shows, of course, great deficiency in the process of diges- 
 tion. 
 
 Urination affords symptoms often of extreme consequence in disease. 
 Suppression of urine is one of the most alarming of signs ; an approxi- 
 mation to it only is likely to be met with in cholera, a late stage of scai'let 
 fever, typhus or typhoid fever, in acute yellow atrophy of the liver, and 
 in advanced kidney disease. Careful examination of the abdomen, by 
 inspection, palpation, and percussion, as well as by inquiry of attendants, 
 is needful in all cases of fever or other disorders with delirium or stupor, 
 to ascertain the presence or absence of retention of urine. Dysuria /. e. 
 difficult urination, strangury may have several causes. Cantharides, 
 absorbed from a blister, may produce it temporarily. The more contin- 
 uous states w r hich cause it are stricture of the urethra, enlargement of 
 the prostate gland, and calculus in the bladder. In stricture, when the 
 patient can pass water, it is apt to be in a twisted stream. Dribbling 
 often occurs when the prostate is enlarged. When a stone is present the
 
 MEDICAL DIAGNOSIS. 165 
 
 stream may flow naturally for a time and then suddenly cease from 
 obstruction at the outlet of the bladder. Enuresis, incontinence of 
 urine, is often very troublesome in children; its diagnosis presents no 
 difficulty. 
 
 Diabetes properly means simply excessive flow of urine. It may be 
 attended by no change in the secretion except dilution of its solids 
 (diabetes insipidus), as in certain nervous cases or after very large 
 imbibition of fluids. More serious is diabetes mellitus, in which large 
 amounts of sugar are found in the urine. 
 
 Variations in the quantity and in the composition and solid ingredients 
 of the urine, as ascertained by aid of chemical analysis and the microscope, 
 will be fully considered in other portions in this work. 
 
 Menstruation in the female requires scrutiny in every case of deviation 
 from health. Its abnormities will be elsewhere treated of. The subject 
 of the signs of pregnancy belongs of course to treatises on Obstetrics. 
 
 Pain is one of the most important of the signs of disease. We must 
 always examine its character, location, and associations. As to character, 
 that of pleurisy is sharp and cutting, increased by deep breathing or 
 coughing. In pneumonia and in myalgia it is dull or aching. Rheu- 
 matic joints or muscles suffer a gnawing, tearing pain. In neuralgia it 
 is darting, shooting, lancinating ; and the last of these expressions is often 
 applied to the pains of cancer. Griping pains occur in colic, and bearing- 
 down pains in dysentery, as well as in the second stage of labor. Besides 
 these varieties we have the pulsating pain of an acute external inflamma- 
 tion, as of the hand, especially before suppuration has occurred; the 
 burning and smarting of erysipelas ; and the stinging, nettling sensations 
 (formication) of urticaria. 
 
 Tenderness on pressure is significant either of local inflammation, 
 whose other signs are then to be discerned, or of non-inflammatory 
 hypersesthesia. The origin of the latter may require careful examination 
 of various organs for its discovery. If pain is relieved by pressure, we 
 may be sure of the absence of severe acute local inflammation. 
 
 Not infrequently the seat of disease may be at some distance from that 
 of pain, as in the familiar instances of pain at the top of the head in 
 uterine derangement ; in the glans penis from calculus in the bladder ; in 
 the knee from hip-joint disease ; under the shoulder-blade in liver dis- 
 order ; about the heart or between the shoulders from dyspepsia. 
 
 Anaesthesia, loss of sensibility, has much value as a symptom in 
 neurotic affections, as paralysis, etc. Its discussion will find place in 
 connection with diseases of the Nervous System in other portions of 
 this work. 
 
 As an example of the diversified associations of pain, cephalalgia 
 (headache) may be mentioned as having at least the following possible 
 causes : congestion of the brain, neuralgia, rheumatism of the scalp, 
 uterine irritation, disease of the kidneys, early stage of remittent, 
 typhoid, or yellow fever, alcoholic intoxication, chronic disease of the 
 brain. 
 
 Abdominal pain may, in like manner, be traced, in different cases, to 
 many morbid conditions, such as flatulent colic, lead colic, neuralgia or 
 rheumatism of the bowels, intestinal obstruction, dysentery, passage of a 
 gall-stone or of a nephritic calculus through one or the other duct respect-
 
 166 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 ively ; cancer, aneurism of the aorta, caries of the spine ; in the female, 
 dysmenorrhoea, metralgia or ovaralgia i. e. neuralgia of the uterus or 
 ovaries. 
 
 Similar diversity in the origins of pain might, but for want of space, 
 be pointed out in morbid states of the contents of the chest and of other 
 parts of the body. 
 
 Subjective symptoms often affect the special senses. 
 
 Taste and touch have been already referred to. Of sight we may have 
 photophobia, connected with exaggerated sensibility of the retina or of 
 the brain ; muscse volitantes, specks, rings, or chains of spots from float- 
 ing semi-opaque particles in the vitreous humor; diplopia, double vision ; 
 hemiopia, seeing only half of an object at a time; amblyopia, indistinct- 
 ness of vision of all objects. 
 
 Hearing is affected, besides all possible degrees of deafness, with the 
 subjective sensations of ringing, whistling, or roaring sounds tinnitus 
 aurium. One form of this (as I conclude from observation in my own 
 ears) depends upon spasmodic vibration of the tensor tympani or stape- 
 dius muscle. Sometimes the seat of the sensation is in the auditory 
 nervous apparatus proper. It has, not seldom, a marked connection with 
 brain-exhaustion. An attack of Meniere's disease (labyrinthine vertigo) 
 is often preceded by it. No constant signification, however, can be 
 attached to aural tinnitus. Large doses of quinine or of salicylic acid 
 will occasion it in many patients. 
 
 Very briefly, deafness may be here disposed of by mentioning that, in 
 greater or less degree, it may be produced by accumulated wax in the 
 ear; obstruction of the Eustachian tube; thickness of the membrana 
 tympani ; perforation of that membrane ; mucus or pus in the middle 
 ear ; disease of the ossicles of the ear ; paralysis of the auditory nerve ; 
 typhus or typhoid fever ; excessive doses of quinine or salicylic acid. 
 
 Vertigo is chiefly of two kinds, dizziness or giddiness (swimming in the 
 head), and reeling vertigo, or a disposition to fall or turn to one side or 
 the other. Giddiness is produced by running or whirling many times in 
 a circle, or, in some persons, by swinging rapidly or sailing. Reeling 
 vertigo is mostly observed in connection with disorder of the brain or of 
 the labyrinth of the ear (Meniere's disease). Dizziness, with nausea, is 
 common as a symptom of cholsemia (cholestersemia of Flint) in what is 
 popularly called a bilious attack. 
 
 Delirium is present in many acute disorders, and not infrequently at 
 a late stage in pulmonary phthisis. Its special study will be taken up in 
 connection with the special articles upon these affections. 
 
 Coma, or stupor, is met with chiefly in the following morbid states : 
 severe typhus or typhoid fevers ; malignant scarlet fever ; small-pox ; 
 rarely in measles ; pernicious malarial fever ; ursemia ; apoplexy ; opiate 
 narcotism, or that from chloral or alcoholic intoxication ; asphyxia from 
 inhaling carbonic acid gas, ether, chloroform, etc. ; fracture of the skull 
 with compression of the brain. 
 
 For an account of aphasia and other morbid psychological manifesta- 
 tions the reader is referred to the articles on Aphasia, Insanity, Hysteria, 
 etc. in this work. 
 
 Physical and Instrumental Diagnosis will be treated in connection with 
 those diseases in which they have special importance.
 
 PROGNOSIS. 187 
 
 PROGNOSIS. 
 
 The elements of medical prognosis are essentially involved in diag- 
 nosis. Our ability to anticipate the mode of progress, duration, termina- 
 tion, and results of any case of illness depends upon our knowledge 1, 
 of the nature of the malady, with its tendencies toward death, self-lim- 
 itation, or indefinite continuance ; 2, the soundness or imperfection of 
 the patient's constitution, with or without special predispositions or the 
 consequences of previous ailments; 3, the present state of his system 
 as to the performance of the general functions, his strength, and vital 
 resistance or persistence ; 4, the probable modifying influences of medical 
 treatment, and also those of situation, surroundings, and nursing L e. 
 the care of those attending to the patient during the absence of the phy- 
 sician and having the duty of carrying out his directions. 
 
 1. As to the nature of the malady. While every sickness must be 
 supposed to encroach somewhat upon the vital energy of its subject, very 
 few diseases (leaving aside deadly poisons and surgical injuries) are, ab 
 iuitio, certainly fatal. Hydrophobia (rabies canina) has been, until 
 latterly, regarded as incurable, and always mortal within a few days or 
 a week or two. A few cases have, during the last few years, been 
 reported as cured, but the diagnosis of these continues to be somewhat 
 doubtful. 
 
 Cancer exhibits a tendency to extend its destructive malnutrition so as 
 to render death inevitable unless it can be removed early and completely, 
 or unless the morbid process can be arrested in some manner not yet 
 known. Remedies, such as condurango and Chian turpentine, which 
 furnished hope of such an effect, have, after prolonged trial, been aban- 
 doned as not justifying the confidence of the profession. 
 
 Tubercular phthisis was once considered to be almost necessarily a 
 fatal disease, although with a very indefinite period of duration. Under 
 improved hygienic management, with mild palliatives and recuperative 
 medication, a not inconsiderable minority of cases now end in recovery. 
 This term may be properly applied when, with cicatrization of a cavity 
 or cavities in the lungs, no more tubercle is deposited and lung-substance 
 enough is left for good respiration, even although the structurally changed 
 portions of pulmonary tissue do not undergo entire repair. 
 
 Tubercular meningitis is a nearly always incurable affection. Yet a 
 few instances of lasting recovery have been reported where the diagnosis 
 was as certain as it can be in that disease in the absence of post-mortem 
 examination. A child attended by myself, in whom the symptoms had 
 been of the most unfavorable kind, became apparently quite well, and 
 continued so for a month. Then it was attacked suddenly with convul- 
 sions, which were almost unremitting until it died within a day or two. 
 
 Gangrene of the lung is very seldom recovered from, but, unless the 
 diagnosis from examination of putrescent sputa has been at fault, there 
 have been cases in which, with the limited destruction of the affected 
 lung, it was not fatal. 
 
 Pseudo-membranous croup destroys life in the majority, but not in 
 nearly all the cases of its occurrence. It is most likely to end in death 
 when distinctly a part of an attack of epidemic or endemic diphtheria.
 
 168 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 Valvular heart lesions were formerly regarded as incurable, in the 
 sense of restoration of the normal condition and action of the valves 
 impaired, yet not incompatible with years of life. This restoration 
 certainly very seldom takes place. But the experience of many close 
 observers leads to caution in anticipation of necessary and permanent 
 disability of the heart because of murmurs, or even functional disturb- 
 ances, seeming to prove either aortic or mitral iusufficency or stenosis. 
 
 Aneurism of the aorta is very seldom recovered from, but, besides a 
 variable duration, whose period can almost never be anticipated with 
 exactness, there appear to have been some cases of disappearance, or at 
 least prolonged quiescence, of the tumor and of its morbid eifects. 
 
 Yellow atrophy of the liver is one of the disorders most rarely ending 
 otherwise than in death. 
 
 With a course altogether indefinite in time, there appears to be a tend- 
 ency to exhaust vital energy, without self-limitation, in the different 
 forms of organic degeneration, such as fatty heart, Addison's disease, 
 chronic Bright's disease, diabetes mellitus, cirrhosis, and amyloid degen- 
 eration of the liver, etc. The same may be said also of the different 
 forms of cerebral and spinal sclerosis, of pernicious anemia, and of 
 myxoedema. 
 
 Lastly, it is an exception to a very general rule of fatality when a case 
 of trichinosis, with well-marked abdominal, muscular, and general symp- 
 toms, ends otherwise than in death within a few weeks. 
 
 Self-limitation is familiar in the natural history of typhus and typhoid 
 fever, relapsing fever, yellow fever, cholera, diphtheria, whooping cough, 
 mumps, small-pox, varicella, scarlet fever, and measles. In the sense of 
 a definite duration of each paroxysm intermittent and remittent fevers 
 are self-limited. Are they so also in tending toward recovery, without 
 curative treatment within a certain time ? This has been asserted, and 
 in the case of remittent there is evidence that spontaneous cures do some- 
 times happen. Some observers aver that ague tends toward cessation of 
 the chills after six, eight, or ten weeks. The obstinacy of the attacks in 
 many instances under anti-periodic medication seems to make it probable 
 that spontaneous recovery from intermittent hardly belongs to the typical 
 natural history of the disease. 
 
 Whether the term self-limited can or cannot with propriety be 
 applied to pneumonia and other acute inflammations, as pericarditis, 
 etc., has been a mooted question. If it be so, it appears to the writer 
 1 o be true in a different meaning of the word self-limitation from that 
 in which it is applied to variola or typhoid fever. Yet some nosol- 
 ogists deny this distinction, and regard pneumonia as strictly a lung 
 fever. Some of the facts supporting this view belong to the history 
 of pneumonia as complicating malarial fever ; e. g. in the winter fever 
 of some parts of our Southern States. It must be admitted, however, 
 that the inflammatory process, though morbid, is generally eliminative or 
 corrective of a disturbing cause which produced it, and, unless that cause 
 is continued or repeated in action, a limitation belongs to the succession 
 of stages, ending either in resolution or in adhesions, serous accumulation, 
 suppuration, or gangrene. 
 
 2. It is not necessary to dwell here upon the significance in prognosis 
 of the patient's original constitution and hereditary or acquired predispo-
 
 FBOGNOSIS. 169 
 
 sitions, or ou that of results left by previous attacks of illness. These are 
 all obviously of importance. In a member of a family predisposed to 
 consumption a bronchial attack following exposure may be much more 
 dangerous than in others. So also a cause of mental agitation may pro- 
 duce insanity in a person who inherits a tendency thereto or who has 
 before had an attack of mental derangement, while it would be innocuous 
 to another who has no such proclivity. A second or third attack of 
 delirium tremens is much more dangerous to life than a first attack. On 
 the other hand, if yellow fever occurs at all in a patient who has before 
 had it, the course of the disease is apt to be milder than usual. The most 
 striking example of the influence of previous disease is seen in the com- 
 parative mildness of varioloid i. e. small-pox modified by the system 
 having been placed under the action of the vaccine virus. 
 
 3. Most important of all data in prognosis are, in most cases, the indi- 
 cations of the present state of the patient's system as to the performance 
 of the organic functions, his sum of energy, and vital resistance and per- 
 sistence. Especially must these indications be regarded comparatively ; 
 that is, ascertaining whether, in a period of weeks, days, or, sometimes 
 hours (in malignant cholera even of minutes), the patient's general con- 
 dition has been and is gaining or losing in the evidences of strength and 
 healthy function of the great organs. 
 
 Every student of clinical medicine must become acquainted, as soon as 
 possible, at the bedside, with these tokens and evidences, which make 
 almost the alphabet of practice : What is a good, a doubtful, and a bad 
 pulse ? How does a patient breathe when moribund from simple exhaus- 
 tion, and how does such respiration differ from the toil and struggle of 
 asthma or the stertor of narcotism ? Why does a glance suffice to make 
 known to a surgeon the state of collapse after a railroad accident, or to a 
 physician that of cholera or pernicious intermittent ? What is the 
 impression given to the finger upon the skin by intense fever, and what 
 by the relaxation which precedes death ? These and many other such 
 questions are to be answered fully to each student only by the use of his 
 own senses, with such interpretation as is to be obtained by the careful 
 comparison of cases, with the aid of books and didactic instruction. 
 
 To a well-trained eye and hand a look and a touch will often suffice to 
 make known the commencement of convalescence or of the precipitous 
 decline toward death. Yet a wise physician will be very cautious in 
 acting upon even seemingly obvious prognostications. Changes may be 
 going on in important organs whose effects have hardly yet begun to 
 show themselves, and which may after a while materially alter the aspect 
 of the case. Particularly near the beginning of an attack of enthetic 
 disease, such as scarlet fever, small-pox, typhus or typhoid fever, the 
 physician should beware of too confidently forecasting the progress of 
 the case for better or for worse. In nothing, probably, is the prudence 
 of a practitioner more often or more severely tested than in his answers 
 to inquiries made concerning prognosis. 
 
 4. Anticipation of the modifying action of remedies is undoubtedly a 
 proper factor in our estimate of the probable result of any case of illness. 
 Few diseases, however, are as yet so subject to control by specific medica- 
 tion as to allow certainty in such expectations. In a first attack of ague 
 \ve may look with much confidence toward the speedy cure of our
 
 170 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 patient under quinia. In one who has had chills all winter even this 
 confidence may need qualification. A sufferer with syphilitic rheumatism 
 may generally be promised relief under the use of iodide of potassium, 
 or one afflicted with scabies under the application of sulphur ointment. 
 We seldom have misgivings about our ability to give relief in colic, con- 
 stipation, or diarrhsea. Yet the first two of these may prove to be symp- 
 toms of intestinal obstruction resisting treatment, and the last may depend 
 upon chronic ulceration of the bowel, giving it unexpected continuance. 
 In all such instances careful and (when practicable) accurate diagnosis 
 must precede prognosis ; our estimate of the action of remedies becomes 
 then a secondary, although often a valuable, part of the calculation of the 
 probabilities of the case. 
 
 Prognosis in particular diseases involves the consideration not only of 
 those signs of the general vital condition to which we have just been 
 giving attention, but also of such as are more or less peculiar to each 
 disorder. To a certain extent these signs may be grouped. We may 
 refer to good and bad signs in pulmonary, cardiac, intestinal, renal, 
 cerebral, and febrile affections respectively. Still, there will be for each 
 malady, if it really has a distinctive character, some tokens which expe- 
 rience shows to be specially indicative of favorable or unfavorable progress 
 and results. 
 
 Let us notice some of these as examples. 
 
 In pneumonia the best signs are the lowering of a high temperature, 
 reduction of the number of respirations to 20 or 25 in the minute, expec- 
 toration of sputa less and less tinged with red or brown, and gradual 
 reduction of the region of dulness on percussion. Worst, in the same 
 disease, are an axillary temperature over 106, respirations 40 or more 
 per minute, with delirium, and expectoration becoming more abundant, 
 grayish, and purulent ; also with continued dulness on percussion and 
 abundant mucous rales on auscultation. 
 
 In croup the best sign is, after a hoarse, dry, barking cough and dysp- 
 no3a, a soft, liquid rale, heard in the larynx and trachea during respira- 
 tion or coughing. Worst, in croup, is a steadily or paroxysmally increasing 
 difficulty of breathing, with a dry hissing or whistling sound of respira- 
 tion and cough succeeding the barking sounds of the earlier stage. 
 
 In phthisis pulmonalis among the best signs are the patient's increasing 
 in weight, coughing and expectorating less, ceasing to have hectic and 
 night sweats. These may give renewed hope, even before much change 
 is discernible in the physical signs. Of bad omen are intense hectic 
 fever, incessant cough with abundant nummular sputa, copious perspira- 
 tions, diarrhoea, breathing growing shorter and shorter, and extreme 
 emaciation and debility. 
 
 In all organic affections of the heart an extremely rapid and irregular 
 pulse, with orthopnoea and increasing anasarca, and especially the Cheyne- 
 Stokes respiration (described under DIAGNOSIS), must cause unfavorable 
 expectations. 
 
 In obstruction of the bowels the best of all symptoms is, usually, of 
 course, a copious fecal evacuation. Yet a few cases have occurred in 
 which a very large evacuation, delayed by obstruction for a week or two, 
 has been almost immediately followed by collapse and death. The worst 
 signs in cases of obstruction are (besides long-unyielding constipation)
 
 PROGNOSIS. 171 
 
 stercoraceous vomiting, a small, rapid pulse, and increasing coldness and 
 clamminess of the surface of the body. 
 
 In cholera infantum the best signs are cessation of vomiting and purg- 
 ing, the discharges growing more nearly natural, the face becoming less 
 shrunken in aspect, sleep taking the place of coma vigil or waking apathy, 
 and water or milk, when taken, remaining on the stomach. Worst, in 
 the same disease, are incessant rejection of everything swallowed, watery 
 passages from the bowels every half hour or hour, shrinking of the face 
 and body to skin and bone, with an apathetic expression of the open or 
 half-open eyes, the latter rolling often from side to side. 
 
 In epidemic cholera good signs are the arrest of vomiting and of rice- 
 water discharges from the bowels, rapid movement of the blood in the 
 veins after removal of momentary pressure, return of natural color and 
 warmth to the skin, with filling up of the pulse at the wrist. Bad signs 
 in cholera are shrinking of the cheeks and of the flesh upon the hands, 
 deepening ashiness or blueness of the skin, coldness and clamminess to 
 the touch, dyspncea, loss of pulse, incessant vomiting and purging of 
 rice-water stools, constant cramps of the limbs, and suppression of urine. 
 
 In acute cerebral meningitis good signs are lessened temperature of the 
 head, quiet sleep without stertor, disappearance of delirium, more natural 
 pulse, and attention to surrounding objects, without disquietude. Bad 
 signs in the same disease are deep stupor, strabismus, convulsions, paral- 
 ysis, involuntary defecation and urination. 
 
 In typhus fever good signs are the pulse becoming slower and fuller, 
 the skin less hot, more soft and moist, the tongue moist and clean, the 
 face losing its dusky flush, and consciousness returning instead of muttering 
 delirium. 1 Bad, in the same fever, are deepening of the flush of the 
 countenance, profound stupor, rapid and feeble pulse, lying on the back 
 and sinking down toward the foot of the bed, with suppression of urine. 
 
 In typhoid fever many of the good and bad signs are the same as in 
 typhus, belonging to closely similar general conditions. But in typhoid 
 fever we observe also as favorable signs the lessening of tympanites, 
 more nearly natural fecal stools, and the absence of tenderness in any 
 part of the abdomen. As unfavorable, increase of tympanites and diar- 
 rhoea, sometimes large hemorrhages from the bowels ; worst of all, at a 
 late stage, sudden increase of abdominal distension, with dulness on per- 
 cussion, coldness of the skin, great rapidity and feebleness of the pulse 
 following perforation of the bowel, resulting usually in fatal peritonitis. 
 
 In scarlet fever, measles, and small-pox it is a favorable sign for the 
 eruption to come out well at the usual time ; its sudden recession 
 threatens malignancy. In small-pox a confluent eruption marks a 
 dangerous case, and so does the occurrence of distinct pustules in the 
 throat. Early in scarlet fever stupor is very threatening, though not 
 necessarily mortal. Late in the same disease bloody urine, or, worse 
 yet, suppression of urine, may well cause alarm. 
 
 In all children's diseases the early occurrence of convulsions shows a 
 
 1 Incidentally, it may be mentioned that the return of the pulse to its normal rate 
 is often considerably delayed in convalescence from typhus and typhoid fevers and 
 other protracted diseases. If, then, the temperature is not above 99 F., and is stable 
 from morning to night, the tongue is clean and moist, and appetite begins to appear, we 
 need not be alarmed, although the pulse continues as high as 90 or 100 per minute, in a 
 case attended by positive debility.
 
 172 GENERAL ETIOLOGY, MEDICAL DIAGNOSIS, AND PROGNOSIS. 
 
 severe but not always a dangerous attack. The late occurrence of con- 
 vulsions is commonly much more serious in its significance. 1 Convulsions 
 are always of vastly less importance, prognostically, in children than in 
 adolescents or adults. Yet they are always serious signs. While recov- 
 ered from in the large majority of cases, they may at any time be fatal. 
 
 These enumerations, selected as examples merely, might be much 
 farther extended but that the special prognosis of each disease will 
 be fully set forth in the several articles upon them in the body of this 
 work. Those now given may suffice for the illustration of the method 
 and general principles by which the physician must be guided in his 
 anticipation of the progress and result of cases of disease. The caution 
 may be repeated, to observe great care in forming a conclusion in regard 
 to prognosis in every instance, and still more in expressing it, unless in 
 the presence of very clear and positive evidence. 
 
 1 Yet I saw a case of acute cerebro-meningitis, in a girl ten years of age, in which a 
 violent convulsion occurred on about the sixth day of the disease, and was followed hy 
 convalescence.
 
 HYGIENE. 
 
 BY JOHN S. BILLINGS, M. D. 
 
 THE purpose of this paper is to indicate some of the ways in which 
 hygiene, both private and public, is connected with the duties of the 
 general practitioner, and to give some information as to modern methods 
 of investigation and work in preventive medicine. 
 
 While the business of the physician is more especially the care of the 
 sick with reference to the cure of disease, or, where that is beyond his 
 power, as is too frequently the case, to relieve suffering and secure tem- 
 porary ease for his patient, he is nevertheless often called upon to answer 
 questions as to the causes of disease, and the best means of avoiding or 
 destroying these causes. Not only does diagnosis often turn Upon con- 
 siderations of etiology, but a very considerable part of the treatment of 
 actual disease must be hygienic in the broader sense of the word. The 
 prescription or the surgical operation must not only be supplemented by 
 advice as to residence, clothing, food, exercise, etc., but must, in many 
 cases, be merely supplementary to such advice, which indicates the 
 really essential method of treatment; and the giving this advice then 
 becomes the most important part of the physician's work, although not 
 usually recognized as such by his patients. The chief value of the 
 prescription is, in fact, often to methodize the mode of life of the patient 
 and to remind him at frequently recurring intervals of the regimen which 
 has been ordered with it. 
 
 The physician has also certain duties in relation to the public at large, 
 as well as to his individual patients, and these duties become more 
 numerous and important as the density of population increases, so that 
 in the large cities of most civilized countries he finds himself, nolens 
 volens, in almost daily contact with legally constituted authorities in the 
 shape of registrars, health officers, coroners, etc., and is not infrequently 
 summoned before the courts as a supposed expert in matters connected 
 with the public health. 
 
 Moreover, the physician who has become eminent in his profession is, 
 in many cases the adviser, and, so far as professional subjects are con- 
 cerned, to a great extent the guide, of those who legislate for, or execute 
 the laws of, not only his own city or county, but his state and the 
 nation ; and he must to a corresponding degree be held responsible for 
 the position which he takes and the advice which he gives in regard to 
 public health matters. This is true whether his attitude on these subjects 
 
 173
 
 174 HYGIENE. 
 
 be active or passive, for his silence will be taken to mean that there is uo 
 necessity for action or change. 
 
 The limits of this paper do not permit the presentation of proofs and 
 illustrations of these somewhat dogmatic assertions, but it is believed that 
 they will meet with general assent from medical men without formal and 
 detailed argument, and that it is unnecessary here to urge the interest or 
 importance of practical hygiene upon the medical profession, or to enlarge 
 upon the desirability that the practitioner, as well as the professional sani- 
 tarian, should be familiar with the conclusions of modern science and 
 technology with regard to it. 
 
 In the minds of many intelligent and thoughtful physicians there is, 
 no doubt, a feeling of unformulated distrust as to the real possibilities or 
 probabilities of improving the health and diminishing the mortality of 
 the community at large; and this feeling is in part due to the exaggerated 
 claims and emotional exhortations of some advocates of hygiene. A 
 careful and unprejudiced survey of what has been accomplished by sani- 
 tary measures will, however, largely dissipate this distrust. 
 
 The natural term of the life of man is fixed by the physiologist at 
 about one hundred years, which is nearly in accordance with the law 
 indicated by Flourens, that the period of life of an animal is about five 
 times that required to perfect the development of its skeleton and unite 
 the epiphyses with the shafts of the long bones. The actual average 
 duration of human life is less than half this, but there is satisfactory evi- 
 dence that it has increased in civilized countries. The ancient estimate 
 is expressed in David's declaration, that " the days of a man are three- 
 score years and ten, and if by reason of strength they be fourscore years, 
 yet is their strength labor and sorrow." Kolb, a cautious and learned 
 statistician, concluded, from his studies, that while the maximum age 
 reached by man has not materially changed for many centuries, the num- 
 ber of persons who now survive infancy and of those who reach a ripe 
 old age has decidedly increased ; and this opinion is sustained by Mr. 
 Lewis, the secretary of the Chamber of Life Insurance of New York, 
 who points out that while civilization largely interferes with the laws of 
 evolution by survivorship, it aids by economizing the waste which occurs 
 in its absence. "Under natural selection, when variations in capacity 
 arise, thousands of them are wasted where one is secured, fixed, and 
 transmitted. But human society economizes much of this waste, fastens 
 upon and improves an immensely larger proportion of the capacities 
 lavishly produced by Nature, and thus concentrates forces which w r ould 
 otherwise spread their operation over countless ages." ' 
 
 We have, however, no record of the duration of life in ancient Greece 
 and Rome, and it is quite possible that it was greater than in Western 
 Europe during the Middle Ages, which formed a period of retrogression 
 in a sanitary point of view. The Jew, the Greek, and the Roman, prior 
 to the Christian era, were probably cleaner in person and in dwellings 
 than the people of the time when dirt became the odor of sanctity. 
 
 In the absence of reliable data for this country, it is impossible to 
 speak with certainty of the results of attempts made here to prevent dis- 
 ease and death. Each sex, race, and age has its own rate of mortality, 
 
 1 "Influence of Civilization on the Duration of Life," Reports Am. Pub. Health Assfn, 
 X. Y., 1877, vol. iii. p. 173.
 
 CAUSES OF DISEASE, ETC. 175 
 
 and until this rate is determined we can only guess as to whether good 
 work is being done or not. 
 
 "We can never hope to diminish the total number of deaths which will 
 occur in long periods, say two hundred years, but we may rationally try 
 to prolong the average duration of life, to diminish infant mortality, and 
 to secure greater comfort and better health for individuals and for the 
 community at large. 
 
 The reader must remember that only a mere outline of the subject can 
 be presented here ; the details would require several volumes, and the 
 tendency to specialization in this, as in other branches, is so great that it 
 is hardly to be expected that any one man shall have either the theo- 
 retical or the practical knowledge necessary for covering the entire field. 
 There are certain things in relation to hygiene which every physician 
 should know ; there are many other things with regard to which it is 
 sufficient if he knows where to find full and reliable information when 
 he needs it. With this preface we will pass at once to our subject, which 
 may be conveniently divided as follows : 
 
 I. Causes of disease, means of discovery, and prevention. 
 II. Personal hygiene in its relations to the practice of medicine. 
 
 III. Public hygiene in its relations to physicians. 
 
 L Causes of Disease, Means of Discovery, and Prevention. 
 
 Although the origin of disease has from the earliest times been the 
 subject of study by medical men, the physician has not heretofore, usu- 
 ally, been called upon to investigate the causes of disease in particular 
 localities, until the occurrence of sickness in that locality has called atten- 
 tion to the matter. The education of the public as to the importance of 
 sanitary work has, however, recently made great progress, and it is now 
 not unusual to ask the opinion of the family physician as to the health- 
 fulness of a given locality or house. The question may be presented in 
 three different ways : First. In a given case of disease, what is the prob- 
 able cause ? Second. Given the presence of a known or suspected cause 
 of disease, what are the best means of avoiding or destroying it ? Third. 
 In the absence of cases of disease, to determine whether causes of disease 
 are probably present, and if so, what causes. 
 
 The word " cause " is here used in its widest sense, including not only 
 what are commonly called predisposing and exciting causes, but also those 
 conditions which aggravate or continue the disease. These causes may be 
 roughly classed as follows : Heredity ; impure air ; impure water ; climate ; 
 habitations ; occupation ; food ; intemperance of various kinds ; clothing ; 
 errors in exercise ; sexual errors ; parasites ; contagia ; expectant attention 
 and other mental causes, including worry, etc. In most cases two or 
 more of these classes of causes are combined in action for the production 
 of a given case or outbreak of disease, and when we refer any disease to 
 a single factor, what is meant usually is, not that this is the sole and ex- 
 clusive cause, but that it is the most prominent one. 
 
 Bearin^ this in mind, let us consider brieflv some of the causes above 
 
 
 
 mentioned. 
 
 I. HEREDITY. That the child inherits from its parents its physical
 
 176 HYGIESE. 
 
 type, including color, stature, physiognomy, temperament, and certain 
 peculiarities of structure or arrangement of internal organs, is well known. 
 This hereditary influence is stronger from the immediate than from the 
 remote ancestry, although the curious phenomena of atavism sometimes 
 form exceptions to this rule. The hereditary causes of disease can be 
 guarded against when known. Theoretically, by preventing generation 
 on the part of persons who are unfit to produce offspring ; practically, to 
 a certain extent, by taking special precautions against these causes and 
 their effects in the individual, particularly at those ages in which these 
 influences seem to have their greatest force. The most important of these 
 hereditary diseases are syphilis, consumption, scrofula, cancer, gout, certain 
 skin diseases, insanity, and criminal tendencies of various kinds. 
 
 The physician's advice is rarely asked with regard to the propriety, 
 from a sanitary point of view, of a proposed marriage, nor is it often taken 
 when given, unless, indeed, it happens to correspond with the wishes of 
 the recipient ; nevertheless, he is occasionally in a position to exert influ- 
 ence in such a matter, and when this is the case the following general 
 rules may be borne in mind: 1. No marriage should occur between per- 
 sons having the same hereditary tendency to disease ; and this is especially 
 important in marriages between relatives. 2. A girl should not marry 
 under the age of twenty. 3. A person affected with hereditary or well- 
 marked constitutional syphilis, or having a strong consumptive taint, or 
 tendency to mental unsoundness, should not marry at all. 
 
 The precautions to be taken in individual cases in which there is a 
 known hereditary predisposition to certain diseases will probably be indi- 
 cated in the articles upon those special diseases. The most important of 
 these, from the sanitary point of view, are consumption and gout, partly 
 because of their frequency, partly because of the undoubted power which 
 a proper regimen, applied in time, has in controlling them. The pain in 
 gout has often an excellent sanitary effect ; it is an inducement to temper- 
 ance much stronger than any amount of good advice. 
 
 The influence of heredity in producing abnormities of refraction and 
 accommodation of the eye, and the importance of detecting these early and 
 giving them proper treatment, have not hitherto received, from the gen- 
 eral practitioner, the attention which they deserve. Children of parents 
 affected with astigmatism, ametropia, etc. should be carefully examined 
 before being placed at school, and if necessary fitted with proper glasses. 
 
 The heredity of idiosyncrasies as to certain articles of food or certain 
 drugs must also be borne in mind by the physician, for, although implicit 
 confidence is not always to be placed in the statement of a patient that he 
 cannot take a certain medicine, yet a knowledge of the facts will occa- 
 sionally save the prescriber from some awkward mistakes. 
 
 The importance of bearing in mind the family peculiarities is best appre- 
 ciated by the old family doctor who has had two or three generations pass 
 under his hands : he knows, for example, that in one family he may ex- 
 pect brain complications, in another lung troubles, and that what would 
 be grave symptoms in one house are of comparatively small import in 
 another. Unfortunately, the greater part of this kind of knowledge has 
 not yet been formulated, and each physician has to acquire it for himself; 
 but he will find the process of acquisition greatly facilitated if in all cases 
 in a new family he makes it a rule to learn something of the medical his-
 
 CAUSES OF DISEASE, ETC. 177 
 
 tory of the parents, and he will find intelligent laymen quick to appreciate 
 his inquiries in this direction. 
 
 The importance of taking into account hereditary influences is well illus- 
 trated by the care which is taken to obtain information with regard to 
 them in well-conducted life insurance companies. The medical examiners 
 of such companies have their attention specially called to this matter, and 
 the following extract from a manual of instructions shows how it is re- 
 garded from a business point of view : " If consumption is found to have 
 occurred in the family of the applicant, he is to be regarded not insurabla 
 under the following circumstances, viz. : 
 
 YEARS OP AGE. 
 
 If in both parents, not insurable until 40 
 
 If in one parent, not insurable until 30 
 
 (Except for ten-year endowments, then 20 years.) 
 
 If in two members (not parents) 35 
 
 If in one member (brother or sister) 20 
 
 (Except for ten-year endowments, when peculiarly favorable.)" 
 
 If apoplexy, paralysis, or heart disease is found to have occurred in 
 any two members of the applicant's family, he is to be regarded as insur- 
 able only upon the endowment plan, the term of insurance to expire prior 
 to his reaching the age of fifty years. If insanity shall have so occurred 
 (in two members), a provisionary clause is essential, and is attached to the 
 policy by the company. 
 
 II. IMPURE Airf. The dangers of impure air, water, and food depend 
 largely upon the fact that through these media may be introduced into 
 the body particles of organic matter, living or dead, which tend to pro- 
 duce disease in the recipient. The parasites are types of this mode of 
 disease-production, and these blend with the contagia of the specific dis- 
 eases in such a way that it is not easy to draw the distinction in all cases. 
 There are also certain poisonous gases and inorganic compounds which 
 may occasionally be present in air or water to such an extent as to pro 
 duce disease; but as a rule the gaseous impurities of the air are offensive 
 to the smell rather than dangerous, as will be seen when we come to con- 
 sider the effluvium nuisances. 
 
 The subject of ventilation, for the purpose of procuring an adequate 
 supply of pure air, is one of so much importance, and one upon which the 
 physician is so liable to be called for practical advice, that it seems proper 
 to state briefly the general principles which should govern investigations 
 into, or recommendations upon, this subject. 
 
 The impurities of air which are to be disposed of by ventilation arn 
 for the most part derived from the human body, chiefly from respiration, 
 and these only will be considered here. In some cases it is necessary to 
 make special provision for the products of combustion from gas, etc., but 
 as a rule this is rather for the purpose of regulation of temperature than 
 anything else. The impurities of air due to the presence of human beings 
 consist mainly of carbonic acid, ammonia, sulphuretted hydrogen, and 
 sulphide of ammonium, and of various organic compounds, mostly in the 
 form of minute particles of organic matter of uncertain structure, but 
 extremely prone to decomposition. It is usual to estimate the degree of 
 impurity by the amount of carbonic acid present, and this leads many 
 persons to suppose that the carbonic acid is in itself the chief and most 
 dangerous impurity. This gas is, however, not perceptible to the senses, 
 
 VOL L 12
 
 178 HYGIENE. 
 
 nor is it injurious to health, unless present in much greater proportion 
 than that in which it will be found in the most crowded habitations or 
 assembly-rooms. Its importance in questions of ventilation depends 
 upon the fact that its increase in a room beyond the amount present in 
 the outer air may usually be taken to be in direct proportion to the amount 
 of the really dangerous and offensive impurities present, and that the 
 amount of carbonic acid can be ascertained by chemical tests with com- 
 parative ease and rapidity; which is not the case with regard to the 
 organic matter. The carbonic acid is therefore taken as the measure of 
 the impurity, although it is not itself the impurity of which we are most 
 anxious to be free. 
 
 To decide as to whether a room is well ventilated or not, some standard 
 of permissible impurity must be fixed, and this standard is now usually 
 taken to be, in a room occupieel by human beings, that condition of air 
 which produces in a person having a normal sense of smell, and who 
 enters from the fresh air, a faint sensation of an odor very slightly musty 
 and unpleasant. Upon testing the air of such a room, it will be found 
 that the amount of carbonic acid impurity present that is, the excess of 
 this acid over the amount in the external air will be between 2 and 3 
 parts in 10,000. 
 
 As the amount of carbonic acid in normal air varies from 2 to 5 parts 
 in 10,000 in different places, and in the same place at different times, it 
 is better to look to the carbonic acid impurity as ab'ove defined rather 
 than to the total amount of the acid found present, if strict accuracy is 
 desired ; but usually the statement of Dr. Parkes is correct, that the 
 organic impurity of the air is not perceptible to the senses until the total 
 carbonic acid rises to the proportion of 6 parts in 10,000 volumes. When 
 the carbonic acid reaches 9 parts in 10,000 the air is close, and when it 
 exceeds 1 part in 1000 the air is usually decidedly unpleasant. If we 
 take 2 parts in 10,000 as the permissible maximum of carbonic acid 
 impurity, it follows that the amount of fresh air which must be supplied 
 and thoroughly distributed for each person per hour is 3000 cubic feet. 
 If 3 parts per 10,000 be taken as the permissible maximum (which is 
 the standard of Pettenkofer), the amount of air per head per hour must 
 be 2000 cubic feet. While it is impossible, as Dr. Parkes remarks, to 
 show by direct evidence that the impurity indicated by 7, 8, or even 10, 
 parts of carbonic acid per 10,000 is injurious to health, it is advisable to 
 accept his standard, because it is a simple one, and can be practically 
 applied without special apparatus or technical skill, and because there is 
 evidence of the injury to health which continued exposure to air impure, 
 by this standard, ultimately produces. 
 
 Keeping this standard in view, the physician may be called on for an 
 opinion as to whether the ventilation of a given building is satisfactory 
 or as to the merits of a proposed plan for ventilation. The first is a 
 question of fact : What are the effects produced upon the inmates ? Are 
 there unpleasant odors in the building or not? What percentage of car- 
 bonic impurity is present? What is the number of cubic feet of air per 
 head that is introduced and removed per hour? And what is the charac- 
 ter of the fresh-air supply as to purity ? Does it come from the cellar, or 
 from other rooms, or from a foul area ? Air-currents can usually be best 
 investigated by the fumes of nascent muriate of ammonia produced by
 
 CAUSES OF DISEASE, ETC. 179 
 
 exposing a cylinder of common blotting-paper, moistened with dilute 
 hydrochloric acid, to the vapors coming from a crumpled fragment of the 
 same paper moistened with common aqua ammonia and placed within 
 the cylinder. The process for carbonic acid determination is simple, and 
 can be learned in three hours in a laboratory under a skilful teacher. 
 It does not seem worth while to describe it here. The determination of 
 the amount of air passing through a given register, flue, or chimney in 
 a given time is to be made by the use of an anemometer, an instrument 
 which registers the velocity of the current of air passing through it. 
 
 In judging of the merits of a plan of ventilation the following points 
 should be remembered : The defect in most plans for ventilation is in the 
 air-supply. Many people suppose that they have made all necessary pro- 
 vision for ventilation if they have put in tubes or openings for the escape 
 of foul air, forgetting that these outlets will have no effect if correspond- 
 ing inlets are not provided. Examine, first of all, therefore, the ducts, 
 flues, and openings proposed for the fresh-air supply, with reference to 
 their size and position and the amount of air to be furnished by them. 
 These will almost invariably be found to be too small. The proper size 
 of flues and registers for a given room is ascertained by dividing the 
 number of cubic feet of air to be supplied per second by the velocity in 
 feet per second which the air is to have in the flue or opening, bearing in 
 mind that it is much better that these flues and registers shall be too large 
 than too small, since it is easy to reduce their capacity, but, in most cases, 
 impossible to increase it. When the fresh-air register is so situated that 
 the current of air from it is liable to strike upon the person of an occu- 
 pant of the room, the velocity of this current should not exceed 1J feet 
 per second if unpleasant draughts are to be avoided ; and it will usually 
 be found best that the velocity of the air in the flue shall not exceed 6 
 feet per second, except in the case of very large flues, where the element 
 of friction becomes of comparatively small importance. In the great 
 majority of cases the amount of air to be supplied depends upon the 
 number of persons, and not on the cubic space; but in exceptional 
 instances, where the amount of cubic space is very large in proportion to 
 the number of persons, and the heating is effected by warm air, it may 
 require more air to keep the room at a comfortable temperature than is 
 necessary for the supply of the occupants. The cubic space is also rela- 
 tively much more important in rooms which are to be occupied but a 
 short time continuously, and can then be thoroughly aired, than it is in 
 rooms constantly occupied. 
 
 The methods of calculation can be best illustrated by one or two exam- 
 ples. What should be the number and size of flues and registers for 
 fresh-air supply for a hospital ward to contain 24 beds, the ward being a 
 rectangular pavilion with windows on opposite sides ? In this case the 
 room is constantly occupied, and the supply of air should be 1 cubic foot 
 per head per second, or, in all, 24 cubic feet per second. The velocity 
 of current at the registers should not exceed 3 feet per second better 
 only 2. This will require from 8 to 12 square feet of clear opening in 
 the registers. If we allow four on each side of the room, each register 
 must have at least 1 square foot of clear opening. The velocity of the 
 air in the flues supplying these registers should not exceed 4 feet per 
 second, and therefore the area of each flue should be about 9 by 12
 
 ISO HYGIENE. 
 
 inches. Suppose the same question be asked with regard to a school-- 
 room to contain 48 pupils. In this case the room will not be occupied 
 more than two hours at a time. The air-supply desirable may be put 
 down at 35 cubic feet per head per minute, or 28 cubic feet per second 
 for the whole. The velocity in the flues may be put, as before, at 4 feet 
 per second ; hence we need 7 square feet area of flue, or seven flues, each 
 having 1 square foot of area. It is safe to say that there are not twenty 
 school-houses in the United States which have fresh-air flues of sufficient 
 area ; the deficiency is made up, for the most part, by leakage of the 
 outer air through cracks around windows and directly through the wall, 
 and also by the passage of air from the central hall into the room, this 
 last air coming from the cellar or basement. 
 
 The velocity of the air at the foul-air registers and in the foul-air ducts 
 may be greater than in the fresh-air flues, since there is no danger of its 
 causing draughts, and hence there is no truth in the common notion that 
 the outlets should be larger than the inlets to allow for the expansion of 
 heated air. It is important that the velocity of the current in the outlet 
 shaft or chimney should be at least 8 feet per second at the point where 
 it escapes into the outer air; and if the outlets be too large for the inlets, 
 the result may be that some of the foul-air flues will work backward and 
 become inlets. The plan of making everything a little larger than is 
 necessary is not a safe one as regards chimney-flues and outlet shafts. 
 
 The merits of a plan of ventilation depend not only on the amount of 
 air introduced, but on its distribution. The test for distribution is chem- 
 ical analysis of samples taken in different parts of the room and at differ- 
 ent levels. A very good idea of the direction taken by the incoming air 
 can also be obtained by the use of fumes of nascent muriate of ammonia, 
 as above described. In considering the distribution which will probably 
 take place in a given plan, care should be taken not to fall into the com- 
 mon error of supposing that because pure carbonic acid gas is heavier than 
 air, therefore the carbonic acid derived from respiration sinks to the floor, 
 and that special provision should be made to remove it at that point. 
 The law of the diffusion of gases effectually prevents this separation and 
 sinking of the carbonic acid from the mixture of gases expired, and it will 
 be found to be present in about equal proportions in all parts of an inhab- 
 ited room. 
 
 The methods of introducing and distributing fresh air depend to a great 
 extent upon the methods of heating employed ; and it is necessary to 
 remember that while good ventilation is a very desirable thing, satisfac- 
 tory heating is, in cold weather, still more desirable, and must be attained 
 even if the ventilation is interfered with for that purpose. The principal 
 difficulty in the way of securing good ventilation is its cost. In a cold 
 climate satisfactory heating, good ventilation, and cheapness are not com- 
 patible ; it is comparatively easy to obtain any two of them, but impossi- 
 ble to have the three together. This fact should be fully understood and 
 realized by the physician, for its comprehension will save much time in 
 considering the merits of various patent ventilators and ventilating appli- 
 ances, which, according to their inventors, produce good ventilation at no 
 expense beyond that of the original cost of the apparatus ; which is prac- 
 tically about the same as a claim to have discovered perpetual motion. 
 Patent ventilators are usually cowls to be placed upon the top of outlet
 
 CAUSES OF DISEASE, ETC. 181 
 
 flues. I know of none which are superior to the common Emerson Venti - 
 lator, on which there is now no patent. In cold weather the air must be 
 warmed to secure comfort ; it must be changed to secure ventilation. The 
 changing of the air carries off heat, the loss of which must be supplied by 
 fuel, which fuel costs money. The greater the ventilation, the more rapid 
 the change and the more heat required. It is therefore quite possible to 
 judge somewhat of the merits of a heating and ventilating apparatus 
 for example, of a school-house from the amount of fuel consumed ; but 
 the conclusion will be precisely the reverse of that drawn by the average 
 trustee, since it will be, that within certain limits the less fuel required 
 the less satisfactory the apparatus. 
 
 The evil effects of insufficient ventilation, although very certain and 
 very serious, are not immediate, or such as to attract attention at first, ex- 
 cept in very aggravated cases with excessive over-crowding. The power 
 of the organism to adjust itself to surrounding circumstances is very great, 
 and perhaps as great in regard to the endurance of foul air as anything 
 else. Yet this power is greater in seeming than in reality, for at last such 
 air produces disease and shortens life. Its effects are manifested in dis- 
 eases of the respiratory organs, acute and chronic, and it is now generally 
 admitted that the undue prevalence of phthisis in troops is due to the foul 
 air of the barrack-rooms. 
 
 Some persons are much more susceptible than others to the effects of 
 impure air, and will suffer from headache, languor, loss of appetite, etc. 
 where others would experience little inconvenience. Children thus sus- 
 ceptible dread the school-room as ordinarily constructed and ventilated, 
 and their discomfort should be taken into account and guarded against. 
 
 Thus far, reference has been made only to those impurities of air due to 
 respiration and lights; in other words, the necessary impurities found in 
 human habitations. The impurities due to sewer gases will be referred to 
 hereafter; they should be prevented absolutely, and not provided for by 
 ventilation. One of the most difficult problems presented to the phy- 
 sician is to determine whether the effluvia from a given locality are in- 
 jurious to health, and if so, to what extent. These effluvia may be due to 
 certain occupations or manufactures, or they may result from the disposal 
 of excreta, from obstructed drainage giving rise to swamps and the collec- 
 tion of decaying organic matter, and in other ways. The best definition 
 of the term "injurious to health" in this connection is perhaps that sug- 
 gested by Dr. Ballard i. e. that exposure to the offensive effluvia causes 
 bodily discomfort or other functional disturbance, continuing or recurring 
 as the exposure continues or recurs, and tending by continuance or repe- 
 tition to create an appreciable impairment of general health and strength, 
 to render those exposed more liable than others to attacks of disease, and 
 more apt to suffer severely when attacked, and, in the more serious forms, 
 to the direct production of the disease and the shortening of life. 
 
 The group of symptoms due to offensive effluvia is, as Dr. Ballard 
 remarks, a tolerably constant one, and consists of loss of appetite, nausea, 
 headache, giddiness, faintness, and a general sense of depression, with, in 
 some cases, vomiting and diarrhoea. But it is usually impossible to prove 
 by statistics that these phenomena are due to a given effluvium complained 
 of, for those who suffer from it are usually exposed to other causes of ill- 
 health, such as poverty, overcrowding, collection of filth, etc. ; and, on the
 
 182 HYGIENE. 
 
 other hand, many of those exposed to the effluvium seem to suffer very 
 little, if at all, from their surroundings. And so true is this, that in the 
 carefully prepared report upon effluvium nuisances recently issued by Dr. 
 Ballard, 1 it will be found that as a rule no attempt is made to prove that 
 the effluvia from any particular branch of industry are injurious to health ; 
 the test practically applied is that they produce offensive odors. 
 
 The legal view of this subject is given in the various decisions as to 
 what should be considered a nuisance, the essence of which is the use of 
 one's own property in such a way as to inflict damage upon, and injure 
 the rights of, another. If a man collects on his own premises, for his own 
 use, any material, such as water or filth, he is bound to retain it within 
 his own premises or to let none of it escape in such a way as to damage 
 others; and this holds good as regards gases, vapors, and odors. The 
 decision of Mansfield, in the case of Rex vs. White, is often quoted 
 approvingly by jurists, viz.: "It is not necessary that the smell be 
 unwholesome; it is enough if it renders the enjoyment of life uncom- 
 fortable." But, practically, the question as to whether the discomfort pro- 
 duced is sufficient to produce ill-health will be the one upon which the 
 physician is called to give evidence, and the one also upon which he will 
 find it most difficult to obtain data sufficient to enable him to form a posi- 
 tive opinion. 
 
 III. IMPURE WATER. Of all the various preventable or removable 
 causes of disease to which the attention of the physician engaged in prac- 
 tice in the small towns and rural districts is directed, it will usually be 
 found that the water-supply is the most important, because it is in these 
 localities that it is most liable to become contaminated in such a way as 
 to produce sickness. 
 
 All water used for drinking purposes is impure in the chemical sense, 
 since it contains some inorganic matters or salts, and in most cases organic 
 matter also. It is difficult to define precisely what should be considered 
 an impure water in a sanitary sense, and the best we can do is to indicate 
 probabilities in the absence of positive evidence of the production of dis- 
 ease by the suspected water. So far as inorganic impurities are concerned, 
 the most important, from the sanitary point of view, are the salts of lead, 
 magnesia, and lime, but in this country these are so rarely the cause of 
 disease that they hardly require special notice. The physician should, 
 however, bear in mind possibilities of lead-poisoning in some obscure 
 cases which he will meet. 
 
 The diseases due to impure water are certain specific fevers, diarrhoeal 
 diseases, and some affections due to parasites which find entrance to the 
 body through this medium. The water-supply is to be suspected in case 
 of prevalence of diarrhoeal disease in a community, and especially if the 
 outbreak be sudden and affect a number of persons and families. Sudden 
 outbreaks of cholera, typhoid fever, or malarial fever, confined to a limited 
 locality, should lead to careful examination of the water-supply. The im- 
 purity in water which causes these diseases is supposed to be either organic 
 or the product of organic life, and at present the prevailing opinion is that 
 the really dangerous impurities consist of minute living organisms or 
 
 1 Report in respect of the Inquiry rts to Effluvium Nuisances arising in connection with various 
 Manufacturing and other branches of Industry. By Dr. Ballard, London. Her Majesty's 
 Stationery Office, 1882, 8vo.
 
 CAUSES OF DISEASE, ETC. 183 
 
 germs. It is usual to estimate the impurity of water by the amount of 
 organic matter present, but it is evident that this alone can give no pos- 
 itive information, since by this standard milk and soup would be very 
 dangerous. Much depends upon the character of the organic matter, 
 whether it is derived from the animal or vegetable kingdom whether it 
 is in a state of fermentation or putrefaction, etc. etc. ; but the presence of 
 specific germs in it is the most important part of all, and at the same time 
 the most difficult to ascertain. Nitrogenous organic matter in a state of 
 decomposition is dangerous, yet it does not always produce disease, even 
 when ingested in comparatively large quantity, as in case of "high" game 
 or tainted meat; and it is easy to find instances where water strongly pol- 
 luted with sewage has been used for a considerable period without pro- 
 ducing marked ill effects. It is, however, so extremely probable as to be 
 for practical purposes certain, that water contaminated with the discharges 
 from persons suffering from certain diseases will produce similar diseases 
 in those who drink it, and there is also enough evidence that water 
 containing filth of various kinds either produces or promotes disease to 
 warrant much more attention to this subject than has heretofore been 
 bestowed upon it. 
 
 The chemical examination of a suspected water is by no means a simple 
 process, and in most cases had better be referred to an expert in such mat- 
 ters. It is highly desirable, however, that the physician should have 
 sufficient technical knowledge to . be able to make a rough analysis at 
 least, if for no other reason than that he may be able to appreciate the 
 results reported by the chemist. As a rule, when a water is so polluted 
 with decomposing organic matter as to be positively dangerous it will 
 have an unpleasant odor, which is best developed by half filling a quart 
 bottle with the water to be examined and shaking it thoroughly. The 
 so-called simple and ready methods which are from time to time advo- 
 cated in the newspapers, such as the addition of sugar to the suspected 
 water and allowing fermentation to take place, the use of tannin as a 
 precipitant, or the decolorization of a solution of potassium permanganate, 
 are really of very little value and should not be relied upon. In the 
 hands of an expert the best simple method of determining the quality 
 of a water is by evaporation of a known quantity and the ignition of the 
 solid residue. From the amount of the total residue, the quantity left 
 after ignition, the amount of blackening produced, and the odor, a very 
 fair opinion can be formed as to the amount of organic matter present, 
 and whether it is of animal or vegetable origin. 
 
 It is not within the province of this paper to describe the methods 
 used by chemists in water analysis, of which the principal are known as 
 the Franklin and Armstrong, the Wanklyn, and the permanganate meth- 
 ods. A careful examination of these methods has recently been made 
 under the direction of the National Board of Health, and a preliminary 
 note of the results, prepared by Professor Mallet, has been published in 
 the Bulletin. From this it appears that the chief value of chemical anal- 
 ysis is, first, the verification of gross pollution, which will usually be de- 
 tected by the appearance and smell of the water; and, second, in periodical 
 examination of a water-supply to detect changes from the normal or usual 
 character of the water, which may be taken to have a certain local standard 
 of purity. Special importance is attached to the careful determination of
 
 184 HYGIENE. 
 
 nitrates and nitrites in water to be used for drinking, these being the 
 results of oxidation of organic matters, and therefore giving evidence of 
 previous contamination. 
 
 Prof. Mallet concludes that " there are no sound grounds on which to 
 establish such general standards of purity as have been proposed, looking 
 to exact amounts of organic carbon or nitrogen, albuminoid ammonia, 
 oxygen of permanganate consumed, etc., as permissible or not. Distinc- 
 tions drawn by the application of such standards are arbitrary and may 
 be misleading." While this is perfectly true, considered from the stand- 
 point of scientific precision, it does not sufficiently take into account the 
 value of probabilities in these matters, considered as motives to action. 
 It is perfectly true that there can be no fixed standard that a water 
 which the chemist w r ould report as relatively pure might be much more 
 apt to produce disease than one which he would pronounce impure but 
 it is nevertheless true that from the results of chemical analysis, taken in 
 connection with evidence as to the source and history of the water, an 
 opinion can be formed as to the danger from its use which is sufficiently 
 reliable to be acted upon in the absence of positive evidence, such as the 
 production of disease. 
 
 In many cases the matter must be doubtful, and Prof. Mallet truly 
 says that it will not do in all such cases to forbid the use of the water, for it 
 often happens that this should not be done unless it is absolutely necessary ; 
 but there are many other cases in which there is very little doubt, and 
 where action should be governed by the probabilities. 
 
 The microscopical examination of suspected waters sometimes gives 
 decided indication as to the nature of the impurities ; and it may be that 
 hereafter, in connection with physiological tests, it will become of even 
 more importance than the chemical. To determine the presence of organ- 
 isms in a sample of water the best method known at present is to kill and 
 coagulate them by means of osmic acid or chloride of platinum, and allow 
 them to subside. This method is of course inapplicable if it be desired to 
 use them for either culture- or inoculation-tests. 
 
 Chemists have no uniform system of reporting the results of their anal- 
 yses, some using grains per gallon, U. S. or Imperial as may be, and others 
 parts per hundred thousand or per million of the water. It is therefore 
 difficult to appreciate the value of the figures as given by them. The fol- 
 lowing, in parts per 100,000, will enable the practitioner to form a general 
 estimate of the character of analytical reports ; but the opinion in indi- 
 vidual cases is so modified by the coincident amounts of chlorine, ammonia, 
 nitrous and nitric acids, that the experienced sanitarian only is qualified 
 to put on the results an estimate which shall be in accordance with our 
 present knowledge of such matter : 
 
 Upland Surf ace -Waters. 
 
 Allowable. Doubtful. Impure. 
 
 Total organic elements to .4 .4 to .6 Over .6 
 
 Oxygen required to .3 .3 to .4 " .4 
 
 Albuminoid ammonia to .015 .015 to .025 " .025 
 
 All Other Waters. 
 
 Total organic elements to .2 .2 to .4 Over .4 
 
 Oxygen required to .15 .15 to .2 " .2 
 
 Albuminoid ammonia to .010 .010 to .015 " .015
 
 CAUSES OF DISEASE, ETC. 185 
 
 In connection with impure water should be mentioned impure ice. Ice 
 is purer than the water from which it forms, but if cut on a foul pond it 
 will itself be foul, and the vitality of some microscopic organisms is not 
 destroyed by their being frozen, as is shown by the fact that samples from 
 the centre of blocks of ice will inoculate sterilized infusions with the 
 germs of putrefaction, precisely as the water of which the ice is composed 
 would have done before it was frozen. Disease has been traced to impure 
 ice, and it may be that it is more frequently due to this cause than has 
 heretofore been supposed ; at all events, it is well to bear the possibility 
 in mind. 
 
 The subject of impure water will be further considered in speaking of 
 habitations. 
 
 IV. CLIMATE. The literature of the effects of different climates upon 
 the human body is very extensive, following the general rule that the less 
 positive or precise knowledge there is upon a given subject the more will 
 be written about it. Of all animals, man seems to adapt himself most 
 readily to the extremes of climate; and, although it is commonly supposed 
 that a tropical climate is injurious to those coming from cooler regions, 
 yet it has been found that where he takes the same precautions to ensure 
 cleanliness, pure water and air, and proper food, the European does 
 not have a higher rate of mortality in Algeria or in the East or West 
 Indies than he does at home, if the effects of cholera and yellow fever 
 be excepted. 
 
 Dr. Parkes defines the effect of climate upon the human body to be 
 " the sum of the influences which are connected with the solar agencies, 
 the soil, the air, or the water of a place ;" in other words, he makes it 
 nearly equivalent to the locality or the environment. By " climate " we 
 understand, commonly, the sum of meteorological influences, the most 
 important of which, as regards health, are temperature, humidity, and 
 wind. The effects of temperature in producing disease are often con- 
 founded with the effects of change of temperature, which last is perhaps 
 the more important of the two, and should be specially borne in mind in 
 advising climato-therapy for chronic or wasting diseases. 
 
 The influence of climate in causing disease, although well known for 
 over two thousand years, has not led to much effort to avoid or prevent 
 effects which are accepted as inevitable by the great majority. It is true 
 that in the effort to secure physical comfort by houses, clothing, artificial 
 heat, and the like, much hygienic work has been done, and the steadily 
 increasing tendency on the part of all who can afford it to seek rest and 
 comfort at the seaside or in the mountains during hot weather is no doubt 
 due, in part, to the fact that experience has shown that the money expended 
 in thus securing health and strength is a good investment. It is unfortu- 
 nate that " health resorts," so called, do not always prove to be such : they 
 become fashionable, overcrowded ; the arrangements for the disposal of 
 excreta are cheap makeshifts, leading to soil- and water-pollution, until 
 finally an epidemic of diarrhoea or typhoid fever occurs, with the usual 
 results. 
 
 The consideration of climate as a therapeutic agent belongs with the 
 articles relating to the several diseases to which it is applicable. The great 
 desideratum wherewith to place this subject upon a scientific and practical 
 basis is a system of reliable returns of the deaths, and if possible of cer-
 
 186 HYGIENE. 
 
 tain diseases, throughout the country, and especially at those points most 
 in vogue as health resorts. 
 
 V. HABITATIONS. That a man's health depends very much on the cha- 
 racter, condition, and location of his dwelling-place is now so generally admit- 
 ted that in many cases where a physician is called in he will be asked whether 
 he thinks the disease has been caused by any peculiarity about the house or 
 the bedroom of the patient. And a careful examination will usually dis- 
 cover in one of them several evils to be remedied, although their con- 
 nection with the case in hand may be very doubtful. There are very 
 few homes properly constructed from a sanitary point of view; and, 
 although we may not agree with Dr. Wilson, that " the modern prison is 
 in all sanitary essentials the best existing type of what a healthy dwelling 
 ought to be/' it is nevertheless certain that the health of the inmates is 
 much more carefully consulted in planning a penitentiary than it usually is 
 in planning a college, a hotel, or a dwelling-house. Matters are gradually 
 improving in this respect : the worst of the tenement- house rookeries and 
 fever-nests in most of our large cities have been improved or abolished, 
 and our wealthier citizens are beginning to pay some attention to their 
 house-drainage as well as to the pattern of their mantelpieces. But the 
 great majority of men are still careless and negligent as to the sanitary 
 condition of their homes, and probably two physicians out of three live 
 in houses in which numerous defects would be pointed out by a sanitary 
 engineer defects of which they are themselves more or less aware. The 
 majority of people in our large cities under existing conditions cannot 
 aiford to have healthy houses, and the great causes of the excessive mor- 
 tality, and brevity of life, in all such cities, are poverty and overcrowding, 
 the latter resulting from the former. The problem as to the best mode 
 of improving the sanitary condition of the tenement-house population 
 does not, however, come before the practising physician for special con- 
 sideration, and need not be considered here. Nor is the physician liable 
 to be consulted with regard to the sufficiency, from a sanitary point of 
 view, of the plan of a house yet to be built, although he will occasionally 
 be asked as to the healthfulness of a proposed site. The questions Avhich 
 he will be asked are such as the following : " Is the cause of this particular 
 case of disease in the house, or connected with it? and if so, what is it?" 
 "Do you think this is a healthy house?" "Is the location a healthy 
 one ?" " Is it necessary that I should give up this house to preserve the 
 lives and health of my children ?" While it is, of course, often impos- 
 sible to answer with precision such questions as these, an answer of some 
 kind must be given ; and this should not be a mere random guess, but 
 based on a deliberate estimate of the probabilities in the case. The 
 healthfulness of a house is to be judged of, in part, from its history, if it 
 be possible to obtain any ; in part, from such facts as can be discovered 
 by a careful examination of the premises and vicinity. The sanitary 
 history of a house is the history of the diseases and deaths which have 
 occurred in it, together with a set of plans showing the precise location 
 and character of the house-drainage and of its fresh-air supply. Such a 
 record is in most cases, unfortunately, not attainable, although to a per- 
 son proposing to buy or rent a house it would often be quite as important 
 as a record of title. In a well-organized health-office it should be pos- 
 sible to ascertain the number and causes of the deaths which have
 
 CAUSES OF DISEASE, ETC. 187 
 
 occurred in any given house or square in the city, and also the character 
 and location of its drainage and sewer connections. Such records are 
 especially valuable in an investigation of an outbreak of disease in a 
 community. 
 
 The sanitary inspection of a house includes the site and the building 
 itself. The character of the site is mainly determined by its dryness, by 
 the presence or absence of organic matter in the soil, and by its porosity 
 taken in connection with the character of the vicinity. One-third of the 
 volume of some soils consists of air, and all dry soils and rocks contain a 
 much larger quantity of air than is commonly supposed. The influence 
 of soil upon health is exerted mainly through the media of water and 
 air, but it also aifects temperature and vegetation, being an important 
 factor in climate. Residence on a damp soil has a tendency to produce 
 diseases of the lungs, and especially phthisis ; but how it does this is 
 unknown, though it would be easy to construct a plausible theory in 
 connection with the supposed causation of phthisis by a bacillus. The 
 practical point for the physician is, that the prevalence of phthisis in a 
 locality, even if it be so limited as to comprise but a single house, should 
 cause suspicion and investigation as to the character of the soil-drainage. 
 Soil-moisture is also an important factor in the development of periodical 
 fevers, and the effect of thorough drainage in diminishing malaria is now 
 generally understood. 
 
 It sometimes becomes an important question as to the influence which a 
 collection of water, such as a mill-pond or a reservoir, has upon the health 
 of a community, and the physician may be called on for an opinion in 
 such cases where large property interests are involved. The essential 
 points to be borne in mind are first, that stagnant water and damp soil 
 do not in themselves produce malaria ; there is something else necessary, 
 which is commonly designated by the word " germ." Second, that they 
 are in most cases essential conditions for the production of the disease, so 
 that if removed the disease will disappear. Third, that the development 
 of malaria may follow either the rise or fall of the ground water. Fourth, 
 that the condition of the border of the collection of water as to presence 
 of organic matter and moisture is of more importance than the pool itself. 
 And, finally, that each case is a problem by itself, to be determined by 
 the history of the sickness of the vicinity, and that only probabilities can 
 be stated in any case, although these probabilities may be so great as to 
 amount, practically, to certainty. Of the four factors which appear to be 
 essential to the production of the malarial poison viz. moisture, high 
 temperature, organic matter of vegetable origin, and certain micro-organ- 
 isms the first is the one which in any given locality is most under human 
 control ; it is the link in the chain of causation which is most easily 
 broken. 
 
 The influence of the rise and fall of the soil water in typhoid fever, 
 upon which so much stress is laid by Pettenkofer and others, no doubt 
 exists, acting in some cases through pollution of the drinking water 
 by the subsoil water leaking through a polluted soil ; in other cases, 
 perhaps, by air from the soil bearing the unknown germ. The filter- 
 ing power of soil as regards air is, however, very great, a few inches 
 of sand being sufficient to remove the ordinary germs of putrefaction 
 from air drawn through it, and this for a long period ; while, on the
 
 188 HYGIENE. 
 
 contrary, many feet of the same sand will not remove the germs from 
 water passed through it. Usually, as Dr. Parkes remarks, in an exam- 
 ination of soil the immediate local conditions are of more importance 
 than the general geological formation, yet this last, as influencing con- 
 formation and the movement of water and air over and through a coun- 
 try, is also important. The practical questions on this point are, what 
 higher ground than the site in question exists in the vicinity? what 
 are the character and direction of the strata between such elevation and 
 the site? and, what sources of soil-pollution exist on the higher level? 
 As to the site itself, is it on made ground ? what is the height of the 
 foundation above the subsoil water ? and, what precautions have been 
 taken to secure drainage and to cut off communication between the inte- 
 rior of the house and the ground air? Probably a trial excavation or 
 boring may be necessary to determine some of these points. 
 
 The level of the subsoil water should be at least five feet below the 
 foundations, although it is often impossible to obtain this. At all times 
 when the temperature of the house is higher than that of the external 
 air i. e. during a large part of the year and nearly every night there 
 is a strong and constant aspirating force at work to draw into the house, 
 through the cellar floor and walls, all gases and vapors contained in the 
 adjoining soil. If this soil contains a large proportion of organic matter, 
 as is often the case in filled-in ground in cities, or if there be a leaky 
 cesspool or sewer or gas-pipe under or near the house, the ground air 
 passing into the house may be of such a character as to be positively 
 dangerous to its occupants. For this reason it is very undesirable to 
 have a sewer or soil-pipe crossing beneath the site of a house, and when 
 such location is a necessity, as it often is in cities, the soil-pipe should be 
 laid in a cement-lined trench covered with a movable flap, so that it can 
 always be easily inspected and any leaks detected and remedied. Damp- 
 ness in the cellar or basement of a house is always a sign of danger. The 
 exhalation of gases and vapors from the ground into the house can be to 
 a great extent cut off by a layer of impervious material, such as concrete 
 covered with asphalt, but this layer must cover the sides of the cellar as 
 well as the floor to be thoroughly efficient. If a house have no cellar, 
 the space between the floor and the ground should be thoroughly venti- 
 lated ; and for this purpose, as well as to secure cleanliness, the floor 
 should be sufficiently elevated to permit of easy access beneath it. 
 
 Next to its dryness, the nature and condition of the arrangements for 
 removing excreta and soiled water from a house are of the greatest 
 importance in determining its healthfulncss ; and in cities it is with 
 regard to the sufficiency of these, including the whole system of house- 
 plumbing and pipe-fitting, that the inquiries of one wishing to determine 
 as to the presence or absence of causes of disease will most frequently be 
 directed. The soil-pipes, etc. of a house are commonly referred to as 
 constituting the system of house-drainage, but it is desirable to use 
 another term, for we need the word "drainage" to describe the removal 
 of surface and subsoil water, and it should be distinguished from " sew- 
 erage," which has a different purpose and requirements. 
 
 In a properly-arranged system of house sewerage all the pipe?, traps, 
 etc. are easily accessible for purposes of inspection, and an examination 
 of them is a comparatively simple matter. This examination is to be
 
 CAUSES OF DISEASE, ETC. 189 
 
 made with reference to the following points : 1. Are all the pipes, joints, 
 and connections air-tight ? 2. Is the soil-pipe well ventilated, or has it 
 dead ends ? 3. Is the communication between the soil-pipe and the 
 street sewer uninterrupted ? 4. Are the pipes properly trapped, and is 
 there liability to the removal of water from any of the traps, either by 
 siphonage or evaporation, to such an extent as to break the seal ? 5. Is 
 the water-supply of each closet entirely cut oif from the main supply to 
 the house by means of a tank or cistern? 
 
 In houses as heretofore constructed it is often very difficult to obtain 
 satisfactory information upon these points, because a large part of the 
 soil-pipe and its connections is buried beneath the house or concealed in 
 the walls or floors ; in which case the services of a skilled mechanic will 
 usually be necessary to obtain access to the various parts of the system. 
 In a paper of this kind it is of course impossible to go into details as to 
 methods of inspection, or as to what is and what is not satisfactory ; but 
 the following are the general principles upon which a judgment as to the 
 merits of a system should be formed, and these should be so clearly under- 
 stood by every physician that he can be neither persuaded nor frightened 
 into thinking them incorrect by the eloquence of the man with a patent 
 remedy to dispose of. The principal dangers to health from house sewer- 
 age are due, first, to the passage of air from the general system of sewers 
 or from a cesspool into the house through the soil-pipe and its connections ; 
 second, to the generation of offensive and dangerous gases and organisms 
 in the soil-pipe itself, and the passage of these into the house ; third, to 
 leakage of soil-pipe causing contamination of the water-supply either by 
 improper connections of water-pipes with water-closets or slop-hoppers, or 
 by contamination of wells, cisterns, or tanks with sewage or sewer gases. 
 
 There is, of course, no such thing as a sewer gas having a definite and 
 distinctive composition, and the nature of the mixture of gases in sewers 
 is constantly varying according to season, temperature, etc. The tendency 
 which sewer air has to cause disease depends in part upon certain gases, in 
 part on minute particles of solid or semi-solid matter which are suspended 
 in the air. In rare instances the sewers also contain illuminating gas, 
 derived from leakage of gas-pipes in the vicinity. These gases produce 
 debility, headache, loss of appetite, etc. As found in sewers and soil- 
 pipes, they are so diluted that they are not absorbed by the water of a 
 trap and given off on the other side to a sufficient extent to produce an 
 evil effect. The air in a soil-pipe which is not ventilated is much more 
 impure than that of the ordinary sewer, since the process of decomposi- 
 tion is constantly going on in the slimy coat which lines the interior of 
 the pipes ; and it is for this reason that it is so important to secure thorough 
 ventilation of all the soil-pipes in a building. When this ventilation is 
 secured, the proportion of dangerous gas in the pipes becomes very small, 
 and the amount absorbed by the water in traps is almost inappreciable. 
 The chief danger to life from sewer and soil-pipe air arises from the pres- 
 ence of minute particles of organic matter, dead and living, the so-called 
 germs. Danger to life from these germs cannot be entirely removed by 
 dilution, as can be done with gases. It has been found by the experi- 
 ments of Dr. Carmichael and Dr. Wernick that an ordinary water-trap 
 entirely prevents the passage of these germs, and that organic putrascible 
 fluid will remain unchanged when exposed only to the air immediately
 
 190 HYGIENE. 
 
 above such a trap. A pin-hole or minute sand-crack in the soil-pipe, or 
 a very slight defect in a joint, is far more dangerous than a trap. 
 
 The forms of disease produced by sewer air and its contents are more 
 especially diphtheria, typhoid fever, and ill-defined disorders of the throat 
 and digestive organs. It is possible that the germs of other specific dis- 
 eases, such as scarlet fever, may be at times transmitted through sewer air, 
 but such transmission must be very rare. While it is true that the germs 
 of the specific diseases are very rarely present in sewer air, the house 
 system of sewerage must be arranged as if they were ahvays present, in 
 order to obtain security. It must also be remembered that a system 
 originally well planned and properly constructed will not always remain 
 so ; the pipes will corrode, the joints will become loosened, the valves will 
 become clogged, and whenever alterations or repairs are made there is 
 always danger of injury. Bearing these points in mind, the method of 
 investigating a system can be readily understood. 
 
 The first step is to ascertain whether there is a trap outside the house 
 disconnecting the sewer from the house system and permitting inspection. 
 If there is not, the first thing to be done is to make an excavation and 
 open the drain at the proper point for placing such a trap. The next step 
 is to set the water flowing in the various closets and watch the flow at the 
 external trap, or opening, which has been made to ascertain whether there 
 is any obstruction in the pipe within the house. If the sewer is properly 
 arranged for inspection, as has been above suggested, to determine whether 
 there is any leakage from the sewer under the house will be an easy 
 matter ; if, however, it is buried beneath the cellar floor, as is usually the 
 case, an excavation should be made along the floor in the line of the pipe, 
 with a view to having it properly arranged, as well as for the purpose of 
 examining the soil. It may also be tested by opening the upright soil- 
 pipes at the farther end of the house-drain at the height of three or four 
 feet above the floor and pouring water into it, having temporarily stopped 
 up the drain at the external trap or opening. If the water remain at a con- 
 stant level in the upright piece, the sewer is water-tight; if not, the leak- 
 age may be ascertained by the rate at which it sinks. Having settled 
 this, the next point is to determine whether all the soil-pipes are air-tight 
 and properly trapped. The test usually applied for this purpose is the 
 pouring of a small quantity of strong oil of peppermint, followed by a 
 dash of hot water, into the top of the soil-pipe, which should always pass 
 through the roof and be freely opened to the outer air. If the odor of 
 the oil is perceptible in the house, it indicates a leak, which must be 
 further sought for. Ether may be used for the same purpose. The smoke 
 test is, however, the best, but it requires a special apparatus which as yet 
 is little used in this country. It is applied by a small machine with a fan, 
 by which the smoke from burning cotton-waste saturated with oil, or of 
 coarse brown paper impregnated with sulphur, can be blown into the 
 pipes ; this locates leaks with great precision. 
 
 It is not, of course, expected that a physician will personally make 
 the examination necessary to determine whether the plumbing of a house 
 is in good order, but he should be able to make it, if necessary, if for no 
 other purpose than to know whether the inspector employed for the pur- 
 pose understands his business. 
 
 The dangers to health from a properly-constructed system of house
 
 CAUSES OF DISEASE, ETC. 191 
 
 sewerage, such as is now generally agreed upon by sanitary engineers, are 
 so very small as to practically amount to nothing, being, in fact, less than 
 those of a well-kept yard privy of a country house, setting aside alto- 
 gether the question of water pollution. The real difficulties in the way 
 are the expense of such a system, which is considerable, and the finding 
 of skilled and honest workmen to construct it and keep it in repair. Not 
 every one who chooses to style himself a sanitary engineer or a sanitary 
 plumber is to be regarded as such, by any means, but the physician 
 should make it his business to know who are really reliable in this 
 respect, for he will constantly be called in for advice on this point by 
 those who have learned that good plumbing is the only true economy, 
 but who do not feel themselves competent to distinguish between good 
 and bad work. The main points of a satisfactory system are the fol- 
 lowing. 1 
 
 1. All soil- and waste-pipes should be extended up to and through the 
 roof, and be freely open at the top. The extension of the soil-pipe should 
 be full size i. e. from four to six inches in diameter. 
 
 2. There should be a fresh-air inlet in the house sewer just outside the 
 house, and between this inlet and the main sewer should be a trap so 
 arranged as to permit of inspection. This prevents the ventilation of 
 sewers through the soil-pipes. If a perfect system of sewers, uniformity 
 of house-connections, and uniform height of houses could be guaranteed, 
 this inlet and trap would not be so necessary, although even then it w r ould 
 be useful. 
 
 3. Every water-closet, wash-bowl, bath-tub, sink, etc. should have a 
 trap placed as close to it as possible. This trap is desirable, whether the 
 discharge be into the sewer system or not. For example, a kitchen sink, 
 the pipe from which passes to the outer air and discharges there, should 
 be trapped, for this pipe is foul, and if it be untrapped will act as an air- 
 inlet. 
 
 4. The nearer to the soil-pipe that the fixtures can be arranged the 
 better. It is especially desirable to avoid the necessity for long horizontal 
 waste-pipes from stationary waste-bowls and from bath-tubs. 
 
 5. Bell traps, D traps, bottle traps, and mechanical traps are objection- 
 able. The S trap is, upon the whole, the best, but it should be provided 
 with a vent-pipe to prevent siphonage. 
 
 6. The best kind of water-closet for general use is probably some form 
 of what are known as the w r ash-out closets. They are made in one piece 
 of earthenware, have no machinery inside them, have a quantity of water 
 in the basin into which the excreta drop, and do not require a separate 
 trap beneath them. Each closet must, however, be carefully tested by 
 itself: a very small warp or twist produced in the baking may so inter- 
 fere with the siphonage as to make it practically worthless, and the basin 
 cannot be altered or repaired. For use in public places some of the 
 hopper closets are very satisfactory, the best which I have examined being 
 the Rhoads Hopper and the Hellyer Hoppers. Where there are no chil- 
 
 1 For further details consult the following: American Sanitary Engineering, by E. S. 
 Philbrick, N. Y., 1881 ; House- Drainage and Water-Service, by James C. Baylee, N. Y., 
 1878 ; " House-Drainage and Sanitary Plumbing," by W. P. Gerhard, in Fourth Annual 
 Jleport State Board of Health Rhode Island, 1882 ; The Sanitary Engineer, a weekly jour- 
 nal published at 140 William St., New York City.
 
 192 HYGIENE. 
 
 dren, and it is certain that the fixtures will be used with reasonable care, 
 valve closets may be used. No form of pan closet can be considered as 
 satisfactory, nor have I found any form of plunger closet that I would 
 specially recommend. 
 
 7. Water-closets should always be flushed from a special tank provided 
 for the purpose, and never direct from the main system of water-pipes. 
 The flush must be large and rapid, and this requires a large supply-pipe, 
 and for many forms of closets a flushing rim. Whatever be the form 
 of closet, it should not be encased in a wooden box or closet, as is usually 
 done, but it should stand freely exposed to light and air. Sanitarians 
 commonly advise that water-closets should be located in outer walls and 
 have an open window for ventilation. Such a position is usually impos- 
 sible, and is not specially desirable in our climate. The open window 
 acts as an inlet quite as often as it does as an outlet, and the air of the 
 closet is thus swept into the house. The room should be ventilated in 
 such a way that the tendency of the air at the door shall always be from 
 the house into it. This is to be effected by a shaft passing through the 
 room up and through the roof; and it is well to have this shaft take its 
 air-supply from just behind the closet or from beneath the seat. It is besl 
 made of galvanized iron, and at a convenient point should be expanded 
 into a lantern and have a gas-jet placed in it. The air-supply for the 
 closet is to be taken at the bottom of the door or through a transom 
 or louvres. Ventilating pipes from a water-closet should never be run 
 into a brick flue. While it is not so important as many writers seem to 
 think that a water-closet should be placed on an outer wall, it is very 
 important that it should be as light as possible, and the placing it in a 
 dark corner in the basement or under the stairs is very objectionable. 
 
 8. No overflow-pipe from any cistern or tank, except the one used for 
 flushing water-closets, should be connected with the soil-pipe or sewer. 
 Trapping such an overflow-pipe does not prevent the danger. The same 
 rule applies to waste-pipes from refrigerators and to the waste-pipes from 
 the safes which are commonly placed beneath fixtures. 
 
 9. Grease-traps placed inside a house for instance, beneath the kitchen 
 sink are of very doubtful expediency, and if they cannot be placed out- 
 side, they had better not be used at all. 
 
 In an unsewered city one of the first things to be considered in a sani- 
 tary inspection is the manner in which the sewage of the premises is dis- 
 posed of. The question is, however, by no means superfluous in many 
 sewered cities, for cesspools and vaults are to be found in most of them, 
 and not only in yards, but beneath houses, and houses of the better class. 
 A privy-vault or cesspool beneath a dwelling or near its cellar walls is 
 always to be considered as very dangerous, for it is practically impossible 
 to prevent the passage of gases from it into the interior of the house. A 
 cesspit is a dangerous thing anywhere, even in the country ; but in a city 
 it is so dangerous that its existence should not be permitted. 
 
 If the water-supply of a house is derived from a well, and there is 
 reason to suspect that this may have been contaminated from a neighbor- 
 ing privy-vault, the first test to be applied to the water is that for the 
 detection of chlorides. If none are present, the water is not polluted. 
 If they are present, the quantity is to be noted, and a peck or two of 
 common salt is then to be thrown into the suspected vault. If repeated
 
 CAUSES OF DISEASE, ETC. 193 
 
 examinations of the water show a marked increase in the amount of 
 chlorides present, it may be inferred that the contents of the privy pass 
 to the well. The fact that the water of infected wells and springs is 
 usually much liked and sought for is to a considerable extent due to the 
 presence of these chlorides. Wauklyn recommends the addition of 50 
 grains of common salt per gallon to drinking water to render it palatable. 
 Popularity of a certain well is therefore a reason for suspecting its purity. 
 
 This subject may be dismissed with one caution. Taking the dwell- 
 ing-houses of a city or town as they come, it will be found on exami- 
 nation that over half of them would be described by a competent inspector 
 as being in a condition which might produce disease. It is therefore more 
 than an even chance that in any case of disease some sanitary defect will 
 be found about the premises quite irrespective of any direct causal con- 
 nection with the case. Let the physician therefore be cautious in decid- 
 ing as to such causal connection, and not conclude that because a case of 
 diphtheria or typhoid fever and a leaky soil-pipe occur in the same house, 
 therefore one is the cause of the other. Such cases occur in houses whose 
 sewerage is perfect and in houses which have no sewerage, and it is folly 
 to attribute them exclusively or mainly to sewer gases. 
 
 The same caution applies to investigations into the causes of a sudden 
 outbreak of disease in a community where a number of cases occur almost 
 simultaneously or in rapid succession. Such an outbreak may be due to 
 direct contagion, although sometimes very difficult to trace ; as, for exam- 
 ple, an explosion of small-pox in a community largely unprotected by 
 vaccination, and where, owing to circumstances connected with the first 
 few cases, a large number of persons have been exposed to the cause about 
 the same time. The same applies to an apparently sudden development 
 of yellow fever throughout a city. 
 
 Another cause of such outbreaks is a polluted water-supply, as in some 
 epidemics of diarrhoeal disease or of typhoid fever. If the outbreaks of 
 these diseases are pretty sharply localized, and depend upon the fouling 
 of a well or wells, it will usually not be very difficult to trace this cause. 
 If, however, the town has water-supply by means of pipes from a single 
 source, while the outbreak of disease is limited to a part of the town or 
 to a single large building, it will probably be almost impossible to estab- 
 lish any connection between the disease and the drinking water. The 
 possibility of the contamination of a part only of a system of general 
 water-supply by means of the drawing of foul air into the temporarily 
 empty pipes connected directly with a water-closet flush should never be 
 forgotten, for such a case has actually occurred, and the account of its 
 discovery is one of the best pieces of sanitary detective work with which 
 I am acquainted. If the outbreak of typhoid fever cannot be traced 
 directly to the water-supply, the next point to be investigated is the 
 milk, and after that other possible modes of the conveyance of the con- 
 tagium. 
 
 In cases of obscure disease characterized by fever of no definite type, 
 disorder of the digestive organs, headache, malaise, etc., and which seem 
 to be connected with residence in a particular house or in one room in a 
 house, the possibilities of arsenical poisoning from wall-paper or hangings 
 should be remembered, for much useless medication and some real danger 
 will be avoided if this cause be promptly recognized. The effects pro- 
 
 VOL. I. 13
 
 194 HYGIENE. 
 
 duced by arsenical dust are very various, and simulate sometimes some 
 of the specific fevers, indigestions, or neuroses in a way that is very 
 puzzling if the true nature of the case is not suspected. The popular 
 notion is that arsenic is found only in greens (more especially in bright 
 greens in wall-papers), whereas in fact it is found not only in dull greens, 
 but in some browns, grays, and dull reds. The test for its presence in 
 quantity sufficient to be a cause of disease is an easy one, and is fully 
 given in any manual of chemistry or toxicology. 
 
 VI. OCCUPATION. While the effects of occupation upon health are 
 no doubt great, they are in many cases so blended with tho>, of condi- 
 tion in life, including habitation, food, and intemperance, that it is very 
 difficult to distinguish them. In attempting to investigate these effects by 
 means of statistics, it is necessary to beware of a fallacy which not uufre- 
 quently vitiates the conclusions drawn from otherwise carefully prepared 
 tables intended to show for different occupations either the relative mor- 
 tality or the average age at death. This fallacy lies in the fact that the 
 number of persons engaged in each business is unknown ; that, in this 
 country at least, men often change their occupations; and that certain 
 trades or professions are chiefly carried on by persons of certain ages. 
 This last is perhaps best illustrated by the remark of Dr. Farr, that the 
 fact that the average age at death of second lieutenants is much less than 
 that of major-generals proves nothing with regard to the comparative 
 healthfulness of the two grades. Statistics showing merely the number 
 of a particular class or grade dying in a given time are absolutely worth- 
 less, unless the number of the same class or trade living at the same time 
 is also given. 
 
 It is also necessary to bear in mind the power of habit and the effects 
 of natural selection, especially Avhen the effects of an unhealthy occupa- 
 tion are immediate and marked upon those unfitted for them. For exam- 
 ple, young men, when first employed as scavengers or in sewage-pumping 
 works, usually suffer from disorders of the digestive organs. A certain 
 number find it necessary for their health and comfort to soon leave the 
 business ; some acquire protection by passing through an attack of fever ; 
 and by this process of selection a class of men are obtained who seem to 
 thrive in the midst of filth and remain unaffected by effluvia which will 
 promptly cause illness in those unaccustomed to them. When men find 
 that, to use a common phrase, they " cannot stand " a particular kind of 
 work, they are apt to give it up and try something else, especially if the 
 effects are prompt and well marked. 
 
 Much attention has been given of late years in England, France, and 
 Germany to the means of protecting both the workmen and the neigh- 
 borhood from the ill effects of dangerous and offensive trades, and the 
 reports of the medical officer of the Privy Council and of the Local 
 Government Board are a mine of information on this subject. It may be 
 truthfully asserted that in those trades in which the special danger is 
 caused by dust of various kinds, or by gases, or by metallic poisons and 
 these three include the greater number of the dangerous occupations it is 
 almost always possible to so arrange the work as to make it compara- 
 tively healthful and harmless. Overcrowded and unventilated work- 
 rooms are responsible for much disease, and when to these is added the 
 risk of metallic poisoning, as is the case with, printers, artificial-flower
 
 CAUSES OF DISEASE, ETC. 195 
 
 makers, etc., bad results are almost sure to follow. It is curious that so 
 comparatively little ill effect seems to be produced by exposure to great 
 heat, as in stokers, foundry-men, glass-blowers, etc. ; but further informa- 
 tion is needed on this point as to the real facts in the case. In some 
 occupations the chief evils arise from want of out-door exercise, a subject 
 which will be considered presently. The want of useful or interesting 
 occupation sometimes becomes indirectly the .cause of disease among the 
 wealthier classes, and the giving a man or woman something to do is in 
 such cases the best prescription which can be made. This danger is 
 especially apt to occur in the case of an active, energetic man who retires 
 from business, intending to spend the rest of his life in pleasure and in 
 the enjoyment of the fruits of his industry : the preventive or remedy is 
 obvious. 
 
 VII. FOOD. The comfort, energy, usefulness, and moral character 
 of a man depend largely upon his digestion, and this in turn depends 
 largely on what it has to act upon viz. food. There are, it is true, 
 many men who boast that they can digest anything, and who are really 
 comparatively indifferent as to the kind, or mode of preparation, of the 
 food set before them, so that the quantity be sufficient; but were it not 
 that habit and heredity which is the family habit combine with natural 
 selection to adapt men to their food, it is probable that the frying-pan, the 
 pic, and soda-bread would depopulate large portions of this country. As 
 it is, there can be no doubt that fried food swimming in grease, leathery, 
 sodden pie-crust, and heavy bread tend to make life short and the reverse 
 of merry ; and when the effect of these is combined, as it often is, with 
 those of malaria, damp soil, and a free use of whiskey, the result is plenty 
 of work for the doctor and very little to pay him with. This state of 
 things is being gradually improved, but in all classes of society and in 
 almost all parts of the country the rule is, that while the raw materials of 
 food are abundant and of excellent quality, the cooking is bad. This is 
 due, in part, to an idea that it is to a certain extent discreditable to a 
 person that he should give much attention to his food, at least so far as 
 its appearance and taste are concerned, and that a man who can plan a 
 good dinner must be more or less of a sensualist and a glutton. 
 
 Another popular error is, that a large amount of disease is due to over- 
 eating, and that abstemiousness in diet is either certain to secure health, 
 or is, at all events, indispensable for this purpose. Upon this point the 
 reader should consult a capital paper by Dr. Austin Flint on "Food in 
 its relations to personal and public health," which will be found in vol. 
 iii. Reports American Public Health Association, N. Y., 1877. After re- 
 marking that many of the popular errors about food and diet are relics of 
 old and abandoned medical theories, one of which is embodied in the not 
 uncommon advice that one should always stop eating before the appetite 
 is fully satisfied, and that food should only be taken at regular fixed 
 periods, no matter how hungry one may be, he says : " Physiology, expe- 
 rience, and common sense are alike opposed to these popular notions 
 relating to food. Conditions for perfect health are, first, a sufficient 
 appetite ; second, the gratification of normal appetite before the want of 
 food reaches the abnormal degree expressed by hunger ; third, the satis- 
 faction of appetite by an adequate quantity of food. These conditions 
 of health are fulfilled by compliance with instructive provisions for all-
 
 196 HYGIENE. 
 
 mentation. But, it will be asked, is appetite infallible as a guide in diet- 
 etics ? Following it as a guide, is food never taken beyond the require- 
 ments of health? I answer, It is a reliable guide under normal 
 circumstances. The inevitable circumstances of life are often not alto- 
 gether normal, although producing no distinct morbid affection. Expe- 
 rience teaches, for example, that in a state of fatigue or exhaustion (which 
 is not a normal state) inconvenience may arise from the full gratification 
 of appetite ; that if unusual exertions, mental or physical, are to follow, 
 a hearty meal may occasion disturbance ; and other examples might be 
 added. Irrespective of abnormal or disturbing influences, if appetite be 
 not infallible, it is, at all events, more reliable than a rule based on theo- 
 retical ideas, popular notions, or on purely physiological data. More- 
 over, it was evidently not intended that the quantity of food should be 
 accurately adjusted to the needs of the economy. To do this is impossi- 
 ble, and therefore it is necessary to elect between the risk of taking either 
 more or less food than is actually required. Which is to be preferred ? 
 Undoubtedly, it is vastly better to incur the risk of taking too much 
 than that of taking too little. Nature provides for a redundancy, but 
 there is no provision against a persistent deficiency. Ex nihilo nihil fit. 
 An ample supply of alimentary principles is indispensable to nutrition ; 
 and inasmuch as the supply cannot be made to contain precisely the 
 needed amount of the different alimentary principles, we may say that a 
 superabundance of food is a requirement for health. 
 
 " As in appetite we have a guide in respect of the times of taking food 
 and the quantity to be taken, so taste is a guide in respect of the kinds 
 of food required. The discrimination of food with reference to the wants 
 of the system is the evident purpose of the sense of taste, and the enjoy- 
 ment connected with this sense was designed to afford a security, in addi- 
 tion to appetite, for adequate alimentation. 
 
 " Among professional men and those who live sedentary lives the mis- 
 take is not uncommon of paying too much attention to the sensations 
 after a meal, and deciding therefrom whether certain articles of food are 
 unhealthy or not. If the man who does this is not already dyspeptic, 
 he will pretty surely become so. The remedies in this case are exercise 
 and attracting the attention to something else." 
 
 A physician ought to understand something of cooking, and a short 
 course of practical instruction in what might be dignified as the culinary 
 laboratory would be of more real value to him than some of the branches 
 which are now considered indispensable in the medical curriculum. He 
 should know why oysters are the best thing with which to begin a 
 dinner, and why a cocktail is one of the worst ; how to make a salad, or 
 a cup of good coffee, or a perfect consomme 1 ; and a number of other 
 things pertaining to gastronomy of which most people are woefully 
 ignorant. 
 
 It is not within the scope of this paper to give details with regard to 
 the diet of either the sick or the well, but it seems proper to remark with 
 regard to the feeding of infants, more especially in our large cities in the 
 summer months, that all the various patent preparations for infants' food 
 are more or less pernicious, and should be discountenanced by all medical 
 men. The proper food of an infant is milk human milk if it can be 
 had, cow's milk if it cannot. If it be remembered that an infant suffers
 
 CAUSES OF DISEASE, ETC. 197 
 
 from thirst as well as hunger, and care be taken to give it enough pure 
 cool water to quench this thirst, it will be found that in most cases it will 
 thrive on pure cow's milk. 
 
 With regard to adulterations of food, the only form of such adulteration 
 found in this country, which has any special interest from the sanitary point 
 of view, pertains to milk. This adulteration is in most cases the dilution of 
 the milk by water, and this is very common in large cities. The danger 
 from the use of such milk is by no means confined to infants, and it is 
 probable that a larger proportion of the typhoid fever, diphtheria, scarlet 
 fever, cholera infantum, and diarrhoeal diseases in our cities is due either 
 directly or indirectly to the milk-supply than is now even suspected. 
 The possibility of this mode of origin should always be' borne in mind 
 in investigating the causation of such aifections. 
 
 A very large amount of food is now furnished preserved in tin cans, 
 and it is almost invariably of excellent quality. There is a possibility 
 of the contamination of such food by the salts of lead or tin, but such 
 contamination to an extent which is injurious to health must be so 
 extremely rare as to be hardly worth considering. The danger from the 
 entrance of parasites, such as trichinae, etc., in the food is also extremely 
 small in fact, is nothing where the food is properly cooked. 
 
 Milk has so often been the cause of disease, and is so universally used, 
 that it seems worth while to refer to it again. The special aptitude of 
 milk for absorption of odors has long been known, and of late years it 
 has been clearly proven in a number of instances that milk has been the 
 means of conveying the cause of typhoid fever and of scarlatina. Diph- 
 theria, yellow fever, and intermittent fever have also been supposed to 
 be conveyed by milk. The variety of nutritive principles contained in 
 milk, which makes it so valuable as a food, also gives it the power of 
 sustaining many different sorts of minute organisms, and it perhaps 
 comes as near being a universal culture-fluid as anything yet devised for 
 that purpose. The possibilities of the contamination of milk are so 
 numerous, and especially in the case of that furnished from small estab- 
 lishments, that, in the case of outbreaks of typhoid or diarrhoeal diseases 
 in a town, investigations into causation should always include the milk- 
 as well as the water-supply. Milk from diseased animals is no doubt 
 often used without producing bad results, but its effects in conveying to 
 man the disease known as milk-sickues's are well established, and it has 
 also been known to produce symptoms of the contagious aphthae, or foot- 
 and-mouth disease, in man, when derived from an animal affected with 
 that disease. The only danger in the use of the milk of animals fed 
 upon sewage-grown grass appears to be in the possible contamination of 
 the milk, after it is drawn, by particles of dust in the stable, derived from 
 the food or litter of the animal or from uncleanliness of the exterior of 
 the udder, etc. 
 
 VIII. INTEMPERANCE. Every one knows that alcoholic drinks are 
 the cause of a vast amount of disease, crime, and misery in all civilized 
 countries. No one knows how this is to be prevented, for no one knows 
 how to make the great mass of the people wise and contented. The 
 effects produced by excessive use of alcohol are well known to all physi- 
 cians, and the remedy is self-evident. I see no use in adding to the heap 
 of useless rubbish which exists in the shape of the great mass of existing
 
 198 HYGIENE. 
 
 popular literature on this subject, and therefore leave the subject to the 
 reader, who is quite sure to know all that is really important on this 
 subject. 
 
 IX. CLOTHING. The hygiene of clothing is also a subject which 
 may be treated summarily in this paper. People wear what they can 
 afford, made according to the prevailing style. Diseases due to insufficient, 
 excessive, or badly-fitting clotliing occur most frequently in women and 
 children, and the use of such clothing is for the most part due to poverty 
 or fashion, either of which is beyond the power of the physician to 
 successfully cope with. Here and there, in individual and exceptional 
 cases, he may be able to do a little good by advising against tight lacing, 
 high-heeled shoes, insufficient covering for the chest or legs, etc., and he 
 will find that a knowledge of the peculiarities of the various styles of 
 modern under-clothing will sometimes be very useful. Men are, as a 
 rule, comfortably and sensibly dressed to suit their business and sur- 
 roundings, and require no advice on this subject. 
 
 X. EXERCISE. The ease and completeness with which the functions 
 of an organ or of an organism are performed depend to a great extent 
 upon the frequency and regularity with which such functions are exer- 
 cised. Hence comes the importance of bodily exercise for the preser- 
 vation of health, and every physician meets cases of disease due largely 
 to want of work. 
 
 The term " exercise," or " bodily exercise," is commonly used as if it 
 referred only to the muscles, and the amount of exercise which a man 
 should take in a day is stated as equal to a certain number of foot- 
 pounds. The mere giving work to muscles is not, however, exercise in 
 the sanitary sense. A better definition is that of Du Bois Reymond viz. 
 that " exercise is the frequent repetition of a more or less complicated 
 action of the body with the co-operation of the mind, or of an action of 
 the mind alone, for the purpose of being able to perform such actions 
 better." From this point of view it will be seen that exercise relates quite 
 as much to the nervous system as to the muscles. When, for example, a 
 student takes a walk over ground with which he is familiar, and is at the 
 same time so deeply engaged in thought as to be practically unconscious 
 of what he is doing, only being recalled to himself, it may be, by arriving 
 at his own door, the exercise which he has had is but partial and insuf- 
 ficient. Going to the extreme, we can, as Du Bois Reymond remarks, 
 conceive of a man with muscles individually exercised until they were 
 like those of the Farnese Hercules, and yet who would be unable to walk, 
 much less execute more complicated movements ; for the proper co-oper- 
 ation of the muscles, which is effected through the nervous system, is 
 quite as necessary as the force of their contraction. 
 
 The amount of exercise which is necessary for health varies with the 
 individual and with age, season, etc., so that it is difficult to state any 
 general rule upon this subject ; but if stated in terms of muscular force 
 only, the estimate of Dr. Parkes seems a fair approximation viz. that 
 every healthy man ought to take daily an amount of exercise equivalent 
 to 150 tons lifted 1 foot, or a walk of about nine miles. The majority 
 of trades and bodily occupations demand at least this amount of work, 
 but in some of them the greater part of the exertion is made only by 
 curtain groups of muscles, and they are carried on in crowded and ill-
 
 CAUSES OF DISEASE, ETC. 199 
 
 ventilated shops. Such workmen, as well as all who are engaged in sed- 
 entary pursuits, require exercise in the open air exercise which will 
 bring into play the unused muscles and will break the train of thought 
 of the professional man. 
 
 One of the most important questions with regard to physical exercise 
 is the extent to, and manner in, which it should be provided for in a 
 proper system of education. One of the latest and most instructive 
 articles on this subject is that by Du Bois Reymoud in the " Physiology 
 of Exercise/' a translation of which is given in the Popular Science 
 Monthly for July and August, 1882. He divides the physical training 
 which is more and more becoming a part of modern systematic education 
 into three classes : The first, the turning, or gymnastics of the Germans ; 
 the second, the Swedish system, in which the exercises are limited to very 
 simple though varied movements ; and the English system, or rather want 
 of system, consisting largely of athletic games and contests of various 
 kinds. His objection to the Swedish system is that, while it strengthens 
 the muscles, it does not increase the power over composite movements ; 
 in other words, it does not exercise the nervous system. Naturally, he 
 prefers the German system to any other, although admitting that the 
 English meets better the demands arising from our structure. " Were 
 the end masterhood in running, jumping, climbing, in dancing, fencing, 
 riding, in swimming, rowing, or skating, then nothing could be more 
 advisable than to practise equally the necessary concatenations in the 
 actions of the ganglion cells, without pausing at the not practically 
 applicable preliminary and intermediate steps of the German turning." 
 
 From a sanitary point of view, the gymnasium, as usually located and 
 managed, is by no means equivalent to out-of-door sports and contests, 
 although it is often the best substitute for them. The form of exercise most 
 used by men whose occupation does not involve bodily labor is walking, 
 and next to this riding. Whatever mode be selected, it is very desirable 
 that it should be taken for some other object than that of the mere 
 making muscular exertion, or otherwise it will soon come to be looked 
 upon as an unpleasant task, the time spent upon which is given grudg- 
 ingly ; and it will be partially or wholly abandoned as soon as the 
 immediate discomfort which induced its use has ceased. 
 
 It is not an uncommon error among men engaged in mental work to 
 suppose that they can, and ought to, take the same amount of exercise 
 which gives good results in those whose occupations involve physical 
 rather than mental effort, or to think that the more exercise they take 
 the more study or writing they are equal to. This is a grave mistake. 
 Expenditure of brain-tissue is not to be repaired by muscular exertion, 
 but by sleep and food, and exercise in the fresh air sufficient to produce 
 appetite and sufficient weariness to ensure restful sleep is all that is neces- 
 sary. For a time it is true that the student or writer who has a well- 
 developed body can continue to burn the candle at both ends, and win 
 literary honors while also standing high as an athlete; but this surely 
 leads to physiological bankruptcy in the end. 
 
 It is to be remembered that good muscular development is not neces- 
 sarily synonymous with health, and that strength is not a guarantee 
 against disease. And, while it is true that in this, as in most other mat- 
 ters of individual hygiene, each man must to a great extent be a law to
 
 200 HYGIENE. 
 
 himself, and learn by experience what kind of exercise and how much of 
 it he requires, yet the physician can often supply the motive which was 
 wanting, or check undue effort. Exercise for the sake of health and 
 comfort is not an end, but a means ; yet if this means can be made to 
 secure to the patient an end agreeable and pleasant in itself, so much the 
 better. 
 
 XI. CONTAGION AND DISINFECTION. By "contagion" we mean 
 the communication of disease from one person to another, either by 
 direct contact or through some medium, such as air, water, etc. It 
 therefore includes " infection," which is now generally used as a synonym 
 for it. The so-called infective diseases of modern German writers (In- 
 fections-Krankheiten) include, besides what are commonly termed in 
 English, contagious diseases, the so-called miasmatic diseases. 
 
 The characteristic of a contagious disease is its specificity ; that is, the 
 disease transmitted is always the same in its essential characteristics. It 
 does not, however, follow that all cases of the disease are equally liable or 
 have the same power to transmit it ; in other words, the degree of viru- 
 lence of the contagiousness is not an essential characteristic. That the 
 same disease sometimes spreads rapidly and is very fatal, and at other 
 times seems hardly to have any contagious properties and is very mild, 
 has long been noticed, and has been attributed to an unknown something 
 called the medical constitution of the place the constitution medicale of 
 French writers. The true cause is probably very complex, but in some 
 cases, at all events, it seems to be due to difference in the contagion itself. 
 If we suppose this contagion to be a minute organism, it is easy to form 
 a theory as to the cause of these differences, but there is much careful 
 experimental work to be done before we shall have positive knowledge 
 on this point. The results obtained by Pasteur in attenuating the virus 
 of chicken cholera and splenic fever indicate one line which these experi- 
 ments will take, and the researches of Koch point out another. 
 
 The diseases which spread by contagion until they form epidemics are 
 those which have from the earliest times attracted the most general atten- 
 tion, and which have given rise to organized efforts for prevention i. e. 
 to public hygiene. 
 
 They are also the diseases which have given rise to the most bitter 
 controversies among medical men as to the means of their propagation 
 and the best methods of prevention. Plague, cholera, yellow fever, and 
 typhus are those with regard, to which this difference of opinion has 
 chiefly occurred one party considering their chief cause to be contagion, 
 or specific germs derived directly or indirectly from the bodies of the 
 sick ; the second party declaring that they are due to filth plus an 
 unknown something, which is variously termed epidemic constitution, 
 pandemic wave, Providence, or x. The great majority of opinions at 
 present is in favor of the view that they are all contagious, but not all, 
 or always, contagious from person to person that they spread from 
 infected localities, which localities receive their infection from cases of 
 the disease. The best means of dealing with them under ordinary 
 circumstances are now tolerably well understood, and where these means 
 can be commanded as, for instance, among troops in time of peace 
 epidemics of these diseases can be stopped with great precision and 
 promptness by isolation and disinfection.
 
 CAUSES OF DISEASE, ETC. 201 
 
 By " isolation " is meant not only the separation of the sick from the 
 well, but the isolation of the infected locality or water-supply until it has 
 been rendered harmless. 
 
 By "disinfection" is meant the destruction of the specific causes of dis- 
 ease, and more especially of the infectious or spreading diseases. A disin- 
 fectant is not necessarily an antiseptic or a deodorant, nor are these last ne- 
 cessarily disinfectants. The best practical antiseptic for sanitary purposes is 
 cleanliness ; the best disinfectants are heat, bichloride of mercury, sulphate of 
 iron, chloride of zinc, sulphurous acid, chlorine, sunlight, and pure air, and, 
 for yellow fever, cold. "With our present very imperfect knowledge of the 
 nature of specific causes of disease which we wish to destroy, we have no 
 means of determining the presence of these causes in or on an article of 
 clothing or of furniture, or in a room or other locality, except by the 
 production of their specific effects on man or by inductive reasoning ; in 
 other words, we can only say that it is more or less probable that such 
 causes are present. This makes it necessary, or at least expedient, to 
 employ disinfectants in many cases where the presence of such causes is 
 doubtful. The practical difficulties are, first, to bring the disinfecting 
 agent into such relation with the causes of disease that it can act upon 
 them, and act upon all of them ; second, to avoid unnecessary destruction 
 or injury of things which should be preserved. The majority of the 
 causes of disease upon which we wish to act by disinfectants are probably 
 minute particles of solid or semi-solid matter which are living, and may 
 be conveniently designated by the word "germs." In the presence of 
 moisture the destruction of the vitality of these germs can be effected 
 with comparative ease and rapidity, but when they have become dried, 
 or, as in the case of the bacilli, are in the form of spores, it is a more 
 difficult matter. 
 
 To illustrate the methods to be pursued and the precautions to be 
 taken, let us suppose the physician to be called on for directions as to 
 the management of a case of scarlatina, the object being to prevent its 
 spread. The first thing to be done is to get the patient in a room by 
 himself, and to leave nothing in this room which is not necessary. 
 Remove the carpet, curtains, and all stuffed or upholstered furniture. 
 Let the nursing be done, as far as possible, by one person only, and do 
 not allow others, and especially children, to enter the room, no matter if 
 they have had the disease. The danger of contagion depends upon par- 
 ticles coming from the skin and mucous membranes. All excreta, and more 
 especially the sputa or discharges from the mouth or nose, are to be treated 
 as dangerous. The excreta should be received in vessels containing a solu- 
 tion of sulphate of iron, one and a half pounds to the gallon. All cloth- 
 ing, towels, bed-linen, handkerchiefs, napkins, etc. should be placed in a 
 solution composed of four ounces of sulphate of zinc and two ounces of 
 common salt to the gallon of water as soon as they are not needed for 
 further use. Especial care should be taken that none of these articles 
 are removed from the room while dry, and while they are in the room, 
 and before they have been moistened, they should not be shaken or 
 disturbed more than is absolutely necessary. If for any reason the zinc 
 solution above referred to is not at hand which should very rarely be 
 the case the clothing, etc. should be placed in a bucket, tub, or boiler 
 containing enough scalding water to entirely cover them, and be removed
 
 202 HYGIENE. 
 
 from the room in this vessel. All such articles should be boiled at least 
 one hour. 
 
 No sweeping or dusting in the ordinary way is to be done in the room ; 
 dust and dirt are to be removed by damp cloths, which are to be treated 
 like the bedding and clothing. The great object is to prevent as far as 
 possible the production of dust in the atmosphere of the room. The 
 entire body of the patient, including head, face, and limbs, should be 
 kept thoroughly anointed with camphorated oil, vaseline, or some similar 
 substance, and especial care should be taken in this respect during the 
 period of convalescence so long as any roughness or desquamation of the 
 skin continues. No toys or books which it is desired to preserve should 
 be allowed to remain in the room, and under no circumstances should 
 books or toys be borrowed to amuse the child if they are to be returned. 
 The best way to disinfect such articles is to burn them in the room. 
 
 When the patient is fully convalescent and all desquamation has ceased, 
 cleanse him thoroughly with a warm bath and soap for four successive 
 days. If at the end of that time no roughness of the skin remains, he 
 may be dressed in clean clothes and taken from the room, for he is no 
 longer a source of danger. The room itself and the furuitnre are then 
 to be thoroughly cleansed and disinfected. The ceiling and walls, if of 
 ordinary hard finish, are to be scraped and whitewashed. All woodwork 
 should be rubbed with damp cloths and the floor well scrubbed. Care 
 should be taken to remove all dust from the ledges over windows and 
 doors. All the cloths used in this cleansing process are to be burned. 
 
 If these directions have been carefully carried out, there is no need for 
 further disinfection. But if upholstered furniture has been allowed to 
 remain in the room, or other articles which cannot be burned or scrubbed 
 or soaked in the zinc solution, it may be desirable to attempt to disinfect 
 the whole room and its contents by means of chlorine or sulphurous acid 
 gases. Of these, sulphurous acid gas is the cheapest, and upon the 
 whole the best, but it must be used in large quantity, and for a longer 
 time than is customary, if it is to be relied upon. For this purpose all 
 openings into the room should be closed, and pillows, mattrasses, uphol- 
 stered furniture, and articles which cannot be treated with the zinc solu- 
 tion should be opened, so that they may be exposed throughout to the 
 fumes. The sulphur should be burned in an iron pan or pot, placed in a 
 tub containing water or upon a large surface of sand. About 18 ounces 
 of roll sulphur should be used to each 1000 cubic feet of space, and after 
 twenty-four hours 12 ounces more should be burned and the room be 
 then closed for twenty-four hours longer, after which it may be opened 
 and aired. In case of death the body should at once be wrapped in a 
 sheet thoroughly soaked with the chloride of zinc solution, and either 
 be placed in an air-tight coffin at once or be buried without delay. The 
 funeral should be strictly private, and the sheet referred to should not 
 be disturbed or the body exposed to view. 
 
 The cases most liable to spread the disease are those in which the attack 
 is very light and the child is not confined to its bed. It is desirable that 
 children in a house in which there are cases of scarlet fever should not be 
 allowed to attend school or mingle with other children who have not had 
 the disease. 
 
 With regard to disinfectants, it may be well to note that none of the
 
 CAUSES OF DISEASE, ETC. 203 
 
 | 
 
 various patent disinfectants are superior to bichloride of mercury, chloride 
 of zinc, sulphate of iron, chlorine, and sulphurous acid; very few are equal 
 to them, and none cost so little. As a gaseous disinfectant for rooms, etc. 
 chlorine is superior to sulphurous acid, but it has the disadvantage of 
 injuring metals, is not so easily applied, and is more costly. It will 
 destroy the vitality of the spores of the bacilli more rapidly and certain- 
 ly than sulphurous acid, .which last, to make sure work, must be exhibited 
 for a much longer period than is customary. I should not feel confident 
 as to the thorough disinfection by sulphurous acid of the hold of an 
 infected ship unless the fumes had been applied for sixty hours. Carbolic 
 acid as ordinarily used is an antiseptic rather than a disinfectant. Its vapor 
 in a sick room is absolutely useless. When applied in strong solution it 
 is effective, for a time at least, but as thus used it is expensive, its odor is 
 unpleasant to many, and masks the odors from putrefying substances and 
 excreta, etc., thus preventing the warning which these odors would give. 
 
 Its use is in manv cases very much like removing the rattle from the 
 
 * 
 rattlesnake. 
 
 The suggestions made above for limiting the spread of scarlatina from 
 a case to be treated in the residence of the patient apply with certain 
 modifications for each form of disease, which will readily suggest 
 themselves to the physician to all the affections due to portable con- 
 tagia. 
 
 Among the poorer classes, however, it will often be found impossible 
 to obtain the separate room and service and the constant intelligent care 
 which are necessary to ensure the desired result ; and in such a case the 
 patient should be removed to a hospital, for his own sake as well as for 
 that of the community. The utility of small hospitals for infectious dis- 
 eases is by no means generally understood, and very few of our small 
 cities and towns are provided with anything of the sort. If the subject 
 is urged on the authorities of a place, the reply will be that it is an unneces- 
 sary expense, that the people would not go to it, and that such an institu- 
 tion is in itself a source of danger. The facts are, that such a hospital 
 costs very little, and is the cheapest insurance against epidemics which a 
 town can have ; if it is kept clean and comfortable, the people will use it 
 freely, and if properly managed it does not offer the slightest danger to 
 the vicinity. This question will be further discussed in the last section of 
 this paper. 
 
 The principles of isolation as applied to a single case as indicated above 
 may also be applied to infected localities in case of epidemics. When taken 
 in time, all diseases which depend upon participate contagia for their origin 
 can be stamped out by isolation and disinfection. Unfortunately, to effect 
 this promptly and successfully requires money, labor, and the co-operation 
 of the well in the viciuitv ; which last it is usually impossible to obtain vol- 
 untarily or to compel sufficiently to secure the desired results. A question 
 which sometimes arises in case of epidemics, and with regard to the necessity 
 for which physicians will be consulted, relates to the closure of the public 
 schools. It is certain that the assemblage of children in schools exerts a 
 powerful influence on the spread of such diseases as scarlet fever, diphtheria, 
 and whooping cough. On the other hand, the closure of the schools infringes 
 upon the rights of a large number of the community, and if long con- 
 tinued, as it sometimes must be to be really efficacious, inflicts upon them
 
 204 HYGIENE. 
 
 a permanent loss. It is, moreover, a confession on the part of the author- 
 ities of inability to induce or compel what must always be a comparatively 
 small part of the community to take the proper precautions. It is never 
 justifiable to close schools on account of small-pox, and where there is a 
 competent health authority supported by the influence of the medical pro- 
 fession, it must be a very exceptional set of circumstances which justifies 
 their closure for diphtheria or scarlatina. 
 
 It is not deemed expedient here to discuss the vexed question of quar- 
 antine. It is more important against yellow fever than any other disease, 
 because every day of delay of the entrance of the disease which it secures 
 lessens largely the subsequent mortality, since the duration of the disease 
 is limited by frost. This is not the case with cholera, and the mere keep- 
 ing this disease out of a place for a feAv weeks does not diminish its rav- 
 ages when it has once gained an entrance. To rely altogether on quaran- 
 tine, either maritime or inland, to keep yellow fever, cholera, or any other 
 disease out of this country is a far greater mistake than to neglect it alto- 
 gether. The practical way to isolate and quarantine is to get as close to 
 the affected spot as possible. Precautions at Havana for yellow fever, or 
 at Hamburg for cholera, are far more useful to the United States than the 
 same amount of work at our own ports can possibly be ; really good work 
 in this direction must be not only national, but international. 
 
 XII. MENTAL CAUSES OF DISEASE. A man may give too much 
 attention to his health and the means for its preservation, and the doing 
 so is both a sign and a cause of disease probably ofteuer the former than 
 the latter, except in cases of psychological epidemics. The power of 
 expectant attention, especially if accompanied by belief or fear, to produce 
 derangement of function in the nervous system, and through this to affect 
 the circulatory aud digestive systems, is well known to medical men. The 
 effects of an undue amount of brain-work, and especially of the anxiety 
 aud worry which often accompany this when it is specially directed to 
 the acquiring of wealth, fame, or power, are also familiar to physicians in 
 our large cities. The analogies between mental and physical exertion are 
 close in some respects, aud especially as to the effects of over-exertion in a 
 limited time under the influence of excitement. 
 
 The danger from simple mental work, such as study, when there is no 
 excitement from a contest, is small, and depends mainly on lack of physical 
 exercise and consequent disorder of the digestive organs. The risk of 
 producing what Fothergill calls " physiological bankruptcy " is greatest 
 in the youth studying for a prize, the speculator, the man who feels 
 responsibility which he knows he probably cannot meet. The danger of 
 injury from overwork under excitement is a very real one in many of our 
 schools, and, while the evil results are most apparent in. girls of the mid- 
 dle and upper classes, the boys and the young men also suffer. The sys- 
 tem of pass examinations, in which the standing of the pupil is to be 
 determined, not from the average results of his daily recitations, but from 
 a single examination at the end of the year, produces the greatest risks to 
 health ; and this is especially the case where the ambition and pride of the 
 children are stimulated by competition for prizes, medals, etc. Such systems 
 of grading by a single final examination should not be used in ordinary 
 schools, and for some pupils there will always be a risk to health connected 
 with them even when they are of age. No doubt the stimulus of competi-
 
 PERSONAL HYGIENE, ETC. 205 
 
 tion is useful with the majority of children as well as of adults, but with 
 some of them it is pretty sure to go too far. 
 
 The symptoms produced by undue mental strain are familiar to all 
 physicians, and there is usually little difficulty in tracing the effect to the 
 cause when attention has been directed to the matter ; in fact, the patient 
 himself usually knows very well the cause of his troubles. The remedy 
 is, of course, rest but that does not mean idleness. In speaking of occu- 
 pation, allusion has been made to the* fact that the physician must at times 
 advise his patient as to the adoption of some pursuit, and in cases of this 
 kind such advice is also useful. 
 
 The effects of mental strain are often mingled with, and aggravated by, 
 those of stimulants which have been used to spur the flagging energies. 
 Alcohol, tobacco, opium, or coffee used in this way finally increase the 
 very discomforts which at first they relieved. 
 
 n. Personal Hygiene in its Relations to the Practice of 
 
 Medicine. 
 
 In the preceding section have been indicated briefly some of the principal 
 causes of disease and the methods for their investigation or removal. We 
 have now to consider some of the practical applications which may be 
 made of the laws of etiology and prevention of disease in the treatment of 
 the sick. While the removal of the cause of illness by no means always 
 effects a cure, yet the importance of a knowledge of this cause as an aid to 
 diagnosis, prognosis, and therapeutics is so evident as to require no proof. 
 
 To discuss with anything like completeness the practical applications 
 of what would be commonly considered as hygienic rules in the treatment 
 of disease would be to write a treatise on nursing, and would also include 
 a large part of the practice of medicine, for regimen is the more important 
 half of practical therapeutics. The hygienic requirements peculiar to each 
 disease will be pointed out by the writers upon special subjects, and I 
 shall only venture upon one or two general remarks in addition to the 
 hints already given in speaking of the several causes. 
 
 In the acute stages of disease the sensations or, if the term be pre- 
 ferred, the instincts of the patient are usually the best guide to his 
 regimen so far as they go. In most cases he desires quiet, shade, but 
 not absolute darkness, and little or no food, although there is often a 
 craving for drinks, especially of a cooling character. In the specific 
 fevers which have a tolerably definite period and course it is important 
 to keep up the nourishment even during the period of anorexia, in order 
 to provide against the debility which is to follow. This nourishment is 
 best given in the form of drink, and very frequently fresh milk is 
 the type of what is required. The old notion that whatever a sick man 
 desired must be hurtful, and therefore that the fever patient must be kept 
 hot and refused cool water, has now almost entirely passed away. 
 
 In convalescence from acute disease and in many chronic cases, the sen- 
 sations of the patient are not to be trusted as a guide in the choice of food. 
 In such diseases as yellow fever and typhoid fever to allow the convales- 
 cent to follow the dictates of his appetite is to run great risk of a fatal 
 result. In other cases the patient really has no wish in the matter, but it
 
 200 HYGIENE. 
 
 will often be found that one who can think of nothing which he 
 desires to eat, and who will even refuse a dish which he lias requested 
 and been thinking about, will eat with enjoyment some unexpected dainty 
 Avhen presented at the right moment and properly served as a skilled 
 nurse knows how to do. The manner of serving the food, independent 
 of its cooking, is not a matter of such small importance that the physician 
 can afford to overlook it, and he will succeed best as a practitioner who 
 best appreciates the influence which * cracked goblet, a chipped saucer, a 
 soiled napkin, or, on the other hand, a hot plate or a touch of color in the 
 shape of a leaf or flower, may have upon the capricious appetite of the 
 sick. In ordering diet for convalescence it is not an uncommon error to 
 select only those articles which are agreeable to the physician himself, 
 forgetting the old proverb, that what is one man's meat may be another 
 man's poison, and also that it is above all things desirable to avoid mo- 
 notony. One doctor always orders chicken, another eggs, a third a 'mut- 
 ton-chop, etc. The practice in this respect lias probably been unduly 
 influenced by the reports of Beaumont of the results of his observa- 
 tions on Alexis St. Martin, and we still find that the relative digestibility 
 of various articles of food is estimated according to the scale laid down 
 in these reports, with no allowance for individual peculiarities, previous 
 habits, mode of cooking, etc. The secret of success in the diet of con- 
 valescence lies mainly in the simplicity of the individual dishes, in 
 varying the different meals, in the manner of serving, and in carefully 
 observing the effects on the sick person, and being guided by the results. 
 
 To promote appetite and digestion, and to secure refreshing sleep, one 
 of the most important things is fresh air, but in many houses a sick per- 
 son will obtain but a very limited allowance of this if the physician does 
 not give special attention to the matter. Except in cases of contagious 
 disease, the rules for managing which have been given in a previous sec- 
 tion (p. ), as soon as a patient is sufficiently recovered to be moved for 
 
 a short time into another room his bedroom should be thoroughly aired 
 and cleansed, and this should be done morning and evening thereafter. 
 
 In treating cases of contagious disease the question often arises as to 
 means of individual prophylaxis to be used by those who must be exposed 
 to the effects of the infected locality or of the presence of the sick. The 
 attempts which have been made to secure this individual protection in the 
 midst of an epidemic have been numerous and varied, ranging from the 
 use of the " vinegar of the four thieves" of the Middle Ages to the employ- 
 ment of the sulphites and chlorates to make the blood unsuited to the 
 growth and multiplication of the supposed germs, or of cotton-wool respi- 
 rators to strain the infected air, or of supposed specifics for particular dis- 
 eases, as belladonna for scarlet fever and vaccination against small-pox. 
 As yet, there is little or no satisfactory evidence as to the value of indi- 
 vidual precautions against those diseases whose contagion is conveyed 
 through the air, small-pox alone excepted, but in case of diphtheria in one 
 member of a family of children it might be well to try the use of chlorate 
 of potash internally, combined with the local application of the tincture 
 of the chloride of iron, as suggested by E. M. Hunt. The question 
 is one to be investigated by careful observation and experiment; and, 
 though it is improbable that any definite results will be obtained except 
 in those diseases Avhich are communicable to animals, and therefore sus-
 
 PUBLIC HYGIENE, ETC. 207 
 
 ceptible of direct experiment, still, it is possible that some advance may 
 be made. In rare and exceptional cases as, for instance, in exploring a 
 crowded, filthy, and intensely infected typhus-fever nest, as a tenement- 
 house, or an infected yellow-fever ship it may be worth while for the 
 physician or inspector who is unprotected by a previous attack of these 
 diseases to make use of a cotton-wool respirator, which is readily extem- 
 porized, and belongs to that exceedingly valuable and popular class of 
 remedies which, " if they do no good, can do no harm." In epidemics of 
 typhus, cholera, or yellow fever one of the most valuable prophylactics is 
 to have a mind so occupied with other matters that it pays little or no 
 attention to the danger, while in case of small-pox fear of the disease is 
 indirectly the best prophylactic, since it leads to careful vaccination. 
 
 This branch of the subject is closed with the remark that it would be 
 well if physicians, and especially the younger ones, gave more attention 
 to the preservation of their own health than many of them do. The pos- 
 session of a medical diploma does not prevent the evil effects of irregular 
 and hurried meals, insufficient sleep, exposure to inclement weather, and 
 lack of systematic and sufficient exercise ; and too much tobacco, some- 
 times too much alcohol, and in exceptional cases too much study and lit- 
 erary work, so often combine with anxiety about individual patients or 
 with pecuniary worries to damage the digestion and nervous system of the 
 young practitioner that the wonder is that so many survive the ordeal. 
 And, in fact, the mortality among physicians under the age of thirty is 
 higher than that of any other profession during the same period of life. 
 
 IE. Public Hygiene in its Relations to Physicians. 
 
 An important difference between man and animals is found in the 
 extent to which he will sacrifice a present pleasure or convenience to 
 secure a future good or to avoid a future evil. The savage will do this 
 to only a very limited extent little more, in fact, than the beaver or the 
 squirrel and the lesson is learned but slowly and by sad experience. 
 This is especially the case as regards matters affecting health. When a man 
 begins to take special precautions as to his diet or exercise, having in view 
 rather his future health than his present comfort and tastes, he has in most 
 cases already begun to suffer from the effects of his imprudence, and does 
 not commence a hygienic course of life as a perfectly sound and healthy 
 person. The same is true for a community. It will not usually submit 
 to the burden of taxation necessary to secure drains and sewers or a proper 
 registration of vital statistics, nor to the cost and inconvenience of the 
 machinery necessary to limit the spread of contagious diseases, until the 
 neglect of these things has resulted in such an amount of disease and 
 death as to forcibly call attention to the matter. The result is, that the 
 burden is far heavier than it would have been had the work been under- 
 taken in proper season, and individuals may find it to their interest to 
 leave the place and settle elsewhere rather than remain and meet their 
 proportion of the expense. 
 
 When a state or municipality has so far advanced in civilization as to 
 consider it desirable to take measures to protect the public health by pre- 
 venting individuals from polluting the air or water liable to be used by
 
 208 HYGIENE. 
 
 their neighbors, etc., the services of the medical profession are always 
 called upon. The foundation of public hygiene 'is information as to the 
 occurrence of certain forms of disease, the cause of which can be referred 
 with more or less precision to a certain limited locality. This information 
 may be very imperfect, consisting of little more than rumor and opinions 
 as to the existence of an undue amount of sickness or mortality in a certain 
 place, or it may consist of precise reports setting forth the number of deaths 
 from each cause, the proportion of each of these to the population by age, 
 sex, occupation, etc., and of the whole to births constituting what is 
 commonly called the " vital statistics of a place " and also of reports of 
 the occurrence of certain preventable diseases ; and between these two the 
 information may be of various degrees of completeness, but, whatever there 
 be, it is for the most part obtained either directly or indirectly from medical 
 men. The reliability and completeness of the information thus obtained 
 by the state determines to a great extent the direction and character of the 
 work done in destroying or preventing the causes of disease, and it is also 
 an important means of increasing our knowledge with regard to the nature 
 of these causes. 
 
 The character of this information depends largely upon the character 
 of the physicians who furnish it. In a large part of the country med- 
 icine is legally in the position of any common occupation ; that is, the 
 term " physician " is defined as applied to " any one who publicly an- 
 nounces himself to be a practitioner of this art, and undertakes to treat 
 the sick either for or without reward." Under such circumstances there 
 can be no guarantee that all who call themselves physicians are properly 
 qualified or competent to furnish reliable information for registration pur- 
 poses, and, as a matter of fact, a large number are not so qualified. It is 
 for this reason that there is such a close connection between public health 
 authorities, registration of vital statistics, and the registration of those 
 pjjysicians whose certificates as to causes of deaths, etc. will be accepted 
 by the state ; and hence the nature of the public health organization of a 
 state and the personnel of its officials are matters of great importance to 
 physicians. On the other hand, the efficiency of a public health service 
 depends very largely upon the relations which it holds with, and the light 
 in which it is regarded by, the medical profession. A health officer who 
 is distrusted and disliked by the physicians of his district cannot effect 
 much unless he can overcome this feeling, and his tenure of office must 
 always be very insecure. 
 
 The official relations of the practitioner with the health authorities are 
 usually Confined to the subjects of registration of vital statistics and of 
 checking the spread of contagious diseases. The most marked exception 
 to this rule is furnished by the States of Alabama and North and South 
 Carolina, in which the State Medical Society is the State Board of Health, 
 having been given legislative powers and the^ right of selecting the health 
 officers. The most complete organization of this kind is that of the State 
 of Alabama, where by the act of 1875 the Medical Association of the 
 State was constituted the State Board of Health, and the county medical 
 societies in affiliation with the State Society were made county boards of 
 health, to be under the general direction of the State Board. These 
 county boards at first had advisory powers only, and were to be conducted 
 without expense to the State or the county, except that the competent legal
 
 PUBLIC HYGIENE, ETC. 209 
 
 authorities of any county might invest the county board with such powers 
 and duties for the promotion of the public health as might be mutually 
 agreed on ; but in such case the right to elect or appoint those employed 
 in sanitary administration is reserved to the board of health, while all 
 questions relating to salaries, appropriations, and expenditures shall be 
 reserved to the legal authorities. It was further provided " that no board 
 of health, or advisory or executive medical body of any name or kind for 
 the exercise of public health functions, shall be established by authority 
 of law in any county-town or city of this State except such as are con- 
 templated by the provisions of this act, the object of this prohibition 
 being to secure a uniform system of sanitary supervision throughout the 
 State." By an act of 1881 the county board is directed to elect a health 
 officer, who is to keep a register of the births, deaths, and cases of pesti- 
 lential or infectious diseases occurring in the county, and furnish to phy- 
 sicians, free of charge, reliable vaccine to obtain information as to the 
 sanitary condition of his county, etc. etc. It will be seen that this plan 
 of organization is an attempt to overcome the practical difficulties in the 
 way of obtaining from physicians the information necessary for the reg- 
 istration of vital statistics and the work of preventing the spread of 
 infectious diseases. 
 
 While the great majority of physicians are willing to furnish the infor- 
 mation as to the cause of death, etc. which is necessary for a useful regis- 
 tration, there are always some who either neglect or refuse to do so ; and 
 if the law be made compulsory, it provokes hostility unless compensation 
 is furnished, while as regards the requiring physicians to furnish informa- 
 tion as to the existence of contagious diseases, this always rouses opposition 
 on the part of a certain number of medical men, even if payment for such 
 notification is provided. And while this opposition is no doubt in many 
 cases due to improper motives, such as personal hostility to the existing 
 authorities, party politics, or a desire for notoriety, its strength neverthe- 
 less rests upon the fact that it is unjust for the state to compel the services 
 of any man or class of men without furnishing compensation. The advo- 
 cates of health and registration laws are thus placed between Scylla and 
 Charybdis : if they propose compensation, which involves appropriations 
 from the public treasury, the law cannot be passed ; if there is no com- 
 pensation allowed, complete results cannot be obtained. 
 
 The Alabama law makes compulsory the furnishing by physicians of 
 information relating to births, deaths, and infectious diseases, and gives 
 compensation not in money, but by allowing the medical profession to 
 have the sole management of the matter and to choose the health officers 
 to whom they are to report; in other words, they tre allowed to tax them- 
 selves. The result in Alabama is yet doubtful. If competent and faith- 
 ful health officers and registrars can be obtained without paying them a 
 fair compensation, it will be contrary to experience ; and if these officers 
 receive a salary, it will be strange if the positions do not become the reward 
 of partisan political work. 
 
 It should be noted that the requiring a physician to report the births 
 occurring in his practice stands on a very different basis from the requir- 
 ing him to report the cause of death, since there is no. special necessity for 
 the former. It requires no expert knowledge to report a birth, and the 
 duty should obviously devolve on the householder. 
 VOL. I. U
 
 210 HYGIENE. 
 
 In those States in which by law only properly qualified medical men, 
 as determined by examination, have the right to practice, to hold medical 
 office, or to furnish medical certificates, the State certainly is entitled to 
 require of all physicians thus registered and authoritatively recommended 
 to the people as competent, that they shall furnish, free of charge, certificates 
 of the cause of death in those cases where they are cognizant of such cause. 
 
 States and municipalities often demand much more than this ; as, for 
 instance, that the medical man shall fill out the whole certificate, includ- 
 ing age, nativity, nativity of parents, etc., and that he shall furnish the 
 information to the registrar. In some cases it is provided that any phy- 
 sician having attended a person during his last illness shall furnish the 
 certificate : this would apply to cases where the physician may not have 
 seen the case for weeks before death. 
 
 While it is most convenient to have the certificate of cause of death 
 upon the same form which contains the data necessary to identify the indi- 
 vidual, the certificate should be distinct from the latter, and the duty of 
 making the return to the registrar should devolve on the householder or 
 undertaker, and not on the physician. On the other hand, it is easy for 
 the physician to be hypercritical in these matters : his certificate is to be 
 considered rather as a statement of opinion than as a statement of facts 
 within his personal knowledge, precisely as he would certify as to his own 
 age and birthplace. 
 
 The compulsory notification of infectious diseases to the health authori- 
 ties is a matter presenting much greater difficulties than that of certificates 
 as to causes of death. The state has no right to require such notifica- 
 tion from the physician without giving some quid pro quo, and it is not 
 expedient to make it compulsory, even with payment, except from physi- 
 cians employed by the state or municipality, to furnish gratuitous medical 
 attendance to the poor. The state has the right to require such informa- 
 tion from the parent or householder, and it has also the right to require 
 the physician to notify the parent or householder as soon as he recognizes 
 the existence of such infectious disease. It is extremely desirable that the 
 health authorities of a city should receive promptly, and direct from phy- 
 sicians, notification of the occurrence of such diseases, and there will usually 
 be no difficulty in obtaining this if the health officer has tact and discre- 
 tion and the city is prepared to do its duty. This duty is not confined to 
 registering the information or placarding the house, nor will it be properly 
 performed by merely removing the sick person to a hospital and disinfect- 
 ing the premises. If the case occur in a family which can secure its proper 
 isolation, and the attending physician certifies that it is so isolated and 
 makes himself responsible for its management (for which responsibility 
 he should be paid by the patient or his friends), the health officer should 
 not interfere nor do more than furnish a competent person to secure disin- 
 fection if required. The employment of a trained nurse known by the 
 health authorities to be competent and reliable would do away with most 
 of the difficulties connected with such cases in the upper and middle classes 
 of society ; and such nurses should be registered just as physicians and 
 mid wives are. 
 
 Where the case cannot be thus isolated and properly cared for, it should 
 be removed to a proper hospital. This presupposes that the city has such 
 a hospital, and if it has not, and is not prepared for such cases, notification
 
 PUBLIC HYGIENE, ETC. 211 
 
 is useless. When the city places a house in quarantine so as to interfere 
 with business, it should be for the shortest possible time consistent with 
 securing thorough disinfection of the premises, and the city should bear 
 not only the cost of such disinfection, but the cost of caring for the per- 
 sons in the house in an isolated place until no further danger is to be 
 apprehended for them. When the city undertakes to pay all expenses for 
 isolation and disinfection of such cases, it has the right to require that all 
 such cases shall be so treated, leaving it to private parties to meet the cost 
 in case they prefer not to use the buildings and apparatus provided by the 
 city for that purpose. And when the city does its duty in this respect, it 
 will be found that physicians and the people will do theirs, with rare 
 exceptions. 
 
 When a city becomes very unhealthy the usual policy is to conceal the 
 fact as much as possible, and to attribute the mortality to some other than 
 the real cause. The influence of the mercantile part of the community 
 is in such a case strongly exerted on the daily press and on the health 
 authorities to produce such representations of the condition of things as 
 will tend to allay apprehensions on the part of their customers. The 
 healthfulness of a place is usually estimated from its mortality reports, 
 but the reliability of these is by no means always what it should be. 
 Yellow fever is called typho-malarial or pernicious fever, typhoid is 
 reported as diarrhoea or malarial fever, etc. etc., and great stress is laid 
 upon what is called the sanitary condition of the place, which is declared 
 to be excellent. 
 
 Unfortunately, this phrase, "sanitary condition," means different things 
 at different times. When the mortality is low, sanitary condition means 
 the healthful 11 ess of a place; when it is high, it means the clean- 
 liness of a place. To a certain extent physicians are responsible for the 
 truth of the statistical returns, not so much in relation to the number as 
 to the causes of deaths ; but none save those who have practised in a city 
 liable to epidemics can realize the enormous pressure which is brought to 
 bear on medical men to induce them to aid in or wink at concealing the 
 true state of the case. Of course, this ostrich-like policy is in the long 
 run an exceedingly unwise one, but neither the average householder nor 
 community can be expected at present to pursue any other, except under 
 pressure. 
 
 There are many questions as to the best form of public health organ- 
 ization, and the powers and duties which should be conferred upon it, 
 which can only be properly answered by taking into consideration the 
 circumstances in each case. In a large city the health officers must have 
 great powers if they are to be really efficient. They have to contend with 
 ignorance, custom, and self-interest, and their action must in many cases 
 be prompt and unrestricted if it is to be efficacious. They must some- 
 times be in conflict with wealthy and powerful corporations, whose interests 
 are opposed to the reforms which they urge, and Although their business is 
 to protect the most important interest of the community at large i. e. its 
 health against the interests of individuals, yet these last are much more 
 immediately concerned, and are, naturally, so active that they are often, 
 although few in number, able to defeat any attempt to interfere with their 
 occupations. 
 
 It not unfrequently happens that a health board may have all the power
 
 212 HYGIENE. 
 
 necessary, so far as the laws are concerned, and yet may be able to accom- 
 plish little for want of funds to pay the inspectors and other officials whose 
 services are necessary. For a city, a health officer usually does better work 
 than a board of health : his responsibility is more direct, and he has stronger 
 motives to do good work, than a board. Of course, a poor health officer 
 is less efficient than a good board of health, but the general rule is as 
 above stateck The problems of hygiene require special knowledge, and 
 the man who is to deal with them requires special training. The folly of 
 treating diseases by their names with popular or patent remedies is not 
 greater than that of the attempt to make a healthy house or city by men 
 who are not architects or engineers or physicians, or who have only the 
 information possessed by the average architect or engineer or physician. 
 And, of all professional or educated men, the physician especially should 
 recognize his own ignorance. When he is asked what one should take for 
 dyspepsia or pneumonia his answer is, " Take the advice of a physician ;" 
 and so when he is asked how the plumbing of a house should be arranged, 
 how a hospital should be ventilated, how a city should be sewered, how a 
 marsh should be dealt with or a water-supply provided, he should reply, 
 " Get expert advice and supervision, and be prepared to pay the amount 
 necessary to secure it." It is the special duty of the physician to exert 
 his influence to secure properly constituted sanitary authorities for his own 
 locality, his State, and for the nation, and to support these against the hos- 
 tility which they must inevitably arouse if they are efficient. And he should 
 do this, not blindly and as a partisan, but intelligently and with due con- 
 sideration of all the important interests involved. 
 
 The body of educated physicians in a community forms the tribunal by 
 which the work of sanitary officials is to be judged, and they cannot judge 
 wisely unless they appreciate the difficulties with which health officials 
 have to contend. If a city has an incompetent or dishonest board of 
 health, the medical profession of that city are to a certain extent respon- 
 sible for it ; if a competent, energetic, and faithful sanitary officer is crip- 
 pled and harassed or forced out of office because he is on the wrong side 
 of politics, or because in the legitimate and proper exercise of his functions 
 he has come in conflict with the interests of powerful and wealthy individ- 
 uals or corporations, it is the duty of medical men to support him, and to 
 do this actively and promptly. And I take great pleasure in being able 
 to say, as the result of somewhat extended observation, that, as a rule, the 
 physicians of this country do cheerfully and promptly co-operate with the 
 sanitary authorities where such exist, and are the first to try to have them 
 properly organized and given the necessary means and powers to do effect- 
 ive work.
 
 DRAINAGE AND SEWERAGE IN THEIR 
 HYGIENIC RELATIONS. 
 
 BY GEO. E. WARING, JR. 
 
 FOR reasons, sometimes sound and sometimes fanciful, the drainage 
 question often presents itself to the medical practitioner as an annoying 
 if not as a serious one. It is not necessary for the physician to make 
 himself an adept in the art of sanitary drainage, but he can properly 
 meet neither the demands of nervous patients nor the exigencies of some- 
 times serious situations without having an intelligent general idea con- 
 cerning it. Not only to prescribe improvement, but frequently to allay 
 ill-grounded apprehension, he should be able to address himself, intelli- 
 gently and promptly, at least to the few simple problems presented in 
 connection with ordinary houses. I use the expression "ill-grounded 
 apprehension," not because the drainage in and about houses is generally 
 tolerably good, for it is not, but because the race seems to have so 
 inured itself to certain grave defects in plumbing-work that one may 
 reasonably hesitate, and look elsewhere for the occasion of diseases before 
 accusing the imperfect sanitary appliances of an average house. 
 
 Anything like a treatise on the technical details of house -drainage 
 would be quite out of place here. There are note-books easily accessible 
 to such physicians as care to make a thorough study of the subject. It 
 does seem worth while, however, to pass in careful review, in a work of 
 this character, the various conditions of interior and exterior drainage 
 upon which a physician is frequently called to pass judgment. 
 
 The perfect drainage of a house, like the perfect drainage of a town, 
 implies the immediate and complete removal, to a point well beyond its 
 limits, of all waste matters which are a proper subject of water-carriage ; 
 such a thorough ventilation of the channel which these matters have 
 traversed as to reduce to a minimum the production of deleterious gases 
 arising from the decomposition of the film with which they may have 
 soiled the walls of their conduit ; and adequate provision for the absolute 
 and permanent exclusion from the atmosphere within the house of the air 
 of the pipe or sewer. This is a brief and simple statement of the fun- 
 damental and absolute requirements of all good drainage. It is founded 
 on the one grand object which governs all improvement of this charac- 
 ter : the prevention of decomposition of refuse matters anywhere in house 
 or town. 
 
 Practically, it is safe to say that these conditions are never complete, 
 and that instances of perfect work are so exceptional as to need no con- 
 
 213
 
 214 DRAINAGE AND SEWERAGE 
 
 sideration here. We have to assume, substantially in every case that is 
 presented, that we are dealing with defective work, ordinaril} with work 
 that is very seriously defective. Most houses have been built by con- 
 tractors, and the plumbing is perhaps the item of the whole structure that 
 it is considered easiest and safest to scamp or to neglect. Even where the 
 motive of economy has had no controlling influence, the drainage has 
 almost invariably been planned by a plumber who has learned his trade 
 and conceived his ideas in the performance of work which was done at a 
 time when no one realized the serious consequences of its being improperly 
 done. The absence of interior ventilation, leaky joints, ill-arranged con- 
 nections between the various plumbing appliances and the main outlet 
 from the house, pipes and traps so large that an ordinary current is 
 powerless to keep them clean, defects of form, defects of material, and 
 defects of construction, are met with on every hand. This general state- 
 ment is of itself sufficient to show how hopeless it is for the average phy- 
 sician to prescribe the manner in which the drainage of a house should 
 be constructed or remodelled. 
 
 If we view the question solely with reference to its bearing on the 
 causation of disease, we enter a field where neither the sanitarian nor the 
 physician is ever sure of his footing. The precise relation between bad 
 drainage and ill-health no man knows. Certain diseases are undoubtedly 
 traceable to conditions of air or of drinking-water due to the improper 
 disposal of organic wastes, but the extent and exact bearing of these 
 influences are still greatly a matter of conjecture. It is, however, un- 
 doubtedly safe to assume and the assumption is supported by ample 
 general observation, if not by precisely ascertained facts that whether we 
 are considering serious diseases or the slighter ailments, every argument 
 leads to the enforcement of the most strenous requirements of cleanliness. 
 Through all the ages no one has disputed, and no one has improved upon, 
 the simple sanitary formula, "Pure air, pure water, and a pure soil." 
 We may safely wait until the enthusiastic investigators now engaged with 
 the subject shall have adduced the testimony of positive facts, if we will 
 in the mean time adhere strictly to the requirements of Hippocrates' pre- 
 scription. The physician will surely not go wrong if he treats all obvious 
 defects of drainage as positive evils, and insists upon their complete ref- 
 ormation. 
 
 Not to confine ourselves to houses which are provided with the ordinary 
 modern plumbing-works, but to include all collateral branches of the 
 subject, we have to consider the following conditions : 
 
 I. THE REMOVAL OF HUMAN EXCREMENT: 
 
 (a) By water-carriage in houses provided with modern plumbing ; 
 (6) By some form of dry conservancy ; 
 
 (c) By the fiendish privy-vault which prevails so generally, save 
 in the larger cities. 
 
 II. THE REMOVAL OF LIQUID HOUSEHOLD WASTES: 
 
 (a) By delivery to public sewers ; 
 
 (b) By irrigation disposal ; 
 
 (c) By delivery into cesspools. 
 
 Incidentally to the above there must be considered the influences of the 
 ultimate disposal of all household waste, whether by the public sewer or 
 the private house-drain.
 
 REMOVAL OF HUMAN EXCREMENT. 215 
 
 I. THE REMOVAL OF HUMAN EXCREMENT. "We are too apt to judge 
 of the power for mischief of any waste matter by its original oft'ensiveness, 
 and the world at large regards the solid and liquid exuviae of the human 
 body as the most dangerous material with which it has to deal. Doubt- 
 less it is so under certain exceptional circumstances. If impregnated with 
 the infective principle of cholera or of typhoid fever, for example, its 
 influence for evil may be widespread and active, but in the absence of 
 such infection these substances offer a less serious problem, and, as their 
 offensiveness causes them to be more carefully avoided, their evil in- 
 fluence is less, and is less widely disseminated, than is that of the com- 
 paratively inoffensive wastes of the kitchen-sink. This is a considera- 
 tion important to be borne in mind. Nothing is more common than the 
 expression of the opinion that the wastes of a population are offensive 
 and dangerous in proportion to the degree to which excrementitious 
 matter is allowed to flow away with its general drainage. The fact is, 
 that the drainage from a house or from a town, if reasonably diluted 
 with water, is very slightly offensive until it has passed through a con- 
 siderable degree of decomposition. The outflow of a perfectly sewered 
 town, where the whole community uses water-closets, is less offensive 
 than the neglected back-yard drain of an average New , England farm- 
 house. The trouble begins with the condition of putridity. Fecal 
 matter and urine are somewhat quicker than the other wastes of the house 
 to enter into putrefaction, but the difference is only one of degree, and the 
 latter rapidly overtakes the former in the foulness of its condition ; so 
 that where a house is provided with two cesspools, one for water-closet 
 matter and the other for kitchen waste, it is quite impossible to determine 
 from the character of their contents which is which ; therefore examina- 
 tions of the drainage of a house should by no means be confined to the 
 manner in which its excrementitious matters are disposed of. Setting 
 aside, in this connection, the peculiar liability of these matters to become 
 the seat of specific infectious, it is fair to assume that equally com- 
 plete and cleanly arrangements are needed for all else that flows to waste, 
 as for the discharges of the water-closet. The purpose of these remarks 
 is of course not to belittle the importance of proper care in the disposal 
 of human excreta, but to prevent the giving of an undue importance to 
 this branch of the subject, with too light treatment of the very serious 
 difficulties presented by the others. 
 
 (a) Modern conveniences may fairly be said to be the bane of modern 
 society, or at least of such of its members as have the questionable good 
 fortune to be housed within the same four walls with every device that a 
 misguided talent for invention has led the American mechanic to provide 
 for the comfort and convenience of the occupant. Properly regulated, 
 there is no element of modern house-building more conducive to health 
 than such a system of plumbing as brings Avithin reasonable limits the 
 labor of supplying abundant water at every point in the house, and 
 obviates the need for exposure and removes the temptation to neglect and 
 postponement attending the use of out-of-door houses of convenience. 
 The spigot and the water-closet are the two essential sanitary agents 
 which the plumber offers to us. The bath may be replaced by the 
 sponge, the stationary wash-basin may be, and generally should be, 
 replaced by the bowl and pitcher of our fathers, but there is no sufficient
 
 216 DRAINAGE AND SEWERAGE. 
 
 substitute for an ample supply of water on each floor of the house and 
 for a cleanly water-closet placed within doors. The evil that the plumber 
 has inflicted upon the race is due very largely to his not having held his 
 hand when he had fairly provided for our reasonable requirements. When 
 he fills our bedrooms with stationary basins, connects our refrigerators 
 with the sewer, provides twenty outlets for water which had better reach 
 the drain through less than half that number, and incidentally under- 
 lays all our floors with pipes, every foot of which is a possible source of _ 
 danger, he turns what ought to be a blessing into what is too often an 
 unmitigated curse. 
 
 It will not be easy to convert persons who have become accustomed to 
 the universal diffusion of plumbing-works throughout the house to a 
 belief that their best sanitary interest, and, perhaps hardly less, the best 
 requirements of refinement, point to the abandonment of what is practi- 
 cally superfluous in the way of -\vash-bowls, bidets, foot-baths, sitz-baths, 
 urinals, etc. ; but one who has given careful attention to the subject cannot 
 hesitate to recommend that in a house which is " strictly first class " it 
 would be the part of wisdom to reduce by at least three-fourths the 
 openings which lead to the soil-pipe and drain and sewer, and to concen- 
 trate upon the remaining fourth the flushing effect of wastes which are 
 now so widely distributed. Strenuous effort is being made, not only by 
 those who write and talk in the interest of the plumber and manufac- 
 turer, but by many who honestly believe that the good the plumber has 
 to give us cannot be given with too free a hand, to prove that so long as 
 they are properly constructed and properly arranged we may use plumb- 
 ing appliances at every point in the house with the utmost freedom and 
 with a minimum of danger. The minimum of danger, and often more 
 than the minimum, does, however, exist. It exists, perhaps, in a con- 
 stantly increasing degree with every extension of the work, and it can 
 only be the part of wisdom to insist, so far as advice can have influence, 
 on the reduction of all these appliances to the least requirements of rea- 
 sonable comfort and economy of labor. My own advice would be, in all 
 cases, to permit the use of no wash-bowl or bath or other vessel at a 
 greater distance than a few feet from a vertical soil-pipe, and not to per- 
 mit their use in any case in bedrooms or in closets opening only into bed- 
 rooms. 
 
 At the risk of seeming extravagant, I would say that the station- 
 ary wash-bowl as ordinarily used is one of the most uncleanly of 
 modern household appliances. Long experience in the inspection of 
 houses and in the examination of waste- and drain-pipes has led me to 
 the belief that servants, by no means rarely, use these vessels as the 
 most convenient means of voiding and cleansing chamber utensils. Their 
 overflow-pipes are coated with soap and with the exuvise of the skin to a 
 degree which makes them usually the seat of an offensive decomposition. 
 Their plugs and chains are almost invariably foul, and those devices 
 which provide for closing the outlets by valves or plugs, somewhat 
 removed from the strainers at the bottom of the bowl, bring the water in 
 which the face is washed into an interchanging communication with a 
 considerable length of foul and uncleanable waste-pipe a communication 
 that is made active by the bubbling of the contained air as the pipe fills 
 with water. The labor of filling pitchers from a spigot on the same
 
 REMOVAL OF HUMAN EXCREMENT. 217 
 
 floor, and the labor of emptying chamber-slops into a water-closet on 
 the same floor, are not to be considered as compared with the greater- 
 cleanliness and the greater sanitary security that such an arrangement 
 ensures. There is no serious objection to the placing of wash-basins and 
 baths in the same apartment with the water-closet, or elsewhere imme- 
 diately adjoining the soil-pipe; but it certainly cannot be disputed that 
 the extension of the drainage system by horizontal lead pipes to remote 
 points is altogether and wholly to be condemned. 
 
 However, the question more immediately at hand is that of the dis- 
 posal of human excreta by the use of water-closets ; and it is the water- 
 closet that first attracts the attention of one who is called upon to examine 
 the sanitary condition of the work. There are several radical defects in 
 water-closets, which are so widespread and which have become so familiar 
 to the world at large as to attract less attention than they deserve. For 
 example, it is a radical defect of a water-closet to be tightly encased in 
 carpentry. Nearly all the water-closets now in use have a somewhat 
 complicated mechanism about their bowls. They consist in ptfrt of earth- 
 enware and in part of iron, generally with an unstable connection between 
 the two. More often than not they overflow or drip or leak, and what- 
 ever may escape from them, whether foul air or foul water, is confined 
 within an un ventilated space, but a space which is still not absolutely 
 excluded from the atmosphere of the house. The removal of the 
 " riser " or vertical board under the front of the seat will usually dis- 
 close at once a condition that suggests at least the need for thorough ven- 
 tilation. It also discloses in some cases a complication of machinery and 
 pipes and levers and chains which makes a thorough dusting and clean- 
 sing of the space difficult, even \vere it accessible. There are water- 
 closets which are essentially good in their construction and working, 
 which it is important to protect by a " riser," but this " riser " should 
 never be of close work. It should at least be freely perforated with 
 large holes, or, better still, be made with slats or blinds, so that there 
 may be the freest possible circulation of air under the seat. If there is 
 an entire absence of machinery, so that the whole space may be left open, 
 being well finished with tiles or hard wood or other suitable material, it 
 is better that it should be unenclosed and that the seat should be hung 
 on hinges, so that it may be turned back, exposing the whole space to 
 easy cleansing. It is better too, in all cases, that the ventilation should 
 not even be interfered with by a cover over the seat, the freest possible 
 exposure to the air being of great importance. 
 
 A very large majority of the water-closets in use throughout the world 
 are either very imperfectly flushed " hoppers," which are generally foul 
 and which are often defective in their traps, or that worst of all forms, 
 known as the " pan " closet, where a slight depth of water is held in the 
 bowl by a hinged pan closing over its outlet. This pan swings in an iron 
 chamber under the bowl, which is entirely cut off from ventilation, which 
 is generally foul with adhering fecal matter, and which as an abomination 
 has no equal in the whole range of plumbing appliances. The closet of 
 which it forms a part has everything to condemn it, and only its cheap- 
 ness and its apparent cleanliness, and the habit of the world in its use, to 
 commend it. If flushed, as it usually is, by a valve on the supply-pipe, 
 it is rarely flushed adequately, and its use not seldom leads to an indraft
 
 218 DRAINAGE AND SEWERAGE, 
 
 of foul air (or worse) into the main water-supply system of the house. 
 Such closets may be easily inspected as to their condition by shutting off 
 the water-supply, opening the pan, and lowering a candle into the con- 
 tainer below. Such an inspection will almost invariably disclose an 
 extremely and dangerously filthy condition. Yet the worst part of the 
 container, that which never receives an adequate flush, is even then con- 
 cealed from view by the pan being thrown back against it. The nose will 
 here be a good adjunct to the eye, and the odor escaping from this filthy 
 interior chamber will generally afford convincing testimony of the impro- 
 priety of allowing such a vessel to remain in use. 
 
 It is a rule almost without exception that closets, except perhaps on the 
 first floor of the house, which are flushed by valves connected with the 
 bowls, are to be condemned. However good or however bad the state 
 of a closet thus supplied with water, its condition will always be 
 improved by giving it a copious flush from an elevated cistern delivering 
 never less than two and a half gallons of water at each use, and deliver- 
 ing it through a pipe so large and so direct as to secure a thorough 
 cleansing at every discharge. 
 
 It would be out of place here to enter into a detailed description of the 
 various closets which are and which are not to be recommended for use. 
 So far as the physician's inspection is concerned, it is perhaps sufficient to 
 say that wherever an odor, however slight, can be perceived, and wherever 
 a fouling of the interior surfaces of the closets or of the spaces under the 
 seat can be detected by the eye, radical reformation is necessary. The 
 only safety with a water-closet, as with any other vessel connected with 
 the drainage of the house, is to secure an immediate and complete wash- 
 ing away of all foul matter of every kind. Where this result is not 
 attained, it should be insisted upon. This much lies within the province 
 of the medical attendant ; the manner in which it shall be secured is not 
 necessarily for him to decide. 
 
 One other branch of this subject is worthy of attention. The cleanli- 
 ness and freedom from offence of the water-closet or of a waste-pipe or 
 drain is in proportion to the frequency with which it is used and to the 
 abundance of the discharge of water through it. A dozen closets used 
 by a dozen persons will be quite likely all to be offensive. If the dozen 
 persons all used only one closet not a pan closet the frequency with 
 which its trapping water is removed and the frequency with which its 
 walls are washed would secure its tolerable condition, even if not of the 
 best construction. In this case, as in all others, simplicity should be the 
 controlling principle. 
 
 (6) Dry conservancy next after water-carriage is the best and safest sys- 
 tem for the removal of human excreta. By dry conservancy is meant the 
 admixture of dry earth, ashes, or similar material with the matters to be 
 disinfected and absorbed. Theoretically, the effect of such admixture is 
 entirely satisfactory ; under very careful and intelligent regulation it is 
 practically so. It has been proved, however, by much experience that 
 under ordinary circumstances that is, where no greater care is given than 
 is ordinarily given to a water-closet or to a common privy the dry con- 
 servancy system is open to serious objections, though always an improve- 
 ment on the cruder privy- vault. The theory of the effect of a sufficient 
 admixture of earth or ashes with urine and fecal matter is, that by the
 
 REMOVAL OF HUMAN EXCREMENT. 219 
 
 admission of air thus secured to every part of the material there is a com- 
 plete oxidation of their organic constituents, similar to, though slower in 
 its operation than, actual combustion in an active fire. In isolated houses 
 and in hospitals, factories, and other buildings not provided with sewer- 
 age facilities, there is no question that the earth-closet or the ash-closet 
 affords the best available means for disposal, if we except a system, to be 
 described hereafter, for the distribution of water-carried wastes over or 
 under the surface of suitable ground. 
 
 Incidentally and this is of special interest to the physician the use 
 of dry earth or of dry ashes in the close-stool of the sick chamber effects 
 not only an immediate and complete deodorizatiou, but without doubt a 
 complete disinfection as well. A quart of dry earth at the bottom of the 
 vessel to receive the deposits, and rather more than a quart with which 
 immediately to cover them, constitutes a means of relief always available 
 and always efficient. 
 
 Where the house is provided only with an old-fashioned out-of-door 
 privy the greatest relief and the most complete security may be given at 
 little cost by filling the vault, and placing under the seat a movable box 
 to receive the mixture of fecal matter and of the absorbent material, 
 which, if it is desired to avoid the simple patented appliances made for 
 the purpose, may be kept in a box or barrel in the apartment and thrown 
 down after each use of the closet with the haud-scoop. The objections to 
 the common privy are so obvious, so universal, and so well understood 
 that the practical value of such a means of relief should be appreciated 
 without argument. 
 
 (o) Privy-vaults are the sole reliance for the disposal of fecal matter, and 
 often of chamber-slops, of probably 95 per cent, of the population of 
 this country, and of Europe as well. It is curious, in examining the 
 recommendations of public health officers and the requirements of local 
 boards of health, to observe the uniformity with which this most 
 important subject is passed over with the prescription that the vault shall 
 be tight, sometimes that it shall be vaulted over, and sometimes that it 
 shall not be within a certain small number of feet of a boundary-line or 
 of a drinking-water well. These prescriptions are most absurd. It is 
 safe to say, that of the millions of privy-vaults in this country not more 
 than hundreds are really tight ; that a still smaller number are so vaulted 
 over as to prevent the free exhalation of the gases of decomposition ; that 
 those which are so vaulted over are in all respects of worse sanitary effect 
 than those which have freer communication with the air, and that their 
 possibilities of evil reach many times farther than the limits of distance 
 usually required to intervene between them and the well or the neighbor- 
 ing property. In view of the universality of their use and of the com- 
 pleteness with which modern communities are inured to their presence, it 
 seems almost hopeless to attempt to secure a proper realization of their 
 great defects. They are always the seat of the foulest, and even of the 
 most dangerous, decomposition. They taint not only the air and the soil, 
 but the water of the soil which goes so often to feed our sources of drink- 
 ing-water, and their local stench is of itself sufficient to sicken all who 
 have not by daily and lifelong habit become accustomed to it. Taking 
 the country at large farm houses and village houses as well as the dwell- 
 ings of cities it is not too much to say that the best sanitary service that
 
 220 DRAINAGE AND SEWERAGE. 
 
 can be rendered by those interested in the removal of causes of ill- 
 health would be in securing the abolition of these barbarous domestic 
 appliances. In many ways the cesspool is as bad as the vault, but in 
 some respects the vault is facile princeps as a public and private nuisance 
 of the most annoying and dangerous character. Wherever a public or 
 private sewer is available, wherever disposal by irrigation is possible, and 
 wherever even the crudest attention can be secured for an automatic or 
 simpler earth-closet, the strongest eifort should be directed to the absolute 
 inhibition of the common privy-vault. 
 
 II. THE REMOVAL OF LIQUID HOUSEHOLD WASTES. As has 
 been stated above, the liquid household wastes are of much more 
 serious consequence from a sanitary point of view, as compared with 
 excrementitious matters, than the public has been wont to suppose. 
 These, owing to the large amount of w r ater which they contain, are 
 beyond the reach of any system of dry conservancy. They consist 
 almost invariably of a flood of water containing but a small percent- 
 age of refuse food, urine, soap, filth of the laundry, grease everything, 
 in fact, except fecal matter and the coarser garbage and ashes con- 
 stituting the waste of the household. Where water-closets are used 
 fecal matter is generally added to the flow, but its relative quantity is 
 small, and its presence or absence does not seriously affect the problem of 
 disposal. 
 
 In a house provided w r ith abundant, generally superabundant, plumb- 
 ing appliances, with a large consumption of water, the whole apparatus 
 is constructed on the theory that all manner of filth is to be taken up by 
 running water and carried well without the house. Where this theoretical 
 end is completely attained there exists a condition of drainage rarely met 
 with and little to be criticised. Unfortunately, the theoretical excellence 
 is rarely secured. Running water confined within a narrow channel, and 
 so compelled to move with force sufficient to give an energetic scouring 
 to the walls of its conduit, may be trusted to carry with it or to drive 
 before it pretty nearly all foreign matter that may have been contributed 
 to it, but the moment this vigorous current is checked, that moment the 
 tendency to excessive deposit begins. It is checked in practice in various 
 ways : 
 
 First. By too great a diameter of the pipe : a volume of discharge requir- 
 ing a velocity of 4 feet per second in a pipe 1 inch in diameter would 
 have a velocity of only 1 foot per second in a channel 2 inches in diameter, 
 and of less than 6 inches per second in a channel 3 inches in diameter. 
 Ordinarily, except as the deposits are removed by decomposition (always 
 objectionable), the deposited matters accumulate and reduce the original 
 bore to the diameter which will secure a cleansing flow. It is the part 
 of wisdom to provide only this bore at the outset or not greatly to exceed 
 it, and it is one of the earliest recommendations of an experienced sanitary 
 engineer to reduce the size of too large bores where they exist. 
 
 Second. By the use of traps larger than the pipes leading to them and 
 from them, thus increasing the natural tendency of all traps to stagnation 
 and deposit. 
 
 Third. By the use of vertical waste-pipes, which are almost universal, and 
 which are very often necessary. The velocity of a current measured along 
 the axis of the pipe is less if the direction is vertical than if it is laid on
 
 REMOVAL OF LIQUID HOUSEHOLD WASTES. 221 
 
 a steep slope, because of the tendency of liquids flowing through vertical 
 pipes, which they do not fill, to adhere to the walls and to travel with a 
 rotary movement. I have seen vertical soil-pipes furred with excrement 
 to a thickness of nearly three-eighths of an inch ; I have never seen a 
 corresponding deposit in a pipe of good slope where the current was direct. 
 This latter point is rather one of curious interest than of practical value 
 certainly from the physician's point of view. Even in original construc- 
 tion it is rarely possible to give soil-pipes other than a practically vertical 
 course as they pass from one story to the next. Indeed, the physician 
 need not trouble himself to consider the question of the size or of the 
 direction of this main channel. He will often find occasion to criticise 
 the use of unduly large waste-pipes from single vessels ; as, for example, 
 two-inch pipes leading from bath-tubs ; two and a half-inch pipes leading 
 from laundry-tubs ; and three-inch pipes leading from kitchen-sinks. 
 Where reconstruction is to be undertaken, he may with advantage exert 
 himself to secure in these lateral waste-pipes a diameter never exceeding 
 one and a half inches, and from kitchen- and pantry-sinks, whose outflow 
 is loaded with grease, preferably not exceeding the diameter of one and 
 a half inches, with traps of even a little less size. Where several vessels 
 lead into the same waste-pipe these small diameters may increase the 
 tendency to the. emptying of the traps by siphonage, but if proper 
 mechanical traps are used for baths, wash-bowls, and laundry-tubs, and 
 if ample flushing appliances are connected with kitchen- and pantry- 
 sinks, the temporary removal of the trapping-water by siphonage may 
 generally be disregarded. It will seldom happen that the removal of 
 water will be so complete as to prevent the satisfactory closing of the 
 mechanical valve by capillarity, even if it fails, in itself, to make a 
 perfectly tight fit. 
 
 A favorite recent requirement of theoretical sanitarians, and one which 
 has perhaps for business reasons been eagerly accepted by the plumbing 
 trade, is what is called the " back " ventilation of traps ; that is, the car- 
 rying of a vent-pipe from every trap in the house to a point above the 
 roof. In my judgment, there is more to condemn than there is to com- 
 mend this practice, for I believe that the more rapid emptying of traps 
 by evaporation where they are not constantly supplied by frequent use, 
 the dangers of accident to lead pipe, which is generally used for ventilat- 
 ing purposes, and the misapplication of a large outlay which might better 
 be applied in other directions, constitute convincing arguments against 
 this favorite new method of preserving the integrity of the water-seal. 
 There are a number of traps which are closed by floating balls, or by 
 balls bearing upon the outlet, which seem to be quite satisfactory and 
 efficient. The worst waste-pipes, by far, are those of kitchen- and pantry- 
 sinks which pass a large amount of hot grease. This soon cools suffi- 
 ciently to congeal, and it attaches itself to the walls of the pipe, where it 
 does congeal until the bore is reduced to what is barely sufficient to fur- 
 nish the necessary limited water-way. Grease-traps of various forms 
 have been invented with a view to retaining this obstructing material. 
 After much experience with all of them that have been in general use, I 
 have become convinced that the only satisfactory way to avoid the diffi- 
 culty in question is to retain the outflow of the sink until a certain con- 
 siderable quantity has accumulated, and until its grease has entirely con-
 
 222 DRAINAGE AND SEWERAGE. 
 
 gealed, then to discharge the whole volume rapidly through a pipe of 
 small calibre. This may be done with Carson's grease-trap by throwing 
 in a pail of water to start a siphon action when the vessel has become 
 filled to its overflow-point. It is more simply accomplished by a device 
 of my own, wherein the whole outflow is retained by a plug at the bottom 
 of a large vessel working after the manner of the plug of a wash-basin, 
 until it is filled to the level of the sink, and then opening the outlet for 
 its sudden discharge. 
 
 Good workmanship is as important as, if not indeed more important 
 than, good arrangement. It seems a very simple proposition to say that 
 all waste-pipes, whose office it is to carry foul liquids out of the house, 
 should be made tight in material and in joint. It is a remarkable fact, 
 however, that leaky joints in soil-pipes and in drains are by no means 
 rare. Probably there are few houses, very few, in which they do not 
 occur. The soil-pipe is put together by inserting the small end of each 
 section into the bell at the top of the section below it, practically like 
 putting the outlet of one funnel into the larger upper portion of another. 
 There may be abundant space for leakage at every joint from the top to 
 the bottom of the house, without there being the least show of the leak- 
 age of water. The foul air within the pipe may escape freely through 
 a dozen openings, while the heavier liquid flow takes its easiest and most 
 direct course downward from the point of one pipe through the bell of 
 the one below. When we come to the horizontal run of the soil-pipe in 
 the basement, if an imperfection of the joint occurs on the lower side 
 there is an obvious drip, which continues at least until closed by rust. 
 Similar imperfections in other parts of the joint would not be so mani- 
 fested. It has recently been demonstrated that there is no safety in 
 the construction of soil-pipes short of that absolute assurance which 
 can be secured only by an efficient test. Plugging all the outlets 
 of the soil-pipe and filling it with water, the slightest leak will be 
 exposed. 
 
 However defective may be the condition of an iron soil-pipe, vertical or 
 horizontal, it is perfection itself compared with the usual state of a drain 
 laid under the cellar floor; and here is a point where the least experienced 
 inspector of house drainage cannot be mistaken. Under all circum- 
 stances, at least in all work hitherto executed, he should demand as abso- 
 lutely necessary that the drains under the cellar floor be removed, that 
 the earth which has been fouled by the leakage of its joints and its breaks 
 shall be taken out to the clean untainted soil below, and refilled with 
 well-rammed pure earth or with concrete, the drainage being carried 
 through a properly-jointed iron pipe above the pavement, and preferably 
 with a fall from tjie ceiling of the cellar to near the floor at the point of 
 outlet in full sight for the whole distance. It sometimes happens that 
 the necessity for using laundry-tubs or other vessels in the cellar makes 
 the retention of an underground course imperative. "When retained, the 
 drain should be of heavy cast iron with most securely leaded joints 
 tested under a head of several feet. When found to be tight and secure, 
 it should not be, as ordinarily recommended, left in an open channel 
 covered with boards or flags and surrounded by a vermin-breeding, 
 unventilated and uninspected space, but closely and completely imbedded 
 in the best hydraulic cement mortar. Its careful testing before this
 
 REMOVAL OF LIQUID HOUSEHOLD WASTES. 221? 
 
 enclosure is of course the only condition under which the work can bo 
 permitted. 
 
 Tightness of all waste-pipes being secured, the next point in order is 
 their proper ventilation. A good deal has been said, and little has been 
 proved, about the different effects on the human system of the gases of 
 decomposition which have been produced in the absence of a sufficient 
 circulation of air, and those produced where the ventilation and dilution 
 are more complete. The probabilities of the case are, of course, entirely 
 in favor of the latter condition, and it is accepted by all sanitarians as an 
 axiom that all water-ways and all vessels in which organic decomposition, 
 even the decomposition of adhering slime, takes place, should be venti- 
 lated as thoroughly as possible. Until about ten years ago nearly all 
 waste-pipes were tightly closed at the top, and were shut from the sewer 
 by a trap at the foot, allowing absolutely no communication between the 
 outer air and the atmosphere of the pipe except as fresh air might be 
 carried in through the water-seals of the traps at each end. At about 
 that time it was becoming the general custoni in the better class of work 
 to carry a small vent-pipe, often only one inch in diameter, rarely more 
 than two inches in diameter, through the roof of the house, closing it at 
 the top and perforating it with a few inefficient holes. This had undoubt- 
 edly the effect of relieving the pressure on the atmosphere of the pipe 
 caused by the filling of unventilated sewers with tide-water or storm- 
 water, or by a sudden increase of temperature from the admission of hot 
 water. Later, it was accepted as a universal rule, and it became a quite 
 general practice, to carry the soil-pipe above the roof with its full diam- 
 eter, providing its summit with some form of ventilating cowl. All 
 this constituted not ventilation, but venting. Real ventilation was 
 introduced only with the very recent improvement of admitting fresh 
 air at the foot of the soil-pipe, so as to make a complete circulation from 
 one end to the other a circulation sufficient to produce, by the diffusion 
 of gases, a very fair ventilation of lateral waste-pipes of moderate 
 length. It is now coming to be understood that ventilating cowls, of 
 whatever form, are an obstruction to the movement of air in the absence 
 of wind, and that, as what is needed is never a vigorous current, but 
 always a living one, these cowls had better be dispensed with. We have 
 learned, too, that the most efficient means for increasing the flow of air 
 through the top is to increase its diameter at the top, enlarging the high- 
 est length of a four-inch pipe, for example, to a diameter of six inches. 
 With this arrangement, and with a foot-ventilation four inches in diameter 
 opening at a point where it can never be obstructed by rubbish or by snow, 
 there will be secured a condition perhaps more efficient in improving the 
 condition of an imperfectly drained house than any other one thing that 
 may be done. 
 
 I have sketched above, in a very hurried manner, the main outline of 
 a system of house-drainage which may be accepted or which may be 
 recommended by a physician with confidence of securing a good result. 
 To go more into detail in technical matters would be out of place in a 
 paper of this character. Before leaving this subject, however, it is 
 important to call attention to the fact that what is recognized in our 
 houses as sewer gas is in far greater degree the product of decompo- 
 sition taking place within the house-drains themselves than the product
 
 224 DRAINAGE AND SEWERAGE. 
 
 of decomposition in the distant sewer forced into the house through its 
 connecting drain. It is emphatically a case of the beam in our own eye 
 as compared with the mote in the eye of our neighbor. It is a rule 
 which has exceptions, but they are few, that the contained air of the 
 house-pipes is far worse than the contained air of the sewer ; and the 
 conviction is growing that the use of a trap to the main drain between 
 the house and the public sewer is more often objectionable than advan- 
 tageous. Such a trap always tends to check the flow of the drain and to 
 induce deposits whose decomposition is objectionable. Wherever the 
 abandonment of the trap is anything like universal the considerable ven- 
 tilation of the sewer thereby secured brings its atmosphere to a condition 
 which makes it not objectionable, and generally useful, as a source of 
 movement in the air of the interior drain- and soil-pipe. 
 
 (a) Public sewers are more or less good or bad entirely according to 
 their character and condition. As a rule, a well-flushed sewer which is 
 used for no other purpose than the removal of foul waste, built on what 
 is called the separate system, and automatically flushed at least daily, 
 may be considered to be, if well laid and tightly jointed, absolutely safe. 
 A public sewer of large size and of irregular construction, receiving not 
 only household Avastes, but the wash of streets as well, may be regarded 
 at least as an object of grave suspicion. These general statements may 
 be so far qualified by the character of the sewers of each class as to run 
 very nearly together ; that is to say, separate sewers, with leaky joints, 
 irregular grades, defective alignment, insufficient flushing, and inadequate 
 restriction as to the matters they are to receive, will be an intolerable and 
 dangerous nuisance ; on the other hand, a large brick sewer built in the 
 best manner and of the best material, with sufficient fall and sufficient 
 supply to maintain itself in a cleanly condition, is free from the serious 
 drawbacks which usually attach to sewers of this class. 
 
 With sewerage as with house-drainage it is not worth while to attempt 
 here to give anything like detailed directions for inspection and for 
 refoimation. It will suffice to call attention to this one broad and gen- 
 eral rule : Every sewer or drain having for its object the removal of 
 putrescible organic matters must be so arranged as to maintain itself in a 
 condition of practically absolute cleanliness, without, as in the case of 
 storm-water sewers, waiting for the flushing effect of storms, which often 
 come only at long intervals, during which the worst condition of decom- 
 position may be established. Whether the sewer be intended for drainage 
 only or for both drainage- and storm-water, if it contains at any time 
 deposits of any kind, it is defective more or less so, of course, accord- 
 ing to the extent and duration of the accumulation. 
 
 Although it should be rigidly insisted upon in every case that the 
 sewer should maintain itself free from deposits, there will still be, una- 
 voidably, a certain amount of foul gas produced by the decomposition of 
 the matters coating its walls, and in order to dilute and to remove this, 
 and perhaps in order to modify their original character, the most 
 thorough ventilation is necessary. 
 
 Any sewer or other drain which at any time gives forth the odor of 
 putrid decomposition is in bad condition and should be at once rendered 
 inoffensive. So far as I know, there is no exception to this rule. I have 
 met no conditions in towns of any size where absolute self-cleansing may
 
 REMOVAL OF LIQUID HOUSEHOLD WASTES. 225 
 
 not be secured. It is worth while, however, to repeat here the state- 
 ment made above, that sewer gas, in so far as it is a serious factor in 
 connection with the drainage of houses, is the product of the interior 
 pipes of the house much more frequently than of the public sewer in the 
 street. 
 
 (6) The disposal of liquid wastes by irrigation, so far as this method is 
 applied to the outflow of public sewers, is not of especial interest here, 
 but an important modification has been made of the system of irrigation 
 which is of the greatest consequence in considering the sanitary improve- 
 ment of isolated country-houses, of hospitals, prisons, etc., and of houses 
 in towns about which there is a small amount of available land. The 
 process which has been found best suited to the purpose is the invention 
 of the Rev. Henry Moule, the inventor of the earth-closet. He found 
 it a serious drawback to the dry-earth system that it was incapable of 
 taking care of the liquid wastes of the house. He devised a method of 
 conducting the liquid into very shallow drains made with open-jointed 
 agricultural drain-tiles, so porous in their character as to allow the liquid 
 carried by them to escape at the joints into the soil, and thus get the 
 benefit of its purifying qualities without the unsightly and often offensive 
 process of allowing the liquid to flow over the surface. The first use made 
 of this system was about 1866. Since that time its use has extended very 
 considerably both here and in England, and many improvements have 
 been made in its details, so that it may now be accepted as entirely 
 satisfactory. 
 
 The process in its best development, as applied to the drainage of single 
 houses, may be thus described, many of the appliances used being the 
 subject of patents : The outflow from the house is delivered into a settling- 
 basin or grease-trap of sufficient size to still the flow, to cause solids to 
 settle to the bottom, and grease and other light matters to float at the top. 
 The outlet from this basin is through a pipe having its inlet at some dis- 
 tance below its overflow-point ; that is, at the level of the comparatively 
 clarified liquid, below the grease and above the sediment. The outflow 
 passes into another vessel known as a flush-tank, where it accumulates 
 until it reaches the summit of a self-acting siphon. This height being 
 reached, any considerable addition to the flow sets the siphon in action, 
 and the whole contents of the flush-tank are discharged with rapidity 
 into the drain beyond. The discharge completed, air is automatically 
 admitted to the siphon, and no further flow can take place until the 
 flush-tank has again been filled. The drain, of iron or vitrified pipes 
 tightly joined, is continued to the edge of the ground prepared for puri- 
 fication. It here delivers into a series of open-jointed agricultural tiles, 
 laid with their bottoms not more than ten inches below the surface of the 
 ground. The total length of these tile-drains is regulated according to 
 the discharging capacity of the flush-tank, with a view to their becoming 
 entirely filled at each discharge. Within a short time after the flow has 
 ceased the liquid has all left the pipes and entered the soil, its impurities 
 being retained and its filtered water settling away into the porous or 
 artificially drained ground below. During the interval between the dis- 
 charges of the flush-tank, a day or more, the process of purification (oxi- 
 dation) of the retained impurities goes on in the soil, and its thorough 
 aeration prepares it to purify the next discharge. This method of dis- 
 
 VOL. I. 15
 
 226 DRAINAGE AND SEWERAGE. 
 
 posal is now employed in connection with hundreds of houses, and its 
 use, which has in some cases continued for a dozen years, is constantly 
 increasing. Its application implies a certain amount of fall, but this 
 amount need not be great. The discharging height of the tank need not 
 be more than twelve inches. The main outlet need not fall more rapidly 
 than at the rate of 1 to 300, and the absorption-drains ought not to full 
 more rapidly than at the rate of 1 to 600. If the tank can be built on 
 the top of the ground, an average surface fall of 1 to 400 can usually be 
 made to meet all the requirements. Where waste matters are to be 
 removed from cellars and basements below the level of the ground, a 
 greater fall is necessary, or the wastes which are there collected must be 
 thrown to the tank by pumping or otherwise. 
 
 Where there is a bit of grass-land a little removed from the house 
 (and from sight), it answers a perfectly satisfactory purpose to dispense 
 with the absorption-drains and to deliver the main outlet directly on to 
 the surface of the ground. The eifect in both cases is entirely different 
 from what it would be were the flow of the drains not regulated by the 
 use of the flush-tank. The moment we have a constant slight discharge, 
 either on the surface of the ground or into the absoq)tion-drains, we 
 establish a condition of constant saturation which leads to the over-fouling 
 of a small area, which is rarely if ever purified by aeration. For an 
 intermittent discharge some form of flush-tank is an absolute necessity. 
 It is often found in practice, where the flow from the house is consider- 
 able, that the discharge of the house-drains into the settling-basin pro- 
 duces such an agitation of its contents as to set in motion and to carry 
 into the flush-tank bits of paper partly macerated, grease, etc. This has 
 been met by a recent improvement, which consists in building a transverse 
 wall in the settling-basin, which checks the current from the house-drain 
 and causes the flow from the house side of the wall to pass over its top 
 in a thin small current which does not materially agitate the contents of 
 that part of the basin from which the outflow pipe is fed. 
 
 (c) The cesspool is still the chief reliance of the world at large. There 
 is nothing to be said in its favor save what may be based on the 
 old adage that "what is out of sight is out of mind." There is 
 everything to be said in its condemnation, whether we regard its contents 
 as a great mass of putrefying and infecting filth, as the source of oozings 
 which travel through crevices of rocks, through layers of gravel, through 
 seams in clay, or through lighter soils into and under cellars and into 
 drinking-water wells and defectively constructed cisterns, or as an ever- 
 active gas-retort supplying the pipes of the house with the foulest prod- 
 ucts of putrefaction. It is in all respects and under all circumstances a 
 curse, unless placed far away from the possibility of tainting the air we 
 breathe or the soil over which \ve live, or from w r hich we or others take 
 our drinking-water, and even then it had better be abandoned. 
 
 The simple drainage of the soil involves a question of the greatest import- 
 ance. If the ground under the house or about it is at any time, unless 
 perhaps immediately after heavy rains, saturated with moisture, we have 
 to apprehend a condition of insalubrity more or less serious in proportion 
 to the degree of saturation and the degree of foulness with which this is 
 associated. The drainage requirements of land outside of the house are 
 less easily determined, but it requires nothing more than a casual examin-
 
 REMOVAL OF LIQUID HOUSEHOLD WASTES. 227 
 
 ation of the cellar in ordinarily wet weather to determine whether or not 
 an improvement of its soil-water drainage is necessary. If it is at such 
 times wet, or even persistently damp, thorough drainage is demanded ; 
 and it is only necessary to say that this should be secured by some process 
 which can under no circumstances bring the air of the cellar into commu- 
 nication with the air of a sewer or foul drain. 
 
 I have purposely abstained in the foregoing remarks from invading 
 the province of the physician or the physiologist by discussing the influ- 
 ence of bad drainage on the health of those living subject to it. It may 
 safely be assumed that physicians who care enough about the subject to 
 interest themselves in investigating the condition of local or general 
 drainage have convictions concerning it which could not be strengthened 
 by the opinion of one belonging to another profession. The assumption 
 is also confidently made that no intelligent medical man will hesitate for 
 a nromeut to accept the dictum that the site of the house must be dry, and 
 that it and its neighborhood must be entirely exempt from the influence 
 of foul organic decomposition.
 
 GENERAL DISEASES. 
 
 FROM SPECIAL MORBID AGENTS OPERATING FROM WITHOUT, 
 
 SIMPLE CONTINUED FEVEE. 
 
 TYPHOID FEVER. 
 
 TYPHUS FEVEE. 
 
 RELAPSING FEVEE. 
 
 VARIOLA. 
 
 VACCINIA. 
 
 VARICELLA. 
 
 SCARLET FEVER. 
 
 RUBEOLA. 
 
 ROTHELN. 
 
 MALARIAL FEVERS. 
 
 PAROTITIS. 
 
 ERYSIPELAS. 
 
 YELLOW FEVER. 
 
 DIPHTHERIA. 
 
 CHOLERA. 
 
 PLAGUE. 
 
 LEPROSY. 
 
 EPIDEMIC CEREBRO-SPINAL 
 MENINGITIS. 
 
 PERTUSSIS. 
 
 INFLUENZA. 
 
 DENGUE. 
 
 RABIES AND HYDROPHOBIA. 
 
 GLANDERS AND FARCY. 
 
 MALIGNANT PUSTULE. 
 
 PYAEMIA AND SEPTICAEMIA. 
 
 PUERPERAL FEVER. 
 
 BERIBERI. 
 
 229
 
 BY JAMES H. HUTCHINSON, M. D. 
 
 DEFINITION. A continued, non-contagious fever, varying in duration 
 from one to twelve days, and in temperate climates almost invariably end- 
 ing in recovery. It may arise from any non-specific cause capable of 
 producing a temporary derangement of one or more of the important 
 functions of the body, is generally easily distinguished from the other 
 continued fevers by the absence of the characteristic symptoms of these 
 diseases, and presents in fatal cases no specific lesions. 
 
 SYNONYMS. Synocha, vel Synochus Simplex, Febricula, Ephemera or 
 Ephemeral Fever, Irritative Fever, Ardent Continued Fever, Sun Fever. 
 
 HISTORY. Much difference of opinion continues to prevail, even at the 
 present time, in regard to the existence of a simple continued fever, which, 
 on the one hand, occurs independently of local inflammations or trau- 
 matic causes, and, on the other, is distinct from typhoid, typhus, and 
 relapsing fevers ; many observers contending that the condition to which 
 this name is given is only a mild or modified form of one or other of the 
 graver varieties of continued fever, from which the characteristic symp- 
 toms are absent. Prominently among modern writers, Dr. Tweedie 1 
 has taken this view of the subject, for, after reviewing the arguments 
 for and against the recognition of simple continued fever as a distinct 
 disease, he asserts that there is not sufficient evidence to justify us in 
 encumbering our nosology with a doubtful novelty. If, however, there 
 is room for doubt as to its right to a place in the list of diseases, there is 
 certainly no good reason for characterizing it as a novelty, since it has 
 been referred to, according to Murchison, 2 by many authors from the 
 time of Hippocrates down to the present day, who not only separate it 
 from the graver forms of fever, and give a very accurate description of 
 its symptoms, but seem to have been perfectly familiar with the causes 
 which give rise to it, and to have had very correct notions as to its proper 
 management. Thus, Riverius 3 was aware of the existence of two forms 
 of simple fever the ephemeral, which lasts, as its names implies, only a 
 single day, and the Synochus Simplex, arising from the same causes, but 
 in which the fever continues for from four to seven days. Strother 4 and 
 Ball 5 also allude to this fever in terms that leave no doubt upon the mind 
 but that they distinguished it clearly from other forms of continued fever. 
 
 1 Lectures on the Continued Fevers. 
 
 2 A Treatise on the Continued Fevers of Great Britain, London, 1873. 
 
 3 The Practice of Physick, being chiefly a Translation of the Works of Lazarus Riverius, 
 London, 1678. 
 
 4 A Critical Essay on Fever, 1718. 5 A Treatise on Fevers, London, 1758. 
 
 231
 
 232 SIMPLE CONTINUED FEVER. 
 
 Among more recent writers who have made this distinction may be men- 
 tioned Lyons, 1 Jenner, 2 G. B. Wood, 3 Flint, 4 Murchison, 5 and J. C. 
 "Wilson. 6 Indeed, the weight of authority is decidedly on the side of 
 those who claim for it a recognition as a distinct and separate disease. 
 
 Unquestionably, many cases which have been classed under the head of 
 simple continued fever, are really mild or abortive cases of typhoid or 
 typhus fever, in which, in consequence of partial protection on the part 
 of the patient, the characteristic symptoms of these diseases have not been 
 developed. Such cases are seen in numbers during epidemics of these 
 diseases. But, making due allowance for this source of error, there 
 yet remain many cases which cannot be thus explained. Moreover, the 
 disease occurs at times when no such epidemics exist. It may, therefore, 
 be safely assumed that there is such a fever, and that, consequently, it 
 must be accorded full recognition. 
 
 CAUSES. Any non-specific cause which is capable of producing a pro- 
 found derangement of one or more of the important functions of the 
 body may give rise to simple continued fever. It may follow, therefore, 
 upon excesses of the table, extreme mental or bodily fatigue, exposure to 
 the direct rays of the sun, or to great heat or cold, or upon the suppres- 
 sion of a secretion. One of its most frequent causes is over-exer- 
 tion in warm weather. James C. Wilson has called attention to its 
 frequent occurrence as a consequence of the combined influence of the 
 excitement, the physical exhaustion, and the exposure to the direct rays 
 of the mid-day sun which are attendant upon surf-bathing. It is often 
 due in young children to the irritation involved in the process of teething 
 or to that caused by the presence of worms in the alimentary canal. 
 Wood taught that it might also sometimes occur during the prevalence of 
 contagious diseases as an effect of the epidemic influence in those who 
 were partially protected by a previous attack of the disease, or from some 
 other cause, but it is more probable that cases arising under these circum- 
 stances are either mild cases of the prevalent disease or else are attribu- 
 table to fatigue from nursing or to over-anxiety. The disease is more 
 common in the young than in the old, and in children than in adults 
 probably from the greater impressionability of the nervous systems of 
 the latter. 
 
 The causes of the ardent continued fever of the tropics, which is 
 usually recognized as a form of simple continued fever, do not differ 
 materially, except in degree, from those of the simpler forms of the dis- 
 ease ; but exposure to the direct rays of the sun would seem to be 
 especially prone to give rise to the disease in those who are unaccustomed 
 to the heat of a tropical climate. Robust young Europeans lately arrived 
 in a warm country are, it is said, peculiarly liable to suffer from it. 7 It is 
 most common in those parts of India which do not experience much of 
 the benefit of the monsoon rains, and whose hot season is not tempered 
 by regular breezes from the sea. It is hence more frequently met with 
 
 1 A Treatise on Fever, London, 1861. z Medical Times, March 22, 1851. 
 
 3 A Treatise on the Practice of Medicine, Philadelphia, 1855. 
 
 4 A Treatise on the Principles and Practice of Medicine, Philadelphia, 1868. 
 
 6 Ibid. 6 A Treatise on the Continued Fevers, New York, 1881. 
 
 7 Morehead, Clinical Researches on Diseases in India, London, 1856 ; also Twining, Clin- 
 ical Illustrations of the More Important Diseases of Bengal, Calcutta, 1835.
 
 SYMPTOMS AND COURSE. 233 
 
 in inland districts in which the temperature is high, but in which malaria- 
 generating conditions are absent. 
 
 SYMPTOMS AND COURSE. Simple continued fever occurs in this country 
 only as a sporadic disease, and almost invariably ends in recovery ; in 
 tropical climates, however, it may prevail epidemically, and sometimes 
 presents symptoms of a very grave character. In its mildest form it not 
 infrequently runs its course in a few hours, and is rarely prolonged much 
 beyond twenty-four, and is hence called ephemera. It then usually begins 
 somewhat abruptly with a chill, but in a few instances this is preceded by 
 feelings of languor and weariness. Febrile reaction is soon established, 
 and is generally well marked ; the pulse is quick and full, the tempera- 
 ture rises rapidly, and the face is flushed. The tongue is coated with a 
 whitish fur, the urine is scanty and high-colored, and the bowels are con- 
 stipated. Other symptoms are excessive thirst, headache, restlessness, and 
 sleeplessness, or, on the other hand, a tendency to somnolence. Vomiting 
 is not common except in those cases which follow upon an error of diet, 
 but there is generally some nausea and anorexia. Muscular pains are 
 also occasionally present, and may give rise to a good deal of distress. 
 The subsidence of these symptoms is often quite as abrupt as their onset, 
 the crisis being frequently marked by a copious perspiration. 
 
 In other cases, however, the fever is more prolonged, and the symp- 
 toms, although not differing in kind, are apt to be more severe than those 
 above detailed. The pulse is often full, hard, and bounding ; the head- 
 ache throbbing or darting in character ; the tendency to somnolence in- 
 creases, or gives place to delirium ; and the pyrexia is more marked. 
 Frequently an eruption of herpes is observed upon the lips and upon 
 other parts of the face, from which circumstance the disease is sometimes 
 called herpetic fever. Davasse 1 also observed in a few cases pale bluish 
 spots, not elevated above the surface and not disappearing under pressure, 
 which are identical with the tachcs bleuatres sometimes seen in typhoid 
 fever and other diseases, and therefore have no diagnostic value. In this 
 form the duration of the disease may be from four to ten or twelve days. 
 The defervescence is usually less rapid than the rise in temperature, and 
 is generally accompanied by a free perspiration, diarrhoea, a copious deposit 
 of urates in the urine, or less frequently by hemorrhage from the uterus 
 or rectum, 2 or from the nose, mouth, or urethra. This constitutes the 
 synocha or inflammatory fever of the older writers. In children in whom 
 there is no reason to suspect malarial poisoning the disease sometimes 
 assumes a remittent form, and then constitutes a variety of the infantile 
 remittent fever of authors a name, however, which, it must be remem- 
 bered, has been made to include a great many distinct diseases. 3 
 
 When the disease occurs in individuals who are broken down in health 
 from any cause 4 as, for instance, previous illness, deficient food, long- 
 continued anxiety, or great fatigue it not infrequently presents symp- 
 toms of an asthenic character. The febrile reaction is then less intense, 
 and the pulse feebler and more frequent, than in the variety just described. 
 The duration of the disease in this form is also generally longer. Mur- 
 chison has proposed for it the name of simple asthenic fever. 
 
 Under the name of ardent continued fever, Indian medical writers have 
 described a variety of the disease which is frequently met with in tropical 
 
 1 Quoted by Murchison. * Murchison. * Lyons. 4 Wood,
 
 234 SIMPLE CONTINUED FEVER. 
 
 countries, and which is usually much more severe than the varieties already 
 referred to. In addition to the symptoms presented by these, Morehead l 
 says that there is often intolerance of light and sound, contracted and sub- 
 quently dilated pupils, ringing noises in the ears, anxious respiration, 
 pains in the limbs and loins, and a sense of oppression at the epigastrium. 
 The bowels are sometimes confined ; at others vitiated bilious discharges 
 take place. The tongue is white, often with florid edges, and the urine 
 scanty and high-colored. At the end of from forty-eight to sixty hours 
 the febrile phenomena may subside, the skin become cold, and death take 
 place from exhaustion and sudden collapse. In some cases the symptoms 
 of cerebral disturbance are greater in degree, and in these coma may soon 
 supervene upon delirium. Convulsions, epileptiform in character, with 
 relaxation of the sphincters and suppression of urine, also frequently 
 occur, and occasionally cerebral hemorrhage. In other cases the symptoms 
 of gastritis are more prominent, or jaundice may appear and aggravate 
 the disease. 
 
 Symptoms closely resembling those just described are occasionally met 
 with in this country in patients who have been exposed for some time to 
 the direct rays of the summer sun, but who have escaped a sunstroke. 
 Indeed, a few writers have been so much impressed with the general 
 resemblance which this latter condition bears to the fevers that they have 
 insisted upon including it in this group, and have given it the name of 
 thermic or heat fever. This view of the pathology of sunstroke has, 
 however, never been generally accepted. 
 
 One of the most characteristic symptoms of the disease in all its forms 
 is the rapid rise of temperature, which may in ephemera be as great as 
 from four to seven degrees in the course of a few hours, and which may 
 be followed in a few hours more by an equally abrupt defervescence. 
 When the fever is more prolonged, although the temperature rises rapidly, 
 it may not attain its greatest elevation for from forty to sixty hours after 
 the onset of the symptoms, and its fall will be more gradual than in the 
 preceding variety. Unfortunately, there are no reliable thermometric 
 records of ardent continued fever. The urine is usually scanty and high- 
 colored during the height of the fever, especially in the severer forms of 
 the disease. Its specific gravity is high, and it contains a large amount 
 of solids, especially of urea. With the fall of the temperature it rapidly 
 increases in quantity, and is very apt to let fall a copious lateritious sedi- 
 ment on cooling. According to Parkes, 2 who closely observed six cases 
 Avith the view of determining this question, albuminuria does not occur 
 at any stage of the disease. Convalescence is usually rapid, and is not 
 liable to be interrupted by the occurrence of sequela?. 
 
 DIAGNOSIS. The diagnosis in those cases of simple continued fever in 
 which the connection between the disease and some one of the conditions 
 which have been referred to above as capable of exciting it has been dis- 
 tinctly made out, presents little difficulty. It is otherwise, however, 
 when this relationship is not apparent. Indeed, the symptoms of the 
 disease so closely resemble those of an abortive or mild attack of typhoid 
 or typhus fever, in which the characteristic eruption is wanting, that the 
 
 1 Clinical Researches on Disease in India, London, 1856. See also "Croonian Lectures," 
 by Sir Joseph Fayrer, Brit. Med. Jour., April 29, 1882. 
 
 2 The Composition of the Urine, by Edmund A. Parkes, M.D., London, 1860.
 
 PROGNOSIS. ANATOMICAL LESIONS. 235 
 
 physician may sometimes remain in doubt as to the nature of the disease 
 he has been called upon to treat, even after the recovery of the patient. 
 This difficulty will of course be especially likely to present itself during 
 the epidemic prevalence of these diseases. Simple continued fever may, 
 however, generally be distinguished from either of the latter by the much 
 greater severity of its initial symptoms, and particularly by the rapid 
 rise of temperature a rise of from four to seven degrees in the course 
 of a few hours which does not take place in these fevers, but which, it 
 must be remembered, may occur in erysipelas, measles, pneumonia, and 
 some other diseases. The absence of a characteristic eruption, although 
 it would not render it certain, would be in favor of the diagnosis of 
 simple continued fever, as would also the absence of diarrhoea in cases 
 in which there was difficulty in deciding between this disease and typhoid 
 fever. On the other hand, Murchison regards the presence of an herpetic 
 eruption on the lips as almost pathognomonic of simple continued fever; 
 but in this country such an eruption is not an infrequent attendant upon 
 fevers of malarial origin, and many observers attach great importance to 
 it in the diagnosis of these diseases. 
 
 Simple continued fever is not likely to be mistaken for relapsing fever, 
 except during epidemics of the latter disease. It may be discriminated 
 from relapsing fever, the first paroxysm of which it closely resembles, 
 by the absence of severe articular pains, of tenderness in the epigastric 
 zone, of enlargement of the liver and spleen, and of jaundice. It may 
 be mistaken for tubercular meningitis, especially in those cases in which 
 the nervous symptoms are more than usually prominent, or in which a 
 hereditary predisposition to tuberculosis exists ; but its true nature may 
 generally be recognized by its more abrupt commencement, and by the 
 absence of the constant vomiting, screaming fits, strabismus, and paral- 
 ysis so characteristic of the latter disease. 
 
 It is scarcely necessary to add that a local inflammation or a traumatic 
 cause may give rise to symptoms simulating those of simple continued 
 fever, and that the diagnosis of this disease must be uncertain until these 
 conditions have been positively ascertained to be absent, or, if present, 
 until they have been proved to be complications, and not the causes of 
 the disease. 
 
 PROGNOSIS. The prognosis of this disease, as it is met with in this 
 country, is favorable. Indeed, when uncomplicated it may be said to 
 end invariably in recovery, except in the aged and feeble, in whom, when 
 it occurs during the great heat of the summer season, it is apt to assume 
 the asthenic form, and to be accompanied by symptoms of a grave cha- 
 racter. The ardent continued fever of the tropics, on the other hand, 
 not infrequently terminates fatally, or may leave the sufferer from it a 
 chronic invalid for life, which is frequently shortened by obscure cerebral 
 or meningeal changes, which give rise to irritability, impaired memory, 
 epilepsy, headache, mania, partial or complete paraplegia, or blind- 
 ness. 1 
 
 ANATOMICAL LESIONS. Death so rarely occurs in this latitude from 
 simple continued fever that the opportunities for making post-mortem 
 examinations do not often occur. There are, however, a sufficient 
 number of such examinations on record to show that the disease gives 
 
 1 Sir Joseph Fayrer, K. C. S. I., M. D., F. R. S., Brit. Med. Jour., April 29, 1881, p. 607.
 
 236 SIMPLE CONTINUED FEVER. 
 
 rise to no specific lesions. According to Murchison and Martin, 1 inspec- 
 tion in fatal cases of ardent continued fever usually reveals the presence 
 of great congestion of all the internal organs and of the sinuses of the 
 brain and pia mater, of an increased amount of intracranial fluid, and 
 occasionally of an effusion into the abdominal cavity, and more rarely 
 into the thoracic cavity. 
 
 TREATMENT. In the milder forms of the disease little or no treatment 
 is required a fact which seems to have been recognized and acted upon 
 long ago, since Strother remarks that the cure of it is so easy that phy- 
 sicians are seldom consulted about such patients. An emetic when the 
 attack has been caused by excesses of the table, and there is reason to 
 believe that there is undigested food in the stomach, a purgative when 
 constipation exists, and cooling drinks, the effervescing draught or some 
 other saline diaphoretic, are usually the only remedies that are called for. 
 In cases in which the febrile action is more intense and prolonged, in 
 addition to the use of these remedies an effort should be made to reduce 
 the heat of the skin and the frequency of the pulse by sponging with 
 cold water and by the administration of digitalis and aconite. The head- 
 ache which is often a distressing symptom may usually be relieved by the 
 application of evaporating lotions, and restlessness quieted by the bro- 
 mides.- Subsequently, quinia may be given with advantage. The patient 
 should be restricted to liquid diet during the continuance of fever. 
 
 In the asthenic form quiuia and the mineral acids, nutritious food, and 
 very frequently alcoholic stimulants, must be given from the beginning. 
 In the treatment of the ardent continued fever of the tropics the cold 
 affusion or the cold bath, with quinia, would appear to be indicated, but 
 Morehead and other Indian physicians advise the use of evacuants with 
 copious and repeated venesections, cupping, and leeches, aided by tartar 
 emetic, till all local determination and the chief urgent symptoms are 
 removed ; and Murchison expresses the belief, founded on his own 
 observations, that life is often sacrificed by adopting less active 
 measures. 
 
 1 The Influence of Tropical Climates on European Constitutions, by James Eanald Martin, 
 F. E. S., London, 1856.
 
 TYPHOID FEVER. 
 
 BY JAMES H. HUTCHINSON, M. D. 
 
 DEFINITION. An endemic infectious fever, usually lasting between three 
 and four weeks, and associated with constant lesions of the solitary and 
 agminate glands of the ileum, and with enlargement of the spleen and 
 
 lesenteric glands. Its invasion is usually gradual and often insidious. 
 Sometimes the only symptoms present in the beginning are a feeling of 
 lassitude, some gastric derangement, and a slight elevation of tempera- 
 ture ; at others there are slight rigors or chilly sensations, headache, epis- 
 taxis, diarrhoaa, and pain in the abdomen. The principal symptoms of 
 the fully-formed disease are a febrile movement possessing certain charac- 
 ters, headache passing into delirium and stupor, diarrho3a associated with 
 ochrey-yellow stools, tympanites, pain and gurgling in the right iliac 
 fossa, a red and furred tongue, which later often becomes dry, brown, and 
 fissured ; a frequent pulse ; an eruption of rose-colored spots, occurring 
 about the seventh or eighth day, slightly elevated above the surface, dis- 
 appearing under pressure, and coming out in successive crops, each spot 
 lasting about three days ; prostration not marked in the beginning, but 
 rapidly increasing; and occasionally deafness, sweats, and intestinal 
 hemorrhages. When recovery takes place, the convalescence is usually 
 tedious, and may sometimes be protracted by the occurrence of one or 
 more relapses. 
 
 SYNONYMS. The following are a few of the many names which 
 have been given to the disease at diifereut times. Most of them have 
 ceased to be applied to it, and only three or four of them are at present 
 in general use: Febris Mesenterica, 1696; Slow Nervous Fever, 1735; 
 ^ebricula or Little Fever, 1740; Typhus Nervosus, 1760; Miliary 
 
 ''ever, 1760; Typhus Mitior, 1769; Synochus, 1769 ; Common Con- 
 tinued Fever, 1816; Gastro-Enterite, 1816; Entero-Mesenteric Fever, 
 L820; Abdominal and Darm Typhus, 1820; Typhus Fever of New 
 England, 1824; Dothienteric, 1826; Enterite-folliculeuse, 1835; Infan- 
 tile Remittent Fever, 1836 ; Enterite Septic6mique, 1841 ; Mucous Fever, 
 1844; Enteric Fever, 1846; Intestinal Fever, 1856; Ileo-Typlms, 1857; 
 
 ^ythogenic Fever, 1858 ; Mountain Fever, 1870. 
 NAME. It has been objected to the name "typhoid fever ;> as a desig- 
 
 lation for this disease that it tends to perpetuate among the laity the 
 
 listakeii impression that typhoid fever is only a modified typhus 
 fever, and also that the word typhoid has been generally applied to a 
 
 jndition of system which is common to a great many different diseases, 
 
 237
 
 238 TYPHOID FEVER. 
 
 and which is not of necessity present in this. In spite of these objections, 
 and although it must be admitted that they are not without force, I prefer 
 to retain the name typhoid fever, and for the following reasons : 1st. It 
 was the name given to the disease by Louis, to whom we owe the first 
 full and accurate description of it. 2d. It is the name by which it is 
 best known to the profession, not only in this country but abroad. 3d. 
 No other name has been proposed for it which is not quite as much 
 open to criticism. Thus the term enteric fever, originally suggested 
 by the late George B. Wood, and adopted by the London College of 
 Physicians in its Nomenclature of Diseases, is objectionable because it 
 brings into undue prominence the intestinal lesions and implies that they 
 are the cause of the fever. The same objection may be urged against 
 the name "intestinal fever," proposed by Budd. The name "pytho- 
 genic fever" rests upon a theory of the disease which has never been 
 proven, and is regarded by most observers as untenable. Under these 
 circumstances even the influence of its distinguished proposer, the late 
 Dr. Murchison, has been insufficient to secure its adoption by the pro- 
 fession at large. 
 
 HISTORY. Certain passages in the writings of Hippocrates have been 
 appealed to by Murchisou and other physicians in support of the opinion 
 that typhoid fever was a disease of at least occasional occurrence in ancient 
 times ; but, although from the nature of its causes it is probable that it 
 has occurred in all ages and wherever men have congregated in towns 
 and villages, the descriptions given by the Father of Medicine in the 
 passages alluded to are not sufficiently full to render it at all 'certain that 
 typhoid fever had ever come under his observation. Indeed, there is no 
 author of an earlier date than Spigelius 1 whose writings furnish any 
 positive evidence that he ever met with the disease. Spigelius, however, 
 in spite of the doubt thrown upon his observation by Hirsch, 2 would 
 seem to have had opportunities for examining the bodies of those who 
 had died of it, since he gives an account of several autopsies, in which he 
 says that the small intestine was inflamed and that that part of it next 
 to the ca3cum and colon was frequently sphacelated. Panarolus* also 
 says that the intestines had the appearance of being cauterized (" appar- 
 ebaut tanquam exusta ") in some cases observed by him in Rome a little 
 later in the same century. Willis 4 would certainly appear to have been 
 familiar with two forms of fever, which, from the description he gives 
 of them, could have been nothing else but typhoid and typhus fevers. 
 Sydeuham 5 also described a fever in which the prominent symptoms 
 were diarrhoea, vomiting, delirium, a tendency to coma, and epistaxis, 
 and which was distinguishable from the febris pestilens by the absence 
 of a petechial eruption. Baglivi 6 of Rome in the latter part of the 
 seventeenth century described the liemitritseus of previous writers 
 
 1 De Febre Semiterliana, Frankf., 1624; Op. Om., Amsterdam, 1745. Quoted by Mur- 
 chison. 
 
 2 Handbuch der Historisch- Geographischen Pathologie, von Dr. August Hirsch, Stuttgart, 
 1881. 
 
 3 Observat. Med. Penlecostce ; Homos, 1652. Quoted by Murchison. 
 
 4 Dr. Willis's Practice of Physick, translated by Samuel Pordage, London, 1 684. 
 
 5 The Works of Thomas Sydenham, M. D., on Acute anfi Chronic Diseases, with a Variety 
 of Annotations by George Wallis, M. D., London, 1788. 
 
 8 Opera Omnia Medico-practica et Anatomica, Paris, 1788.
 
 HISTORY. 239 
 
 under the title of febris mesenterica, and maintained that it was 
 always accompanied by and dependent on inflammation of the intestines 
 and enlargement of the meseuteric glands. A similar observation was 
 made soon after by Hoffmann, 1 and by LancisiMn 1718. The latter 
 seems to have fully recognized the characteristics of the eruption, for he 
 says that it consisted of " elevated papules which disappeared completely 
 on pressure." In 1759, Huxham described, under the title "slow, nerv- 
 ous fever," a disease which there can be no doubt was typhoid fever. He 
 moreover pointed out very clearly the distinctions between this disease 
 and another to which he gave the name of "putrid, malignant, petechial 
 fever," and which was unquestionably typhus. Sir Richard Manning- 
 ham 3 also described typhoid fever under the title of " febricula, or little 
 fever." In the preface of his work he calls attention to its insidious 
 origin, and to _the fact that its gravity was often underrated at its com- 
 mencement, " till, at length, more conspicuous and very terrible symptoms 
 arise, and then the Physician is sent for in the greatest hurry, and happy 
 for the Patient if the Symptoms, which are most obvious, do not, at this 
 Time, mislead the Physician to the Negle.ct of the little latent Fever, the 
 true Cause of these violent Symptoms." About the same time Morgagni 4 
 described certain post-mortem examinations in which the lesions of the 
 intestines were evidently those of typhoid fever. Other authors, whose 
 works bear evidence that they were familiar with the symptoms or lesions 
 of typhoid fever, are Riedel, Roederer and Wagler, Stoll, Rutty, Sarcone, 
 Pepe, Fasano, Mayer, Wrenholt, Sutton, Bateman, Muir, Edmonstone, 
 Prost, Petit and Serres, Cruveilhier, Lerminier, and Andral. 
 
 To Bretouneau 5 of Tours appears to belong the credit of having first 
 distinctly pointed out the association between certain symptoms and the 
 lesions of the solitary and agminated glands of the ileum. He regarded 
 the^ disease of the intestinal glands as inflammatory, and therefore gave 
 to it the name " dothienenterie " or "dothienenterite" (from dodiyv, a 
 tumor, and evrspov, intestine), but, unlike Prost, fully recognized the fact 
 that there was no necessary relation between the extent of the intestinal 
 lesions and the gravity of the febrile symptoms. Hirsch, however, claims 
 this honor for Pommer, whose little work on Sporadic Typhus he thinks 
 has not received the consideration its merits deserve. Louis, to whom 
 for his careful study of typhoid fever we owe a large debt of gratitude, 
 was also^ fully aware of the lesions of the intestinal glands which occur 
 in this disease. 
 
 The progress in pathology which observers were making was tempo- 
 rarily impeded about this time by the fact that while typhoid fever was 
 of frequent occurrence in Paris, typhus fever was comparatively rarely 
 met with and had not been epidemic there for several years. Bretonneau, 
 Louis, 6 Chomel, and indeed the greater number of contemporary French 
 physicians, therefore fell into the error of supposing that the fever which 
 was then common in England was identical with that which they were de- 
 scribing, while the English physicians of the period, with but few excep- 
 
 1 Opera Omnia Physico-Medico, 1699. Quoted by Murchison. 
 
 2 Opera Omnia, Geneva, 1718. 
 
 3 The Symptoms, Nature, etc. of the Febricula or Little Fever, London, 1746. 
 
 * Quoted by Hirsch. 5 Quoted by Trousseau, Archives Generales, 1826. 
 
 ' Researches Anatomiquex, Pathologiques et Therapeutiques sur la Maladie connue sur lee 
 Noms de gastro-entente, etc., par P. C. A. Louis, Paris, 1829.
 
 240 TYPHOID FEVER. 
 
 tious, contended with equal strenuousness that there was but one form of 
 continued fever, and that this was very seldom associated with disease of 
 the intestines. In the second edition of his work Louis abandoned his 
 former opinion, and admitted that the typhus fever of the English was a 
 very different disease from that which formed the subject of his treatise ; 
 but the confusion which existed in England in regard to this disease was 
 not completely dispelled until the appearance in 1849 and the following 
 two years of several papers on this subject by Sir "William. Jeuner, 1 in 
 which it was conclusively demonstrated that typhoid and typhus fevers 
 were separate and distinct diseases. In Germany, however, the non- 
 identity of these diseases was recognized as early as 1810. Murchison 
 says that the names by which they are still generally known in that 
 country, typhus exanthematicus and typhus abdominalis, were given to 
 them not long after. 
 
 The contributions made by American physicians to the knowledge of 
 typhoid fever have been both numerous and important. In 1824 it was 
 described by Nathan Smith 2 under the name of typhus fever of New 
 England, and in 1833, E. Hale, Jr., 3 of Boston, published in the 
 Medical Magazine for December an account of three dissections of per- 
 sons considered by him to have died of the disease. In reference to these 
 cases, Bartlett 4 says that if the diagnosis could be looked upon as 
 certain and positive they would constitute the first published examples 
 of intestinal lesion in New England. In February, 1835, William S. 
 Gerhard of Philadelphia, who was then under the impression that the 
 two diseases were identical, reported two cases under the name of typhus 
 fever, the symptoms and post-mortem appearances of which he showed 
 differed in no respect from those he had been accustomed to see in the 
 cases of typhoid fever he had observed with Louis during his studies 
 in Paris. The year after Gerhard had, however, the opportunity of 
 observing an epidemic of true typhus fever, and was at once struck with 
 the difference between the symptoms of the cases which then fell under 
 his care and of those he had seen in Paris. In an admirable paper which 
 appeared in the numbers of the American Journal of the Medical Sciences 
 for February and August, 1837, he points out very clearly the differ- 
 ential diagnosis between the two diseases. He particularly insisted on 
 the marked difference between the petechial eruption of typhus and the 
 rose-colored eruption of typhoid fever. He showed that the latter 
 disease was invariably associated with enlargement and ulceration of 
 Fever's patches and with enlargement of the mesenteric glands, and that 
 these conditions were never presented in the former. He also fully 
 recognized the fact that typhus fever was eminently contagious, while, 
 on the other hand, he was fully aware that typhoid fever was not 
 contagious under ordinary circumstances, "although in some epidemics," 
 he says, " we have strong reason to believe it becomes so." The appear- 
 ance of this paper marks an epoch in the history of typhoid fever. 
 Murchison, when speaking of it, says that to Gerhard, and Pennock 
 (who was associated with Gerhard in his observations) certainly 
 
 1 Med. Chir. Trans., vol. xxxiii. ; Edinburgh Monthly Jour, of Med. Sci., vols. ix. and x., 
 1849-50; and Med. Times, vols. xx., xxi , xxii., xxxiii., 1849-51. 
 
 2 Medical and Surgical Memoirs, Baltimore, 1831. 
 
 8 Obxermtions on the Typhoid Fever of New England, Boston, 1839. 
 
 * The History, Diagnosis, and Treatment of the Fevers of the United States, 1842.
 
 GEOGRAPHICAL DISTRIBUTION. 241 
 
 belongs the credit of first clearly establishing the most important points 
 of distinction between this disease and typhus fever, and M. Yalleix 
 alludes to it in terms equally complimentary. It is undoubtedly owing 
 to it, more than to any other cause, that the differential diagnosis of these 
 two diseases was perfectly understood by the great body of the profession 
 in this country long before the question of the relation which they bore 
 to each other was definitely settled in Great Britain, 1 or even in France. 
 
 Bartlett gave in the Medical Magazine, June, 1835, a short account 
 of the entero-mesenteric alterations in five cases of unequivocal typhoid 
 fever, which alterations, he said, corresponded exactly to those described 
 by Louis. In the same year, James Jackson, Jr., of Boston, published 
 an account of the intestinal lesions observed by him in cases during the 
 years 1830, 1833, and 1834; and again in a Report of Typhoid Fever, 
 communicated to the Massachusetts Medical Society in June, 1838, says 
 that the alterations of Peyer's patches had been noticed at the Massa- 
 chusetts General Hospital previous to 1833 in cases which were carefully 
 examined. In 1840, Shattuck of Boston published in the American 
 Medical Examiner an account of some cases of typhoid and typhus fever 
 which he had observed at the London Fever Hospital during the previous 
 year. In this paper, which had been already communicated to the Medi- 
 cal Society of Observation of Paris, and which had unquestionably exerted 
 a marked influence upon medical thought there, he pointed out very fully 
 the distinguishing characteristics of each disease. In 1842, Dr. Bartlett 
 issued the first edition of his work on The History, Diagnosis, and 
 Treatment of the Fevers of the United States, which contains very full 
 descriptions of both of these diseases, and of the means by which they may 
 be distinguished from each other. Since then there have been numerous 
 additions in this country to the literature of typhoid fever, among the 
 most important of which may be mentioned the chapter on the disease in 
 the respective works on The Practice of Medicine by Professors Wood and 
 Flint, the article on typho-malarial fever in the Transactions of the Inter- 
 national Medical Congress of 1876, and the article in the work on The 
 Continued Fevers, by James C. Wilson. Abroad, the medical press 
 has been no less active. Within the last twenty or thirty years Jaccoud 
 and Trousseau in France, Liebermeister and Hirsch in Germany, and 
 Tweedie and Cayley in England, have all made important additions to 
 our knowledge of the disease. To the late Dr. Murchison a of London, 
 however, is justly due the honor of having produced the best treatise on 
 typhoid fever in any language, and the writer cheerfully acknowledges 
 that he has drawn largely upon it for the material of the present article. 
 
 GEOGRAPHICAL DISTRIBUTION. Although it will be generally admit- 
 ted that the conditions of civilization favor the occurrence and extension of 
 typhoid fever, yet there is abundant evidence that they are not absolutely 
 necessary to its production, as there is no country, whether civilized or 
 not, of the diseases of which we have any knowledge, in which it has 
 not occasionally made its appearance, being met with in every variety of 
 climate. It is endemic in North America, attacking alike the inhabitants 
 
 1 The honor of having first clearly pointed out the distinguishing characters of typhoid 
 and typhus fevers has been recently claimed for Sir William Jenner, but, as we have seen 
 above, his papers on this subject were not published until thirteen years after that of 
 Gerhard. 2 A Treatise on Continued Fevers, London, 1873. 
 
 VOL. I. 16
 
 242 TYPHOID FEVER. 
 
 of Greenland and British America and those of Mexico. In our own 
 country it prevails from time to time in every State of the Union, com- 
 mitting its ravages as well among the rocks and hills of New England 
 as in the more fertile valleys of the West and South. In many of the 
 newly-settled portions of our country malarial fevers are, as is well 
 known, exceedingly rife. In proportion, however, as towns and cities 
 spring up, and as the land is properly drained, they diminish in frequency, 
 and are gradually replaced, to a certain extent at least, by typhoid fever ; 
 but the influences which produced them retain for a long time enough of 
 power to stamp their impress upon all other diseases. In large portions 
 of the AVestern and Southern States typhoid fever is therefore rarely 
 uncomplicated, and is much more likely to assume the form which will be 
 fully described later as typho-malarial fever. 
 
 Typhoid fever has also occurred frequently in Central America and the 
 West India Islands. It has prevailed from time to time in the states of 
 South America, and occasionally assumed in some of them as, for 
 instance, Brazil and Chili an epidemic form. 
 
 Typhoid fever is endemic in the British Isles, but, according to Mur- 
 chison, is most common in England, more common in Ireland than in 
 Scotland, and in Scotland more common on the west than on the east 
 coast. It also exists as an endemic disease in every country of the con- 
 tinent of Europe, from Sweden and Norway on the north to Turkey on 
 the south, and in some of them as, for instance, France and Germany 
 would seem to be of much more frequent occurrence than in this country, 
 or even in England. Medical literature is also not deficient in evidence 
 that it has prevailed at various times in all the different countries of Asia 
 and Africa and in Australia. Morehead asserted in the first edition of 
 his Clinical Researches on Diseases in India that India enjoyed an abso- 
 lute immunity from typhoid fever, but in the second edition of this work 
 he acknowledged that a larger experience had led him to change his opinion 
 on this point. Moreover, the writings of Annesley, Twining, and other 
 Indian authors furnish convincing proof that the disease is by no means 
 unknown in that country. Indeed, even the relative immunity from it 
 which it has been claimed that tropical and subtropical countries possess 
 has been found, upon a fuller study of the diseases of these countries, not 
 to exist to anything like the degree that was formerly supposed. 
 
 The occasional occurrence of typhoid fever in islands separated from 
 the main land by a considerable distance as, for instance, the island of 
 Norfolk, 1 which is situated in the Pacific Ocean four hundred miles west 
 of South America is an interesting fact, and one which, with the present 
 limits to our knowledge on the subject, it is impossible to explain satis- 
 factorily. 
 
 The ETIOLOGY of typhoid fever may be considered under the heads of 
 1, predisposing, 2, exciting causes. 
 
 1. PREDISPOSING CAUSES. All observers agree that the predisposition to 
 typhoid fever is greater in childhood and early adult life than after thirty 
 years of age. Thus, Murchisou states that during twenty-three years 
 nearly one-half the admissions to the London Fever Hospital were of 
 patients between fifteen and twenty-five years of age, and that in more 
 than a fourth, the patients were under fifteen years. On the other hand, 
 1 Metcalfe, Brit. Med Jour., Nov., 1830.
 
 PREDISPOSING CAUSES. 243 
 
 in less than a seventh were they over thirty, and in only one in seventy-one 
 did their ages exceed fifty. Taking these facts in connection with the cir- 
 cumstance that the entire population of England and Wales in 1861 was 
 12,481,323 persons under thirty years of age and 7,584,901 above thirty, 
 it follows, he says, that persons under thirty are more than four times as 
 liable to enteric fever as persons over thirty. Jackson found that the average 
 age of the patients in two hundred and ninety-one cases observed at the 
 Massachusetts General Hospital was a little over twenty-two years, the 
 average age in the fatal cases being somewhat greater than in thosfe in 
 which recovery took place. Liebermeister, from an analysis of a large 
 number of cases treated at the hospital in Basle, has arrived at the same 
 conclusion. No age, however, enjoys a complete immunity from the dis- 
 ease. Manzini l has recorded a case in which lesions of Peyer's patches 
 similar to those of typhoid fever were found in a seventh-month foetus 
 which died within half an hour after its birth. Cases are also on record in 
 which death has occurred from this disease in the first few weeks of life. I 
 have myself observed several cases in young children at the Children's 
 Hospital in Philadelphia. The probability is, that it is of even more 
 frequent occurrence in children than is generally supposed, as this class 
 of patients is not often admitted into general hospitals, and as from the 
 absence of some of its characteristic symptoms when it occurs in the 
 very young the nature of the disease is often unrecognized. 
 
 On the other hand, the disease occurs not infrequently in advanced life : 
 83 cases out of 5911 were observed at the London Fever Hospital in 
 persons over fifty, 27 in persons over sixty, and in 2 the age was seventy- 
 five. In a case recorded by D'Arcy the age of the patient was eighty- 
 six, and in one reported by Hamernyk it was ninety. 2 Bartlett long ago 
 contended that the disease was not so rare as was generally supposed 
 among people over forty years of age ; and there is really no good reason 
 to believe that the susceptibility to the causes of the disease in an unpro- 
 tected person diminishes with advancing years, the immunity from this 
 disease which elderly people appear to enjoy being probably due to the 
 fact that, as the disease is not uncommon in early life, they are in many 
 instances protected by having already passed through an attack. 
 
 The mean age of the male patients treated at the London Fever 
 Hospital was slightly in excess of that of the female, but in the cases 
 analyzed by Jackson the reverse of this was observed. 
 
 The statistics of all general hospitals, with very few exceptions, show 
 a greater or less preponderance of males over females among the typhoid 
 fever patients treated in them. According to Murchison, of 5988 cases 
 admitted into the London Fever Hospital during twenty-three years, 
 3001 were males and 2987 were females. Of 891 cases admitted into 
 the Glasgow Infirmary during twelve years, 527 were males and 364 
 females. Liebermeister states that 1297 male typhoid patients and 751 
 female were treated in the hospital at Basle from 1865 to 1870. Occa- 
 sionally, the difference is even greater than is indicated by these figures. 
 Thus, of 138 cases observed by Louis, all but 32 occurred in males. 
 When, however, we consider that the proportion of men who apply for 
 admission to hospitals when sick is much larger than that of women, 
 we should hesitate before accepting these statistics as proof that the former 
 1 Quoted by Murchison. v Quoted by Murchison.
 
 241 TYPHOID FEVER. 
 
 are more liable to be attacked by typhoid fever than the latter. Indeed, 
 the opinion which Murchisou expresses is generally accepted as correct by 
 authors, that neither sex is more likely than the other to contract the dis- 
 ease. Liebermeister asserts that pregnant and puerperal women and 
 those who are nursing infants enjoy a relative immunity. On the other 
 hand, Nathan Smith says that while the sexes are equally liable to it, 
 more women are cut off by it than men, in consequence of its appearance 
 during pregnancy or soon after parturition. 
 
 It was long ago pointed out by certain French observers that new- 
 comers are much more liable to be attacked by typhoid fever than persons 
 who have lived for some time in an infected locality. In 129 cases 
 examined with reference to this point by Louis, the patients in 73 had not 
 resided in Paris more than ten months, and in 102 not more than twenty 
 months. Bartlett noticed that during an epidemic in Lowell which he 
 had the opportunity of observing the disease attacked the recent residents 
 in much larger proportion than the old. Liebermeister also calls atten- 
 tion to this peculiarity of the disease. Murehison's experience in refer- 
 ence to this point has been somewhat similar, for he found upon examina- 
 tion of the records of the London Fever Hospital that 21.84 per cent, 
 of the patients admitted there for typhoid fever had been residents of 
 London for less than two years. Almost all of these patients came, he 
 says, from the provinces of England, and were in good health and com- 
 fortable circumstances at the date of their arrival in London and for some 
 time after. Moreover, a large proportion of them were first attacked 
 within a few weeks after changing their residence from one part of London 
 to another. He also refers to instances in which successive visitors at 
 the same house at intervals of months, or even years, have been seized 
 shortly after their arrival with typhoid fever or with diarrhoea, from 
 which the ordinary occupants were exempt. These facts indicate with 
 sufficient clearness that habitual exposure to the causes of the disease 
 confers, to a certain extent at least, an immunity from their effects, just 
 as it does in the various forms of disease arising from malaria. It is not 
 unlikely, as has been suggested by Wilson, 1 that one of the causes of 
 the frequency of typhoid fever in the early autumn in our American 
 cities among well-to-do people is to be formed in the circumstance that 
 during an absence of two months or more in the mountains or by the sea 
 they have to some extent lost the immunity acquired by habitual exposure 
 to sewer emanations, and return to the atmosphere of the city unprotected. 
 
 There is no evidence that any particular occupation acts as a predis- 
 posing cause of typhoid fever. Among the 621 patients treated at the 
 Pennsylvania Hospital during the last ten years, were representatives of 
 every branch of industry, ami the same fact has been observed at every 
 general hospital, not only in this country, but abroad. There is also no 
 reason to believe that the station in life of itself exerts much influence in 
 predisposing to the disease. The rich suffer equally with the poor. It 
 would appear, indeed, that since the recent general introduction of ill- 
 ventilated water-closets and stationary washstands into the houses of the 
 
 1 The occurrence of typhoid fever in the early fall among persons who have spent the 
 summer out of town is, however, susceptible of another explanation. In many instances 
 they have returned to houses which have been not only unoccupied, but closed, during 
 several months, and which, in consequence of the more or less complete evaporation of 
 the water in the traps of the drain-pipes, have been thoroughly permeated by sewer gas.
 
 PREDISPOSING CAUSES. 245 
 
 better classes the liability of the former to suffer from the disease is 
 greater than that of the latter. 
 
 Persons recovering from an illness or in an infirm condition of health 
 do not appear to be more liable than others to be attacked by typhoid fever. 
 Among the many patients who have fallen under my care only a very 
 few were in ill-health at the time of their seizure. The same fact has 
 been noticed by Murchison and other observers. Indeed, Liebermeister 
 goes so far as to say that typhoid fever attacks by preference strong a ad 
 healthy persons, while it avoids those suffering with chronic ailments. 
 That this latter class of patients enjoys no immunity from the disease 
 when exposed to its causes is shown by a fact which he himself records. 
 During his service at the hospital at Basle from 1865 to 1871 several of 
 the patients in the medical and surgical wards were attacked by typhoid 
 fever, the cases being especially numerous in two rooms which were 
 situated one directly over the other. Upon investigation it was found 
 that a wooden pipe which extended from the sewer to the roof ran by 
 both of these rooms. The sewer at the point where this pipe ran into 
 it was of faulty construction, and was turned at a right angle, so that 
 the refuse matter collected there. Since this source of infection was 
 made known repeated cleansings, washings, and disinfections have been fol- 
 lowed by satisfactory improvement, and Liebermeister believes that if the 
 sewer were entirely altered the infection would disappear. 
 
 It would seem only natural that intemperance, by diminishing the 
 powers of resistance in the individual, would increase his liability to con- 
 tract typhoid fever, but there is no proof that it does so. Few of the 
 patients who have come under my care were intemperate, and still fewer 
 were broken down by this cause. There is also no evidence that grief, 
 fear, or any other depressing emotion is a predisposing cause of the dis- 
 ease, and the same may be said of bodily fatigue and overcrowding. On 
 the other hand, much importance has been attached by writers to idiosyn- 
 crasy as a predisposing cause of typhoid fever. What the peculiarities 
 of constitution are which increase the liability to the disease are not def- 
 initely known, but there can be no question that it occurs much more fre- 
 quently, and is much more fatal, in some families than in others. 
 
 Typhoid fever occurs with the greatest frequency in this country, as 
 it does with very few exceptions elsewhere, during the latter half of 
 summer and the early part of autumn. Indeed, its greater prevalence 
 at this season than at other times has given to it the name of 
 " autumnal " and " fall fever," by which it is popularly known in many 
 sec ions of this country as well as of England. On the other hand, 
 the disease is usually at its minimum in May and June. The number of 
 cases, however, does not usually immediately diminish upon the onset of 
 cold weather. On the contrary, E. D. Cleemann, 1 from a comparison of the 
 mortality returns of Philadelphia for a period of ten years, observed that 
 after diminishing in November they not infrequently underwent a marked 
 increase in December. Of 621 cases treated at the Pennsylvania Hos- 
 pital during the last ten years, 89 were admitted during spring, 259 
 during summer, 182 during autumn, and 91 during winter. Of 5988 
 cases treated at the London Fever Hospital, 2 759 were admitted in the 
 
 1 Transactions of the College of Physicians of Philadelphia, 3d S. vol. iii. 
 1 Murchison.
 
 246 TYPHOID FEVER. 
 
 spring, 1490 in summer, 2461 in autumn, and 1278 in winter. Of the 
 whole number, 27.7 per cent, were admitted in the two mouths of October 
 and November, and in April and May only 7.3 per cent. Hirsch 1 has 
 published statistics which do not differ materially from these. He also 
 mentions the interesting fact that in Rio Janeiro the maximum of the 
 disease occurs in the months from March to June, or, in other words, in 
 the season which in that latitude corresponds to our autumn. There are, 
 however, some exceptions to the general rule of the greater prevalence of 
 the disease during the autumn. Bartlett, who was aware of its greater 
 frequency at that time, refers to an extensive and fatal epidemic which 
 occurred in the city of Lowell in Massachusetts during the winter and 
 early spring ; and similar visitations have been observed in other places. 
 
 Most authors agree with the statement made by Murchison, that typhoid 
 fever is unusually prevalent after summers remarkable for their dryness 
 and high temperature, and that it is unusually rare in summers and 
 autumns which are wet and cold. Certainly, the severest epidemic of the 
 disease which has been observed in Philadelphia in several years occurred 
 in the year 1876, during and after a summer of exceptionally high tem- 
 perature, and one characterized by a decidedly diminished rainfall. Still, 
 there can be no question that the increased prevalence of the disease at 
 this time was due, in part at least, to the crowded condition of the city 
 consequent upon the Centennial Exhibition. In 1872, although the mean 
 of the summer temperature was slightly higher than that of 1876, the 
 disease did not prevail in an epidemic form. This may be explained by 
 the fact that the rainfall of the summer months of this year was decid- 
 edly greater than the average. Hirsch, however, attaches much less 
 importance to temperature as a factor in the production of typhoid fever 
 than most other authors. He says that he has found, from a comparison 
 of a large number of epidemics, that the disease occurs almost as often 
 in cool as in hot summers, in cold as in warm autumns, and in mild as 
 in severe winters. Murchison, moreover, admits that mere dryness of 
 the atmosphere is net conducive to an increase of typhoid fever. On the 
 contrary, he says, warm, damp weather, when drains are most offensive, is 
 often followed by an outbreak of the disease. 
 
 The relation which temperature and moisture bear to the causation of 
 typhoid fever is therefore not definitely ascertained. It is certain, how- 
 ever, that the largest number of cases does not occur at the period of the 
 greatest heat, but is usually not observed until from six weeks to two 
 months afterward, and the minimum is not reached until about the same 
 length of time after that of the most intense cold. This difference in 
 time Murchison explains by the hypothesis that the cause of the dis- 
 ease is exaggerated or only called into action by the protracted heat of 
 summer and autumn, and that it requires the protracted cold of winter 
 and spring to impair its activity or to destroy it. On the other hand, 
 Liebermeister, who belives that the breeding-places of typhoid fever lie 
 deep in the earth, holds that the time is consumed in the penetration of 
 the changes of temperature to the place where the typhoid poison is 
 elaborated, in the development of the poison without the human body, 
 and in the period of incubation. In some places the maximum of the 
 disease is observed earlier in the year than in others. In Berlin, for 
 
 1 Handbuch Jer Historisch-Geographischen Pathologic, Stuttgart, 1881.
 
 PREDISPOSING CAUSES. 247 
 
 instance, the largest number of fatal cases occurs in October, while in 
 Munich it does not occur until February. This depends, he thinks, upon 
 the difference in the distance beneath the earth's surface of these breeding- 
 places in different localities, and the deeper they are the longer, he says, 
 will it be before they are affected by the heat of summer or the cold of 
 winter, since the changes of the temperature of the air are followed by 
 corresponding changes in the temperature of the earth more and more 
 slowly the deeper we go beneath the surface. 
 
 Buhl and Pettenkofer have, as the result of a series of observations 
 carried on in Munich over a number of years, reached the conclusion that 
 an intimate relation exists between the variations in the degree of prev- 
 alence of typhoid fever and the rise and fall of water in the soil. 
 When the springs were low they found that there was a marked increase 
 in the number of cases ; when, on the other hand, they were high, there 
 was just as decided a diminution. Out of this fact they have evolved the 
 theory that the cause of typhoid fever lies deep in the soil, and has the 
 power of multiplying itself there, and that this property is very much 
 increased when the water-level sinks, and the upper layers of the earth 
 are consequently exposed to the air. It is, on the contrary, diminished 
 when the water-level rises and the earth is again saturated with moisture. 
 It is unquestionably true, as has already been stated, that it is principally 
 after hot and dry weather, when the springs are of-course low, that 
 typhoid fever is most prevalent, and that it very frequently subsides after 
 the occurrence of very heavy rains ; but it is not necessary to adopt the 
 theory of Buhl and Pettenkofer to explain these facts. It seems quite as 
 probable that the increased prevalence of the disease after dry weather is 
 due, as suggested by Buchanan and Liebermeister, to the greater amount 
 of solid matter which is then suspended in the water of the springs. A 
 larger proportion of the germs of the disease, if there should be any present 
 in the soil, will therefore be contained in any given quantity of the drink- 
 ing-water. The theory fails to account, as pointed out by Murchison, 
 for the connection which is frequently observed between defective house- 
 drainage and outbreaks of typhoid fever, occurring irrespectively of any 
 variations in the subsoil water. And, moreover, outbreaks of the disease 
 have occurred under precisely opposite circumstances, as the outbreak at 
 Terling in 1867, recorded by Thorne, 1 which was coincident with a rise 
 in the subsoil water after drought. 
 
 It is believed in many parts of our country that there is an antagonism 
 between typhoid fever and the various forms of malarial fever, and it is 
 unquestionably true that in many districts in which the latter were for- 
 merly prevalent they have ceased to be frequent, and have been replaced 
 apparently by the former. In the cultivation of the soil the causes of 
 malarial fever disappear, or at least become less potent. On the other 
 hand, the increase of population and the neglect of all sanitary laws in 
 the building of towns, and the construction of sewers with their house 
 connections, seem to favor the occurrence of typhoid fever. But there is 
 no real antagonism between the diseases. During the recent Civil War 
 typhoid fever was not infrequently developed in soldiers suffering from 
 malarial disease. Indeed, so frequent was it to have the manifestations 
 of the two diseases in the same individual that many observers at that 
 
 1 Quoted by Murchison.
 
 248 TYPHOID FEVER. 
 
 time supposed they had a new disease to deal with, to which they gave 
 the name of tvpho-malarial fever. 
 
 2. EXCITING CAUSES. Much diversity of opinion has existed in times 
 past and to a certain extent continues to exist, in regard to the contagious- 
 ness of typhoid fever. In the early part of this century there was quite 
 a number of good observers, including Nathan Smith in this country, 
 and Bretonneau and Gendron of Chateau du Loir in France, who held the 
 opinion it was an eminently contagious disease. Indeed, Smith went 
 so far as to say that its contagiousness was as fully demonstrated as that 
 of measles, small-pox, or any other disease universally admitted to be 
 contagious. This was also the opinion of \Villiam Budd, who main- 
 tained that the contagious nature of typhoid fever was the master truth 
 in its history. The late Sir Thomas AVatson was also a warm supporter 
 of the same view. At the present time, however, the large majority of 
 physicians, whose opportunities for observation give weight to their 
 opinions, do not regard the disease as contagious in the strict sense of the 
 word. During the past twenty-four years I have been almost uninter- 
 ruptedly connected with large general hospitals, and during that time 
 have had a large number of cases of typhoid fever under my care, and a 
 still larger number more or less under my observation. During all this 
 time I have never known but one case to originate within a hospital, and 
 that occurred in a servant whose duties did not bring her in immediate 
 contact with the sick. Murchison's experience with a much larger num- 
 ber of cases has been very similar. In twenty-three years, in Avhich 
 5988 cases were treated in the London Fever Hospital, only 17 residents 
 contracted the disease, and most of these had no personal contact with the 
 sick. Liebermeister asserts that he has never known a case to originate 
 in a hospital from direct contagion. AVhen such cases appeared to have 
 occurred, they could generally be traced, he says, to some defective sani- 
 tary condition of the hospital. 
 
 There are, nevertheless, many facts on record which, unless duly 
 weighed, appear to lend a good deal of supjjort to the theory of the con- 
 tagiousness of typhoid fever. Among the most important of these are 
 (1) the occurrence in rapid succession of several cases in the same house, 
 and (2) the limited epidemics which occasionally follow the arrival of an 
 infected person into a previously healthy locality. These facts are. how- 
 ever, susceptible of an entirely different explanation. 
 
 1. In those instances in which several cases of the disease have occurred 
 in the same house, it not infrequently happens that some defect in its 
 sanitary conditions is detected, or that the drinking-water is found to be 
 impure. The same cause which produced the first case may, therefore, 
 also have produced those which succeeded it. Indeed, the interval between 
 the cases is sometimes so short that for this reason alone, if there were no 
 other, they could scarcely be attributed to contagion. It not infrequently 
 happens that the seizure of one member of a large family is followed on 
 the next day by that of another, and on the third or fourth by that of 
 still another. Now, while it is undoubtedly true that the period of incu- 
 bation has appeared in some cases to be very short, we know that under 
 ordinary circumstances it is usually about two weeks. 
 
 2. The explanation of the second fact is not more difficult, but in order 
 that it may be clear to the reader it will be well to give in detail a few
 
 EXCITING CAUSES. 249 
 
 of the instances on record in which the arrival of an individual sick with 
 typhoid fever in a previously healthy locality has been followed by an 
 outbreak of the disease. Nathan Smith refers to two cases of this 
 character. In both of these the disease appeared to be communicated to 
 several individuals by patients who had contracted the disease elsewhere. 
 So little is said in the reports of these cases of the water-supply of the 
 localities in which they occurred, or of the manner of disposing of the 
 discharges of the patients, that they would scarcely now be used as argu- 
 ments in favor of the contagiousness of the disease. The report of a 
 local epidemic by Austin Flint, Sr., is more satisfactory in this respect, 
 and is as follows : A stranger was detained in a small village near Buifalo 
 by an illness which proved fatal in the course of a few days, and which 
 was recognized as typhoid fever by his attending physicians. Up to this 
 time, it is stated, typhoid fever had never been known in the neighbor- 
 hood. In the course of a month more than one-half of the population, 
 numbering forty-three, was attacked by the disease, and ten had died. 
 The family of the tavern-keeper at whose house the stranger lodged was 
 the first to suffer, and of the families immediately surrounding the tavern 
 but one wholly escaped, that of a man named Stearns. Upon investiga- 
 tion, it was ascertained that this family alone, of all these families, did 
 not use the well belonging to the tavern, but had its own water-supply. 
 The occurrence of the disease naturally produced great excitement, and 
 Stearns, between whom and the tavern-keeper a quarrel existed, was sus- 
 pected of having poisoned the well ; but an examination of the water 
 showed this suspicion to be unfounded. There can, however, be little 
 doubt that the water of the well, which was in all probability contam- 
 inated by the discharges of the stranger, was the means of propagating 
 the disease ; for although it is said that the family of Stearns was cut off 
 by the quarrel from all intercourse with that of the tavern-keeper a fact 
 upon which some stress is laid by Flint it does not appear that a 
 similar isolation existed as regards the other families affected. 1 
 
 The manner in which the arrival of a sick person may cause the dis- 
 semination of the disease in a previously healthy community is even better 
 shown by the following histories of local outbreaks : 2 
 
 " The water-supply pipes of the town of Over Darwen were leaky, and 
 the soil through which they passed was soaked at one spot by the sewage 
 of a particular house. No harm resulted till a young lady suffering from 
 typhoid fever was brought to this house from a distant place. Within 
 three weeks of her arrival the disease broke out and 1500 persons were 
 attacked. At Nunney a number of houses received their water-supply 
 from a foul brook contaminated by the leakage of a cesspool of one of 
 the houses, but no fever showed itself till a man ill with typhoid came 
 from a distance to this house. In about fourteen days an outbreak of 
 fever took place in all the houses." 
 
 There are many other observations which seem to render it certain that 
 the alvine dejections are a most important medium by which typhoid 
 fever is communicated to others; and yet there is no evidence that they 
 possess this power in a fresh condition. They have been repeatedly exam- 
 ined, and even handled, with impunity, and, as has already been stated, it 
 
 1 A Treatise on the Principles and Pr/ictice of Medicine, by Austin Flint, M. D., Phila- 
 delphia, 1868. * Wm. Cayley, M. D., Brit. tied. Jour., March 15, 1880.
 
 250 TYPHOID FEVER. 
 
 is rare for the disease to be imparted to the immediate attendants upon 
 the sick, or in a well-ventilated hospital to the other patients in the same 
 ward, provided that the discharges are disinfected and removed imme- 
 diately after being passed, and the bed-linen and clothes of the patient 
 changed whenever they are soiled. The feces must therefore undergo 
 some changes before they become possessed of virulent properties. This 
 appears to be shown conclusively by the following facts : (1) laundresses 
 who wash the soiled clothes of typhoid fever patients not infrequently 
 contract the disease ; (2) the occupants of houses connected by ill-trapped 
 drains with sewers into which the discharges of such patients have found 
 their way often suffer severely from the disease ; and (3) the use of water 
 polluted by such discharges is, as has already been shown, almost cer- 
 tain to induce the disease in persons not protected by a previous attack. 
 
 The following histories of outbreaks of typhoid fever will show 
 clearly how the dejections of patients may be the means of propagating 
 the disease to others : 
 
 ILLUSTRATIVE CASES. Lausen 1 is a village lying on the railway between 
 Basle and Olten shortly before coming to the great Hauenstein Tunnel. It 
 is situated in the Jura, in the valley of the Ergolz, and consists of 103 
 houses with 819 inhabitants. It was remarkably healthy, and resorted to 
 on that account as a place of summer residence. With the exception of six 
 houses it is supplied with water by a spring with two heads which rises 
 above the village at the southern foot of a mountain called the Stock- 
 halder, composed of oolite. The water is received into a well built 
 covered reservoir, and is distributed by wooden pipes to four public 
 fountains, whence it was drawn by the inhabitants. Six houses had an 
 independent supply five from wells, one from the mill-dam of a paper- 
 factory. On August 7, 1872, ten inhabitants of Lausen, living in dif- 
 ferent houses, were seized by typhoid fever, and during the next nine 
 days fifty-seven cases occurred, the only houses escaping being those six 
 which were not supplied by the public fountains. The disease continued 
 to spread, and in all 130 persons were attacked, and several children who 
 had been sent to Lausen for the benefit of the fresh air fell ill after their 
 return home. A careful investigation was made into the causes of this 
 epidemic, and a complete explanation was given. Separated from the 
 valley of the Ergolz, in which Lausen lies, by the Stockhalder, the 
 mountain at the foot of which the spring supplying Lausen rises, is a 
 side valley called the Furjust, traversed by a stream, the Furleubach, 
 which joins the Ergolz just below Lausen, the Stockhalder occupying 
 the fork of the valley. The Furlenthal contains six farm-houses, which 
 were supplied with drinking-water, not from the Furleubach, but by a 
 spring rising on the opposite side of the valley to the Stockhalder. Now, 
 there was reason to believe that under certain circumstances water from 
 the Furlenbach found its way under the Stockhalder into one of the 
 heads of the fountain supplying Lausen. It was noticed that when the 
 meadows on one side of the Furlenbach were irrigated, which was done 
 periodically, the flow of water into the Lausen spring was increased, 
 rendering it probable that the irrigation water percolated through the 
 superficial strata and found its way under the Stockhalder by sub'erra- 
 nean channels in the limestone rock. Moreover, some years before a 
 1 William Cay ley, M. D., British Medical Journal, Mar. 15, 1880.
 
 ILLUSTRATIVE CASES. 251 
 
 hole 011 one occasion formed close to the Furlenbach by the sinking in 
 of the superficial strata, and the stream became diverted into it and dis- 
 appeared, while shortly afterward the spring of Lausen began to flow 
 much more abundantly. The hole was filled up, and the Furlenbach 
 resumed its usual course. The Furlenbach was unquestionably contam- 
 inated by the privies of the adjacent farm-houses ; the soil-pits communi- 
 cated with it. Thus, from time immemorial, whenever the meadows of 
 the Furlenthal were irrigated the contaminated water of the Furlenbach, 
 after percolation through the superficial strata and a long underground 
 course, helped to feed one of the two heads of the fountain supplying 
 Lausen. The natural filtration, however, which it underwent rendered 
 it perfectly bright and clear, and chemical examination showed it to be 
 remarkably free from organic impurities, and Lausen was extremely 
 healthy and free from fever. On June 10th one of the peasants of the 
 Furleuthal fell ill with typhoid fever, the source of which was not clearly 
 made out, and passed through a severe attack with relapses, so that he 
 remained ill all summer ; and on July 10th a girl in the same house, and 
 in August a boy, were attacked. Their dejections were certainly, in part, 
 thrown into the Furlenbach ; and, moreover, the soil-pit of the privy 
 communicated with the brook. In the middle of July the meadows of 
 the Furleuthal were irrigated as usual for the hay crop, and within three 
 weeks this was followed by the outbreak at Lausen. 
 
 In order to demonstrate the connection between the water-supply of 
 Lausen and the Furlenbach, the following experiments were performed. 
 The hole mentioned above as having on one occasion diverted the Fur- 
 lenbach into the presumed subterranean channels under the Stockhalder 
 was cleared out, and 18 cwt. of salt were dissolved in water and poured 
 in, and the stream again diverted into it. The next day salt was found 
 in the spring at Lausen. Fifty pounds of wheat flour were then poured 
 into the hole, and the Furlenbach again diverted into it, but the spring 
 at Lausen remained clear, and no reaction of starch could be obtained, 
 showing that the water must have found its way under the Stockhalder,' 
 in part by percolation through the porous strata, and not by distinct 
 channels. 
 
 Volz 1 refers to an epidemic which occurred at Gerlachsheim, a village 
 of Germany, some years ago, in which, in the course of three weeks, 52 
 persons residing on one of the principal streets were attacked by the 
 disease. It was found, upon investigation, that they all got their 
 water from a well which was polluted by the stools of the first patient. 
 A. Pasteur 2 reports an epidemic caused by the contamination of a well 
 by typhoid dejections, and which ceased when the use of the water was 
 discontinued. Niericker 3 also reports an outbreak which was found to 
 be due to a similar pollution of the drinking-water, and whith likewise 
 ceased when the water-supply was derived from another source. 
 
 An outbreak of the disease which occurred in a farm-house situ- 
 ated about eight miles from the city of Philadelphia came under my 
 own observation. The first case occurred in a young girl of sixteen, 
 who, with the exception of an occasional visit to the city, had not 
 been away from her own home for several months before she was 
 
 1 Schmidt's Jahrbuch. 2 Revue med. de la Suisse, Mars 15, 1881. 
 
 *Schweiz. Corr. EL, ix. 1, 1879.
 
 252 TYPHOID FEVER. 
 
 taken ill. The disease ran in her a severe course, and eventually ter- 
 minated fatally. About three weeks afterward four other members of 
 the family were attacked, one of whom died. Two other persons, living 
 in a house on the opposite side of the road, but who were in the habit 
 of drinking water from the same well, also took the disease. There 
 was no other case of typhoid fever in the immediate vicinity, nor had 
 there been for some time. The farm-house is situated in a cup-shaped 
 depression, so that water flowed toward it from all directions. The cellar 
 was constantly filled with water during the winter, and just before the 
 outbreak had contained not only an unusually large quantity, but also a 
 large amount of decaying vegetable matter. The well from which the 
 family drew their drinking-water is situated within a few feet of the 
 kitchen door, and at some distance from the cesspool used by the family, 
 so that there was no reason to believe that there was any communication 
 between the two. The wall of the well was found to be very much 
 loosened by the roots of two trees growing in the immediate vicinity. 
 As the ground was also very much cut up by the burrows of rats, the 
 water used for the various household purposes, and which Avas habit- 
 ually thrown into a gutter which ran past the well, found a ready access 
 to it. There would seem to be but little doubt that the first patient con- 
 tracted the disease in some way during her visits to the city, and that 
 the disease in the other patients arose from their drinking the water of 
 the well which had been polluted by that used in washing her soiled 
 linen. 
 
 Ballard 1 has shown very clearly that milk may also be a medium 
 of communication of the disease. He found that an epidemic which 
 occurred in the parish of Islington, London, in 1871 was (1) almost 
 entirely confined to a district comprised within a circle having a radius 
 of not more than a quarter of a mile ; (2) that out of 62 families living 
 within this district, who were known to have suffered from typhoid fever, 
 54 were constantly supplied with milk from a particular dairy, and it was 
 'satisfactorily proved that at least three of the remaining eight had occa- 
 sionally partaken from the same source ; and (3) that out of 142 families, 
 comprising all the customers of this dairy, and living not only within 
 the district above specified, but in other parts of the parish, 70, or very 
 nearly one-half, were invaded by typhoid fever within the ten weeks 
 during which the outbreak lasted. Upon a visit to the farm from which 
 the milk came it was ascertained that a member of the dairyman's family 
 had been ill with typhoid fever, and that the water of the well which 
 supplied the family with drinking-water had been polluted by his 
 discharges. Although the dairyman denied that this water had ever 
 been mixed with the milk, he admitted that it had been used to 
 wash the inilk-pans. Murchison was also able, in an outbreak which 
 occurred in another district of London, to trace the disease to the same 
 source. 
 
 Typhoid fever may be likewise propagated in consequence of the con- 
 tamination of the atmosphere by the typhoid poison. This may be the 
 result of allowing the undisinfected stools, or linen soiled by them, to 
 remain for some time exposed to the air, or may arise from pollution 
 
 1 On a Localized Outbreak of Typhoid Fever in Islington, London, 1871.
 
 ILLUSTRATIVE CASES. 253 
 
 of the soil from the same cause or from defective sewage. Hermann 
 Schmidt 1 refers to several epidemics breaking out in garrisons which he 
 believed to be due to pollution of the soil. In the citadel of Wurzburg 
 typhoid fever occurred through several years, and persisted in spite of 
 the cutting oif of the water-supply, which was believed to be impure. 
 It was finally found that the ground upon which it was built was satu- 
 rated with all kinds of impurities. Volz refers to outbreaks of the dis- 
 ease from the same cause. 
 
 But perhaps the most striking example of this mode of propagation 
 of the disease is that recorded by Budd, 2 and is as follows : Two adjacent 
 cottages, which for the sake of convenience may be designated as Nos. 
 1 and 2, had a privy in common, which was in the form of a lean-to 
 against the gable end of No. 2. Through this privy there flowed with 
 very feeble current a small stream which formed the natural drain for it. 
 Having already performed this office for some twenty or thirty other 
 houses higher up its course, the stream had acquired all the character of 
 a common sewer before reaching the cottages in question. About a quar- 
 ter of a mile farther on it acted as a drain for a privy, common as before, 
 for two other cottages, Nos. 3 and 4. Notwithstanding the condition of 
 the stream, which was so foul that it was said that the stink from it was 
 often enough " to knock a man down," no evil result appeared to have 
 occurred until a man living in No. 1 contracted typhoid fever else- 
 where, it was believed. As a matter of course, all his discharges were 
 thrown into the common privy. In this way for more than a fortnight 
 the stream which passed through it was daily fed with the specific excreta 
 from the diseased intestines of the patient. No further cases occurred 
 until the latter end of the third week or the beginning of the fourth 
 week, when several persons were simultaneously attacked by the same 
 fever in all four cottages. From first to last, the outbreak was confined 
 to these four cottages, and there was no other case of typhoid fever at 
 this time in the neighborhood. 
 
 The mattrass used by typhoid-fever patients, their bed-linen and clothes, 
 have each been the medium by which the disease has been communicated 
 to others. This is, as has already been pointed out, unquestionably due to 
 the fact that these articles are generally soiled by their discharges, and 
 that time has been allowed for the latter to acquire infective properties. 
 It seems not improbable that the few cases in which the disease appears 
 to have been contracted from the dead body may be explained in the same 
 way. The statistics of the London Fever Hospital show that laundresses 
 are more liable to contract typhoid fever than the immediate attendants 
 upon the sick. This liability is greatest in those cases in which the bed- 
 linen and clothes of patients are not immediately disinfected after use. 
 According to Budd, the sputa in cases of typhoid fever where bron- 
 chitis is excessive may sometimes contain the germs of the disease, and 
 mentioned a case in which he believed they were the means by which the 
 disease was propagated. 
 
 The question naturally arises here, whether this is the only way in 
 
 1 Die Typhus Epidemic in Fusilier Bat. zn Tubingen in Winter 1876-77, enstanden durch 
 tinaihmung, gif tiger Grundluft, Tubingen, 1880. 
 
 2 Typhoid Fever : Its Nature, Mode of Spreading, and Prevention, by William Budd, M. D., 
 F. K, S, London, 1873.
 
 254 TYPHOID FEVER. 
 
 which the disease can originate. This is a subject which has given rise 
 to a good deal of controversy, and therefore demands some consideration 
 at our hands. On the one hand, it is argued that typhoid fever never 
 occurs in the absence of the specific poison or germ of the disease, and 
 that this is contained principally, if not wholly, in the alvine dejections. 
 On the other hand, it is contended that it may, and often does, originate 
 spontaneously, and that all that is necessary to produce it is the presence 
 of decomposing fecal or other organic matter, and the consequent contam- 
 ination of the food, drink, or atmosphere. Both of these views have 
 found able advocates. Among the upholders of the latter view is Mtir- 
 chison, who cites the histories of several outbreaks of typhoid fever which 
 occurred in localities which had not been visited by it for many years, 
 and which, after a careful investigation of all the circumstances attending 
 them, he was forced to conclude had no connection with any previous 
 case of the disease, and could only be explained by admitting that it 
 might occasionally have an independent origin. Among the more remark- 
 able of these outbreaks is the following, which we give in Murchison's 
 own words : 
 
 "In August, 1829, 20 out of 22 boys at a school at Clapham within 
 three hours were seized with fever, vomiting, purging, and excessive pros- 
 tration. One other boy, aged three, had been attacked with similar symp- 
 toms two days before, and had died comatose in twenty-three hours; 
 another boy, aged five, died in twenty-five hours ; all the rest recovered. 
 Suspicions were entertained that they had been poisoned, and a rigorous 
 investigation ensued. The only cause which could be discovered was, 
 that a drain at the back of the house, which had been choked up for 
 many years, had been opened two days before the first case of illness, 
 cleared out, and its contents spread over a garden adjoining the boys' 
 playground. A most offensive effluvium escaped from the drain, and 
 the boys had watched the workmen cleaning it out. This was consid- 
 ered to be the cause of the disease by Latham and Chambers, and by 
 others who investigated the matter, and also by Sir Thomas Watson. 
 The morbid appearances in the two fatal cases were described as like 
 those of the common fevers of this country. Peyer's patches and the 
 solitary glands of the small and large intestines were enlarged like 
 'condylomatous elevations,' and in one case the mucous membrane over 
 them was slightly ulcerated. The mesenteric glands were enlarged and 
 congested." 
 
 "A remarkable instance of a circumscribed outbreak of fever was 
 recorded by Sir R. Christison in 1846. It occurred in an isolated farm- 
 house in the thinly-peopled county of Peebles, N. B. Every one of 
 the fifteen residents was seized with fever, and three died. Many of the 
 servants who worked during the day at the farm were also affected, but 
 none communicated the disease to their families who did not visit the 
 farm. There was no evidence that the disease was imported from with- 
 out, and the only explanation of the outbreak was, that the drains and 
 sewers were found all closed and obstructed with the accumulated filth 
 proceeding from the privies and farm-yard, the effluvia from which was 
 very offensive." 
 
 "About Easter, 1848, a formidable outbreak of fever occurred in the 
 Westminster School and the Abbey Cloisters, and for some days there
 
 ILLUSTRATIVE CASES. 255 
 
 was a panic in the neighborhood respecting the ' Westminster fever.' No 
 case of fever had occurred in the Abbey Cloisters for three years, and 
 there was no evidence of its having been imported. Within little more 
 than eleven days it affected thirty-six persons, all of the better class, and 
 in three instances it proved fatal. Shortly before its first appearance 
 there occurred two or three days of peculiarly hot weather, and a dis- 
 agreeable stench, so powerful as to induce nausea, was complained of in 
 the houses in question. It was found that the disease followed very 
 exactly in its course the line of a foul and neglected private sewer or 
 immense cesspool, in which fecal matter had been accumulating for years 
 without any exit, and into which the contents of several small cesspools 
 had been pumped immediately before the outbreak of fever. This elon- 
 gated cesspool communicated by direct openings with the drains of all 
 the houses in which it occurred ; the only exception was that of several 
 boys, who lived in a house at a little distance, but who were in the habit 
 of playing every day in a yard in which there were several gully-holes 
 opening into the foul drain." 
 
 The following cases would seem, however, to furnish stronger evidence 
 in favor of the occasional spontaneous origin of typhoid fever than any 
 of those referred to by Murchison. The first is recorded by P. Her- 
 bert Metcalfe, 1 and occurred in Norfolk Island in the Pacific Ocean, 
 400 miles from the nearest inhabited land. The patient was a gentle- 
 man who had come from England four months previously. To Met- 
 calfe's certain knowledge, there had been no typhoid fever on the island 
 for fifteen months. Three years previously a man is reported to have 
 died of it, and in 1868 there had been an epidemic of fever, but he 
 could not ascertain of what kind. Upon inquiry, he found that his 
 patient had been drinking water from a well which had the reputation of 
 being unclean, and that he was the only person who had done so. He 
 also found that at a distance of seven feet there was an open sewer, and 
 that just opposite to the well much of the sewage- water became so stag- 
 nant as to form an offensive cesspool. The well was cleaned out, and at 
 the bottom of it were found four feet of stinking sewage mud, the skele- 
 ton of a duck, a pig's.jaw, etc. The well was so situated that had there 
 been any typhoid fever previously to this case the water could not have 
 been contaminated by the specific poison, as the above-named sewer only 
 conveyed water from the kitchen, which is a building detached from the 
 dwelling-houses of the mission, and is far from and on a higher level 
 than the open closets in use. 
 
 In the second case, which is reported by R. Bruce Low, 2 Medical 
 Officer of Health, Helmsley, Yorkshire, occurred in a lad who had not 
 been away from his home for months. No stranger had visited his 
 house, and there was no fever in the district, the last case having occurred 
 eight months previously in a sequestered valley eight miles away. The 
 patient's habits and those of his family were revoltingly dirty. The 
 garden privy was in bad repair, the filth level with the seat, and the smell 
 from it very offensive. Thirty years before there had been five cases of 
 slow typhus in the house. In his remarks on this case Low says: 
 " This case did not owe its origin to direct infection, and the question 
 naturally arises, was this a case originating de novo, or had the poison 
 
 1 British Medical Journal, Nov. 6, 1880. * Brit. Med. Jour., 1880.
 
 256 TYPHOID FEVER. 
 
 been due to infection in some way or another from the cases which 
 occurred thirty years previously ?" 
 
 There can be but little doubt that in many of the cases cited by 
 Murchison as instances of the spontaneous origin of typhoid fever there 
 was an introduction of the germs of the disease from without. At all 
 events, the evidence to the contrary is by no means convincing. Foi 
 example, in the account of the outbreak at the Westminster School it is 
 expressly stated that " the contents of several small cesspools had been 
 pumped before the outbreak of the fever" into the large cesspool, the 
 emanations from which it was believed had caused the fever. It does 
 not seem that it was positively ascertained that none of these small cess-- 
 pools had been used by a typhoid-fever patient, or that typhoid stools 
 had not found their way into them in some other way. Moreover, in dis- 
 eases generally admitted to be contagious it is not always possible to ascer- 
 tain positively the source of infection in a particular instance. But 
 after the elimination of all doubtful cases there yet remains a certain 
 number in which it is reasonably certain that there has been no recent 
 importation of the typhoid-fever germs, as in the case which is reported 
 by Metcalfe and which occurred on Norfolk Island, and in that 
 recorded by Low. The assumption does not seem an unwarranted 
 one that in these cases the poison of the disease, which had been present 
 before in a latent condition, had been suddenly called into activity by 
 favoring influences. The following observation of Von Gietl l shows the 
 length of time typhoid-fever stools may retain their infective properties : 
 " To a village free from typhoid an inhabitant returned suffering from 
 the disease, which he had acquired at a distant place. His evacuations 
 were buried in a dunghill. Some weeks later five persons, who were 
 employed in removing dung from this heap, were attacked by typhoid 
 fever ; their alvine discharges were again buried deeply in the same heap, 
 and nine months later one of two men who were employed in the com- 
 plete removal of the dung was attacked and died." If we assume and 
 there is no reason to doubt that this point was fully investigated by Von 
 Geitl that the patient in the latter case had not been otherwise exposed 
 to the causes of the disease, the observation shows that the stools in 
 typhoid fever retain their virulence for nine months. If for nine months, 
 why may they net do so for a much longer period for as many years, for 
 example ? No probability is violated by this hypothesis. On the con- 
 trary, it is in full accordance with what we know of some of the lower 
 forms of life, and will serve to explain many outbreaks of the disease 
 which would otherwise be inexplicable for example, the outbreak at Clap- 
 ham referred to by Murchison. Admitting that the disease in this 
 instance was really typhoid feveri and this has been denied by some 
 observers, among whom is Sir Thomas Watson the assumption does 
 not seem an unwarrantable one that the germs of typhoid fever had been 
 present in this choked-up drain long before it was cleared, but that in 
 consequence of their exclusion from the air their infecting power was at a 
 minimum. It was, on the contrary, much increased when the contents 
 of the drain were exposed to the vivifying influence of the atmosphere. 
 
 On the other hand, it is alleged that an individual may be exposed to 
 the direct emanations of sewers or of foul privies, or even drink water 
 1 Quoted by Cayley, Brit. Med. Jour., Mar. 15, 1880.
 
 ILLUSTRATIVE CASES. 257 
 
 contaminated by leakage from them, without contracting typhoid fever, 
 so long as they do not contain the specific germ of the disease. Every 
 physician in large practice, either in the city or country, can call to mind 
 instances in which the air of houses or the water-supply has been polluted 
 in this way, and yet no typhoid fever has occurred. Let, however, the 
 specific cause of the disease be introduced from without, and this immu- 
 nity almost invariably disappears. There is no reason to believe that 
 the contamination of the water used by the family which suffered in the 
 outbreak of the disease which has been already referred to as having 
 come under my own observation last year was of recent origin. On the 
 contrary, there was evidence to the contrary, and yet no disease occurred 
 until it was imported by a member of the family who was in the habit of 
 making frequent visits to the city. Even more strongly corroborative of 
 this view is the history of the epidemic reported by Ballard, in which 
 milk was the medium of communication. The water which had been 
 used with impunity to wash the milk-pans, or perhaps to dilute the milk, 
 became a source of danger only after the occurrence of the disease in the 
 family of the dairyman. 
 
 Several epidemics of typhoid fever have been recently reported in which 
 the disease appears to have been caused by the use of the flesh of diseased 
 animals or of meat in a condition of putrefaction. In some of these the 
 symptoms were rather those of irritant poisoning than of typhoid fever, 
 and consisted principally in violent vomiting and purging coming on 
 very shortly after the ingestion of the unwholesome food. There yet 
 remains a certain number in which the symptoms cannot be thus 
 explained. 1 One of the most remarkable of these occurred in 1878 at 
 a festival which was held at Kloten, a place about seven miles north of 
 Zurich, of which the following is a condensed description : Out of 690 
 persons who sat down to the collation, 290 were taken ill ; 378 other 
 persons, who did not attend the festival, but who partook of the meat 
 provided for it, were also affected. In addition these, 49 secondary 
 cases occurred i. e. of persons who subsequently became affected with- 
 out having eaten of the meat. All other sources of infection could be 
 certainly excluded, as Kloten was quite free from typhoid fever at the 
 time, and as it was clearly shown that the water was not the cause of the 
 outbreak. All the visitors at the festival who ate no meat escaped, as 
 did also several persons who drank wine to excess and subsequently 
 vomited. The period of incubation was short, as in other epidemics 
 arising from the same cause. Some of the people were ill on the second 
 day, with loss of appetite, nausea, headache, pain and swelling of the 
 belly, and slight fever. These cases were slight, and generally ended in 
 recovery. The greater number were affected between the fifth and ninth 
 days. The symptoms in these cases, which usually ran a rapid course, 
 and generally ended in recovery, were chills, fever, diarrhoea, great pros- 
 tration, frequently violent delirium, and also profuse intestinal hemor- 
 rhage. The rose-colored eruption was present in almost all of tnem, and 
 in a few the taches bleuatres were detected. On post-mortem examina- 
 
 1 On Some Points in the Pathology and Treatment of Typhoid Fever, by William Cayley, 
 London, 1880; also Prof. Huguenin, Schmidts Jahrbuch, from Schweiz. Corr. Bl., viii. 15, 
 1878 ; Carl Walder, Schmidt's Jahrbuch, from Berl. klin. Wochenschr., xv. 39, 40, 1878 ; 
 George E. Shattuck, M. D., Supplement to Ziemssen's Cyclopaedia, New York, 1881. 
 
 VOL. I. 17
 
 258 TYPHOID FEVER. 
 
 tion the characteristic appearances of typhoid fever were found. With 
 regard to the meat supplied, the following facts were ascertained : Forty- 
 two pounds of veal were furnished by a butcher at Seebach, taken from 
 a calf which appears to have been at the point of death when it received 
 the coup de grace from the hands of the butcher. All the flesh of the 
 animal was sent to supply the festival at Kloten, but the liver was eaten 
 by an inhabitant of Seebach, and he was attacked by typhoid fever. 
 The brain was sent to the parsonage at Seebach, and all the household 
 became affected by the same disease. It was also ascertained that another 
 of the calves was diseased. The veal from this calf had been kept fourteen 
 days, and was in a decomposed state. All the meat was placed together 
 in the meat-receptacle of the inn at which the festival was held. This 
 receptacle was in a horribly filthy state, and Cayley thinks there can 
 be no doubt that the putrefying flesh of this last calf, together with the 
 state of the receptacle, would rapidly excite decomposition in the whole 
 supply. 
 
 Geissler, it is true, doubts whether the epidemic above described was 
 really typhoid fever, and points out that the symptoms occurred too soon 
 after the ingestion of the diseased meat, and reached their full develop- 
 ment too rapidly. The cases were also accompanied by more pain in the 
 abdomen than is generally met with in typhoid fever. The proportion 
 of recoveries also appears to have been unusually large. Unquestionably, 
 the patients in the Kloten epidemic were in a large number of instances 
 simply suffering from the action of an irritant poison ; but the presence 
 of the characteristic lesions of typhoid fever in some of the fatal cases 
 renders it certain that this disease also existed in the village at the same 
 time. 
 
 In the report of this epidemic it is not stated that either of the calves 
 which furnished a part of the meat for the entertainment were suffering 
 from typhoid fever at the time they were slaughtered. It is now known 
 positively that this animal is liable to be attacked by this disease, and a 
 certain number of cases are on record in which the eating of the flesh of 
 such animals has been followed by typhoid fever. 1 That it does not 
 oftener occur from this cause is probably due to the fact that a certain 
 time must elapse before the flesh of sucli an animal acquires infective 
 properties, and that it is usually used as food before this has been allowed 
 to pass. 
 
 Ludwig Letzench 2 asserts that he has produced some of the intestinal 
 appearances of typhoid fever, as well as a high degree of pyrexia, in 
 rabbits by the subcutaneous injection of the sputa and stools of typhoid 
 fever patients. 
 
 THE BACILLUS TYPHOSUS. From what has preceded, it will be seen 
 that the writer is disposed to range himself with those who hold that the 
 exciting cause of typhoid fever is an organized germ, or, in other words, 
 a contagium vivum. Although this view cannot be regarded as positively 
 proven as yet, it has recently received some support through the investi- 
 gations of Klebs, Eberth of Zurich, and others, 3 who believe that they 
 
 1 Medical Times and Gazette, Feb. 8, 1879, p. 149, from Berl. Min. WochenKchrift, No. 
 39, 1878. 2 Arch.f. exper. Pathol. u. Phai-mak., 1878 and 1881. 
 
 8 Klebs (Philadelphia Medical Times, Dec. 3, 1881, from Archivfdr experimenielle Pathol- 
 ogie und Pharmakoloyie, Bd. xiii. H. 5 and 6) claims that he has proved " that there exists in 
 typhoid fever a separate and distinct bacillus the Bacillus typhosus ; that it undergoes
 
 PERIOD OF INCUBATION. 259 
 
 have Found in the bodies of those who have died of typhoid fever a micro- 
 organism peculiar to that disease. 
 
 PERIOD OF INCUBATION. The conditions under which typhoid fever 
 occurs in large cities render it difficult, if not impossible, to arrive at a 
 definite conclusion as to its period of incubation. Occasionally, however, 
 the time which has intervened between the exposure to the cause and the 
 invasion of the disease may be ascertained with precision in the outbreaks 
 which occur in small towns or in isolated country-houses. Under these 
 circumstances it has been found to vary within very wide limits. In the 
 three cases related by Griesinger the attack began the day after exposure 
 to the infection, and in the outbreak at the school at Clapham, referred to 
 by Murchison, twenty out of twenty-two boys were seized with the dis- 
 ease within four days of exposure to the causes. Other instances of a 
 similar character are on record. In cases like the above the rapidity with 
 which the attack follows upon exposure to the cause is no doubt due to 
 the intensity of the poison a view which is to a certain extent at least 
 supported by the fact that the invasion of the disease under these circum- 
 stances is very apt to be abrupt ; the attack being often ushered in with 
 vomiting and purging or with grave cerebral symptoms. Sometimes, 
 indeed, the gastro-intestiual symptoms have been so violent as to have 
 given rise to suspicions of criminal or accidental poisoning. In the 
 majority of cases, however, the period of incubation is probably very 
 much longer than in those above referred to. In the outbreak which 
 recently occurred in a farm-house about seven miles distant from Phila- 
 
 certain transformations, consisting at first of little rods and small fine threads, containing 
 a spore in the centre and often at the end, which spores divide off and form new bacilli. 
 It later assumes a larger thread-like form, twisted at the end, and frequently taking a 
 beautiful spiral shape ; that the bacilli are observed first in the masses of epithelial cells 
 which accumulate in the alimentary tract or in the air-passages ; that they later penetrate 
 the tissues, and are carried along by the blood-vessels and the lymphatics, and form a 
 large network among the tissues they invade: that under a certain procedure, which 
 never causes this same staining in any other living organism or tissue, they appear of a 
 blue color ; that they are found only in enteric fever, in which disease every part of the 
 human body is the seat of masses *of these bacilli, their quantity corresponding exactly 
 with the severity of the symptoms ; and that they produce, when carried into the system 
 of animals, exactly the same disease with the same morbid alterations as in men." He 
 says, further, that "the Bacillus typhosus enters the system by the respiratory passages 
 and by the alimentary canal. This is the cause that in some cases of typhoid fever 
 almost no abdominal symptoms are present, but a low form of pneumonia, developing 
 from the very beginning, so that the lung seems alone to bear the brunt of the disease." 
 He has found these bacilli in greatest numbers in Peyer's patches. 
 
 Eberth (British Medical Journal, Nov. 26, 1881, from Virchow's Archiv, Bd. Ixxxi. and 
 Ixxxiii.) has shown that in typhoid fever the intestinal mucous membrane, the mesen- 
 teric glands, and the spleen contain rod bacteria, differing, as he believes, from organisms 
 found in the body in other conditions (among others in phthisis with extensive ulceration 
 of the intestinal'mucous memDrane). In seventeen cases of typhoid these ^bacilli were 
 found in six and wanting in eleven. In the six cases the number of bacilli were in 
 inverse proportion to the duration of the disease. They were not found in the spleen in 
 the cases of the longest duration, and only scantily in the mesenteric glands. These bacilli 
 appear not to differ in shape and size from the ordinary rod bacteria, but Eberth believes 
 that they differ from them in their small capacity for taking on the staining of haema- 
 toxylon, methyl-violet, and Bismarck brown. 
 
 Wernich's views ( Vjhrschr.f. Off. Geshpfl., xiii. 4, p. 513, T881) in regard to the nature 
 of the Bacillus typhosus differ from those held by the two authors just quoted. He 
 regards the specific Bacillus typhosus as nothing but the ordinary Bacillus subtilis of 
 the large intestines, which under certain circumstances acquires the power to accommo- 
 date itself to the small intestines, to undergo a higher development and to become the 
 exciting cause of disease.
 
 260 TYPHOID FEVER. 
 
 delphia, the history of which has already been given in detail, the second 
 case began three weeks after the first, the other six following in rapid 
 succession. In the celebrated epidemic which occurred at Lausen in 
 Switzerland in 1872, and which is referred to by Cay ley, 1 the first 
 ten patients were attacked within three weeks of the time when 
 the contamination of the spring which supplied the village must have 
 taken place, and these ten cases were followed in the course of nine days 
 by fifty-seven others. In the town of Over Darwen 1500 persons were 
 seized with typhoid fever within three weeks after a patient suffering from 
 this disease was brought to a particular house, the sewage of which was 
 allowed to soak into the ground through which the water-supply pipes of 
 the town passed, and at a point at which they were leaky, Lothholz 
 observed in an epidemic which occurred in the neighborhood of Jena that 
 the average period of incubation was three weeks, the shortest period 
 eighteen days, the longest twenty-eight days. Haegler found in three cases 
 produced by contaminated water a period of at least three weeks. 2 There 
 are, however, epidemics on record in which the period of incubation was 
 under two weeks, as, for instance, that of Basle, referred to by Lieber- 
 meister, in which a few persons were attacked who had only been in the 
 city from seven to fourteen days. Cayley also refers to localized out- 
 breaks of the disease, as those of Oalne and Nunney, in which persons 
 were attacked within fourteen days of their exposure to the cause. C. 
 J. C. Muller of Posen 3 says that the average period of incubation of 
 the disease is fourteen days ; that it may be not more than ten days, 
 or, on the other hand, as long as from three to four weeks ; and that 
 he has known a case in -which it was thirty-four days. Murchisou 
 believed that it was most commonly about two weeks, and William 
 Budcl arrived at the conclusion, from the observation of a large number 
 of cases, that it varied from ten to fourteen days. 
 
 From this review of the opinions of various authors the conclusion 
 would seem to be justifiable that the period of incubation in typhoid fever 
 is usually between two and three weeks, but that in many cases it does 
 not exceed ten days, and in rare instances has unquestionably been very 
 much less. On the other hand, there are authentic cases on record in 
 which it is said to have reached, or even exceeded, twenty-eight days. 
 Unfortunately, we do not possess any reliable data with which to decide 
 the question whether it is shorter or longer when the poison is imbibed 
 with the ingesta than when it is inhaled. It would seem, however, that 
 there is a difference in the susceptibility of different individuals to the 
 poison of this disease, in many persons a single exposure to the cause being 
 sufficient to induce an attack, while in others the disease is contracted only 
 after repeated exposure. 
 
 MORBID ANATOMY. As a thorough knowledge of the morbid anatomy 
 of typhoid fever is absolutely necessary to a correct understanding of its 
 pathology, it seems to me better to deviate from the order usually observed 
 in systematic treatises and to proceed at once to a description of the former, 
 rather than to defer it, as it is usual to do, until after the symptomatology 
 of the disease has been discussed. 
 
 Rigor mortis is generally more marked and more prolonged than after 
 
 1 Brit. Med. Jour., Mar. 15, 1880. * Ziemssen's Cyclopaedia, vol. i. 
 
 * Neue Beitragezur Aetologie des Unlerleibs- Typhus, Posen, 1878.
 
 MORBID ANATOMY. 261 
 
 typhus. Emaciation is often extreme in cases in which death has taken 
 place after the third week, especially if they have been attended by much 
 diarrhoea and fever. No traces of the characteristic rose-colored eruption 
 are found after death, no matter how profuse it may have been during 
 life. Sudamina, on the other hand, persist, and discolorations of the 
 dependent portions from settling of blood are always present in the dead 
 body. 
 
 The lesions of typhoid fever may be divided into two classes. The 
 first class includes certain changes in the glands of Peyer, the solitary 
 glands of the intestines, the spleen, and other lymphatic structures of the 
 body. These changes, which consist essentially in a medullary infiltra- 
 tion of these glands, will be minutely described presently. They are 
 peculiar to the disease, and are just as characteristic of it as the condition 
 of the lungs and their membranes found in pneumonia and pleurisy are 
 characteristic of those diseases. They are usually most developed in 
 grave cases, but occasionally they are slight and but little marked in cases 
 in which the general symptoms were severe. They therefore cannot be 
 regarded as the sole cause of the latter. It is more probable that they 
 are themselves the results of the local action of the typhoid poison, and 
 bear somewhat of the same relation to typhoid fever that the eruption in 
 small-pox does to that disease. The second class is made up of lesions 
 which are met with not only in this disease, but in other diseases accom- 
 panied by high fever, and are therefore unquestionably the result of the 
 general process. They consist essentially of parenchymatous degenera- 
 tions of various organs and tissues, and are generally more marked in 
 typhoid fever because the pyrexia is not only of high grade, but also of 
 longer duration than in other diseases. 
 
 We shall first consider the lesions peculiar to typhoid fever. Among 
 the most important of these are the changes which occur in the agminated 
 and solitary glands of the intestines. These have been usually described 
 as passing through four stages, as follows : (1) the stage of medullary 
 infiltration; (2) the stage of softening or sloughing; (3) the stage of 
 ulceration ; (4) the stage of cicatrization. These stages are said to last 
 almost a week, and correspond to certain definite periods of the disease, 
 but it is not uncommon to find in the same intestine glands in two or 
 more of these stages. Indeed, the same gland may sometimes be found 
 ulcerating at one side while cicatrization is going on at the other. 
 
 In the first stage the agminated glands are enlarged, each patch pre- 
 serving its oblong shape, and being flattened on the surface and elevated 
 from half a line to two lines above the surrounding mucous membrane, 
 from which it is separated by an abrupt border, and which it may in a 
 few cases overhang like a fungous growth. The solitary follicles are also 
 swollen, and may vary in size from a hempseed to a split pea. In very 
 severe cases all the glands may be more or less involved, but in mild 
 cases the changes may be limited to three or four of the patches 
 of Peyer, although the solitary glands rarely wholly escape. It is 
 uncommon also for the latter to be alone affected, but a few such cases 
 have been reported. In these the mucous membrane appears to be 
 studded with pustules, and hence Cruveilhier designated this variety as 
 the forme pustuleuse. The mucous membrane covering the affected 
 glands is reddish-green in color, and that in their immediate vicinity is
 
 262 TYPHOID FEVER. 
 
 often injected. The changes above described occur early in the disease 
 Murchison has seen them in two cases in which death took place at the 
 end of the first day and they are often well marked at the end of the 
 third or fourth day. They are usually limited to the glands in the lower 
 part of the ileum, the agminated glands being often found perfectly 
 healthy four feet above the ileo-csecal valve. In mild cases, indeed, the 
 lesions may be confined to those nearest to this valve. So, too, the 
 changes in the solitary glands may be confined to the last twelve inches 
 of the smaller intestine, but this is by no means universally the case, for 
 these glands are not only often found enlarged higher up in the small 
 intestine, but also occasionally in the caecum. The agminated glands are 
 sometimes found enlarged in the bodies of those who have died of measles 
 and of some other diseases, but the degree of enlargement is rarely as great 
 as in typhoid fever, and the further changes presently to be described are 
 never found except in the latter disease. 
 
 Under the microscope the medullary infiltration upon which the en- 
 largement of the glands depends is found to be due to proliferation of 
 the cellular elements. In the case of the agminated glands this prolif- 
 eration may be limited to the follicles or it may extend to the inter- 
 cellular tissue, and even to the adjacent mucous membrane. In the 
 former case the patches have a reticulated aspect ; they are soft and but 
 little elevated. These are the plaques molles of Louis and the plaques 
 reticulees of Chomel. In the latter they are harder, smoother, and 
 more elevated. To this variety Louis has given the name of plaques 
 dures, Chomel that of plaques gauffr^es. The morbid process is also 
 very apt to extend from the solitary follicles to the surrounding mucous 
 membrane. 
 
 In a large number of the glands in many cases, and probably in all 
 of them in the abortive form of the disease, the changes never advance 
 beyond the first stage, a restoration to their normal condition taking 
 place by colliquative softening. 1 The morbid material upon which their 
 enlargement depends breaks down into an oily debris which is gradually 
 absorbed. This retrograde process takes place faster in the follicles than 
 in the interfollicular tissue, and, as pigment is very apt to be deposited 
 in the depressions thus formed, the patches acquire an appearance which 
 has been compared to that of a recently shaven beard. This appearance 
 is met with, however, in other diseases, and is therefore not peculiar to 
 typhoid fever. 
 
 The description of the changes in these glands in the subsequent stages 
 of the disease which follows is taken mainly from Rindfleisch's work on 
 Pathological Histology. 
 
 In the stage of necrosis small portions of single Peyerian patches, 
 varying in size from that of a lentil to from three-quarters of an inch to 
 an inch and a quarter in diameter, assume a yellowish-white, opaque tint 
 instead of their former reddish and translucent aspect, gradually become 
 separated from the surrounding tissue by a sharp line of demarcation, 
 and then pass into a state of cheesy necrosis. Here and there the same 
 changes are observed to have taken place in the solitary glands. When 
 once this has occurred, recovery can only take place by expulsion of the 
 necrosed parts and consequent ulceration. Necrosis of the glands prob- 
 
 1 Kindfleisch, Pathological Histology, Sydenham Society Translation, vol. i. p. 441.
 
 MORBID ANATOMY. 263 
 
 ably rarely occurs before the beginning of the second week, but it has 
 occasionally been observed much earlier. Murchison reports cases in 
 which he saw it as early as the first and second days. The process 
 usually involves the mucous membrane only, but it may extend to the 
 muscular and even to the peritoneal coats. 
 
 In the third stage the dead parts are gradually thrown off, the pro- 
 cess of separation usually occupying several days. At first an increased 
 degree of congestion, followed by suppuration, is observed at the edges 
 of the sloughs, which before their complete detachment may often acquire 
 a yellow, green, or brown color from the imbibition of bile. The ulcers 
 which result correspond in size and form with the sloughs. They are, 
 therefore, in the case of the agminated glands elliptical in shape, with 
 their long diameter corresponding to the axis of the intestine. Their 
 edges are swollen and overhanging, and their floor is generally formed 
 by the deepest layer of the submucous connective tissue. They some- 
 times penetrate much more deeply, and may even extend to the peritoneal 
 coat, and thus give rise to perforation of the bowel. The ulcers which 
 result from sloughing of the solitary glands are, as a rule, small and 
 round. Murchison says that ulceration may also be produced in the 
 following way : The mucous membrane becomes softened, and one or 
 more superficial abrasions appear on the surface of the diseased patch, 
 which extend and unite into one large ulcer, and this ulcer proceeds to 
 various depths through the coats of the bowel, and even to completed 
 perforation, but Kindfleisch and other recent German writers do not 
 allude to this process. 
 
 The fourth stage, or that of cicatrization, usually commences with the 
 beginning of the fourth week. The swelling of the edges of the ulcers 
 gradually diminishes, and they become adherent to the tissues beneath. 
 The floor of the ulcers covers itself with delicate granulations, which in 
 course of time are converted into connective tissue. This is ultimately 
 coated with epithelium, but neither the villi nor the glands of the mucous 
 membrane are ever reproduced. The resulting cicatrices may be recog- 
 nized by the affected parts of the bowel being thin and more translucent 
 than in health, and may retain these characters after the lapse of 
 several years. They never give rise to contraction of the bowel. The 
 time occupied in the cicatrization of each ulcer is said to be about two 
 weeks. It occasionally happens that while cicatrization is taking place 
 at one end of the ulcer the processs of necrosis and ulceration is still 
 going on at the other, so that two or more ulcers may occasionally run 
 together. This form of ulcer may often retard recovery, and may some- 
 times end in perforation of the bowel, even after convalescence seems to 
 have been established. 
 
 The color and consistence of the mucous membrane of the caecum 
 and colon are in a large proportion of cases normal. In a few the 
 membrane is paler than in health, and in others it is of an ash-gray 
 color. It is also sometimes injected and softened. The solitary glands 
 are frequently enlarged and ulcerated, like those of the ileum. In 
 the former case the mucous membranes of the large intestine through- 
 out its whole extent, but especially that of the csecum and of the part of 
 the colon adjacent to it, is studded with minute elevations about a line in 
 diameter. When ulceration has occurred the ulcers are generally round
 
 264 TYPHOID FEVER. 
 
 and small, but they may occasionally be oval and of considerable size. 
 In the latter case their long diameter will correspond in direction with 
 that of the circular fibres of the intestine. Murchison has known 
 them to measure fully an inch and a half in length. The colon is gen- 
 erally found much distended with flatus. 
 
 Enlargement of the mesenteric glands from cellular hyperplasia and 
 hypertrophy of the connective tissue is constantly associated with the 
 morbid changes of the intestines just described. This enlargement 
 varies in diiferent cases. In some the glands are not larger than a 
 pea or bean ; in others they are said to have reached the size of a hen's 
 egg. It is always more marked in the glands which lie in the angle 
 between the lower end of the ileum and the caecum, and usually bears 
 some proportion to the intensity of the local disease ; but it is not to be 
 regarded merely as a result of the local irritation, as it has been observed 
 in parts of the mesentery corresponding to perfectly healthy portions of 
 the intestine, and as the meso-colic glands have been involved in cases in 
 which the colon was free from disease. It has, moreover, been observed 
 in cases in which death has occurred very early in the disease, and there 
 can therefore be little doubt that it is as much the result of the infective 
 process as the infiltration of Peyer's patches. In addition to being 
 enlarged, if death has taken place before the end of the second week 
 the glands are hyperaemic and of a purplish color. Later than this, 
 when the sloughs become detached from Peyer's patches, the swelling of 
 the glands diminishes ; they lose their color and become pale, and if 
 convalescence ensues they return finally to their former healthy condition. 
 Still, Murchison has seen them shrivelled and pale or bluish for some 
 time after convalescence. In other cases the substance of the glands 
 softens, with the formation of a puriform liquid. If the softening only 
 involves a small part of the glandular structure, restoration to health may 
 take place through the absorption of this liquid. If it is more extensive, 
 the whole of the glands may break down into this puriform liquid, which, 
 when the patient recovers, undergoes caseous and finally calcareous degen- 
 eration. Occasionally, a gland in this condition is the cause of death 
 from rupture and extravasation of its contents into the cavity of the 
 peritoneum. 
 
 The glands in the fissure of the liver, the gastric, lumbar, inguinal 
 glands, and indeed all the lymphatic glands in the body, have occasionally 
 been found swollen and congested, but their enlargement cannot be classed 
 among the specific lesions of the disease, but is merely the result of a 
 local irritation. Thus, Jenner says that in the case of extensive ulcera- 
 tion of the oasophagus which came under his observation there was marked 
 enlargement of the oesophageal glands. Liebermeister says that the lym- 
 phatic follicles which surround the glands at the root of the tongue and in 
 the tonsils arc often affected in the same way as the glands. In most 
 cases after a time the swelling disappears, but sometimes softening and 
 rupture take place. 
 
 The spleen is almost invariably found to be increased in volume and to 
 have undergone changes in consistence and color. The degree of enlarge- 
 ment and the other changes vary of course with the stage of the disease 
 at which death has occurred. The enlargement occurs with less fre- 
 quency in elderly than in young people, and is most marked at the height
 
 LESIONS NOT PECULIAR TO TYPHOID FEVER. 265 
 
 of the disease, the organ being then often twice or three times it normal 
 size, and in some cases, it is said, even larger. Later, and especially 
 during convalescence, the enlargement has generally very much dimin- 
 ished. During the first ten days of the disease the spleen is generally 
 tense and firm, engorged with blood, and dark red in color. Between the 
 tenth and thirtieth days its appearance remains the same, but the organ 
 is found to be soft and friable. During convalescence it becomes paler 
 and firmer again, and is often so shrunken in size that its capsule is 
 relaxed and wrinkled. Hemorrhagic infarctions are often met with. 
 These sometimes soften and break down into a puriform liquid, which 
 may sometimes cause peritonitis by rupture into the peritoneal cavity. 
 Rupture of the spleen is also said to have occurred from mechanical vio- 
 lence. These changes are due in part to variations in the amount of 
 blood, and in part to a medullary infiltration of Malpighian corpuscles 
 similar to that which takes place in Fever's patches and the glands of the 
 mesentery. 
 
 LESIONS WHICH ARE NOT PECULIAR TO TYPHOID FEVER, BUT ARE 
 OF MORE OR LESS FREQUENT OCCURRENCE. The mucous membrane of 
 the pharynx and oesophagus may present a perfectly healthy appearance, 
 but occasionally it is congested and the seat of ulcerations which are for the 
 most part superficial. Sometimes, however, they have been found to 
 extend to the muscular coat, but they have never been known to pene- 
 trate all the coats of these organs. Jenner refers to one case in which 
 there was extensive ulceration of the oesophagus, but usually the number 
 of ulcers is not large. In a few cases the mucous membrane of the 
 pharynx is coated with diphtheritic false membrane, and the submucous 
 tissues is infiltrated with serum and pus (Murchison). 
 
 Thfc stomach and the upper part of the intestinal tract present no 
 lesions which are at all peculiar to typhoid fever. In a certain number 
 of cases congestion, softening, and even superficial ulceration, of the 
 mucous membrane of the stomach, and less frequently of that of the 
 duodenum, have been found. The mucous membrane of the jejunum 
 and of the upper part of the ileum is not usually much reddened, and 
 may be even paler than in health. In cases which have been protracted 
 it may be of an ashy-gray or slate color. The contents of this part of 
 the intestinal tract, which is rarely much distended by flatus, do not differ 
 materially in appearance or consistence from the matter which generally 
 composes the typhoid stool. The bowels may, of course, be found filled 
 with blood in cases in which a recent hemorrhage has taken place. In- 
 vaginations of the small intestines, unaccompanied by any evidences of 
 inflammation, are occasionally met with in the bodies of those who have 
 died of typhoid fever. They are produced, there is good reason to believe, 
 during the death agony, but are not peculiar to this disease, as they occur 
 in many other diseases. 
 
 Enlargement of the liver has been found in only a few cases after 
 death from typhoid fever. Softening is more common, but even this is 
 not a frequent result of the disease, for it was absent in 41 out of 73 
 cases examined with special reference to this point by Louis, Jeuner, and 
 Murchison. The organ is occasionally hypersemic, and darker in color 
 than in health, but it is oftener pale or normal in appearance. Even, 
 However, where it appears to be perfectly healthy to the unassisted eye,
 
 266 TYPHOID FEVER. 
 
 the microscope shows that its cells are very granular and filled with oil- 
 globules which often render the nucleus indistinct or completely conceal 
 it. When death has taken place at an advanced stage of the disease 
 many of the cells are found to be completely broken down into a granu- 
 lar detritus. These changes are usually proportional to the degree of 
 pyrexia which has been present during life. Rarer lesions of the liver 
 are pyaemic deposits, embolism, abscess, and emphysema. 
 
 The mucous membrane of the gall-bladder has been found to be the 
 seat of ulcers by Jenuer and numerous other observers. It also occasion- 
 ally presents the evidences of catarrhal or diphtheritic inflammation. The 
 gall-bladder usually contains a pale watery liquid of a less density than 
 bile. When, however, inflammation of its lining membrane has existed, 
 its contents are mixed with pus and shreds of false membrane. 
 
 The mucous membrane of the larynx is sometimes found to have been 
 the seat of catarrhal or diphtheritic inflammation, and sometimes also of 
 ulceration. Jenner says that in typhoid fever laryngitis independent of 
 pharyngitis is extremely rare, but the German writers express a diiferent 
 opinion. Griesinger estimated that laryngeal ulcers were present in one- 
 fifth of the fatal cases. Hoffmann found them twenty-eight times in 
 two hundred and fifty autopsies, and that the ulcers had extended to and 
 involved the cartilages in twenty-two out of the twenty-eight cases. 
 They are most commonly found in the posterior w r all of the larynx, and 
 may involve the vocal cords. These are often discovered after death in 
 cases in which their existence was not suspected during life. They were 
 formerly supposed to be the result of typhoid infiltration of the laryngeal 
 glands, but careful investigation has shown that they are the consequence 
 of diphtheritic inflammation of the mucous membranes. Inflammation 
 and ulceration of the trachea are comparatively rare. Hypostatic/ con- 
 gestion and infarction of the lungs are not uncommonly found after death 
 from typhoid fever, and less frequently the lesions of pneumonia. Evi- 
 dences of recent pleurisy are also discovered in a few cases. Acute miliary 
 tuberculosis of the lungs is more often met with as a sequela than as a 
 complication. 
 
 The changes in the brain and its membranes caused by typhoid fever 
 are few and unimportant, even in cases attended by severe nervous symp- 
 toms. Those most frequently found are adhesions of the dura mater 
 to the inner surface of the cranium, injection or oedema of the pia 
 mater, congestive oadema, and sometimes softening of the brain and effu- 
 sion at the base of the brain. The microscopic changes do not appear to 
 have been carefully studied. Liebermeister says that the gray substance 
 of the cortical portion of the brain and of the interior is sometimes of a 
 rather yellowish-brown color, and that he noticed besides diffuse yellow 
 and blackish-brown spots in different places, particularly in the corpus 
 striatum and thalamus opticus. In such places, he says, the microscope 
 shows a diffuse yellow coloration, a deposit of small brown pigment- 
 granules, and also, especially in the optic thalamus and corpus striatum, 
 the ganglion -cells thickly crowded with brownish or blackish pigment- 
 granules in such numbers as to conceal the outlines of many of the cells. 
 These changes Hoffmann, 1 who has specially studied them, is inclined to 
 place by the side of the parenchymatous degeneration of other organs. 
 
 1 Quoted by Murchison.
 
 LESIONS NOT PECULIAR TO TYPHOID FEVEE. 267 
 
 The ganglion-cells of the sympathetic ganglia are said by Virchow also 
 to contain an unusual amount of pigment. 
 
 The muscles are frequently the seat of marked changes in typhoid fever. 
 Their macroscopic appearances vary with the stage of the disease at which 
 they are examined. When death takes place in the first or second week 
 they are usually dark red or reddish-brown in color, and very dry. If it 
 is delayed until later, they " present a peculiar fawn or yellow tint per- 
 meating the ordinary red in patches and veins not unlike the appearance 
 of veined marble." Their consistence is also so much diminished that 
 the finger may be readily passed through them. Occasionally, pseudo- 
 abscesses and hemorrhages into the muscular sheath are found, and 
 Dauve and B. Ball l report cases in which, in addition to these changes, 
 rupture of muscles had occurred. Zenker, who was the first to call atten- 
 tion to them, ranged the changes seen under the microscope under two 
 heads : (1) granular or fatty degeneration ; (2) waxy degeneration. In 
 the first variety the transverse striae disappear and the sarcolemma appears 
 filled with finely granular matter. In the second variety the striated 
 muscles become, as it were, pervaded by a coagulating material which 
 sets, and in contracting breaks up the fibres into great numbers of short 
 waxy-looking lumps, not unlike a certain variety of casts of the tubuli 
 recti of the kidneys. When recovery takes place the affected fibre is 
 believed to be regenerated by a cell-growth within the sarcolemma. These 
 changes occur in most fevers, as typhus, small-pox, scarlet fever, and are 
 attributed by authors generally to the hyperpyrexia which is a frequent 
 accompaniment of these diseases. Hayem, however, asserts that he has 
 found them well marked in cases not characterized by a high tempera- 
 ture, and that, on the other hand, they are sometimes absent in cases 
 where this has been present. The waxy form of degeneration may affect 
 all the striped muscles, but is oftenest seen in the muscles of the abdom- 
 inal walls, the adductors of the thigh, the muscles of the diaphragm, and 
 tongue. 
 
 The heart, in common with the other muscles of the body, suffers from 
 both the forms of degeneration above described, but the granular form 
 appears to be more common than the waxy. In protracted cases it is 
 usually much softened, and when thrown upon a plate no longer retains 
 its form. It has usually lost its normal color and acquired the^ tint 
 described by the French as feuille morte (faded leaf). ^ Upon minute 
 examination the degeneration is found to have taken place in patches, the 
 diseased fibres being found alongside of others which have scarcely under- 
 gone any alteration. These patches are especially common in the papil- 
 lary muscles of the mitral valve a fact which explains the occasional 
 presence of systolic murmurs in typhoid fever. In addition to the 
 microscopic appearances of the muscles already described, Hayem 2 has 
 observed in his examinations of the heart a cellular infiltration of the 
 connective tissue and a proliferation of the muscle nuclei. These changes 
 are sufficient in his opinion to establish the existence of myocarditis. 
 The same observer thinks he has also found evidences of the frequent 
 occurrence of endoarteritis in the multiplication of the cellular elements 
 
 1 L' Union Medicale, 1866, quoted by Biennial Retrospect of Medicine and Suryery and 
 their Allied Sciences, for 1865-66. _ . 
 
 2 Lemons cliniques sur les Manifestations cardiaques de la Fievre typhoide, Pans, 1875.
 
 268 TYPHOID FEVEE, 
 
 of the internal coat of the small arteries, which he has discovered under 
 the microscope. 
 
 Some discrepancy of opinion exists in regard to the condition of the 
 blood in typhoid fever. Trousseau, for instance, speaks of it as being 
 profoundly altered and in a state of dissolution ; Liebermeister says that 
 at the height of the disease the blood is very dark-colored, and that after 
 coagulation it presents a small and soft clot ; and Murchison, that a dark, 
 liquid condition of the blood is rarer than in typhus, and that fine white 
 coagula are more common. Harley too has frequently found firm color- 
 less clots of fibrin in the heart and roots of the great vessels in subjects 
 dead in the third week of the disease. Forget concludes from an 
 examination "of one hundred and twenty-three specimens of blood 
 derived from patients in all stages of the disease that an appreciable 
 alteration of the blood in the several periods of enteric fever cannot be 
 accepted as a general fact ; that the blood is rarely altered in the first 
 period ; that the alteration is more marked in proportion as the disease is 
 more advanced ; that the alteration is not always in proportion to the 
 gravity of the disease." x I have myself seen the disorganization of the 
 blood as complete in severe cases of typhoid fever which have rapidly 
 proved fatal as in cases of diphtheria or of other malignant diseases. 
 On the other hand, in protracted cases and during convalescence the blood 
 is often thin and watery. 
 
 The kidneys are sometimes engorged with blood, sometimes pale and 
 flabby. Under the microscope the appearances are similar to those jiist 
 described as occurring in the liver, and it is therefore unnecessary to refer 
 to them more fully here. As a rule, the epithelium becomes granular 
 earlier and to a marked degree in the cortical than in the tubular portion. 
 The absence of albuminuria must not always be accepted as proof of 
 a healthy condition of the kidneys, as this symptom has been wholly 
 wanting in cases in which the organs have been extensively diseased. 
 
 Analogous changes have also been observed in the salivary glands 
 and pancreas, except that, according to Hoffmann, a cellular proliferation 
 precedes the degenerative process. 
 
 CLINICAL DESCRIPTION. The invasion of the disease is usually so 
 gradual that it is often impossible to obtain from patients exact informa- 
 tion as to the time of the beginning of their illness. Among those who 
 present themselves for treatment at the Pennsylvania Hospital it is not 
 uncommon to find that many have suffered for several days, it may be as 
 long as a week, or even longer, before taking to their beds, from vague feel- 
 ings of discomfort, from headache more or less intense, aching pains in 
 the back or limbs, or from sensations of chilliness alternating with flashes 
 of heat. In other cases derangements of the digestive system are more 
 prominent, such as nausea, or even vomiting, diarrhoea, or irritability of 
 the bowels. Notwithstanding these symptoms, and the indisposition to 
 exertion engendered by them, they have frequently continued to follow 
 their usual avocations up to the time of their application at the hospital 
 for admission. There is generally, however, no difficulty in recognizing at 
 once the nature of their disease. Upon examination the pulse is found to 
 be frequent, the respiration accelerated, the tongue furred, the skin hot and 
 dry, and the abdomen tympanitic. 
 
 1 Quoted by Harley, Reynolds' s System of Medicine, vol. i.
 
 CLINICAL DESCRIPTION. 269 
 
 Among patients whose position in life enables them to pay greater 
 attention to trifling symptoms than those who are compelled to seek hos- 
 pital relief, opportunity is frequently aiforded to the physician to study the 
 disease at a period less remote from its commencement. The symptoms 
 it presents when seen as early as the second day are generally of a very 
 indefinite character. There may be a feeling of malaise, headache with a 
 tendency to giddiness, pain in the back and limbs, a slightly coated tongue, 
 thirst, and anorexia. The patient may complain of chilly sensations 
 alternating with flashes of heat, but it will rarely be found that the attack 
 has commenced with a decided chill. Diarrhoea may also be present at 
 this time, or may not supervene until later. Even in cases in which 
 it is absent the bowels will generally act inordinately after the adminis- 
 tration of a gentle purgative. Occasionally, the attack begins with vom- 
 iting, but this is not, in my experience, a frequent mode of commence- 
 ment. If the visit be made in the morning, the febrile symptoms will 
 be little marked, the pulse being only slightly accelerated and the temper- 
 ature being rarely more than from a half to a degree above the normal. In 
 the evening, however, the thermometer usually indicates a greater elevation 
 of temperature. 
 
 At subsequent visits the same symptoms are presented. It will be 
 observed, however, that the fever is decidedly remittent in character, the 
 evening temperature being always from a degree to a degree and a half 
 higher than that of the morning, while the temperature of each succeed- 
 ing day is a little higher than that of the day which preceded it. The 
 patient is restless and wakeful at night, or sleep, when obtained, is unre- 
 freshing and disturbed by dreams. He grows dull and slightly deaf, and 
 although able to answer questions intelligently when roused, does so 
 with an effort, and soon after lapses into his former condition. Although 
 obviously growing weaker every day, it is sometimes difficult to get him 
 to take to his bed. The diarrhoea continues and increases in severity ; 
 the stools become watery in character and ochrey-yellow in color ; they 
 may exceed six, or even twelve, in the twenty-four hours. Epistaxis 
 either consisting of a few drops of blood only, or so profuse as to endanger 
 life, may also occur during the first week. Examination of the abdomen 
 toward the middle or close of the first week will almost always reveal 
 the existence of tympany and of tenderness and gurgling in the right 
 iliac fossa, and very frequently also of slight enlargement of the spleen. 
 The urine at this stage of the disease is dense, scanty, and of high color. 
 The tongue too will be observed to be more heavily coated than at first, 
 and to be dryish, the fur being disposed on the middle of the dorsum of 
 the organ, while the tip and edges are free from it and abnormally red in 
 color. Usually, toward the close of the first week, the pulse will be 
 found to be between 100 and 120 in frequency. It often, however, does 
 not attain this frequency, and in some cases does not exceed 50 throughout 
 the whole of the attack. At the same time, the thermometer generally 
 indicates a temperature of from 102 to 104, and in bad cases even one 
 much higher than the latter. 
 
 These symptoms are not pathognomonic, but Murchison regards their 
 existence in a young person as warranting the suspicion that he is suffer- 
 ing from this disease. About this time, however, or, to speak more accu- 
 rately, usually from the seventh to the twelfth day, a new symptom occurs
 
 270 TYPHOID FEVER. 
 
 which is more characteristic. This is an eruption of isolated rose-colored 
 spots, the taches roses lenticulaires of Louis, occurring principally upon 
 the surface of the abdomen, but not infrequently seen also upon the chest, 
 back, limbs, and even, according to some authors, upon the face. They 
 are round in shape, with a well-defined margin, usually about a line in 
 diameter, but sometimes considerably larger, slightly elevated above the 
 surface, and disappearing upon pressure, but returning when the pressure 
 is removed. They can almost always be found at this stage of the disease 
 if diligently sought for. 
 
 If the disease tends to run a severe course, all the symptoms become 
 aggravated toward the end of the second week. The tongue grows dry 
 and brown, the pulse more frequent, feeble, and markedly reduplicated in 
 character, the diarrhoea still more severe, and the fever higher than before, 
 with little or no tendency to remit in the morning. The nervous symp- 
 toms also come into prominence. The headache may grow more violent 
 or may be replaced by increased dulness, which may sometimes be so 
 decided as to render it difficult to fully rouse the patient. At other times 
 delirium is a prominent symptom. This may only occur at night, but 
 not infrequently is observed during the daytime as well. It is usually 
 more active in character than that which accompanies typhus. Trembling 
 of the tongue and of the limbs is not uncommon at this time. The urine 
 becomes more abundant, paler, and less dense than before. Even in cases 
 characterized by symptoms as severe as those above detailed some improve- 
 ment is, however, often observed to take place between the fourteenth and 
 twenty-first days. The morning remission becomes more decided, the 
 evening temperature less high than that of the preceding day ; the stools 
 lessen in number, and gradually assume a more healthy appearance ; 
 the pulse diminishes in frequency and gains in force; the tongue becomes 
 moist, and shows a tendency to throw off its fur ; the trembling grows 
 less marked ; the dulness and delirium lessen ; and the patient falls into 
 a refreshing sleep. In other cases, in many of which recovery eventually 
 takes place, there is at this time, instead of an improvement, a still 
 further aggravation of the symptoms. The pulse becomes more feeble 
 and frequent ; the tongue is not only excessively dry and brown, but 
 shrivelled and fissured ; the lips and teeth are encrusted with sordes ; the 
 stools contain shreds of membrane, and often blood ; the subsultus ten- 
 dinum increases ; carphololgia, or picking at the bed-clothes, occurs. The 
 prostration becomes so extreme that the patient frequently slips down in 
 bed from sheer weakness. The active delirium of the previous stage is 
 replaced by the low muttering form, or the patient lies upon his back 
 with his eyes half closed in a semi-unconscious condition, from which he 
 is with difficulty aroused, and which may deepen into coma. Occasionally, 
 however, the active delirium continues, and is associated with an obstinate 
 wakefulness ; the urine and feces are passed involuntarily, or, with an 
 apparent incontinence of the former, there may be retention, which is 
 very apt to be overlooked. If these symptoms continue for any length 
 of time, bed-sores may form not only over the sacrum, but on other parts 
 subject to pressure, and the patient, worn out by long-continued suffering, 
 dies from exhaustion. 
 
 Occasionally, in the midst of these symptoms, and sometimes even in 
 cases in which the condition is not so alarming, prostration approaching
 
 CLINICAL DESCRIPTION. 271 
 
 collapse, without obvious cause, suddenly supervenes. The pulse becomes 
 a mere thread, the surface is bathed in a clammy sweat, and the tempera- 
 ture is found to have fallen from four to seven degrees, and in some cases 
 even more. These symptoms almost always indicate that intestinal 
 hemorrhage has taken place, and are followed by the discharge of blood 
 either in the course of a few hours or not until a day or two subsequently. 
 If the hemorrhage be moderate in amount, and does not recur, reaction 
 usually takes place in a short time ; but if, on the other hand, it is pro- 
 fuse or frequently repeated, death may occur, either immediately or later, 
 as the result of the exhaustion it has induced. Very much the same set 
 of symptoms attend the occurrence of perforation of the bowel, an acci- 
 dent which is also liable to happen in the course of typhoid fever, but 
 which may generally be distinguished from intestinal hemorrhage by its 
 being accompanied by a sharp pain in the abdomen, which is frequently 
 so severe as to cause the patient to cry out, by its not being attended with 
 the same reduction of temperature, and by the absence of blood in the 
 discharges. In a day or two all doubt will be set at rest, if the case be 
 one of perforation, by the occurrence of general peritonitis. 
 
 A fatal termination is by no means the usual result, even in cases in 
 which the disease has assumed its worst features. Indeed, it may be said 
 that there is no condition in typhoid fever so grave that recovery from it 
 is impossible. Many authors would make perforation of the bowel an 
 exception to this general rule, but there are observations on record which 
 would seem to show that this accident is not invariably fatal. Even in 
 cases in which the patient has lain helplessly on his back in a semi-uncon- 
 scious or comatose condition, passing his discharges under him, the physi- 
 cian will often be gratified to find at one of his visits some evidence of 
 improvement, trifling as it will probably be. It may be only a slight 
 change of position, an inconsiderable fall of temperature, or a scarcely 
 appreciable moistening of the tongue ; but these changes, insignificant as 
 they apparently are, are sufficient to indicate to the practised eye of the 
 observant physician the approach of convalescence. Next day there will 
 be a still further reduction of temperature, a more decided moistening of 
 the tongue, a sensible diminution of the nervous symptoms, and a reduc- 
 tion in the frequency of pulse. In this condition, however, as may be 
 readily imagined, convalescence may be retarded by numerous accidents, 
 and life may hang trembling in the balance for several days, or even 
 weeks, before it is fully established. It is not necessary to recount here 
 the various steps by which a return to health is reached, as they are essen- 
 tially the same as those which mark the convalescence of the less severe 
 variety of the disease, and have already been fully referred to in the 
 description of that form. 
 
 But even after the establishment of convalescence, and after the patient 
 has been free from fever for several days, febrile attacks lasting for a day 
 or two, or even longer, may occur as the consequence of very slight causes, 
 such as undue excitement, or fatigue of any kind, or the immoderate 
 indulgence of the appetite, which in this condition frequently needs to be 
 restrained. These attacks are usually spoken of as recrudescences of 
 fever, and do not differ materially from attacks of irritative fever occur- 
 ring under other circumstances. They usually subside under appropriate 
 treatment with the removal of their cause, but leave the patient somewhat
 
 272 TYPHOID FEVER. 
 
 weaker than they found him. In other cases, it may be a week or ten 
 days after the fall of the temperature to the normal, and frequently at a 
 time when all danger seems to have been passed, a true relapse of the dis- 
 ease occurs. In this, of course, all the symptoms of the primary attack 
 are reproduced, including even the eruption of rose-colored spots. The 
 temperature usually, however, attains the maximum more rapidly, and the 
 duration of the fever is generally shorter, than that of the original attack. 
 A second relapse is also not very uncommon, and even a third may occur. 
 Various complications and sequelae also occur in the course of typhoid 
 fever, which will be referred to fully hereafter. 
 
 Another form of the disease, which it may be well to allude to briefly 
 here before closing the general description of the disease, is the abortive 
 form. In this variety the attack begins and runs its course up to a cer- 
 tain point, including often even the occurrence of the eruption, as it does 
 in the majority of cases ; but at a period which varies between the seventh 
 and fourteenth day the symptoms suddenly subside and the patient rapidly 
 convalesces. In some cases it may be difficult to distinguish this form 
 from an attack of simple continued fever, and, in fact, in cases in which 
 the eruption is absent it will be impossible, unless other cases of typhoid 
 fever have occurred in the same house or family, or unless the patient has 
 been unmistakably exposed to the influences under which the disease 
 arises. 
 
 In a few cases the disease begins abruptly with a chill, intense head- 
 ache, or with gastro-mtestinal symptoms, \vhich have in rare instances 
 been so violent as to have suggested to the mind of the attending physi- 
 cian the possibility of corrosive poisoning. This, according to Chomel, is 
 the most frequent mode of commencement, but his experience on this 
 point is opposed to that of the great majority of observers. 
 
 I shall now proceed to describe in detail some of the most important 
 of the symptoms presented by the disease. 
 
 Even in the beginning of an attack of typhoid fever the face has a list- 
 less and languid expression, although the eyes are usually bright and the 
 pupils dilated. In mild cases no further alteration of the physiognomy 
 than this may be noticeable throughout the whole course of the disease, 
 but in bad cases, when the typhoid condition is fully developed, the 
 expression becomes dull and heavy. There is, however, never the general 
 suffusion of the face seen in typhus. On the contrary, the face is often 
 pallid, or there is at most a circumscribed flush on one or both cheeks, 
 which is most marked during the exacerbations of fever or after the 
 administration of food and stimulants. During convalescence the effects 
 of the long illness are fully visible in the face. 
 
 Prostration, or loss of muscular strength, is present from the beginning 
 in a large number of cases of typhoid fever, but is generally not so 
 marked in the early stages as in typhus fever. It is usually most intense in 
 grave cases, but to this rule there are numerous exceptions. It is not rare 
 to find patients, in whom the other symptoms are severe, able to sit up in 
 bed, and even to rise to stool, throughout the attack. Bartlett records a 
 case in which the patient did not confine herself to bed until the occur- 
 rence of perforation, and I have had under my care a man who, suppos- 
 ing he was suffering only from a slight diarrhoea, performed the duties
 
 CLINICAL DESCRIPTION. 273 
 
 of a nurse in a military hospital until two days before his death, although 
 the autopsy showed very extensive ulceration of the intestine. Several 
 cases have come under my care in the second week in which patients 
 have walked a considerable distance to make application for admission to 
 a hospital. Generally, however, the prostration becomes extreme in the 
 third and fourth weeks of bad cases, the patient lying helplessly on his 
 back, and frequently slipping down in bed from sheer weakness. 
 
 Epistaxis may occur at any stage of typhoid fever, but is most common 
 in the forming stage. Observers diifer in opinion in regard to its fre- 
 quency. Murchison noted it in only 15 of 58 cases, and gives it as his 
 belief that it is more common in France than in England or this country. 
 Flint found that it had occurred in 21 only of 73 cases, and Jenner in 5 
 of 15 fatal cases. On the other hand, Bartlett says that it is quite a 
 common symptom, and Wood and Gerhard, from the frequency with 
 which they had met with it in the beginning of the disease, were accus- 
 tomed to regard its presence as of importance in a diagnostic point of 
 view. Part of this divergence of opinion is probably due to the fact 
 that it is usually small in amount, and therefore very apt to be overlooked. 
 I have in many cases, after having been told there had been no epistaxis, 
 found the evidence of it upon the fingers or bed-clothes of the patient. 
 It may, however, be so profuse as to endanger life and render necessary 
 the use of the tampon. Except in the latter case it is without influence 
 upon the course of the disease. 
 
 The skin may be almost constantly dry as well as warm throughout 
 the whole course of the fever in a small proportion of severe cases. But, 
 on the whole, perspiration occurs with greater frequency in typhoid fever 
 than in any other acute disease, unless it be rheumatism. It takes place 
 most commonly at night after the evening exacerbation, or in the morning 
 when the patient awakes from sleep, but it is not very rare to find the 
 skin clammy at other times. The sweating is usually general, but in a 
 few cases it is local only. When colliquative, it is frequently exhaust- 
 ing, and is then a grave symptom. It is sometimes prolonged into 
 convalescence, when it is not only annoying, but in consequence of the 
 prostration it induces may sometimes retard the restoration to health. 
 
 I have never been able to satisfy myself that any peculiar odor is given 
 off by the skin in typhoid fever, and most observers make a similar state- 
 ment. Chomel, however, asserted that the perspiration has a strong acid 
 odor, and Bartlett agreed with Nathan Smith in thinking that typhoid 
 fever patients exhale a peculiar odor, not pungent and ammoniacal, like 
 that of typhus, but " of a semi-cadaverous and musty character," which 
 is especially noticeable during the later stages of severe and fatal cases. 
 
 The eruption is one of the most characteristic symptoms of the disease. 
 Indeed, in many cases, without it the diagnosis would be impossible. It 
 is rarely absent in a well-developed case. Murchison says that it was 
 noted in 4606 cases only out of 5988 admitted into the London Fever 
 Hospital in twenty-three years, but admits that it would probably have 
 been found in some of the others if it had been properly looked for. 
 Wood says that he has seldom met with cases in which it was absent. 
 It is oftener absent in children than adults a circumstance which makes 
 the diagnosis of the disease in the former often a matter of great diffi- 
 culty. It consists of isolated rose-colored spots, slightly elevated above 
 
 VOL. I. 18
 
 274 TYPHOID FEVER. 
 
 the surface, circular in form or nearly so, having well-defined margins, 
 usually about a line in diameter, but sometimes varying from half a line 
 to two and even three lines in diameter, and disappearing on pressure, to 
 return when the pressure is removed. They are generally first observed 
 some time between the seventh and fourteenth days, but cases are on 
 record, especially in children, in which they are said to "have appeared 
 much earlier, and others in which they could not be discovered until the 
 twentieth day. In the latter cases, however, it is not improbable they 
 had really been present at an earlier period, but had escaped detection. 
 The eruption occurs in crops at intervals of three or four days, each spot 
 lasting from three to five days, and the whole duration of the eruption 
 being usually from ten to twenty, and varying of course with the 
 severity of the attack. It may continue to appear as late as the twen- 
 tieth day, and in cases of relapses very much later. Spots are sometimes 
 seen on the abdomen or elsewhere after the subsidence of fever, and 
 whenever seen indicate that the diseased 'process is not at an end. They 
 are usually scattered over the lower part of the front of the chest and 
 the abdomen, but are also not infrequently met with upon the back, and 
 if they are not found upon the abdomen, the patient should be gently 
 turned npon his side and this part of his body carefully examined. 
 When very abundant they are often also seen upon the extremities, and 
 occasionally even upon the face. Wood has seen them abundant on the 
 upper and inner part of the thigh, and confined to that place. When 
 tardy in making their appearance, they may often be brought out by 
 application of a mustard plaster or by that of heat in any form ; and 
 it is probably, therefore, owing in large measure to the warmth of the bed 
 that they are often so fully developed upon the back. In number they 
 may vary from two or three to several hundred. In one case Murchison 
 counted one thousand, and in three cases which came under my care in 
 the winter of 188182 the body was so thickly covered by spots of an 
 unusually large size that when I first saw the patients I directed them 
 to be isolated under the fear that the disease would prove to be typhus 
 fever. When very numerous the edges of two or three of the spots may 
 run together, giving the eruption an irregular character. No relation 
 between the copiousness of the eruption and the severity of the disease 
 has ever been proved to exist. While the prevailing impression, there- 
 fore, that cases in which the eruption is freely developed are apt to be of 
 a mild character, is true in many instances, it is by no means so in all. 
 The three cases above referred to all ran a severe course, and one of them 
 proved fatal. The spots disappear after death, and are rarely converted 
 into petechiae, but in bad cases I have seen purpura spots, and even 
 vibices, developed independently of them. Sometimes the appearance 
 of the eruption is preceded for a day or two by. a delicate scarlet rash, 
 which Tweedie says resembles roseola and has been mistaken for scarlet 
 fever. 
 
 Sudamina, so called from their resemblance to sweat-drops, also occur 
 not infrequently in this disease. They are minute vesicles, often not 
 larger than a pin's head, but sometimes two lines in diameter, and occa- 
 sionally, in cases in which two or three have coalesced, much larger. 
 They usually contain at first a clear serum, which may, however, subse- 
 quently become turbid, and when very minute must, in consequence of
 
 CLINICAL DESCRIPTION. 275 
 
 their transparency, be viewed obliquely to be seen. Frequently, when 
 they cannot be distinguished by the eye, they are readily detected by the 
 touch. They rarely occur before the twelfth day, and often not before 
 the close of the third week. Their most usual seat is the neck, the folds 
 of the axillae, and the groin, but there is no part of the body except the 
 face in which they may not occur. They are most frequently seen in 
 those cases attended by profuse sweating, and are by no means peculiar to 
 typhoid fever, but are met with in other diseases as, for instance, acute 
 rheumatism which are attended by this symptom. They are generally 
 followed by branny desquamation of the cuticle in the position they have 
 occupied. 
 
 Spots of a delicate blue tint the " taches bleuatres " of French writers 
 are sometimes observed on the skin in cases of enteric fever. They 
 must be of infrequent occurrence in this country, for, although I have 
 looked carefully for them in every case that has come under my care, I have 
 rarely been able to detect them. According to Murchison, " they are of 
 an irregularly rounded form and from three to eight lines in diameter. 
 They are not in the least elevated above the skin, nor affected by pressure, 
 even at their first appearance. They have a uniform tint throughout their 
 extent, and they never pass through the successive stages observed in the 
 spots of typhus. Two or three of them are sometimes confluent. They 
 are most common on the abdomen, back, and thighs." They are said in 
 some cases to be distributed along the course of the small cutaneous veins, 
 and to occur most frequently in cases which are mild. They are met 
 with in other diseases, and usually precede in appearance the character- 
 istic eruption of typhoid fever. 
 
 The hair is very apt to fall out after an attack of typhoid fever. The 
 nails suffer in their nutrition in common with other parts of the body 
 a fact which may be recognized by the peculiar markings which are found 
 upon them after recovery, and to which attention has been particularly 
 drawn by Morris Longstreth in a paper in the Transactions of the Col- 
 lege of Physicians of Philadelphia, vol. iii., 3d Series. 
 
 The circulation is usually accelerated from the beginning of an attack 
 of typhoid fever. The degree of acceleration is commonly proportioned 
 to the severity of the other symptoms, and especially to the elevation of 
 the temperature, and is generally more marked in the evening than in the 
 morning. It is subject, however, to numerous variations, not only in 
 different cases, but even in the same case from day to day, and even from 
 hour to hour. Murchison refers to a case in which the pulse sank to 37, 
 and never exceeded 56 during the fever, although it rose to 66 during 
 the convalescence. I have never had the opportunity myself of observ- 
 ing such an infrequent pulse in the febrile period of the disease, but 
 have had cases under my care in which the pulse often fell below 60, and 
 in which it never exceeded 80 until after the commencement of conva- 
 lescence. A comparatively infrequent pulse may coexist with a high 
 temperature. Thus, for example, a pulse of 80 was noted in one of my 
 cases at the same time that the thermometer showed that the temperature 
 was 105, and on another occasion in the same case the pulse was 82 and 
 the temperature 104 J. As a rule, the pulse is more frequent in cases 
 which terminate fatally than in those which end in recovery ; but to this 
 rule there are numerous exceptions. In eight of Louis's cases it never
 
 276 TYPHOID FEVER. 
 
 went above 90, and in some of my own it did not reach 100 on more 
 than one or two occasions. On the other hand, in mild cases the pulse 
 may be exceedingly frequent, reaching, and even exceeding in many 
 cases, 120. When the disease is prolonged and the prostration is 
 extreme, a pulse of from 140 to 150 is not uncommon. In the majority 
 of cases which have come under my care the pulse has varied in fre- 
 quency from 80 to 120. In some cases the range has been between these 
 two figures, in others it has been very much less. 
 
 During convalescence the pulse usually gradually diminishes in fre- 
 quency, and may sometimes fall below the normal standard. I have 
 known it in a few instances to fall to 38, and have often met with pulses 
 ranging between 40 and 60 at this period. In other cases, on the con- 
 trary, the pulse continues frequent during convalescence, or readily 
 becomes so after a slight exertion or excitement of any kind. A slow 
 pulse during convalescence has been in my experience most frequent 
 in men whose health previous to the attack was good, and a frequent 
 pulse in women and delicate men. If the convalescence is retarded 
 by a complication, the pulse will maintain its frequency until this is 
 removed. 
 
 The pulse will of course present other changes than those above 
 referred to. It is in the beginning firm and full, but after the first 
 week becomes small and compressible, and acquires the peculiarity 
 known as reduplication. Sometimes, when this is not well developed, 
 it will be rendered quite distinct by elevating the patient's arm. 
 Irregularity or intermission of the pulse, although not commonly ob- 
 served in this disease, occasionally occurs. The heart's action will also 
 be observed to grow feeble in the course of severe cases, and its first 
 sound indistinct, but neither of these changes is as marked in typhoid 
 as in typhus fever. Hay em asserts that in a certain number of cases a 
 systolic bellows murmur, with its point of greatest intensity at the apex, 
 is heard during the course or at the close of the second week. This mur- 
 mur is sometimes soft in the beginning, but becomes harsh and intense 
 later, or may have these characters from the start to such a degree as to 
 give the impression that endocarditis exists. During convalescence an 
 ansemic murmur is not infrequently present. 
 
 The respiratory movements are accelerated in typhoid fever, as they 
 are in all febrile conditions, independently of any disease of the lungs, 
 and their frequency is generally proportional to that of the pulse. In 
 looking over my records of cases I find that the former are less liable 
 to fluctuate from day to day than the pulse, and that when the latter 
 becomes abnormally infrequent they do not sink below the standard of 
 health. In several cases of which I have notes the respiration was from 
 20 to 28, while the pulse was below 60, and in a case referred to by 
 Murchison the pulse was 42 at the same time that the respirations, 
 although no pulmonary lesion could be discovered, were 48. The res- 
 piration is often, as in the case just alluded to, very much accelerated 
 when the most careful examination of the chest will not lead to the 
 detection of any disease there. This is sometimes the consequence of 
 very great tympanites, which, by interfering with the descent of the dia- 
 phragm, gives rise to dyspnoea, but it may also occur as a purely nervous 
 phenomenon. The air expired by patients has been examined, and has
 
 CLINICAL DESCRIPTION. 277 
 
 been found sometimes, in the later stages of the disease, to contain 
 ammonia. 
 
 Bronchitis is so common an accompaniment of typhoid fever that 
 auscultation rarely fails to reveal its presence in some form or other. In 
 some cases there may be only slight harshness of the respiratory murmur 
 at the base of the chest, but in a large number of cases the auscultatory 
 signs will be sonorous, sibilant, and mucous rales. The last named may 
 be so numerous that I have known the disease in the beginning mistaken 
 for acute bronchitis, and even acute phthisis, by accomplished diagnos- 
 ticians. 
 
 Headache is one of the most constant symptoms of typhoid fever. 
 Bartlett says that it is rarely absent, Louis found it in all but 7 of 133 
 cases, and Jackson noted it in nearly all his cases. It is often the first 
 symptom of which the patient complains, and, when not present at the 
 beginning of the attack, makes its appearance soon after. It is almost 
 as common, although less severe, in mild cases as in grave ones. It some- 
 times persists throughout the attack, but oftener subsides at the close of the 
 first week or toward the middle of the second, or the patient may cease 
 to complain of it in consequence of the dulness which is very apt to 
 supervene. It is usually referred to the forehead and temples, but may 
 extend over the whole head. It is usually dull and heavy, but in a few 
 cases is throbbing. It is said by authors rarely to be severe, but I have 
 known it so intense and acute as to cause the disease at its commencement 
 to be mistaken for meningitis, and Jackson asserted that it is sometimes 
 so severe that local bloodletting, and even venesection, had to be employed 
 for its relief. It would appear to be as common in children as adults. 
 
 The headache is sometimes accompanied by vertigo and dizziness, and 
 even by retraction of the head. Distressing pains in the back and limbs 
 may also occur, and in rare cases even contraction of the hands and feet. 
 
 In the beginning of an attack of typhoid fever the patient usually 
 suffers from wakefulness and restlessness at night, and it occasionally 
 happens that the wakefulness becomes a distressing symptom. But in a 
 great many cases, sooner or later in the course of the "disease, drowsiness 
 supervenes. In mild cases this symptom is late in making its appear- 
 ance, and is generally slight and evanescent, but in grave cases it may 
 come on as early as the eighth day, and when once present may gradually 
 become more profound until it deepens at last into unconsciousness. It 
 usually persists until the occurrence of death or of convalescence, but 
 may alternate with periods of delirium, the delirium being more frequent 
 at night and the somnolence by day. It is as frequent in children as 
 in adults. Occasionally, the wakefulness of the earlier stage may reap- 
 pear at the beginning of the third week, and coexist with muttering delir- 
 ium, or occasionally with delirium of a more violent character. It then 
 constitutes a most unfavorable symptom, the patient frequently passing 
 several days and nights in incessant agitation, and sinking finally from 
 exhaustion due to want of sleep. 
 
 Some degree of mental hebetude is rarely absent, even in the mildest 
 cases of typhoid fever, and is usually among its earliest symptoms. It 
 may, however, be absent occasionally in cases which run a severe course. 
 It exhibits itself in the beginning in an indisposition to be disturbed., a 
 slight inability to fix the thoughts, or a loss of memory. Generally, the
 
 278 TYPHOID FEVER. 
 
 patient will be able at first, by an effort, to rouse himself from this 
 apathy, but the moment he relaxes this effort will lapse into his former 
 condition. As the disease progresses the hebetude becomes more profound 
 and is overcome with greater difficulty. In mild cases it may continue 
 until the occurrence of convalescence, but in grave cases it is soon lost in 
 delirium. This is one of the commonest symptoms of the disease. If I 
 should rely solely upon my own experience, I should say that it was rare 
 for any but the mildest cases to run their course without its occurring at 
 some time or other. Louis found, however, that it was absent in 32 
 cases, 8 of which were fatal, out of 134 cases, and Murchison in 33 cases, 
 3 of which ended in death, out of 100 cases. In 8 of these fatal cases 
 death was due to perforation a fact which would seem to show, as 
 suggested by James C. Wilson, that this symptom is not dependent 
 upon the intensity of the local disease alone. The delirium of course 
 varies with the severity of the other symptoms, and especially with the 
 intensity of the fever. In its mildest form it consists of a slight confu- 
 sion of ideas, which is readily dissipated by fixing the patient's attention, 
 and is most apt to occur in the night or when he first wakes up from 
 sleep. In other cases it is much more marked ; occasionally it is violent 
 and noisy ; the patient may talk wildly and incoherently, he may break 
 out into a paroxysm of screaming, or, possessed with a sudden terror, he 
 may leave his bed and attempt to rush from the room or to jump from 
 the window. Later in the course of the disease the active delirium sub- 
 sides, and low muttering delirium .takes its place. The latter may go on 
 until convalescence occurs, or the patient may gradually fall into a coma- 
 tose condition, which very often ends in death. 
 
 The delusions from which the patient suffers are various. I have 
 known in two instances a perfectly pure young girl call loudly for her 
 baby, which she accused her mother and sister of keeping from her. 
 Very frequently patients insist that they are in a strange place, and 
 beg piteously to be taken to their home and friends ; occasionally, in 
 grave cases, the patient declares that there is nothing the matter with 
 him. This Louis Vas accustomed to regard as a bad symptom, having 
 never known recovery to take place after it. Delirium generally first 
 makes its appearance some time in the course of the second week, but 
 occasionally the invasion of the disease is marked by maniacal excitement. 
 I have known delirium to occur on the second or third day. Louis 
 records two cases in which it was present during the first night, and 
 Bristowe 1 one in which it was noted on the fourth night. It is some- 
 times so prominent a symptom in the beginning of an attack that the 
 patient has at first been supposed to be aifected with acute mania. M. 
 Motet 2 indeed refers to a case in which a man was actually admitted into 
 an insane asylum before the true nature of his disease became known. 
 On the other hand, delirium may not occur until much later in the 
 disease sometimes not before the close of the third or even the fourth 
 week, when it may suddenly make its appearance when least expected. I 
 have known it to be present in a marked degree during a relapse when it 
 had been wholly wanting in the primary attack. 
 
 During convalescence, especially in cases in which there has been much 
 
 1 Trans. Path. Soc. Lond., vol. xiii. 
 
 * Archiv. gen. de Med., 1868, quoted by Murchison.
 
 CLINICAL DESCRIPTION. 279 
 
 mental disturbance during the febrile period, the intellect may be weak, 
 and continues so in some cases even after recovery in other respects is 
 complete ; but it is rarely permanently impaired. Insanity may also occur 
 during the convalescence or after recovery, but it is usually under these 
 circumstances amenable to treatment. In some cases the moral sense 
 appears to be weakened after an attack, as in the case reported by 
 Nathan Smith, in which a young man of previously good habits devel- 
 oped thieving propensities after his recovery. 
 
 Hypereesthesia of the skin exists, according to Murchison, in about 5 
 per cent, of the cases, and may occur at any stage of the disease. It is 
 chiefly observed in the abdomen and lower extremities, and is more fre- 
 quently met with in women and children than in adult males. In a case 
 which was partially under my care during the past summer the slightest 
 touch made the patient, a boy of fifteen years, cry out with pain, and the 
 administration of an enema gave him excruciating agony. Occasionally, 
 the tenderness over the abdomen is so great that it is sometimes difficult 
 to distinguish it from that due to peritonitis, except by the coexistence of 
 hypersesthesia in other parts of the body. It is very often associated 
 with spinal tenderness, and sometimes with other spinal symptoms. 
 Murchison does not regard it as a formidable symptom. 
 
 Cutaneous ansesthesia may also occur, but it is certainly less common 
 in the earlier stages than hyperaesthesia. Billiet and Barthez look upon 
 it as of grave diagnostic import when it occurs in children. 
 
 Muscular tremor is also a common symptom of typhoid fever. A 
 little tremulousness of the tongue when protruded may often be detected 
 before the close of the first week. A little later the hands will be 
 observed to tremble when held up, and still later twitching of the 
 tendons at the wrist may be appreciable while the pulse is being felt. 
 When muttering delirium supervenes this subsultus tendinum becomes 
 constant, and extends to other parts of the body. The hands of the 
 patient are frequently then in constant motion, either picking at the 
 bed-clothes a very unfavorable symptom or moving in an objectless 
 manner through the air. This condition presents many points of resem- 
 blance to that often seen in delirium tremens, and is said to come on 
 earlier and to be more marked in those who are addicted to the abuse of 
 alcoholic liquors. Hiccough is occasionally observed toward the close 
 of grave cases, and is justly regarded as a bad symptom. 
 
 Spasmodic contraction of various groups of muscles is occasionally 
 observed in severe cases, but is less frequent than muscular tremor, and 
 in my experience is generally met with in the earliest period of the dis- 
 ease. The muscles of the extremities, especially those of the legs, are 
 oftenest affected, but I have known the head as rigidly retracted as in 
 tubercular meningitis, and have seen cases in which strabismus has been 
 an early symptom. Murchison has had patients under his care who 
 have suffered from constriction of the pharynx to such an extent that 
 they could not swallow. He also reports cases in which trismus and 
 spasm of the glottis have been present. General convulsions are not 
 common, but occasionally do occur. Although a very grave symptom, 
 they are not invariably fatal. Recovery took place in one of two cases 
 which came under my own observation, and in four of the six recorded 
 by Murchison. They are not always associated with an albuminous con-
 
 280 TYPHOID FEVER. 
 
 clition of the urine. In neither of my cases was there albuminuria, and 
 in only one of the four of Murchison's cases in which the urine was 
 examined was it present. In one of my cases the fatal one the con- 
 vulsions seemed to have been induced by giving the patient improper 
 food ; in the other no cause could be discovered. 
 
 Ringing or buzzing noises in the ears are present in the early stage of 
 the disease in a large proportion of the cases, and may sometimes persist 
 until the disease is well advanced. Usually, however, after a few days 
 they subside and give place to deafness. This is a very common symp- 
 tom, and may either affect both ears or be limited to one. In the former 
 case it is probably generally due to the blunted perceptions of the patient, 
 although in a few instances it may be caused, as suggested by Trousseau, 
 by inflammation of the Eustachian tube. When only one ear is affected 
 the deafness is of more serious import, as it is then dependent upon the 
 presence of local inflammation, which may possibly extend to the 
 meninges. It is, as a rule, most marked in the severest cases. Unless 
 there has been a local inflammation it is not followed by permanent im- 
 pairment of the hearing. It has even been regarded by some observers 
 as a favorable symptom, but this opinion does not appear to rest upon 
 a more substantial basis than the observation of Louis, that the most pro- 
 found deafness adds nothing to the gravity of the prognosis. 
 
 Imperfect or perverted vision occasionally occurs in the course of 
 typhoid fever. In a case which was recently under my care, and which 
 has already been referred to in another connection, there was double 
 vision associated with strabismus. Sometimes haziness of vision, and 
 sometimes even visual illusions, are observed. Bartlett and Murchison 
 have often known intolerance of light present in cases characterized by 
 active febrile excitement. As a general rule, the pupils are widely 
 dilated and the conjunctiva pearly white a condition which is in marked 
 contrast with what is seen in typhus fever. When, however, stupor 
 supervenes in bad cases, the pupils are frequently as much contracted 
 and the conjunctive as much injected as in the latter disease. In a few 
 cases unequal dilatation of the pupils has been noticed. Trousseau was 
 accustomed in his clinical lectures to call attention to the frequency with 
 which sloughing of the cornea occurred in the condition known as coma 
 vigil, in which the patient lies with his eyes wide open. He attributed 
 this accident to the fact that the eye in this condition is not kept con- 
 stantly moist by the occasional closure of the eyelids, and hence, as its 
 innervation is also impaired, is especially prone to take on ulcerative 
 inflammation. In other cases there is a free secretion of viscid matter, 
 which often glues the eyelids together. 
 
 The sense of taste is often lost or perverted. This is partly due to 
 impaired innervation of the tongue and palate, and partly to the thick 
 deposits which usually cover the mucous membrane of these organs. 
 
 Frequent observations of the temperature in typhoid fever not merely 
 give most important information in a diagnostic and prognostic point of 
 view, but also often furnish valuable indications for treatment. From a 
 close study of a large number of cases, Wunderlich and other physicians 
 have discovered that the pyrexia has certain characters which distinguish 
 it from other fevers, and which, being present in a case in which the 
 other symptoms are obscure or ill denned, will often enable us to recognize
 
 CLINICAL DESCRIPTION. 281 
 
 its true nature. The pyrexia may be divided into three periods, each 
 having its own peculiarities. It is usually said that each period lasts 
 about a week, but in severe cases the second and third periods extend over 
 a longer time than this, and the occurrence of a complication or of any 
 other disturbing influence will have its effect in producing either a pro- 
 longation of any one or more of these periods, and especially of the last 
 two, or an unwonted elevation or fall of temperature. During the first 
 period there is a progressive rise of temperature, but the rise is never so 
 abrupt as in typhus or in many of the phlegmasise. As there are 
 morning remissions, ranging from a degree to two degrees in extent, cor- 
 responding to the morning fall in the daily variations of temperature, the 
 tracing upon the temperature chart will be a zigzag line, each evening 
 temperature being from a degree and a half to two degrees higher than 
 that of the preceding evening, while the same 1 difference will be observed 
 in the morning temperature. The temperature ought, therefore, never 
 in an uncomplicated case to be much over 100 on the first evening or 
 102 on the second. A temperature of 104 at any time during the first 
 or second day will consequently exclude typhoid fever from the diagnosis. 
 From six to eight days are usually occupied before the maximum is 
 reached. I have seen it attained as early as the fourth day in mild cases, 
 and, on the other hand, not until much later in severe ones. It is usually 
 104 or 105, but will of course vary with the gravity of the other 
 symptoms. The temperature rarely rises higher than 106 at this period. 
 On the other hand, I have known cases in which it never exceeded 103 
 during their whole course. It would therefore be wrong to exclude 
 typhoid fever from the diagnosis, as Wunderlich does, if this temperature 
 is not reached by the sixth, or at latest the eighth, day. 
 
 In the next period the temperature usually ceases to rise, but has a 
 tendency to oscillate about the maximum temperature of the previous 
 period as a fixed point, occasionally not quite reaching it, at other times 
 rising a little above it. The morning remissions, too, become less 
 decided. In other words, the fever now becomes continuous. This 
 period, although usually lasting about a week, may extend over more 
 than two weeks, even in the absence of complications, in cases which run 
 a severe course, and when it is prolonged from this cause the temperature 
 may again show a tendency to rise, and may even attain an elevation con- 
 siderably above that of the preceding period. The prognosis in all such 
 cases in which the temperature rises after the middle of the second week 
 is grave. Temperatures of 108, and even of 110.3, have been noted 
 at this time. Death invariably follows such high temperatures as these, 
 but before death actually occurs a considerable fall of temperature very 
 often takes place. Wunderlich has also called attention to the fact that 
 it is not uncommon for a sudden and temporary remission of tempera- 
 ture to take place at this stage, varying from one degree to two degrees 
 and a half, which may last from ten to twelve hours, and which usually 
 has occurred in his experience from the sixteenth to the eighteenth day. 
 Toward the close of the second period the morning remissions will be 
 observed to be more decided, while the evening temperature remains about 
 the same as before. The beginning of the third period is indicated by a 
 diminution of the evening exacerbation, while the morning remissions 
 become still more marked. The diminution is progressive, but slow, the
 
 282 
 
 TYPHOID FEVER. 
 
 temperature each evening falling short by from half a degree to a degree 
 of the point it reached the preceding evening. The morning remissions, 
 
 FIG. 12. 
 
 Chart of typical range of temperature in typhoid fever, after Wunderlich. 
 
 on the other hand, each day become greater, a fall of three and a half 
 degrees being not uncommon. The lysis, therefore, occupies usually a 
 longer time than was required by the pyrexia in reaching its maximum. 
 Toward the close of this period the morning temperatures may be normal, 
 as even subnormal, while an elevation of temperature may continue to 
 take place in the evening. Occasionally, however, an abrupt deferves- 
 cence takes place. The duration of this period will be very much pro- 
 longed if complications are present or if the intestinal ulcers are slow in 
 healing. I have known it to last for more than three weeks. During 
 convalescence the temperature is frequently subnormal even in the even- 
 ing, but the slightest cause is often sufficient to produce a considerable 
 though temporary elevation of temperature. I have known the tempera- 
 ture in one case to rise from 99 F. to 105.6 in a few hours in conse- 
 quence of an indiscretion in diet, and in another from 100 to 104 from 
 the suffering and excitement caused by a severe attack of toothache. In- 
 discretions in diet are a fruitful source of these recrudesences of fever. The 
 fever of the third period has all the characters of an irritative fever, and 
 is probably kept up by the irritation arising from the intestinal ulcers. 
 On the other hand, that of the first two periods is due to the action of 
 the specific poison upon the nervous system and the other tissues of the 
 body, and corresponds exactly with the primary fever of the eruptive dis- 
 eases. 
 
 The febrile movement, however, rarely follows a perfectly typical 
 course, and I consequently find, in looking over the temperature sheets 
 of a large number of cases, very few which bear, except during the first 
 period, anything more than a general resemblance to the chart which
 
 283
 
 284 
 
 TYPHOID FEVER. 
 
 Wunderlich has prepared as typical. A very slight cause will exercise, 
 as has already been said, a disturbing influence upon the course of the 
 fever, and serious complications or accidents will of course produce a still 
 more marked effect. An intestinal hemorrhage, for example, will cause 
 a rapid and decided fall of temperature. I have often known it to fall 
 from 104 to the normal temperature, or even below it. This depres- 
 
 FIG. 14. 
 
 Chart showing fall from intestinal hemorrhage. 
 
 sion, unless the bleeding continues and the case ends fatally in the course 
 of a few hours, is only temporary, the temperature rising within twenty- 
 four hours to its former height, and sometimes even beyond it. A free 
 epistaxis or a copious diarrhoea will in the same way cause a fall of the 
 temperature, but it is rarely so marked as in the preceding case. The 
 same effect is produced by the administration of large doses of quinia or 
 by the application of cold water either in the form of the bath, the 
 douche, or any other form, to the surface of the body. On the other 
 hand, the occurrence of a complication will cause a rise of temperature, 
 often considerably above the maximum of the first period. 
 
 The thermometer should be used at least twice daily. In this country 
 it is generally introduced into the axilla, and less frequently into the 
 mouth, for the purpose of making an observation. In other countries it 
 is not infrequently inserted into the rectum, and even into the vagina. 
 The best hours for making the thermometric observations are eight in 
 the morning and eight in the evening, since it has been ascertained from
 
 CLINICAL DESCRIPTION. 285 
 
 frequent observations that the daily remissions are more marked between 
 the hours of 6 and 8 A. M., and that the temperature usually reaches its 
 maximum some time between those of 7 and 12 p. M. 
 
 Loss of appetite is, except in mild eases, one of the earliest symptoms 
 of the disease, and usually persists as long as the fever lasts. It is some- 
 times accompanied by positive loathing for food, but generally there is 
 no great difficulty in persuading the patient to take the necessary amount 
 of nourishment. During convalescence the appetite returns, and is occa- 
 sionally immoderate, so that it is frequently necessary to curb it lest harm 
 should be done by over indulgence. 
 
 Thirst, usually proportionate to the degree of fever, is also present in 
 the beginning of the fever. Later, when the patient sinks into a semi- 
 unconscious condition and becomes insensible to the wants of the system, 
 he will cease to call for water, although it is still urgently needed. 
 
 Nausea and vomiting sometimes occur at the beginning of the disease, 
 but they have not been such frequent symptoms in my experience as they 
 would appear to have been in that of Murchison, who says that they 
 are of such common occurrence that the patient is often supposed at first 
 to be suffering merely from a bilious attack. He does not regard them, 
 when occurring at this stage, as serious symptoms. Indeed, he expresses 
 the belief that the subsequent course of the disease is sometimes favorably 
 modified by them. They may also occur later in the disease, and are 
 then of grave import, as they are not infrequently the consequence .of 
 peritonitis. Louis regarded vomiting as a grave symptom, but it is 
 probable it occurred in the cases from which he makes his deductions 
 late in the course of the disease. It may sometimes occur during con- 
 valescence, and may then interfere very materially with the proper nutri- 
 tion of the patient. The matter vomited usually consists of a greenish 
 bilious fluid, with the food last taken. In some cases blood has been 
 thrown up. 
 
 The tongue at the beginning of an attack of typhoid fever is usually 
 moist and coated with a thin white fur, and in mild cases may retain 
 these characters until the close. Even in some cases which terminate 
 fatally in the course of the second week, the tongue, with the exception 
 of being less moist than in health, may present no marked deviation 
 from this appearance. Generally, however, as the disease progresses, 
 and sometimes as early as the tenth day, it becomes dry and brownish, 
 and is protruded with a tremulous motion. Still later it tends to cover 
 itself with a thick brown coating. This coating is disposed principally 
 along the middle of the organ, leaving uncovered the edges and tip, 
 which are very apt to be unnaturally red in color. The bare portion at 
 the tip is often rudely triangular in shape a point which is regarded 
 as of some importance in the diagnosis of the disease by Da Costa. 
 In bad cases, during the course of the third week the tongue is fre- 
 quently crossed by cracks and fissures, which are the cause of much dis- 
 comfort to the patient, and when deep may bleed and leave behind them 
 scars which are recognizable during the remainder of his life. In other 
 cases the tongue is dry, brown, and shrivelled, or covered with a tena- 
 cious, viscid secretion which renders it difficult to protrude it. 
 
 In favorable cases, as convalescence approaches the tongue regains by 
 degrees its normal appearance. At first the only noticeable change may
 
 286 TYPHOID FEVER. 
 
 be thai the organ is a little less dry than before. In a few days it will 
 be observed to have become moist and to be gradually throwing oif its 
 coating. The process is, however, a slow one, and one, moreover, subject 
 to frequent interruption. Very often, when it seems nearly completed 
 it will be suddenly arrested, and the tongue become dry and brown. 
 Sometimes, instead of cleaning itself gradually, the tongue throws oif its 
 coating in large flakes, leaving the mucous membrane red and shining, 
 as if deprived of its papillary structure. Wood was accustomed to teach 
 that if the tongue when thus cleaned remained moist convalescence might 
 be expected, but would always be tedious. This is an observation the 
 correctness of which I have had abundant opportunity to confirm. If 
 anything happens, however, to interfere with the progress of convales- 
 cence, it not infrequently becomes dry and coats itself over again. When 
 the restoration to health is retarded by the continuance of diarrhoea or by 
 the occurrence of any intercurrent affection, the tongue will often become 
 pale and flabby and be the seat of superficial ulcerations or of aphthous 
 exudations. 
 
 The mucous membrane of the posterior fauces is also often red and dry 
 and covered with a glutinous secretion, which often materially interferes 
 with swallowing. The lips and teeth are in bad cases encrusted with 
 sordes, and the former are dry and cracked, and bleed readily when 
 picked. 
 
 Meteorism or tympanites is observed in the greater number of cases 
 of typhoid fever, having been noted by Murchison in 79 out of 100 
 cases, and by Hale in 130 out of 179 cases, and in only 43 of the 
 remainder of his cases is it expressly stated to have been absent. My 
 own experience leads me to believe that it is present in even a larger 
 proportion of cases ; in fact, that it is rarely absent. It is, as a rule, 
 later in making its appearance than the other abdominal symptoms, 
 showing itself usually about the end of the first or the beginning of the 
 second week. It is generally most marked in grave cases, especially 
 those attended by severe diarrho3a, but I have seen it highly developed 
 in cases in which the symptom was not present at all or but little devel- 
 oped. It may vary, moreover, frequently in degree at different times 
 in the same case, but when once present generally persists until convales- 
 cence is established or death occurs. When extreme, it may give rise to 
 distressing dyspnoea by preventing the descent of the diaphragm. 
 
 The meteorism is usually preceded and accompanied by gurgling and 
 tenderness on pressure in the right iliac fossa. The former of these symp- 
 toms is most marked in cases in which diarrhoea exists, and is caused by 
 the presence of liquid and gas in the lower part of the ileum. The ten- 
 derness is unquestionably due to the presence of ulcers in the same part 
 of the bowel. There is also occasionally pain in the region of the 
 umbilicus, but this is a much less frequent symptom. 
 
 Enlargement of the spleen was noted by Hale as being present in 
 some of the cases which he has described. It is a frequent symptom of 
 the disease, and may be generally demonstrated by percussion in the 
 course of the second week. It has not, however, often happened to me 
 to be able to feel the organ enlarged through the abdominal walls, as 
 Murchison asserts he has been able to do. Indeed, tympanites is usually 
 present in a sufficient degree to render this difficult. The enlargement
 
 CLINICAL DESCRIPTION. 287 
 
 occurs more frequently in persons under thirty years of age than in those 
 over it. 
 
 Diarrhosa is one of the most frequent symptoms of the disease, 
 especially in severe cases, and there are very few mild cases in which it 
 does not occur at some period of their course. Louis noted it in all but 
 three of his fatal cases, Murchison in 93 out of 100, and M. Barth in 96 
 out of 101. It varies in different cases in severity, in duration, and in 
 the time at which it appears. It may be one of the earliest symptoms, 
 presenting itself frequently on the first day, and often being the only one 
 which occasions uneasiness to the patient or his physician. At other 
 times its appearance may be postponed until the end of the first week, or 
 even until the patient is apparently entering on convalescence. It may 
 be mild in the beginning and become more severe as the disease pro- 
 gresses, or after having been at first acute may cease spontaneously in a 
 few days to occasion any uneasiness. In degree it may vary from two 
 stools to three or four, or even twenty, in the course of the twenty-four hours. 
 It is absent in a few cases, but in many even of these cases the bowels 
 will be found to act inordinately after a very moderate dose of purgative 
 medicine. I have known, for instance, the administration of a single 
 teaspoonful of castor oil to be followed by five or six stools in an adult. 
 Constipation does, however, actually exist in a certain number of cases. 
 Murchison has known the bowels in cases in which a relapse has 
 occurred to be constipated in the primary attack and relaxed in the 
 relapse. There is no relation between the severity of the diarrhoea and 
 the extent of the local lesion. Although oftenest met with in mild cases, 
 constipation has existed in cases in which perforation of the bowel or 
 intestinal hemorrhage has occurred during life, or very extensive lesions 
 been found after death. 
 
 The stools are fetid and ammoniacal, and are alkaline in reaction, 
 instead of acid as in health. They are usually liquid and of the color of 
 yellow ochre. Murchison says that they separate, on standing, into two 
 layers a supernatant fluid and a flaky sediment but that, occasionally, 
 instead of being watery they are pultaceous, frothy, and fermenting, and 
 so light as to float in water. I have myself often seen the appearance 
 which Bartlett compares to that of new cider. They may contain blood, 
 and when they do, occasionally present the appearance of coffee-grounds. 
 They are not infrequently, in grave cases, passed involuntarily. 
 
 Intestinal hemorrhage is fortunately not a frequent symptom of typhoid 
 fever. It may occur as early as the fifth or sixth day, but is more 
 common after the middle of the second week or in the third or fourth 
 week. In 60 cases observed by Murchison in which the hemorrhage 
 exceeded six ounces it began during the second week (mostly toward its 
 close) in 8 ; during the third week in 28 ; during the fourth in 17 ; 
 during the fifth in 1 ; during the sixth in 3 ; during the seventh in 1 ; 
 and during the eighth week in 1 ; while in one case the date of its occur- 
 rence is not noted. In the cases observed by Liebermeister and Grie- 
 singer, 113 in all, the bleeding took place in a much larger proportion of 
 cases at an early period of the disease, occurring in as many as 43 in the 
 second week, and in only 27 during the third. In 7 cases in which I had 
 the opportunity of observing it in patients under my own care it occurred 
 on the seventeenth day in 1 ; on the twenty-third day in 1 ; during the
 
 288 TYPHOID FEVER. 
 
 third week in 2 ; during the fifth week in 2 ; and on the fifth day of a 
 relapse in 1. There may be a single hemorrhage, or the bleeding may be 
 repeated one or more times. In 5 of my cases there was a second 
 hemorrhage, and in 2 of them a third ; and in several of Murchison's 
 cases it recurred at varying intervals after its first appearance. 
 
 When the bleeding occurs early in the disease it is usually insignificant 
 in amount, and is due either to extreme congestion of the mucous mem- 
 brane of the intestine, giving rise to rupture of the capillaries, or to dis- 
 integration of the blood, allowing its ready passage through the walls of 
 the vessels. In the latter case it usually coexists with petechiae or a 
 hemorrhage from some other part of the body, as, for instance, epistaxis 
 or hematuria. After the middle of the second week the hemorrhage is 
 generally the result of the laying open of a small artery, either by the 
 detachment of a slough from one of the glands of Peyer or by the 
 involvement of its walls in the ulcerative process. It is then often pro- 
 fuse, and may even reach several pints in quantity. Murchison has, 
 however, seen profuse hemorrhage at such an early stage of the disease 
 that it was impossible that ulceration could have taken place. The blood 
 is not always voided immediately after a hemorrhage has taken place ; 
 it may be retained for some days. Indeed, if the amount be large the 
 patient may die within a few hours of its occurrence without any appear- 
 ance of blood externally. This is, however, rare ; it is more usual for 
 the hemorrhage to be repeated before death takes place, but the occur- 
 rence of the bleeding may be suspected in such cases by the abrupt fall 
 of temperature, sometimes below the normal standard, and by the extreme 
 prostration and pallor which come on suddenly without other assignable 
 cause. The depression of the temperature does not continue long. It 
 generally reaches its former elevation, or even exceeds it, in the course of 
 twenty-four hours. 
 
 There would appear to be a slight difference in the frequency with 
 which intestinal hemorrhage occurs in different times and at different 
 places. Murchison noted it in 58 cases of 1564, or 3.77 per cent.; Louis 
 in 8 cases of 134, or 5.9 per cent.; Liebermeister in 127 cases of 1743, or 
 7.3 per cent.; Griesiuger in 32 cases of 600, or 5.3 per cent.; and I have 
 noted it 7 times in 81 cases, or in about 8.5 per cent. Liebermeister 
 makes it twice as frequent in women as in men. It seems to be much 
 less common in children than in adults, for in 252 patients under fifteen 
 years of age observed by Taupin, Rilliet, and Barthez it occurred in 1 
 only. There is considerable diversity of opinion among observers in 
 regard to the importance of this symptom. Murchison lost 32 of his 60 
 cases. In 11 of the 32 fatal cases the immediate cause of death was 
 peritonitis ; in 14 'of the remaining 21 cases the patients died within three 
 days of the bleeding, and in 8 of the 14 within a few hours. Of Lieber- 
 meister's 127 cases 49, and of Griesinger's 32 cases 10, terminated fatally ; 
 3 of my own cases ended in death, but none of them until several days 
 had elapsed after the bleeding. In the face of facts such as these there 
 have not been wanting authors to assert that the effect of the hemorrhage 
 was 'sometimes beneficial. Chief among these are the celebrated Irish 
 physician Graves and his devoted admirer Trousseau. There may occa- 
 sionally be a slight subsidence of the nervous symptoms upon the occur- 
 rence of a hemorrhage, consequent upon the reduction of temperature
 
 CLINICAL DESCRIPTION. 289 
 
 which usually accompanies it, but this relief is only temporary, and pro- 
 cured at too great expense to be really of service to the patient. 
 
 The bleeding is most frequently observed in bad cases. All the cases 
 which were under my care in which it occurred were of great severity 
 from the very start. In 18 of Murchison's 60 cases the antecedent 
 symptoms were mild. In 3 of my cases there was severe diarrhoea. In 
 2 of the other cases, 1 of which was fatal, the bowels were constipated, 
 and in another one, also fatal, they were slightly loose. In 8 of 
 Murchison's cases, 6 of which were fatal, the bowels had been consti- 
 pated up to the time of its occurrence. The blood, if voided immedi- 
 ately after its escape into the intestines, is generally fluid and bright red in 
 color. When retained for a day or two it is passed in dark clots, and if 
 retained longer than this it is usually mixed with fecal matter when dis- 
 charged from the bowels, and gives the stools a tarry appearance and 
 consistence, which is not always recognized by inexperienced attendants 
 as due to blood. 
 
 It has been asserted that intestinal hemorrhage has become more fre- 
 quent since the introduction of the cold-water treatment, but Lieber- 
 meister shows this to be an error, for he has found that of 861 cases 
 treated before the introduction of this treatment, 72, or 8.4 per cent., had 
 intestinal hemorrhage, but that of 882 cases treated since its introduction 
 hemorrhage occurred in 55, or in 6.2 per cent. Other methods of treat- 
 ment have also been charged with inducing a tendency to hemorrhage, 
 but probably not upon more substantial grounds than the above. 
 
 The occurrence of perforation may be suspected when the patient is sud- 
 denly seized with acute pain in the abdomen, accompanied by symptoms of 
 collapse and occasionally by rigors. The fall of temperature is often con- 
 siderable. Liebermeister refers to one case in which it was as much as 
 5J, or from 104 to 98|. Very soon the abdomen becomes tender on 
 pressure, and, if it were not so before, hard and tympanitic ; the pulse 
 grows frequent, small, and sometimes almost imperceptible ; the breath- 
 ing is thoracic ; the physiognomy expresses great suffering ; the features 
 are contracted, and the face is bathed in profuse perspiration. Nausea 
 and vomiting come on soon after inflammation has commenced, and 
 rapidly exhaust the patient. The decubitus is dorsal, and the legs are 
 generally drawn up so as to relax the abdominal muscles. Prostration 
 rapidly increases until death puts an end to the patient's sufferings. 
 Occasionally, the symptoms are more obscure. Pain and rigors may 
 both be wanting, and nothing but the extreme prostration, the frequent 
 and feeble pulse, and the distended condition of the abdomen will indi- 
 cate the gravity of the danger. This is not infrequently the case in 
 delirious patients. Death may take place during the collapse, but this 
 is rare. It more frequently takes place on the second or third day ; on 
 the other hand, it may be postponed until much later. Liebermeister 
 and Murchison refer to cases in which there was an interval of two or 
 three weeks between the first symptom of perforation and the fatal 
 result. 
 
 Perforation of the intestine was formerly regarded as an inevitably 
 fatal accident, but this view is no longer entertained. I have had under 
 my observation cases in which all the symptoms of this accident were 
 present, and in which recovery took place. In some of these cases there 
 
 VOL. I. 19
 
 290 TYPHOID FEVER. 
 
 may have been a error of diagnosis, but all of them will not admit of 
 this explanation. Moreover, cases of a similar character have been 
 reported by physicians whose skill in diagnosis is universally recognized. 
 Thus, Munchison reports six such cases, Tweedie two, and Wood one. 
 Liebermeister and Bristowe 1 also both say that recovery is possible. 
 This view is sustained by the results of certain autopsies. In one of 
 these, reported by Buhl, 2 a perforation was found completely closed by 
 adhesions to the mesentery, and in others reported by Murchison partial 
 adhesion had taken place between the edges of the perforation and the 
 abdominal walls or to an adjoining coil of intestine. Occasionally, the 
 inflammation excited by the perforation may be circumscribed and ter- 
 minate in an abscess, which may permit recovery by discharging itself 
 into the bowel or externally. At other times, however, it ruptures into 
 the peritoneal cavity, when death speedily ensues. 
 
 Perforation is, fortunately, not a frequent accident in typhoid fever. 
 It was the cause of death in 20 only of 250 fatal cases collected by Hoff- 
 mann. It occurred, according to Liebermeister, in only 26 cases, 3 of 
 \\hich ended in recovery, in more than 2000 cases observed at the hospital 
 at Basle. Murchison observed it 48 times in 1580 cases, Griesiuger 14 
 times in 118 cases, and Flint twice in 73 cases. Murchison found that 
 in a total of 1721 autopsies, the details of which were collected from 
 various sources, it was the cause of death in 196, or 11.38 per cent. It 
 would appear to be rather more common on the continent of Europe than 
 in England or in this country. Perforation is much more frequently met 
 with in men than in women. The patients were men in 15 of 21 of 
 Liebermeister's cases, in 51 of 73 of Murchison's, and in 72 of 106 cases 
 collected by Na'cke. It is rarer in children than in adults. Killiet, 
 Barthez, and Taupin met with it only three times in 232 children under 
 treatment. Murchison has, however, had a fatal case in a child of five 
 years of age. It is also not common after forty years of age, but does 
 occasionally occur, although the contrary has been asserted. 
 
 Perforation is most likely to happen during or after the third week of 
 the disease, but it has been met with as early as the eighth day, as in a 
 case reported by Peacock. On the other hand, in three cases cited by 
 Morin 3 it did not occur until the seventy-second, seventy-sixth, and one 
 hundred and tenth day, respectively. Instances are on record in which 
 it has taken place after the patient was supposed to be thoroughly con- 
 valescent and had returned to his occupation. When it occurs early it is 
 due to the separation of a slough. After the middle or end of the third 
 week it is probably always the result of the extension of the ulcerative 
 process to the peritoneal coat. In a large proportion of cases the perfora- 
 tion has been preceded by symptoms of great gravity, such as severe 
 diarrhoea, great tympany and tenderness of the abdomen, and intestinal 
 hemorrhage, but in a certain number of instances the cases in which it 
 has occurred have been of a mild character, the patient in many of them 
 not considering himself sick enough to take to his bed or even to abstain 
 from his daily labor. After death the perforating ulcer has been found 
 to be the only one. 
 
 The most frequent causes of perforation are the irritation arising from 
 
 1 Transactions of the Pathological Society of London, vol. xi. p. 115. 
 
 * Cited by Murchison. 3 Quoted by Mutch ison.
 
 CLINICAL DESCRIPTION. 291 
 
 indigestible and unsuitable food, distension of the bowels by feces or gas, 
 vomiting, and movements on the part of the patient. Liebermeister calls 
 attention to the frequency with which ascarides are found in the intestines 
 of those who die of perforation, and is inclined to think they may have 
 something to do with causing it. Moriu l reports a case in which the 
 perforation appeared to be caused by the administration of an enema. 
 
 For our knowledge of the changes in the composition of the urine we 
 are largely indebted to Parkes and certain German observers. As the disease 
 generally begins insidiously, the condition of the urine before the attack 
 and during the first two or three days has not been ascertained with cer- 
 tainty. During the latter part of the first week the amount of water 
 is greatly diminished, occasionally falling to one-fourth or one-sixth of 
 the usual quantity. In the second and third weeks it increases, and at 
 the end of the fourth week may again be normal. The amount may, 
 however, vary from day to day, but its variations do not stand in close 
 relation to those of the febrile heat ; that is, the thermometer may mark 
 one day 104, and the next day 100, while the amount of urine remains 
 the same. Still, when the temperature begins to fall permanently it 
 increases at once, or, according to Thierfelder, two or three days after. 
 The specific gravity is usually high in almost all cases in which the 
 urine is scanty, and may be as high 1038. With the establishment of 
 convalescence the specific gravity often diminishes before the water begins 
 to increase. In other words, the lessening of the solids of the urine fre- 
 quently takes place prior to the increase of the water. 
 
 The reaction of the urine is very acid in the beginning, but the acidity 
 is not due to an increased secretion of acid, but simply to concentration. 
 Later it may become alkaline, and even ammoniacal. The color of the 
 urine is darker than in health during the early part of the febrile period. 
 This is due partly to concentration, and partly to increased disintegration 
 of the blood-corpuscles, which is a consequence of the fever. 
 
 The quantity of urea is augmented during the fever, and especially 
 during the first week, when the water and chlorides of sodium are most 
 diminished. As a general rule, the higher the temperature the greater 
 the amount of urea. It may, however, be very much diminished during 
 the presence of inflammatory complications. On the other hand, it is 
 not affected by diarrhoea. Uric acid is uniformly increased, the amount 
 of increase being relatively greater than that of the urea ; it is often 
 doubled, and sometimes the increase is even more than this. This 
 increase takes place, according to Zimmer, up to the fourteenth day. 
 It diminishes after this, and during convalescence may fall below the 
 normal amount. Copious deposits of urates may occur at any time in 
 the course of the disease. The chloride of sodium is usually diminished 
 in amount. This diminution is partly due to a less amount of this salt 
 being taken with the food, and partly to the fact that large quantities of 
 it pass away with the stools. As the diminution cannot always be fully 
 accounte'd for in this way, it would appear that it is also stored up in the 
 body during the fever. In cases in which sweating and purging are 
 absent the sulphuric acid is increased in amount. The phosphoric acid 
 is at first slightly diminished, but later undergoes an increase. The hip- 
 puric acid is also diminished. 
 
 1 Quoted by Murchison.
 
 292 TYPHOID FEVER. 
 
 Parkes found albumen in the urine in 7 out of 21 cases. In 5 of 
 these it was temporary, and entirely disappeared before the patients left 
 the hospital. Becquerel found it in 8 out of 38 cases, Andral in only 4 
 out of 34 cases. Griesinger found it commonly, though it was usually 
 temporary. He met with only four or five cases in which it was never 
 present. Kerchensteiner found albumen in a fourth part of the severe 
 cases. BrattTer noticed it in 9 out of 23 cases. I have very frequently 
 found it myself, but it has always been in my cases a temporary phe- 
 nomenon. Desquamative nephritis may occur occasionally in the course 
 of typhoid fever, and give rise to the appearance of a large amount of 
 albumen in the urine, and also occasionally of blood. Renal epithelia 
 and casts are sometimes seen in cases in which there is albuminuria, but 
 usually soon disappear. Zimmermann asserts that in all but very slight 
 cases casts may be found even when no albumen can be detected. The 
 statement is probably too general, but there is no doubt of the occasional 
 presence of casts under these circumstances. Bladder epithelia and 
 pus-cells are een in a few cases in small quantities, but decided cystitis 
 is rare, unless it has ensued upon retention of urine. Sugar has not 
 been found except in the urine of diabetic patients, who may have hap- 
 pened to contract typhoid fever. In these patients the sugar diminishes, 
 and is sometimes wholly absent during the continuance of the fever. 
 Leucin and tyrosin have been found by Frerichs, but at present no 
 observations have been made as to the frequency or import of their 
 occurrence. 
 
 In many cases, when the prostration is extreme, the urine is passed 
 involuntarily, but in some of these cases the incontinence of the urine is 
 only apparent, and is really the result of over-distension of the bladder. 
 This is a condition which is very apt to be overlooked, and I have known 
 paralysis of the bladder to result in consequence of this neglect, and to 
 continue sometimes after convalescence has been established. 
 
 COMPLICATIONS AND SEQUELS. Although cerebral symptoms are 
 among the commonest manifestations of the disturbing effects produced 
 in the economy by the typhoid fever poison, they are almost always inde- 
 pendent of inflammation of the brain and its membranes. In a few 
 cases, however, the lesions of meningitis have been found after death. In 
 some of these it has come on without assignable cause, in others it has 
 been the consequence of pyamia, of tubercles, or of the extension of 
 inflammation from the petrous portion of the temporal fyone. Occa- 
 sionally, during convalescence, some impairment of the intellect is 
 observed. This may consist in simply some loss of memory or child- 
 ishness of manner. At other times delusions of a mild form are present, 
 or else the patient is liable to attacks of acute mania, sometimes violent, 
 coming on suddenly and without fever. In a few instances the moral 
 sense seems to have been perverted, as in the case reported by Dr. Nathan 
 Smith, already referred to, in which a young man of previously good 
 character developed a propensity to steal after his attack. Recovery with 
 the re-establishment of the physical health almost occurs in these cases. 
 Murchison says he knows of no case in which this condition has been per- 
 manent. On the other hand, Dr. C. M. Campbell, 1 who had the oppor- 
 tunity of observing an attack of typhoid fever among some insane patients 
 1 The Journal of Mental Science, July, 1882.
 
 COMPLICATIONS AND SEQUELS. 293 
 
 at the Durham County Asylum, reports that the mental state was in no 
 case injuriously affected by the disease, but, on the contrary, underwent a 
 marked improvement in several of the cases. Indeed, in two of the 
 cases, in which the prognosis had become very unfavorable, mental 
 recovery began during the attack of fever. 
 
 Paralysis, muscular tremors, and chorea are also occasionally observed 
 after attacks of typhoid fever. According to Murchison, paralysis does 
 not supervene until several weeks after the commencement of conva- 
 lescence. It may last for several weeks or months, but recovery in the 
 majority of instances eventually takes place. According to Nothnagel, 1 
 the most common form is paraplegia, but it may also take the form of 
 hemiplegia, strabismus, paralysis of the portio dura, motor paralysis of 
 individual spinal nerves, such as the ulnar or peroneal, or local anes- 
 thesia. On the other hand, neuralgias and disturbances of sensation are 
 not common sequelae of typhoid fever. 
 
 Degeneration of the muscular tissue of the heart is probably present 
 in some degree iu every case of typhoid fever, being, of course, most 
 marked in the severest cases. There would seem, however, to be no 
 special tendency to disease of its valves or membranes. Arterial throm- 
 bosis or embolism, giving rise to gangrene of the part supplied by the 
 obstructed artery, is of occasional occurrence. Patry, 2 Hayem, 3 Trousseau, 4 
 and others report or refer to several cases in which gangrene of the leg, 
 hand, or cheek was observed, and among others a case in which sphacelus 
 depending upon obstruction of the carotid artery, the result, as Patry 
 thought, of arteritis, commenced in the left ear, and extended from there 
 to the forehead and cheek. 5 A. Martin 6 reports the case of a woman who 
 expelled from the vagina a fetid-smelling structure of cylindrical form, 
 which proved to be the cervix of the uterus, with the upper part of the 
 vagina, and in whom menstruation was not re-established until after the 
 performance of an operation. Spillmann 7 has also called attention to the 
 occurrence of gangrene of the vagina and vulva in cases of typhoid fever. 
 
 1 Cited by Murchison. See also article by Paget, St. Bartholomews Hospital Report, 
 vol. xii. " Archives generates de Medicine, 1863, vol. i. pp. 129-549. 
 
 3 Loc. cit. * Clinique medicate. 
 
 6 Since the above was written Bari has called attention in the Revue de Medicine, Jan. 
 and Feb., 1884, to the frequency with which acute inflammation of the arteries occurs as 
 a sequel of typhoid fever. The author, whose investigations were limited to the larger 
 arteries, found that the vessels generally implicated are in the order of their frequency, 
 the posterior tibial, the femoral, and the dorsal artery of the foot. The affection is usually 
 unilateral, appears during convalesence or when the patient leaves his bed, and occurs 
 just as often after light as after severe cases. He distinguishes two varieties : 1, acute 
 obliterating arteritis, and, 2, acute parietal arteritis. The first variety is characterized by 
 embryonal infiltration of all the tissues, by disappearance of the smoothness of the intima, 
 which becomes uneven and granular, and by the formation of a secondary thrombus, and 
 almost invariably terminates in dry gangrene. The second is merely an inflammation 
 without such a clot, and always terminates in recovery without gangrene. 
 
 The symptoms of obliterating arteritis are pain, more or less sudden in its onset, 
 directly over the course of affected vessels, and increased by pressure, by the erect position, 
 and by walking ; diminution, and then absence, of pulsation ; swelling of the limb, with- 
 out ffidema or redness ; and, later, the appearance of bluish mottling of the surface, and, 
 more rarely, of patches of purpura ; lowering of the temperature, with or without troubles 
 of sensibility, such as formication, anaesthesia, etc., and the appearance of a hard and 
 painful cord, due to the formation of the thrombus. In the parietal form the diminution 
 of the pulsations is sometimes preceded by a considerable exaggeration of their amplitude, 
 and, while the. temperature on the affected side is usually lowered, it may sometimes be 
 increased. Centralblatt f. Gynakol, 1881. 7 Archives generale, Mars, 1881.
 
 294 TYPHOID FEVER. 
 
 This complication is generally met with toward the end of the febrile 
 period. 
 
 Venous thrombosis, the result of weakness of the heart's action, is 
 more frequently observed. It occurs generally during the convalescence 
 of cases which have run a severe course, and usually aifects the veins of 
 the lower extremities. I have seen both the femoral veins obstructed 
 from this cause at the same time. All the cases which have come under 
 my own observation have ended in recovery, and only 2 of 31 collected 
 by Liebermeister terminated fatally. Death occurred in 3 of the 17 cases 
 collected by Murchison, but in none of them was this result attributable 
 to this complication alone. There is, however, always danger of a por- 
 tion of the thrombus becoming detached and producing embolism of the 
 pulmonary artery. 
 
 Pyaemia is said by Murchison and other authors to be an occasional 
 complication, but it is certainly rare in this country. In the milder cases 
 abscesses form during convalescence beneath the skin in different parts of 
 the body. In the more severe cases pus is deposited in the joints or in 
 the internal organs. Albert Robin 1 has reported two cases in which 
 there was suppurative joint affection. In one of these the joints of the 
 fingers and toes, with the sheaths of the corresponding extensor tendons 
 and both knee-joints and one shoulder-joint, were affected. In the other 
 the left knee was filled with pus. In both cases the fever soon assumed 
 an adynamic character. 
 
 Laryngitis may sometimes occur in the course of typhoid fever, and 
 when it assumes the diphtheritic form and runs on to the formation of 
 ulcers is a very serious complication of typhoid fever, as it is not infre- 
 quently accompanied by oedema of the glottis and gives rise to the neces- 
 sity for tracheotomy. It is fortunately, at least in its worst forms, rare 
 in this country. In Germany, judging from the number of cases col- 
 lected by Hoffmann and Griesinger, it is of more common occurrence. 
 The ulcers are oftener met with in some epidemics than in others. Dur- 
 ing the winter of 1860-61, which I passed in Vienna, the frequency 
 with which they occurred was the subject of remark among those who 
 were in attendance upon the various clinics. 
 
 I have already called attention to the frequency with which bronchitis 
 in some form or other attends upon typhoid fever. When it invades the 
 smaller bronchial tubes it occasionally gives rise to lobular pneumonia 
 or to collapse of some of the lobules of the lung. Lobar pneumonia 
 may also occur in the course of typhoid fever. It was observed 52 times 
 in 1420 cases of typhoid fever under treatment at the Basle hospital from 
 186568. When it comes on late in the disease, especially if the patient 
 is comatose, or even semi-conscious, it may be entirely overlooked, unless 
 the lungs are carefully examined, as it often does not reveal itself to us 
 by any of the ordinary symptoms. It may, however, occur early, and I 
 have known it so prominent in the beginning of an attack that the exist- 
 ence of typhoid fever was not suspected. It sometimes terminates in 
 abscess or gangrene, but is more usually followed by chronic pneumonia, 
 which may eventually either end in recovery or lay the foundation for 
 phthisis. Pleurisy with effusion is also not an uncommon complication. 
 It was observed, according to Liebermeister, at the hospital at Basle 64 
 
 1 Gazelle de Paris, 1881.
 
 COMPLICATIONS AND SEQUELJE. 296 
 
 limes in 1743 cases of fever. It is also a serious complication, as 21 of 
 the 64 cases terminated fatally. Murchisou refers to three cases in 
 which it was followed by empyema. Other morbid conditions of the 
 respiratory organs which may occur as complications of typhoid fever are 
 oedema, infarction, hypostatic congestion of the lungs, emphysema, and 
 pneumothorax. Acute miliary tuberculosis is also an occasional compli- 
 cation, but is ofteuer met with as a sequel. According to Liebermeister, 
 the tendency to pulmonary complications has diminished since the intro- 
 duction of the cold-water treatment. 
 
 Catarrhal or diphtheritic inflammation of the fauces and pharynx 
 occurs in a large number of cases, and frequently gives rise to a great 
 deal of difficulty in swallowing. Indeed, it has been so frequently 
 observed in some epidemics that a few writers have regarded it as a 
 symptom rather than a complication of the disease. Either of the 
 varieties of inflammation may extend through the Eustachian tube to 
 the middle ear and be the cause of deafness, which usually passes off as 
 the inflammation subsides. Occasionally, however, the affection of the 
 middle ear gives rise to perforation of the tympanum or to caries of the 
 petrous portion of the temporal bone. 
 
 Murchison says he has known the symptoms of and lesions of dysen- 
 tery to coexist with those of typhoid fever in several cases, and Lieber- 
 meister asserts that diphtheria of the intestinal mucous membrane is an 
 occasional sequel to severe cases, especially when other mucous mem- 
 branes are the seat of diphtheritic inflammation. In a few instances 
 which have come under his observation it had given rise to perforation 
 of the boAvel or to gangrene of the intestinal mucous membrane. 
 
 Jaundice occasionally occurs in the course of the disease. I have 
 never happened to see this complication, and am inclined to think it is 
 rare in this country. Liebermeister, however, met with it 6 times in 
 1420 cases, and Gricsiuger 10 times in 600 cases. Hoffmann found it 
 in 10 of 250 fatal cases, and Murchison was able to collect 9 cases, all 
 of which but one terminated in death. Several of Griesinger's cases, 
 however, ended in recovery. In a few cases the jaundice may be attrib- 
 uted to catarrh of the biliary ducts, but this solution of the question will 
 not explain those cases in which the feces remain colored throughout. In 
 fatal cases marked degeneration of the liver has been found, which Lie- 
 bermeister regards as of similar character to that which occurs in acute 
 yellow atrophy. In two of .Murchison's cases the liver was small and 
 its secreting cells loaded with oil. In most cases it does not appear 
 until late in the disease, but it has been observed as early as the fifth 
 day. 
 
 Abscess of the liver and diphtheritic inflammation of the mucous 
 membrane of the gall-bladder are among the rarer sequelae of typhoid 
 fever. 
 
 Peritonitis is the most serious of all the complications of typhoid 
 fever. Its most common cause is perforation of the bowel, but it may 
 also be due to the extension of inflammation to the peritoneal mem- 
 brane without ulceration. Liebermeister believes that it is sometimes 
 the result of the typhoid infiltration so frequent in various tissues of 
 the body taking place in the serous membrane. In other cases it 
 arises from the rupture of softened mesenteric glands, of softened infarc-
 
 296 TYPHOID FEVER. 
 
 tions in the spleen, or of the abscesses which are sometimes the conse- 
 quence of the circumscribed inflammation by which perforation is occa- 
 sionally prevented from proving immediately fatal. Less frequent causes 
 of it are rupture of the gall-bladder, with the escape of gall-stones into 
 the cavity of the abdomen, abscesses of the ovary, and abscesses in the 
 walls of the urinary bladder. It is said by Murchison to have been in 
 one case the result of a pseudo-abscess in the sheath of the rectus muscle 
 bursting inward. 
 
 Swelling of the parotid gland occasionally occurs in typhoid fever, but 
 is much less common than in typhus. It is most frequently met with in 
 bad cases about the end of the third week or later, and generally involves 
 one side only. The swelling is hard and firm in the beginning, and may 
 terminate in resolution or suppuration. I have seen it three times only, 
 twice in my own practice, and once in that of a medical friend. One 
 of my cases was fatal, the other ended in recovery, as did, I believe, the 
 third case. Murchison saw it in only 6 cases, 5 of which were fatal. 
 According to Hoffmann, 1 16 cases of suppurative parotitis were found at 
 Basle among about 1600 typhoid fever patients, 7 of the 16 ending fatally. 
 Parotitis without suppuration occurred three times. In 15 cases the 
 attack was confined to one side, 9 times to the right and 6 to the left ; in 
 4 it was double. Trousseau 2 looks upon these swellings as a very grave 
 accident, and says that he has scarcely ever seen a case recover in which 
 it has occurred, either in the course of typhoid fever or any other disease. 
 Chomel, on the other hand, is said to have regarded them as critical and 
 auspicious. 
 
 Menstruation occasionally occurs during typhoid fever, and may be 
 profuse. Bartels, 3 who has investigated the histories of 172 patients in 
 reference to this point, says that the catamenia always appear if the 
 menstrual period falls within the first five days of the fever, and that 
 they do so in two-thirds of the cases if they are expected between the 
 sixth and fourteenth days. On the other hand, menstruation does not 
 occur if the time for it falls in the third week. He says also that the 
 catamenia generally appeal's about the time they are expected, or later, 
 and very seldom earlier. Liebermeister, on the contrary, says that they 
 often occur prematurely. Other uterine hemorrhages seldom occur, and 
 never in those who have ceased to menstruate or in whom the function 
 has not been established. 
 
 Suppuration of Bartholini's glands is said by Speilman to have taken 
 place in one case. 4 In the fourth week the patient complained of vio- 
 lent pains in the right nympha, which, upon examination, was found to 
 be swollen. A tumor as large as a nut, which was red and painful on 
 pressure, could also be felt in the vagina. 
 
 Pregnancy was formerly thought to confer an entire immunity from 
 typhoid fever, but recent and accurate investigations have shown that 
 if this immunity really exists, it is only relative, not absolute. Gus- 
 serow 5 says that the disease is more frequently met with in the first 
 half than in the latter half of pregnancy. Abortion under these circum- 
 stances commonly occurs. Gusserow says that it takes place in from 60 
 
 1 Quoted by Liebermeister, 3 Clinique medicate de I' Hotel Dieu, t. i. 1861. 
 
 8 Fetersb. Med. Wochemchr., 1881. * Arch, generates, Mars, 1882. 
 
 6 Schmidt's Jahrbuch, Bd. 193, No. 1, 1880, from Berl. klin. Wochenschr., 1880.
 
 COMPLICATIONS AND SEQUELS. 297 
 
 to 80 per cent, of the cases. He believes it to be due to the high temper- 
 ature, which causes the death of the foetus, which is then expelled from 
 the uterus. In a few cases, however, the child is born living. Of Mur- 
 chison's 14 cases, 10 recovered, and two of the ten patients carried the 
 child, at the fourth and eighth months respectively, throughout the attack. 
 All the others miscarried or aborted, only one of them being delivered 
 of a living child. Out of 18 pregnant women 1 treated in the hospital 
 of Basle for typhoid fever, between the years 1865 and 1868, 15 mis- 
 carried or aborted. In the three years following the introduction of the 
 anti-pyretic treatment only five cases of abortion occurred, and but one 
 of these proved fatal. This accident generally happens during the second 
 or third week of the fever. It is always a serious complication, and if 
 it occurs in the first three months of pregnancy it generally gives rise to 
 profuse hemorrhage, which is usually followed by a fall of temperature 
 as marked as that observed in hemorrhage from the intestines. Just 
 as in the latter case, the fall is only temporary, being soon succeeded by 
 a rapid rise of the temperature to its former height, or even beyond it. 
 
 The danger of bed-sores occurring in typhoid fever is in consequence 
 of the impaired nutrition of the tissues, the length of time the disease 
 lasts, and the great emaciation which usually attends it greater than in 
 any other acute disease. They constitute a very serious and troublesome 
 complication, and may occur on any part of the body subjected to pres- 
 sure, but are most frequent over the sacrum and trochanters. (Edema of 
 the lower extremities from feebleness of the circulation is occasionally 
 observed in the convalescence from protracted attacks. Lendel has pub- 
 lished a series of 7 cases observed at Rouen, in which the entire body 
 became very O3dematous in the second or third week of the attack or 
 during convalescence. In none of the cases was the urine albuminous. 
 All the patients recovered except one, who died of peritonitis. Similar 
 cases have been reported by other observers. Barthez and Rilliet have 
 seen several cases in children. 
 
 Periostitis is an occasional sequel. I have seen it in one case only. 
 Sir James Paget, 2 who appears to have met with it in several cases, says 
 that it never occurs in the continuity of the fever, but always when the 
 patient is apparently convalescent, when his temperature is normal and 
 constant, and he is beginning to move about and to grow stronger and 
 stouter. Its most usual seat is the tibia, but it is also met with in the 
 femur, ulna, and parietal bone. Except in one case, Sir James has never 
 seen it in more than one bone in the same person. It is always circum- 
 scribed within a space of from one to three inches in extent, and usually 
 subsides without necrosis or other abiding change of structure ; but in 
 some cases the patient has remained for some time subject to repeated 
 attacks of pain and swelling of periosteum. In the few cases, he says, 
 in which the periostitis is followed by necrosis the extent of dead bone 
 has always been less than that of the inflammation over it. Murchison, 
 however, refers to two cases of necrosis of the tibia, to one of the tem- 
 poral bone, and to two in which extensive necrosis of the lower jaw 
 occurred. Gay 3 also reports a case of extensive necrosis of the thigh- 
 bone in a child three years old, following an attack of typhoid fever. 
 
 1 Liebermeister, loc. cit. ' St. Bartholomew's Hospital Report, vol. xxi. 
 
 3 Path. Trans. Land., vol. xx., p. 290.
 
 298 TYPHOID FEVER. 
 
 Very frequently after an attack of typhoid fever the patient evinces 
 a tendency to grow stout, which is either continuous or else is gradually 
 lost after he fully recovers his health. This increase in flesh is not 
 always accompanied by a corresponding gain in physical strength, and he 
 may remain for a long time after convalescence is apparently complete 
 incapacitated for much bodily or mental exertion. Sometimes, on the 
 other hand, the patient, instead of gaining flesh and strength, may con- 
 tinue weak and emaciated, even when he is taking a full amount of 
 nourishment, which he is, however, unable to assimilate. Cases of this 
 kind may terminate in phthisis, but they occasionally prove fatal, without 
 any discoverable lesion after death except an abnormally smooth appear- 
 ance of the mucous membrane of the ileuru and a shrivelled condition 
 of the mesenteric glands. 1 
 
 Patients suffering from typhoid fever may occasionally contract other 
 specific diseases. Murchisou has notes of eight cases in which the erup- 
 tion of this disease coexisted with that of scarlatina, and says that it was not 
 uncommon in the London Fever Hospital for a patient suffering from 
 the former disease to contract the latter. Similar cases are recorded by 
 other observers. Typhoid fever may also be complicated with rubeola, 
 pertussis, diphtheria, variola, and vaccinia. I have repeatedly seen 
 children convalescent from typhoid fever in the hospitals of Paris con- 
 tract one or other of the eruptive fevers. 
 
 VARIETIES. A great variety of forms of typhoid fever has been 
 described by various authors, but as many of them present few points of 
 difference from the usual form of the disease, it will not be necessary to 
 discuss them at any length. They derive their names from some 
 peculiarity of the mode of seizure, from the prominence of some one 
 symptom or set of symptoms, or from the presence of complications. 
 They are (1) The adynamic form, in which prostration is marked in 
 the beginning and throughout the attack. (2) The ataxic or nervous 
 form, which is characterized by the predominance of delirium, subsultus 
 tendinum, and other nervous symptoms. (3) The hemorrhagic form, in 
 which there is a special tendency to hemorrhage from the different 
 mucous membranes. (4) The abdominal form, in which the abdominal 
 symptoms, such as diarrhoea and tympanites, are well developed. (5) 
 The thoracic form, so called from the presence of some thoracic compli- 
 cation. (6) The gastric or bilious form, in which the disease is com- 
 plicated at its commencement by gastro-intestinal catarrh. La forme 
 muqueuse of French authors is probably identical with the above. (7) 
 The acute form, in which the disease begins abruptly and with great vio- 
 lence, and runs a very rapid course, terminating usually in death before 
 the end of the first week or early in the second, before ulceration can 
 have taken place. Delirium is an early and prominent symptom in this 
 form, so that it has sometimes been mistaken for meningitis. 
 
 Certain forms of the disease deserve a little fuller consideration. One 
 of the most important of these is the abortive form, iii which, as its 
 names implies, the fever is cut short in its course, and in which there is 
 every reason to believe that infiltration of Foyer's glands takes place as 
 usual, but that the subsequent course of the disease is different, the glands 
 undergoing resolution instead of advancing to ulceration. The majority 
 
 1 Murchison.
 
 VARIETIES. 299 
 
 of observers agree that in the beginning there is nothing to distinguish 
 such attacks from those which follow their usual course. Liebermeister 
 and Jaccoud state, however, that their commencement is usually more 
 abrupt than in the ordinary variety, the former asserting that the tem- 
 perature generally reaches its maximum earlier, and the same opinion 
 is expressed by other authors. They are occasionally characterized by 
 severe symptoms, including a high temperature. In the few cases which 
 have come under my own observation the symptoms have been mild, but 
 they were sufficiently developed to leave no doubt on the mind as to the 
 nature of the disease. In a case which aborted on the twelfth day there 
 were hebetude, diarrhoea, tympany, and rose-colored spots persisting even 
 after the subsidence of the fever. Constipation would appear, however, 
 to be more frequent than diarrhoea in this class of cases. The subsi- 
 dence of the fever may occur at any time between the seventh and four- 
 teenth days ; Griesinger has seen it occur as early as the fifth day. Some- 
 times the defervescence occurs abruptly, with copious perspiration ; at 
 others it is gradual and similar to that which takes place in ordinary 
 attacks. Between the abortive form of typhoid fever and simple con- 
 tinued fever there are, of course, many points of resemblance, but cases 
 of the former may generally be recognized by the presence of this rose- 
 colored eruption and enlargement of the spleen, or, where these are 
 absent, by their occurring in the same house or under the same circum- 
 stances as typical cases of the disease. 
 
 Liebermeister has called attention in his article on typhoid fever in 
 Ziemssen's Cyclopcedia to a class of cases which, he thinks, is also caused 
 by the typhoid infection, and of which the prominent feature is the 
 insignificance of the fever or the entire absence of it which characterizes 
 them. Such cases appear to be of frequent occurrence in Basle. Many 
 of them, he says, never show during their entire course any rise of the tem- 
 perature, or occasionally a slight elevation only, but an enlargement of 
 the spleen could generally be detected, and occasionally an unmistak- 
 able rose-colored eruption. The action of the bowels was usually 
 irregular ; sometimes there was diarrhoea, and sometimes, on the other 
 hand, obstinate constipation. The other symptoms were prostration, 
 pains throughout the body, often headache, persistent loss of appetite, 
 with more or less swollen and furred tongue, and markedly diminished 
 frequency of the pulse, which disappears with convalescence, while its 
 quality is not appreciably altered. The long duration of an apparently 
 trifling indisposition he considers as especially characteristic. Cayley 
 also refers to cases, and even epidemics, of typhoid fever in which the 
 temperature has been below the normal throughout the whole course of 
 the attack. Strube 1 had the opportunity of observing such an out- 
 break during the siege of Paris by the Germans in 1870. " In many of 
 the cases," he says, " the temperature throughout was subnormal, and in 
 others never exceeded the normal point. The roseola was usually pro- 
 fuse ; the nerve symptoms were of marked severity, and were in inverse 
 ratio to the temperature, consisting of violent delirium alternating with 
 stupor ; the duration of the fever was very short, defervescence usually 
 taking place at the end of a fortnight. Of the 23 fatal cases, in 20 
 death took place during the first fourteen days. The abdominal 
 
 1 Quoted by Dr. Cayley.
 
 300 TYPHOID FEVER. 
 
 symptoms were slight, but the characteristic lesions were found on post- 
 mortem examination. All the cases were characterized by great prostra- 
 tion. These cases presented some features which were probably due to 
 this peculiarity of the temperature ; thus, the pulse was but little accele- 
 rated, seldom exceeding a hundred ; the tongue did not become dry and 
 brown ; and the enlargement of the spleen was either absent or much 
 less marked than usual. Strube attributed the peculiar features of this 
 epidemic to the depressed condition of the troops ; they had been exposed 
 to great hardships on the way to Paris, over-fatigued by forced marches, 
 and very insufficiently supplied with food." 
 
 A mild form of the disease has been described by certain authors, in 
 which the symptoms, although not severe, are characteristic, and in which 
 there is therefore, with due care, little danger of making a mistake in 
 diagnosis. It therefore seems an unnecessary refinement to set apart such 
 cases under a separate head. 
 
 The latent form, or the typhus ambulatorius of the Germans, is of 
 more importance from the fact that the symptoms are so mild, or that so 
 many of the ordinary symptoms are wanting or masked by those due to 
 complications, that there is great danger of regarding the attack as of 
 little moment. In many cases there is no symptom present but prostra- 
 tion and fever to indicate that the patient is ill, and these may be so slight 
 that he may positively refuse to go to his bed, and may even insist upon 
 pursuing his ordinary avocation, in the midst of which he is often sud- 
 denly seized with alarming symptoms, such as violent delirium, intestinal 
 hemorrhage, or, what is more common, those due to perforation of the 
 bowel. Still, even in these cases a careful examination will often disclose 
 the presence of some symptom which had failed before to attract atten- 
 tion, and which will often reveal to us the true nature of the disease. I 
 was myself the subject of such an attack nearly twenty years ago. Sup- 
 posing that the excessive prostration from which I was suffering was due 
 to overwork at a large army hospital in the neighborhood of Phila- 
 delphia, I determined to seek repose in travel and in change of scene. 
 On the eve of doing so I fortunately sent for a medical friend, who, after 
 a thorough investigation of my symptoms, succeeded in finding a few 
 rose-colored spots upon my abdomen. The attack subsequently ran a 
 mild but well-marked course. Occasionally, the symptoms due to a com- 
 plication so predominate over those arising from the disease itself that 
 they completely mask it. I have known bronchitis so severe as to divert 
 in this way the attention of a skilful diagnostician from the primary 
 disease. When vomiting, together with other symptoms of hepatic 
 derangement, is especially prominent in the beginning of typhoid fever, 
 the mistake is not infrequently made of attributing these symptoms to a 
 " bilious attack." 
 
 TYPHO-MALARIAL FEVER. Under this name, which was orig- 
 inally suggested by J. J. Woodward, Surgeon U. S. A., early in the 
 summer of 1862, as a designation for a class of cases in which 
 the symptoms of typhoid fever are associated with those of remittent, 
 and which was especially common among the soldiers of the United 
 States Army during the late Civil War, are probably included at least 
 t\vo distinct conditions : 1st, remittent fever, in which the disease, on 
 account of the depressing circumstances surrounding the patient, assumes
 
 TYPHOID FEVER IN CHILDREN. 301 
 
 a typhoid form ; and, 2d, typhoid fever, occurring in a patient who has 
 also been exposed to malarial influence. This association of diseases 
 is of course not new, or even undescribed before this name was sug- 
 gested for it. Woodward thinks that he has found enough in the 
 description of Roderer and Wagler to justify him in concluding 
 that the epidemic which occurred at Gottingen in 1762 was really 
 of this character. There would seem also to be no doubt from the de- 
 scriptions of Dawson 1 and Davis 2 that the fever which decimated the 
 British army in the Walcheren expedition was typhoid fever, modified 
 by the malarial influence to which the soldiers were subjected. The 
 latter of these authors says that the ileum and jejunum in the bodies of 
 those who died of this disease were frequently found interspersed with 
 tubercles, inflamed and ulcerated in different parts. 
 
 In our own country the occasional association of these two diseases has 
 also long been recognized. Drake describes it under the name of remitto- 
 typhoid, and Dickson seems to have been perfectly familiar with it, for 
 he says that typhoid lesions will sometimes be found in the bodies of 
 those dead of bilious remittent. Levick recognized the presence of 
 the symptoms of both diseases in some patients who were under his care 
 as early as the spring of 1862, and proposed the name of miasmatic 
 typhoid fever for this class of cases in the following June. 3 Mere- 
 dith Clymer has also frequently met with cases in which the symptoms 
 of the two diseases were coexistent. 4 
 
 As is indicated by the name given to it, the symptoms in this form of 
 typhoid fever are modified by the presence of malarial poisoning. The 
 cases always manifest a decided tendency to periodicity, the evening 
 exacerbations are more decided than in the ordinary form, the remissions 
 are often ushered in with a profuse sweating, gastric and hepatic derange- 
 ments are more marked, and headache is more severe. There is fre- 
 quently less mental hebetude or dulness than in ordinary typhoid fever. 
 In some of the cases observed by Levick 5 the symptoms were those 
 of pernicious congestive remittent fever, such as copious serous discharges, 
 not unlike those of Asiatic cholera, colliquative sweats, and other symp- 
 toms of exhaustion. 
 
 TYPHOID FEVER IN CHILDREN. It was formerly thought that infants 
 and very young children were not often the subjects of typhoid fever, but, so 
 far is this opinion from being correct, it is now known that they are espe- 
 cially liable to suffer from it. The rose-colored eruption is more often 
 wanting in them than in adults, and the fever more apt to assume a dis- 
 tinctly remittent type ; and hence, no doubt, the difficulty which is often 
 experienced in diagnosticating this fever from other forms of fever in 
 children. There is no doubt that many cases which have been described 
 by authors under the head of infantile remittent fever are really examples 
 of typhoid fever modified simply by the age of the patient. It may 
 occur in infants not more than six months old, and is not infrequent in 
 
 1 Observations on the Walcheren Diseases, Ipswich, 1810, by G. P. Dawson. 
 
 2 A Scientific and Popular View of the Fever of Walcheren, J. B. Davis, London, 1810. 
 s Med. and Surg. Reporter, June 21, 1862. 
 
 4 The Science and Practice of Medicine, by William Aitken, M. D., 3d Amer. ed. ; with 
 additions by Meredith Clymer, M. D., Philadelphia, 1872. 
 6 Amer. Journal of the Med. Sci., April, 1864.
 
 302 TYPHOID FEVER. 
 
 children of two or three years of age. Henoch, 1 who has had the oppor- 
 tunity of observing a large number of cases, says that the rise of temper- 
 ature is commonly more abrupt in children than in adults, and that the 
 disease generally runs its course in a shorter time. The pulse is more 
 frequent, and may be as high as 144 in cases in which the prognosis is 
 not grave. Dicrotism is very rare. Slowness and irregularity of the 
 pulse, like that observed in basillar meningitis, he has never seen. The 
 nervous symptoms are not so pronounced even when the temperature is 
 high, and they bear no relation in severity to the height of the temperature. 
 Diarrhoea in the cases observed by Henoch was often absent during the 
 whole course of the attack, and the stools were often brownish or greenish 
 instead of yellow. 
 
 TYPHOID FEVER OF AGED PERSONS. The modifications which the 
 disease undergoes when it occurs in patients advanced in life are precisely 
 those to be expected from the diminished activity of the processes of life 
 in them, as compared with those of younger persons. The febrile 
 movement is generally prolonged, although of low grade, the temperature 
 rarely rising high, and frequently during convalescence sinking below the 
 normal. The diarrhoea is commonly not so severe, the delirium so vio- 
 lent, or the rose-colored eruption so often present. On the other hand, 
 adynamic symptoms, such as excessive prostration, tremors, subsultus 
 tendinum, and the like, are frequently prominent from the beginning of 
 the attack. 
 
 Several authors, among whom may be mentioned Arnat, 2 Hornburger, 3 
 and Greenhow, 4 have described a renal form of typhoid fever. In this 
 form the urine is blood red in color or like dark broth. It often contains 
 albumen during the first week of this disease, usually hyaline or more or 
 less granular casts, and occasionally red blood-discs, white cells, epithelia 
 of kidneys and bladder, and epithelial detritus. The specific gravity is 
 high, and the quantity is usually diminished. The prominent symptoms 
 are pain in the region of the kidneys, oedema of face, tense and frequent 
 pulse, great prostration, profuse epistaxis, violent delirium, and hyper- 
 pyrexia. The temperature may be 105.8. On the other hand, the intes- 
 tinal symptoms are less marked. In fatal cases the lesions of intestinal 
 nephritis have been found at the autopsy. 
 
 RELAPSES. Much difference of opinion will be found to exist among 
 authors in regard to the frequency with which relapses occur in typhoid 
 fever, and this difference does not appear to be due to any greater fre- 
 quency of this accident in some countries than in others, since Lieber- 
 meister met with them in 8.6 per cent, of the cases treated at the hospital 
 at Basle, while, according to other German observers quoted by him, they 
 occur in 6.3 per cent. (Gerhardt), in 11 per cent. (Baumler), and in 3.3 
 per cent. (Biermer). Murchison noted them in 80 of 2591 cases in the 
 London Fever Hospital, or in 3 per cent., and Maclagan in 13 of 128 
 cases at Dundee, or in 10 per cent, about. Immermann 5 of Basle says 
 that they occur in 15 per cent, of the cases, and that in very unfavorable 
 years the proportion may be as high as 18 or 19 per cent. Prof. Henoch 6 
 observed relapses in 16 cases out of 96, or 16.6 per cent. In my own 
 
 1 Charite Ann., 1875. 2 Thesis, Sur la Fievre typhoide d forme renale.. 
 
 8 fierlin kiln. Wochenschrift, 1881. * Transactions of Clinical Society of London, 1880. 
 
 * Schweiz. Corr. BL, viii. 1878. 6 Charite Ann., ii. 1875.
 
 RELAPSES. 303 
 
 practice they have not been very numerous. I find that in 80 cases of 
 which I have full notes they are recorded five times, or in 6.25 per cent., 
 and I believe this ratio correctly represents the frequency with which 
 they have happened in all the other cases which have come under my 
 care. Part of this difference of opinion is unquestionably attributable to 
 the fact that under the term relapse are sometimes included two distinct 
 conditions : (1) Mere recrudescences of fever, which occur during the 
 stage of defervescence or that of convalescence, and which are provoked 
 by errors of diet, mental or bodily fatigue, or some other irritating cause. 
 They usually last a day or two, and are entirely distinct from (2), true 
 relapses, in which all the characteristic symptoms of the primary attack 
 are reproduced, and which commonly occur some time after the disease 
 has apparently run its course. There is occasionally no distinct apyretic 
 interval between the two attacks, but in by far the greater number of 
 instances the relapse occurs in the second or third week, or even later, 
 after the establishment of convalescence. In 20 cases reported by W. 
 M. Ord and Seymour Taylor l the relapse occurred in the third week 
 of the disease in 1 ; in the fourth week in 5 ; in the sixth week in 3 ; in 
 the seventh week in 7 ; in the eighth week in 3 ; in the ninth week 
 in 1. James Jackson refers to a case in which the date of the relapse is 
 not given, but in which he was able to detect the rose-colored eruption 
 in the sixty-sixth day 2 from the commencement of the disease. In my 
 five cases the relapse occurred on the seventh, eighth, ninth, eleventh, 
 and twentieth day after the apparent establishment of convalescence. In 
 these cases the duration of the relapse was 11, 13, 17, 20, and 13 days 
 respectively. The highest temperature noted in any of the relapses was 
 105, which occurred in two cases. In both of these this temperature 
 had also occurred in the original attacks. In one of the others, however, 
 a temperature of over 104 F. was repeatedly observed in the relapse, 
 while in the primary attack it had never risen above 102. 
 
 The onset of a relapse is usually much more abrupt than that of the 
 original attack. It is rarely preceded by prodromata. The temperature 
 rises more rapidly and attains its maximum earlier, which may be much 
 greater than in the original attack. In one case under my care it reached 
 105 on the evening of the first day, and temperatures of 103.5 and 
 104 on the evening of the second day are not infrequent. 
 
 1 St. Thomads Hospital Report, vol. ix., London, 1879. 
 
 2 Since the above was written I have had under my care a case of typhoid fever in 
 which a third relapse occurred nearly four months after the patient, a woman aped 
 thirty years, was first taken ill. The following is a brief abstract of the history of this 
 remarkable case: The original attack began about Sept. 20, 1883, was of moderate sever- 
 ity, and lasted between three and four weeks. Convalescence, which seems to have been 
 nearly complete, as the patient had left her bed, was interrupted on Nov. 1st by a relapse, 
 during which she was admitted into the Pennsylvania Hospital. This relapse was severe, 
 and before it had entirely run its course was itself interrupted, on Nov. 17th, by an intercur- 
 rent relapse, which lasted two weeks. During these two relapses extensive bed-sores formed 
 upon the nates, occasioning more or less irritation and consequent febrile reaction. On 
 Jan. 11, 1884, a third relapse occurred. This relapse was accompanied by diarrhoea, rose- 
 colored spots, tympany, dry and brown tongue, and other characteristic symptoms of 
 typhoid fever, the diagnosis being fully concurred in by my colleague, Dr. Morris Long- 
 streth, who saw the case with me. Convalescence was again interrupted on Feb. 13th 
 by fever, which continued for two weeks, but which possessed none of the characters 
 of typhoid fever, and was clearly due to imprudence on the part of the patient. The 
 patient is now (April 25, 1884) entirely well, and will shortly be discharged from the 
 hospital.
 
 304 TYPHOID FEVER. 
 
 The rose-colored eruption appears earlier. In 38 cases investigated by 
 Murchison with reference to this point, it appeared on the third day in 7 ; 
 on the fourth in 8 ; on the fifth in 7 ; on the sixth in 2 ; on the seventh 
 in 12; and at a later date in 2. In the case the history of which is 
 given below it was detected on the second day. The delirium also comes 
 on sooner. The relapse is usually less severe, and is of shorter dura- 
 tion, than the primary attack. All my cases terminated in recovery. 
 Occasionally, however, it is much more severe. In one case in which 
 the primary attack was so mild that the patient could scarcely be per- 
 suaded to remain in bed, the relapse was so severe that for many days 
 it was uncertain whether the patient would recover. In another 
 intestinal hemorrhages to an alarming extent occurred on two occa- 
 sions. Moreover, of Murchison's 53 cases, 7 were fatal ; in 2 of 
 the cases death was due to perforation ; in 2 to peritonitis, induced by 
 infarction of the spleen ; and in 1 to abortion ; and of Ebstein's 13 
 cases, 3 were also fatal. Occasionally, a second, and it is said even a 
 third, relapse is noted. In one of Da Costa's cases hemorrhage from 
 the bowels took place during a second relapse. 
 
 FIG. 15. 
 
 Pulse. 
 
 The following histories and temperature charts illustrate the prominent 
 peculiarities of relapses occurring in typhoid fever : 
 
 TYPHOID FEVER (with a relapse). G L , set. 20, single, sea- 
 man, Italian, admitted March 6, 1878 ; April 30, 1878, left in ward. 
 Patient is unable to speak English. The following history is obtained 
 through an interpreter : His family history is good, and he is naturally 
 a healthy man, never having had any serious illness no venereal dis- 
 ease, no cough or rheumatism, no intermittent fever, and he has not been 
 in the habit of drinking to excess. His vessel has been lying off Glou- 
 cester Point, and two seamen have recently been similarly affected on 
 another vessel anchored near by. For about two weeks he has had 
 malaise, but not until three days ago was he so ill that he was obliged 
 to give up work. He was then taken with cough, chills followed by 
 fever, diarrhoea, headache, and pain in the abdomen. Has had no epis- 
 taxis or vomiting. 
 
 Upon admission patient has fever, his face is flushed, his tongue coated 
 with a brown fur in the centre, dry, fissured, and red and glossy at the 
 tip and edges. He has hebetude and some delirium, though not very 
 active ; he is deaf. His abdomen is somewhat tense and tympanitic, and 
 covered with very numerous rose-colored spots, which disappear moment- 
 arily on pressure ; they are also distributed over thighs and chest. There 
 seems to be no tenderness on pressure over abdomen, and there is no 
 gurgling felt. Has moderate diarrhoea, having about three stools daily, 
 which are light yellow in color and are loose and fetid. Urine cloudy 
 orange red, acid, 1021. No albumen.
 
 ABORTIVE ATTACK, FOLLOWED BY TYPICAL ATTACK. 305 
 
 3.7. Ord. Ol. Terebinth, gtt. x ; Acid. Miiriat. dil. gtt. v every two 
 hours, with Quinine gr. viij daily, and restricted diet, 
 
 3.8. Tongue not so dry ; is better. Whiskey fgij. 
 
 3.9. Temperature elevated. Ord. to be sponged. 
 
 3.10. Has had four stools in the last twenty-four hours. Some sonor- 
 ous rales over chest posteriorly. Sponging to be repeated when tempera- 
 ture rises. 
 
 3.11. There is some subsultus. There are more numerous rales heard 
 over chest posteriorly. 
 
 Ord. whiskey f|v daily; turpentine stupes to chest. His diarrhoea is 
 better , considerable hebetude. 
 
 3.12. Tongue is not so dry, and is cleaner. The spots over his body 
 are beginning to assume more the appearance of petechise. They are 
 found everywhere on his body. Has had but one stool within the last 
 twenty-four hours. 
 
 3.13. He is brighter ; skin feels better ; tongue cleaner ; pulse but 80. 
 Fewer rales heard in chest. No change in his treatment. 
 
 3.14- Spots disappearing. Two stools in last twenty-four hours, not 
 so loose in character. Pulse dicrotic. 
 
 3.15. There is no tympany. Had one natural stool yesterday. Suda- 
 minse over abdomen. 
 
 3.16. Doing well. Pulse very slow. 
 
 3. 17. Tongue moist and clean ; no diarrhoea. 
 
 3.18. No diarrhoea ; spots are still to be seen, but are fading every 
 day. 
 
 3J20. Takes a little lemon-juice, as the gums are disposed to be a little 
 spongy. 
 
 Stop turpentine and muriatic acid. 
 
 3.%5. Bowels somewhat constipated. 
 
 Ord. enema of castor oil. 
 
 3.26. Stop quinine ; give whiskey f 3iij only. Allowed chicken and 
 two eggs daily. 
 
 Ord. Tr. Cinch. Co. f gij s. t. d. 
 
 4-4- Slight chill, headache, and pain in side. Temp. 101. 
 
 4-5. Temp, normal again ; as well as before. 
 
 4-8. Has been up for a week, and steadily gaining in strength, except 
 the slight attack on the 4th, when to-day, without his having taken any 
 indigestible food, or indeed any reason to which it could be assigned, he 
 was seized with a relapse, his temperature rising to 105, but being 
 reduced a half degree by sponging. 
 
 4-9. Spots have again appeared in great numbers, and they are very 
 large. Last evening his temperature reached 104f , and was reduced tc 
 101 by sponging. 
 
 4-10. Doing very well ; spots are still making their appearance. 
 
 4-13. Diarrhoea not at all excessive. 
 
 4- 15. Spots are very numerous. 
 
 4-%0. Temperature nearly normal. 
 
 4*%5. Doing perfectly well ; up and about. 
 
 4-30. Left in ward, upon completion of my term of service. 
 
 ABORTIVE ATTACK, FOLLOWED BY TYPICAL ATTACK. Thomas 
 Rogers, October 15, born in Philadelphia, assistant nurse. Admitted 
 
 VOL. L 20
 
 FIG. 16. 
 
 10 U 12 13 14 15 16 17 18 19 20 21 
 
 Respiration _ 24_ 2o|gQ 20^26 24 -24 2-1,24 24J24 24J28 26.20 20 ' go 20 '20 go -20 20;20 1S ! 18 13 18 18 18 IS 20 20 20 20 20 20 20 20|gO 181 18 
 
 Chart of Typhoid Fever with relapse. Original attack. 
 
 FIG. 17. 
 
 U.-spiralion M 2j 24 24|2-i 20 24 ; 24 34 24|24 22 [24 24 24 -- L. _ -J : |li I.?|l8, 18 13,18 18,18 IS 18 li 1? IS 20 2. 2) 2'i,24 24,22 24^4 
 
 Chart of Typhoid Fever with relapse. Relapse. 
 306
 
 ABORTIVE ATTACK, FOLLOWED BY TYPICAL ATTACK. 307 
 
 January 25, 1883 ; discharged March 26, 1883, cured. Father died of 
 hemorrhage from the lungs; mother living and healthy. Two years ago 
 he sustained a compound fracture of the left leg from a bale of cotton 
 falling 011 him ; otherwise he has always enjoyed good health. For the 
 past three months he has been assisting the nurse in the receiving ward 
 of this hospital. Four days before admission, without unusual exposure, 
 he had a slight chill, and felt cold for several hours. This was followed 
 by fever and a feeling of weakness. He also had slight headache and 
 the bowels were constipated ; no epistaxis. 
 
 Upon admission patient has a good deal of hebetude, face flushed, tem- 
 perature 102, pulse 106, tongue slightly coated, moist. Has slight pain 
 in right lumbar region, but no distension of abdomen. Urine negative. 
 
 Ord. quinine gr. viij. daily ; liq. ammon. acet. fs'ij. q.q.h. 
 
 Jan. 29th. More hebetude ; tongue more coated with brownish fur, red 
 at tip ; bowels continue costive ; opened by an enema. 
 
 31st. Is brighter and better. One doubtful rose-colored spot seen on 
 abdomen. 
 
 Feb. 4th. The morning temperatures for the past two days have been 
 subnormal and the evening rise is very slight. All the symptoms also 
 indicate the approach of convalescence. 
 
 6th. More fever ; pulse weaker ; functional murmur heard over heart ; 
 sudamina out over abdomen. Ord. whiskey f ij. 
 
 8th. Some fulness of abdomen ; had three loose yellowish-colored stools 
 in the last twelve hours. 
 
 9th. A few doubtful rose spots out over abdomen and back ; sudamina 
 still abundant. 
 
 10th. More tympany ; numerous rose-colored spots out over abdomen 
 and back ; slight epistax-is and bronchitis. 
 
 llth. Pulse more feeble ; still slight diarrhoea. Increase whiskey to 
 fgiv. 
 
 15th. Has a good deal of hebetude, but no headache ; fewer spots ; 
 pulse weaker ; temperature lower. Increase whiskey to f 3vj. 
 
 17th. Temperature high again ; most of the spots have disappeared ; 
 slight epistaxis and subsultus; no delirium; bowels not open for two 
 days. 
 
 20th. Temperature falling ; spots disappearing ; still fulness of abdo- 
 men. 
 
 26ih. Temperature has been subnormal for several days, and he is 
 doing well ; tongue cleaning. Has emaciated a good deal, and is weak. 
 
 March 1st. Is convalescent ; tongue has lost its redness. 
 
 8th. Continues to improve ; allowed semi-solid food. 
 
 17th. Is now quite well ; has gained a good deal in flesh, and is 
 stronger. 
 
 The examination of the bodies of those who have died during a relapse 
 reveals the presence of two sets of lesions in the cicatrizing ulcers of the 
 primary attack and the recent ulcerations of the relapse. The latter are 
 usually less extensive, and are found to be situated at a greater distance 
 from the lower end of the small intestine, than the former, for the reason 
 that the Fever's patches most remote from the ileo-csecal valve are least 
 apt to be affected in the primary attack. 
 
 No satisfactory explanation of these relapses has as yet been discovered.
 
 ABORTIVE ATTACK, FOLLOWED BY TYPICAL ATTACK. 309 
 
 They occur in patients of both sexes and of all ages with about the same 
 frequency. They have been attributed to errors of diet, mental and 
 bodily fatigue, and the like, but, while we know that causes of this cha- 
 racter often provoke recrudescences of fever, and can understand that they 
 may act as exciting causes of a relapse in cases in which the predisposition 
 exists, it does not seem possible that they should by themselves be able to 
 bring back all the characteristic symptoms of a specific disease. It has 
 been maintained by some authors that a relapse indicates that a new infec- 
 tion has taken place ; but this hypothesis, even if we admit that it accounts 
 for those cases in which the patient is allowed to remain in the place in 
 which he has acquired the disease, does not explain those in which he 
 is removed during the first attack to a hospital where all the sanitary 
 arrangements are presumably perfect. Griesinger has endeavored to 
 explain relapses occurring in hospitals by suggesting that they may pos- 
 sibly be due to a fresh contagion from other patients with typhoid fever 
 in the same ward ; but this explanation is rendered improbable by the 
 fact that relapses have occurred when cases have been thoroughly isolated. 
 As I have already said, during a long connection with the Pennsylvania 
 Hospital I have only known a single case of typhoid fever to originate 
 within its walls, although relapses probably occur in its wards with the 
 same frequency as in other hospitals. To adopt Griesinger's explanation, 
 it would therefore be necessary to assume that a patient just recovered 
 from an attack of the disease is more susceptible to the action of its con- 
 tagion than patients suffering from other disease ; which seems improbable, 
 to say the least. It has also been maintained that relapses are due to the 
 inoculation of the previously healthy Peyer's patches by the typhoid poison 
 which is thrown off with the sloughs from those first affected. Maclagan 
 alleges that relapses are more frequently met with in cases in which con- 
 stipation is present in the primary attack, a condition which he regards as 
 favorable to absorption ; but this is opposed to the experience of almost 
 every one who has paid any attention to the subject. In the cases which 
 have come under my own observation it certainly was not the case, diar- 
 rhoaa having been present in all of them. It is more likely, as suggested 
 by Liebermeister, that part of the poison remains latent somewhere in the 
 body, not developed, destroyed, nor expelled during the first attack, but 
 brought later into activity by some exciting cause. Da Costa adopts this 
 view, and says that relapses of typhoid fever are not unlike the outbreaks 
 of malarial fever which occur after worry or fatigue and when there has 
 been no chance for a fresh infection. Different plans of treatment have 
 at various times been charged with increasing the predisposition to 
 relapses. This is especially true of the cold-water treatment, and the 
 records at the hospital at Basle show that the proportion of relapses and 
 the number of deaths from them are both increased under the use of cold 
 water. Liebermeister thinks, however, that this does not necessarily 
 prove that this treatment favors the occurrence of relapses, since before 
 the introduction of this plan of treatment many more typhoid fever 
 patients died in the first attack of the disease. Employing those cases 
 only for statistical purposes in which the patients have survived the first 
 attack, he finds that the difference at once disappears, there being 9 per 
 cent, of relapses before the use of cold water, and 10-^j- per cent, after its 
 use.
 
 310 TYPHOID FEVER. 
 
 Gerhardt 1 asserts that in cases in which relapses occur the enlargement 
 of the spleen does not diminish during the non-febrile period that inter- 
 venes between the original attack and the relapse. 
 
 Da Costa 2 has shown that the appearance of the white line and furrow 
 left by the primary attack, to which attention has already been drawn, 
 may sometimes be of service to us in diagnosis when we see the patient 
 lor' the first time during the relapse. In a case which was recently under 
 jny care their appearance certainly rendered the nature of the previous 
 illness from which the patient had suffered much clearer than it M aild 
 otherwise have been. 
 
 DURATION. The mode of invasion of typhoid fever is generally so 
 insidious, and the first symptoms so little pronounced, that the patient, 
 even if free from mental hebetude and confusion at the time when he first 
 comes under the care of a physician, is usually unable to fix with cer- 
 tainty the time of the beginning of his illness. This inability is of course 
 most marked in what are known as walking cases, in which, notwithstand- 
 ing that the disease is far advanced, the patient continues to pursue his 
 ordinary avocations or at least refuses to go to bed. In a few cases, how- 
 ever, either in consequence of the violence of the first symptoms or from 
 some other cause, opportunity is afforded to the physician of observing 
 the disease from its onset. In many others the date of commencement 
 may be approximately ascertained. The average duration of such cases, 
 if uncomplicated, has been found to be between three and four weeks. 
 According to Bartlett, the average duration of 255 cases at the Massa- 
 chusetts General Hospital between the years 1824 and 1835, inclusive, 
 was twenty-two days. It was a little less than this in patients under 
 twenty-one years of age, and a little more in those over. As these cases 
 occurred before the introduction into use of the clinical thermometer, and 
 as the commencement of convalescence is fixed in them at the time when 
 the patients were able to take a little solid food, it is possible the fever 
 may have continued in them some time after convalescence was supposed 
 to have been established. Of 200 cases which ended in recovery, and in 
 which Murchison was able to ascertain with precision the date of com- 
 mencement, the duration was 10 to 14 days in 7 cases, 15 to 21 days in 
 49 cases, 22 to 28 days in 111 cases, and 29 to 35 days in 33 cases. The 
 mean duration of these 200 cases was 24.3 days, while that of 112 fatal 
 cases was 27.67 days. From the same author we learn that the average 
 stay in hospital of 500 cases which recovered was 31.24 days, and of 100 
 fatal cases was 16.52 days, while the average duration of the illness before 
 admission in the 600 cases was 10.78 days. During the twenty years from 
 Jan. 1, 1862, to Dec. 31, 1881, 621 cases of typhoid fever, 121of which were 
 fatal, were admitted into the Pennsylvania Hospital. No notes of many 
 of these cases were taken, and of some of the others the notes are incom- 
 plete or inaccessible, so that they cannot, unfortunately, be used for the 
 purpose of determining the duration of the disease. The books of the 
 hospital, however, show the length of time each patient remained in the 
 wards. From these we learn that the average stay of the 500 patients 
 who recovered was 43.5 days, while that of the 121 patients who died 
 was only 8.75 days, and that of these a large number (28) died within 
 
 Ziemxsen's Cyclopedia, vol. i. p. 193. 
 * Transactions of the College of Physicians of Philadelphia, 3d S., vol. iii.
 
 DIAGNOSIS. 311 
 
 48 hours after their admission to the hospital. As a rule, patients are 
 retained at the Pennsylvania Hospital until they are fully able to 
 return to work, while at the English and continental hospitals it is usual 
 to discharge them when they cease to need active treatment. This cir- 
 cumstance probably explains the much greater average duration of the 
 cases admitted to the Pennsylvania Hospital than that of the cases referred 
 to by Murchison. In the abortive form the duration of the disease may 
 not exceed ten days, and there are authors who contend that it may occa- 
 sionally be very much less. 
 
 Death may occur at almost any time in the course of typhoid fever. 
 I have never seen it myself take place before the seventh day. Mur- 
 chison reports two cases in one of which the disease terminated fatally 
 within twenty-seven hours of its commencement, and in the other on the 
 second day. Instances are more numerous in which death has occurred 
 on the fourth, fifth, or sixth day, but still they are comparatively infre- 
 quent, and, as a rule, the fatal termination takes place most frequently 
 during the course of the third week. On the other hand, death may 
 sometimes occur at a very much later period. This is, of course, the 
 case when it occurs during a relapse, but if the fever continues after the 
 third week the patient may sometimes die from exhaustion or from the 
 intercurrence of a complication. Death may also be the result of a 
 sequela long after the disease has run its course. 
 
 DIAGNOSIS. The insidious invasion of typhoid fever, together with 
 the absence of pathognomonic symptoms in the beginning, always renders 
 the diagnosis difficult, and sometimes impossible, during the first week. 
 Still, even at this time the existence of the disease may be suspected if 
 the frequent use of the thermometer reveals from day to day a gradual 
 increase of the fever and the existence of evening exacerbations followed 
 by morning remissions, the temperature rising each evening from a degree 
 to two degrees higher than it had done the preceding evening. If in addi- 
 tion to this character of the pyrexia there are diarrhoea with ochrey-yellow 
 stools or an increased susceptibility to the action of cathartic medicines, 
 epistaxis, enlargement of the spleen, slight fulness of the abdomen, with 
 tenderness and gurgling in the right iliac region, slight hebetude and 
 some confusion of ideas upon awakening, the diagnosis becomes more 
 probable. During the next week the symptoms are usually much more 
 characteristic. The presence of marked abdominal symptoms, together 
 with the eruption of rose-colored spots, will generally render the recog- 
 nition of the disease at this time an easy matter. There are, however, a 
 few cases in which no rose-colored spots can be found, and in which the 
 abdominal symptoms, if they exist at all, are so little marked that they 
 do not arrest attention. Even in these cases the temperature record, 
 when carefully studied, will often throw a good deal of light upon the 
 nature of the disease. If the febrile movement resembles that usual in 
 typhoid fever, if it has continued for more than a week, if the patient 
 has not been recently exposed to malarial influences, and presents no 
 symptoms of local disease, the diagnosis may still be made with at least 
 an approach to certainty. 
 
 The following are the diseases which are most likely to be mistaken 
 for typhoid fever : 
 
 Typhus fever has a course which is so essentially different from
 
 312 TYPHOID FEVER. 
 
 that of typhoid that in well-marked cases it would scarcely be pos- 
 sible to mistake one for the other. Cases, however, do occur which, in 
 consequence of a very profuse and dark-colored eruption in the latter, 
 or of the existence of abdominal symptoms in the former, present at first 
 a good deal of difficulty in diagnosis. The invasion of the former is 
 more abrupt and its duration shorter than in typhoid fever. The erup- 
 tion is usually also much more copious, and appears in the former as 
 early as the fourth, fifth, or sixth day, while that of the latter is rarely 
 observed before the seventh day. The fever in the former is much more 
 nearly continued in type than that of the latter. Defervescence occurs 
 in the former by crisis ; in the latter, by lysis. The expression of the 
 physiognomy is different in the two diseases. In typhus there is a uni- 
 form dusky hue of the face, with injection of the conjunctiva? and con- 
 traction of the pupils. In typhoid fever the pupils are often widely 
 dilated, the conjunctivse clear, and the face pallid, with the exception of 
 a circumscribed flush on each cheek. Diarrhoea is much less frequent in 
 the former than in the latter, and when it does occur is not accompanied 
 by ochrey-yellow stools. Epistaxis, tympanites, pain, and gurgling in 
 the right iliac region, and intestinal hemorrhage, common symptoms in 
 the latter, are very infrequently met with in the former. On the other 
 hand, petechise and vibices, which are of almost constant occurrence in 
 the former, are rarely met with in the latter. The circumstances also 
 under which the two diseases are contracted are different. Typhus orig- 
 inates from overcrowding or is due to direct contagion. The origin of 
 typhoid fever is often involved in more obscurity, but it can generally 
 be traced either to a polluted water-supply or to defective drainage. 
 
 Relapsing fever, with due care, is not likely to be confounded with 
 typhoid fever. The abrupt commencement of the former, the high fever, 
 lasting for from five to seven days only, and terminating by crisis with 
 a profuse sweat, and the period of complete apyrexia of a week's dura- 
 tion, followed by the relapse in which the temperature rises even higher 
 than in the primary paroxysm, and which also terminates by crisis, form 
 a chain of symptoms which has no counterpart in the latter. The mind 
 in relapsing fever is usually clear, there being none of the hebetude and 
 mental confusion commonly observed in typhoid fever. The rose-colored 
 eruption is, moreover, wanting, and diarrhoea and tympanites are absent. 
 On the other hand, jaundice and tenderness in the epigastric zone are 
 more common than in typhoid fever. 
 
 Influenza sometimes, Murchison says, when epidemic, closely simulates 
 
 typhoid fever, but as the two diseases occur in this country the resem- 
 
 between them is not often sufficiently strong to lead the careful 
 
 ^server astray. In both there are fever, prostration, sleeplessness, delir- 
 
 sweatmg, and occasionally deafness, diarrhoea, epistaxis, and a 
 
 1 tongue; but the onset of the attack in the former is more abrupt, 
 
 shorter, and subsequent convalescence more rapid than in 
 
 The prostration, too, is more decided in proportion to 
 
 degree of fever present, Coryza and bronchial catarrh are much 
 
 marked symptoms in the former than in the latter, while hyper- 
 
 sthesia of he surface which is present in almost every case of influenza, 
 
 is only rarely met with in typhoid fever. 
 
 Remittent and typhoid fevers often prevail together in the malarious
 
 DIAGNOSIS. 313 
 
 districts of this country, and, as they present many points of resemblance, 
 they are sometimes with difficulty distinguished from each other. They 
 both may begin with nausea and vomiting; abdominal and cerebral 
 symptoms are common to both, and so is enlargement of the spleen. The 
 typhoid state may supervene in either, and in both the febrile move- 
 ment is remittent in character. In remittent fever, however, the remis- 
 sions are more marked, and are usually accompanied with more profuse 
 sweating, than in typhoid fever. Jaundice and other symptoms of hepatic 
 derangement are also more common, and the pains in the back and limbs 
 are more frequent and more severe. The eifect, too, of quinine in producing 
 a permanent reduction of the temperature, is generally more decided. On 
 the other hand, the rose-colored eruption of typhoid fever is never pres- 
 ent in pure remittent fever. Occasionally, in cases of the variety of 
 typhoid fever known as typho-malarial fever, the symptoms of the latter 
 may be so prominent as entirely to mask those of the former. In such 
 cases the discovery of a few rose-colored spots somewhere on the surface 
 will clearly reveal the true nature of the disease. 
 
 Epidemic cerebro-spinal meningitis diifers from typhoid fever by its 
 more abrupt invasion, by the retraction of the head which rapidly super- 
 venes, and by the appearance a short time afterward upon diiferent parts 
 of the body of petechiae, which are not likely, even at first, to be mistaken 
 for the rose-colored spots of typhoid fever. The fever has, moreover, no 
 constant character, but is remarkable, on the contrary, for its great irreg- 
 ularity. The duration of the disease is in fatal cases much shorter, death 
 taking place not infrequently within the first week, and occasionally as 
 early as the second or third day. On the other hand, the duration in 
 cases which recover may be even longer than in typhoid fever. 
 
 Simple continued fever may readily be mistaken in the beginning for 
 typhoid fever, especially in those cases complicated by diarrhoea, but, as a 
 general rule, the diiferent character of the febrile movement, its more 
 abrupt commencement and termination, and its shorter duration, together 
 with the absence of the rose-colored eruption, will usually serve to dis- 
 tinguish it. 
 
 The eruptive fevers are always readily distinguishable at the period of 
 invasion from typhoid fever, and the mistake of confounding them with 
 the latter disease may generally be avoided by a close study of the charac- 
 ter of the pyrexia. In the eruptive fevers the temperature rises abruptly, 
 frequently attaining its maximum in the course of twenty-four hours, and 
 sometimes in very much less time. There are also in all of them early 
 symptoms which indicate pretty clearly their true nature, as, for instance, 
 the sore throat of scarlatina, the naso-pulmonary catarrh of measles, and 
 the rachialgia of small- pox. The uncertainty, moreover, is of short dura- 
 tion, as the characteristic eruption appears in all of them before the fourth 
 day. 
 
 Acute tuberculosis of the lungs is the condition which in my experience 
 has been the most difficult to distinguish from typhoid fever. Indeed, in 
 some cases which have come under my observation physicians of recog- 
 nized skill as diagnosticians have been unable to make the discrimination 
 until after the death of the patient. Muscular prostration, a dry brown 
 tongue, delirium, stupor, bronchitic rales, dyspnoea, and even cyanosis, 
 are symptoms frequently met with in both diseases, so that when the
 
 314 TYPHOID FEVER. 
 
 rose-colored eruption and enlargement of the spleen happen to be wanting 
 in typhoid fever, or diarrhoea and tympany present in acute tuberculosis, 
 as they may be, the distinction is often impossible. The diagnosis may, 
 however, even in these cases, be sometimes made after a careful study of 
 the temperature range, which in acute tuberculosis is irregular and .rarely 
 presents any resemblance to that which is typical of typhoid fever. 
 
 Acute tubercular meningitis has also many symptoms in common with 
 typhoid fever, such as high fever, headache, vomiting, delirium, and stu- 
 por, but in the former disease the rose-colored eruption, epistaxis, enlarge- 
 ment of the spleen, and intestinal hemorrhage do not occur. Diarrhoea is 
 also rare, and the abdomen, instead of being tympanitic, is flat, and in 
 many cases even scaphoid. The headache, too, is much more acute than 
 in typhoid fever, and is very apt to be associated with retraction of the 
 head. Here, again, the frequent use of the thermometer will yield very 
 important results in diagnosis, as the temperature range in tubercular 
 meningitis is always irregular and does not present any resemblance to 
 that usually observed in typhoid fever. 
 
 Several of the inflammations, especially when associated with the 
 typhoid state, have so many symptoms in common with typhoid fever 
 that they may very readily be mistaken for one another by a careless 
 observer. I have known, for instance, the general disease to be entirely 
 overlooked in a case of typhoid fever complicated by pneumonia, and, on 
 the other hand, it has sometimes been supposed to be present in a case of 
 pure typhoid pneumonia. Gastro-enteritis is another disease which is 
 also occasionally confounded with typhoid fever. The diagnosis in these 
 cases will rest principally upon the presence or absence of epistaxis, 
 enlargement of the spleen, tympanites, the rose-colored eruption, and 
 of a temperature range presenting some similarity to that usual in 
 typhoid fever. 
 
 Trichiniasis is not likely to give rise to much difficulty in diagnosis, 
 for although vomiting, diarrhoea, and the typhoid state occur in it as well 
 as in typhoid fever, the former disease may usually be recognized by the 
 severe muscular pains and the local oedema which are constant accom- 
 paniments of it, and by the absence of the characteristic symptoms of 
 the latter. 
 
 PROGNOSIS. There is no other disease in which the physician should be 
 more careful in making a positive prognosis than in typhoid fever. On 
 the one hand, accidents of a fatal character frequently occur in cases which 
 are apparently progressing favorably, and, on the other, recovery has 
 often taken place after all hope of it had been abandoned. But, although 
 t is impossible to foretell with absolute certainty the result in any par- 
 ticular case, there are certain symptoms which furnish very important 
 indications for prognosis, and the proper appreciation of which will gen- 
 erally enable us to arrive at a correct conclusion as regards the gravity of 
 the disease. Prominent among these is the character of the pyrexia. 
 A fever characterized by high temperature should always give occasion 
 for great anxiety. This is very fully shown by the statistics of the hos- 
 Thus of those patients in whom the temperature did not 
 4, only 9.6 per cent died ; of those in which it reached or 
 exceeded 104, 29.1 per cent, died; and, finally, of those in whose axilla 
 the temperature rose to or above 105.8, more than half died. Wunder-
 
 PROGNOSIS. 315 
 
 lich has arrived at very nearly the same conclusions, for he says that the 
 prognosis is very unfavorable when the temperature rises to 106.16, that 
 the deaths are almost twice as numerous as the recoveries when it rises to 
 107.06, and that recoveries are rare when it rises to 107.24. Murchi- 
 son has, however, known recovery to follow a temperature of 108. The 
 highest temperature recorded in any of my cases was 106 F. In this 
 case, which proved fatal, the temperature reached 105 F. five times. In 
 three other cases, in all of which recovery took place, a temperature of 
 105.5 F. was observed. In twelve cases the temperature reached 
 105 F. on more than one occasion. Six of these ended fatally ; in the 
 others the patients recovered. 
 
 The prognosis is more unfavorable in a fever in which the temperature 
 is continuously high, and in which the morning remissions are slight or 
 wanting, than in one in which the daily fluctuations are greater, even 
 though the temperature may reach a higher point during the evening 
 exacerbations in the latter variety than is attained at any time in the 
 former. Occasional remissions, even if produced by quinia or other 
 remedies, are to be regarded as favorable omens, as they indicate that 
 the fever tends to subside. A high morning temperature ought, there- 
 fore, to give rise to more alarm than a high evening temperature. 
 The prognosis is grave when the morning temperature rises to 104 
 or is persistently above 103. Murchison says that recovery is rare 
 after a morning temperature of 105. Fiedler 1 saw, with a single 
 exception, all patients die whose temperature in the morning rose 
 to or exceeded 106.25, while of those whose temperature in the morn- 
 ing rose to 105.44, if only on one day, more than half died. Any 
 marked deviation from the usual temperature range in the course of the 
 fever is unfavorable. A rapid rise of temperature indicates increased 
 danger : it may be due to the occurrence or a complication or of some 
 other cause acting unfavorably upon the patient. A sudden and decided 
 fall should excite even more alarm, as it is generally the consequence of a 
 free intestinal hemorrhage. A temporary abatement of the fever, with 
 amelioration of the other symptoms, occurring between the tenth and 
 twentieth days, and giving rise to the hope that convalescence is about to 
 commence, but followed by a return of the symptoms in an aggravated 
 form, is also unfavorable. Such cases, according to Chomel, Louis, Bart- 
 lett, and Murchison, almost invariably terminate fatally. 
 
 The prognosis is bad in cases in which coma or wild or violent delir- 
 ium comes on early. A moderate amount of delirium, especially when it 
 occurs only at night or upon wakening in the morning, and is readily 
 dissipated by attracting the patient's attention, or stupor which disappears 
 when he is thoroughly roused, is not unfavorable. Insomnia, subsultus 
 tendinum, carphologia, slipping down in bed, incontinence of the urine 
 or feces, and retention of urine, are all symptoms of bad omen. Rigid- 
 ity of the limbs is also a bad symptom ; Dr. Jackson reports six cases in 
 which this symptom occurred, only one of which recovered. Excessive 
 subsultus is especially unfavorable, as it is generally most marked in cases 
 in which the ulcerations of the intestines are most extensive. Extreme 
 deafness occurs in mild as well as severe cases ; it is therefore without 
 significance in prognosis. 
 
 1 Quoted by Liebermeister.
 
 316 TYPHOID FEVER. 
 
 In estimating the importance, in a prognostic point of view, of these 
 various nervous symptoms, it is important to bear in mind that a degree of 
 fever which produces no disturbance of the mental functions in a phleg- 
 matic person will give rise to active delirium and other marked cerebral 
 symptoms in a person of an excitable temperament. 
 
 A change in the character of the pulse and of the action of the heart is 
 often the earliest indication of the approach of danger in typhoid fever, 
 and both pulse and heart should therefore be carefully examined at every 
 visit. The first change is usually a diminution in the intensity of the 
 first sound of the heart. This is significant, as it is frequently the earliest 
 premonition of cardiac failure, to which a large proportion of the deaths 
 in typhoid fever is due. A pulse of 120 and over, especially if it is at 
 the same time feeble, is also unfavorable. The important part which the 
 frequency of the pulse plays in the prognosis is shown by the following 
 observations made by Liebermeister at the hospital in Basle : Of 63 cases 
 in which the pulse rose to or above 120, 40 were fatal, or nearly two- 
 thirds. Among these 63 were 37 in which it did not rise to 140 ; of 
 these, 19 were fatal, or about one-half; in 26 it rose above 140 ; of these, 
 21, or about four-fifths, were fatal. In 12 patients it rose above 150; 
 of these, 11 died. Of those in which the pulse rose to 160, the only 
 case that ended in recovery was that of a girl twenty-one years old suf- 
 fering from an imperfectly developed typhoid. Intermittence of the 
 pulse is unfavorable, especially, according to Hayem, 1 when it occurs 
 during the first week of the disease. In convalescence intermittence is 
 not to be regarded as an unfavorable symptom. The prognosis is bad 
 also in those cases in which, with excessive weakness of the pulse, there 
 are other evidences of cardiac failure, as, for instance, congestion of the 
 lungs, cyanosis of the surface, coldness of the extremities. A very 
 frequent pulse is not so unfavorable in a child as in an adult, or in a 
 person of a nervous temperament as in one of a different disposition. 
 
 Other unfavorable symptoms are a dry, brown tongue, excessive tym- 
 panites with great abdominal tenderness, severe diarrhoea, vomiting when 
 it occurs late in the disease, intestinal hemorrhage, and colliquative 
 sweats. The delusion sometimes observed in very severe cases, in which 
 the patient declares that he is not ill, is a very bad sign, many authors, 
 and among them Louis, asserting that they have never known recovery 
 to take place after it has been manifested. Peritonitis is a very serious 
 complication, whether due to perforation or to some other cause. Still, 
 it would appear not to be invariably fatal, since recovery has occurred 
 in cases in which all the symptoms of this complication were present. 
 
 Favorable symptoms, on the other hand, are a gradual decrease of the 
 temperature with increasing morning remissions, moistening and cleansing 
 of the tongue, a lessening of the delirium, and other nervous symptoms, 
 reappearance of an intelligent expression, recognition by the patient of 
 friends and attendants, and a diminution of the diarrhoea. A copious 
 eruption is also regarded by many as a favorable symptom. Cases in 
 which constipation exists generally do well. Nathan Smith never knew 
 a patient to die whose bowels were constipated throughout the attack. 
 
 I he death-rate of typhoid fever is found to vary very considerably in 
 ent years and in the different seasons of the year, as will be seen 
 
 1 Loc. cit.
 
 PROGNOSIS. 
 
 317 
 
 from the two following tables. Statistics as to the mortality of the disease 
 to be reliable must therefore be based upon a large number of cases extend- 
 ing over a series of years. 
 
 The following table shows the number of cases admitted into the 
 Pennsylvania Hospital during each of the twenty years ending Dec. 31, 
 1881, and the ratio of mortality among them : 
 
 TABLE No. 1. 
 
 
 
 
 
 3 
 
 60 
 
 
 
 a 
 
 
 
 
 
 a 
 
 .9 
 
 
 
 
 
 
 
 
 
 id 
 
 
 
 
 <J- +^ 
 
 
 
 
 
 g 
 
 
 3 
 
 
 
 
 *' 
 
 
 
 I 
 
 *fH 
 
 
 
 to 
 
 a 
 11 
 
 1 
 
 3 
 < 
 
 OB 
 
 111 
 
 YEAR. 
 
 ' 3 
 
 O 
 
 1 
 
 ui.2 
 11 
 
 | 
 
 .g 
 
 
 Ss's 
 
 
 O 
 
 J 
 
 13 
 
 ^n 
 
 ^ 
 
 bk 
 
 o 
 
 rt rf 
 
 
 O 
 
 "3 
 
 O 
 
 "s-g 
 
 * 
 "S * 
 
 1 
 
 a 
 
 so "" 1 
 
 
 
 h 
 
 h 
 
 
 <B o> 
 
 s, 
 
 5 
 
 -2 a OT 
 
 
 1 
 
 
 
 1 
 
 3 
 
 II 
 
 1 
 
 a 
 
 s~ ^ 
 o o 3 
 
 
 a 
 
 3 
 
 a 
 
 a o 
 
 
 0) 
 
 s 
 
 g 3 
 
 
 3 
 
 3 
 
 3 
 
 3.3 
 
 t l-l 
 
 
 a3 
 
 >OM 
 
 
 
 
 & 
 
 fc 
 
 fc 
 
 
 "! 
 
 PH 
 
 PH 
 
 1862 
 
 89 
 
 68 
 
 21 
 
 7 
 
 544 
 
 8 
 
 23.6 
 
 17.7 
 
 1863 
 
 36 
 
 33 
 
 3 
 
 2 
 
 32| 
 
 3^ 
 
 8.3 
 
 2.9 
 
 1864 
 
 43 
 
 35 
 
 8 
 
 1 
 
 38J 
 
 8 
 
 18.6 
 
 16.3 
 
 1865 
 
 36 
 
 31 
 
 5 
 
 1 
 
 38. V 
 
 5* 
 
 13.9 
 
 11.4 
 
 1866 
 
 23 
 
 17 
 
 6 
 
 
 
 451 
 
 9 
 
 26 
 
 
 1867 
 
 24 
 
 20 
 
 4 
 
 
 
 37} 
 
 6| 
 
 16.6 
 
 
 1868 
 
 27 
 
 23 
 
 4 
 
 
 
 44} 
 
 10 
 
 14.8 
 
 
 1869 
 
 21 
 
 16 
 
 5 
 
 1 
 
 35 1 
 
 14 
 
 23.8 
 
 20 
 
 1870 
 
 24 
 
 19 
 
 5 
 
 1 
 
 47 -]j- 
 
 11 
 
 20.8 
 
 17.4 
 
 1871 
 
 32 
 
 26 
 
 6 
 
 1 
 
 37| 
 
 18J 
 
 18.8 
 
 15.0 
 
 1872 
 
 21 
 
 16 
 
 5 
 
 3 
 
 37^ 
 
 
 23.8 
 
 11.1 
 
 1873 
 
 12 
 
 8 
 
 4 
 
 2 
 
 34 
 
 9 2 
 
 33.3 
 
 20 
 
 1874 
 
 16 
 
 12 
 
 4 
 
 
 
 54| 
 
 9| 
 
 25 
 
 
 1875 
 
 20 
 
 18 
 
 2 
 
 1 
 
 48 
 
 4 
 
 10 
 
 5.3 
 
 1876 
 
 30 
 
 21 
 
 9 
 
 2 
 
 454 
 
 11 
 
 30 
 
 25 
 
 1877 
 
 48 
 
 34 
 
 14 
 
 4 
 
 
 124 
 
 29.2 
 
 22.7 
 
 1878 
 
 8 
 
 5 
 
 3 
 
 
 
 49* 
 
 
 37.5 
 
 
 1879 
 
 17 
 
 15 
 
 2 
 
 
 
 53^ 
 
 8^ 
 
 11.8 
 
 
 1880 
 
 40 
 
 35 
 
 5 
 
 2 
 
 47 
 
 10| 
 
 12.5 
 
 8 
 
 1881 
 
 54 
 
 48 
 
 6 
 
 
 
 41 1 
 
 8 
 
 11.1 
 
 
 Totals, 
 
 621 
 
 500 
 
 121 
 
 28 
 
 43* 
 
 8f 
 
 19.5 
 
 15.7 
 
 Out of the 621 cases admitted, 121 were fatal. This gives a death- 
 rate of 19.4 per cent. ; but if we deduct the 28 cases in which the patients 
 died within forty-eight hours of their admission, it falls to 15.68 per 
 cent., or about the same ratio as Murchison found to exist among the 
 cases treated at the London Fever Hospital. Other observers have 
 obtained slightly diiferent results. Thus, the mortality was 11.16 per 
 cent, in 197 cases analyzed by Dr. Hale, and 13.5 per cent, in 303 cases 
 collected by Dr. James Jackson. Dr. Cayley 1 found the death-rate of 
 the several hospitals in London to be 17.8 per cent., and Geissler 2 that 
 it was in all the German hospitals 12.8 per cent, in 1877, and 13.5 per 
 cent, in 1878. Flint had 1 8 deaths in 73 cases, or 24.4 per cent. Accord- 
 ing to Liebermeister, the ratio of mortality at the hospital at Basle during 
 the twenty-two years from 1843 to 1864, or before the introduction of a 
 
 1 Med. Times and Gaz , 1880. 2 Schmidt'* Jahrbuch.
 
 318 
 
 TYPHOID FEVER. 
 
 systematic anti-pyretic treatment, was 27.3 per cent., and only 8.2 per 
 cent, during the six years immediately following its adoption. As the 
 results obtained at the Pennsylvania Hospital are apparently not so 
 favorable as those reported at some of the continental hospitals, it is 
 only proper to state that a large proportion of the cases were severe, 
 that many of them were far advanced in the disease when admitted, and 
 that very few of the patients were under twenty-one years of age. These 
 are all circumstances which influence very decidedly the prognosis in 
 typhoid fever. In no other city are the laboring classes able to surround 
 themselves with so many comforts as in Philadelphia. This fact, fortu- 
 nate as it is in the main, often operates to the disadvantage of the patient 
 by enabling his family to indulge for a time the reluctance which it natu- 
 rally feels to part with a member when sick. In the case of the young 
 this reluctance is so hard to overcome that children with acute affections are 
 rarely brought to hospitals for treatment. There were also special causes 
 for the large mortality in certain years. This was particularly the case 
 in 1862, when a large number of soldiers fresh from the battlefields of 
 Virginia, and suffering from the typho-malarial form of the disease, were 
 admitted into the hospital. Many of them were moribund upon admis- 
 sion, and others, exhausted by the fatigue incident to transportation here 
 and by previous hardships, soon succumbed to the disease. 
 
 Table 2 gives the number of cases, with the number of deaths occur- 
 ring in each season, at the Pennsylvania Hospital during the last twenty 
 years : 
 
 TABLE No. 2. 
 
 
 Spring. 
 
 Summer. 
 
 Autumn. 
 
 Winter. 
 
 Number of cases 
 
 89 
 
 259 
 
 182 
 
 Q1 
 
 Recoveries 
 
 73 
 
 191 
 
 163 
 
 73 
 
 Deaths 
 
 16 
 
 68 
 
 10. 
 
 18 
 
 Percentage of mortality 
 
 18.0 
 
 26.2 
 
 10.4 
 
 19.8 
 
 It will be seen from this table that the highest death-rate occurred in 
 the summer and the lowest in autumn, while there was only a slight dif- 
 ference between the death-rate of spring and that of winter. Murchison's 
 experience, based on a much larger number of cases, has led him to con- 
 clude that while the disease is a little less fatal in autumn, the difference 
 in the mortality at different seasons is very inconsiderable. Chomel 
 believed that the percentage of deaths was highest in France during the 
 wii.ttT months, and Bartlett held the same opinion as regards America. 
 Epidemics of great severity have undoubtedly prevailed in winter, as 
 <>< in Lowell, Mass., referred to by Bartlett, but there can be little 
 that the death-rate is highest in this country during the warm 
 s ot the year. Dr. Cleemann 1 found that the monthly average 
 ortahtv ,n Philadelphia for the ten years from 1866 to 1875 was 
 August, and next highest in September, confessedly the two 
 3 of the year when the heat in this city is most exhausting. I feel 
 have lost patients with typhoid fever in these months 
 
 1 Transactions of the College of Physicians of Philadelphia, 3d S., vols. ii. and iii.
 
 PROGNOSIS. 319 
 
 and in July who would probably have recovered if the weather had been 
 cooler. With a temperature often rising above 90 F. at midday, and 
 sometimes for several days at a time never falling below 80, all radi- 
 ation of heat from the surface of the body is arrested, and death fre- 
 quently occurs as the result of hyperpyrexia. 
 
 The stage of the disease at which efficient treatment is begun has a 
 manifest influence upon the result. This is strikingly shown by some 
 observations of Jackson : 90 cases were admitted into the Massachusetts 
 General Hospital during the first week of these 7 died, or 1 in 12.85 ; 
 139 cases were admitted in the second week of these 16 died, or 1 in 
 8.68 ; 46 cases were admitted in the third week of these 10 died, or 1 
 in 4.60; and 21 cases were admitted in the fourth week, and -of these 5 
 died, or 1 in 4.20. Convalescence also occurred much earlier in those 
 who were admitted early. 
 
 Murchison found that in a large number of cases the death-rate varied 
 at different ages as follows: Under ten years it was 11.36 per cent.; 
 from ten to fourteen years it was 12.86 per cent. ; from fifteen to nine- 
 teen years it was 15.48 per cent. ; from twenty to twenty-nine years it 
 was 20.46 per cent. ; from thirty to thirty-nine years it was 25.90 per 
 cent. ; from forty to forty-nine years it was 25 per cent. ; and above fifty 
 years it was 34.94 per cent. 
 
 According to Liebermeister, among the 1743 patients treated for 
 typhoid fever in the hospital at Basle from 1865 to 1870, inclusive, there 
 were 130 who were more than forty years old; of these 39, or 30 per 
 cent., died, while the mortality among the patients under forty amounted 
 only to 11.8 per cent. Among the cases of typhoid fever in individuals 
 over forty years of age collected by Uhle, more than half proved fatal. 
 According to Friedrich, 1 there were, among 16,084 children treated in 
 the Children's Hospital at Dresden, 275 cases of typhoid fever, of which 
 31, or not quite 11 per cent., proved fatal. Age, therefore, exercises a 
 positive influence upon the mortality of typhoid fever. Its influence is 
 less decided in this disease than in typhus, in which the death-rate does 
 not reach 4 per cent, until after the age of twenty, when it rapidly rises 
 from 12.34 per cent, until it reaches 57.03 per cent, in patients above 
 fifty years of age. The comparatively slight mortality of typhoid fever 
 among children is probably due to the fact that the temperature is less 
 often continuously high in them than in adults, and that while hyper- 
 pyrexia is frequently present, it is generally better borne and less likely 
 to produce paralysis of the heart. Liebermeister says that the only case 
 which he has seen recover after the temperature had repeatedly risen to 
 107.5 F. was that of a girl fourteen years of age. It is also said that 
 the intestinal lesions are not so severe, and the liability to complications 
 and sequelae less marked, in children. 
 
 Typhoid fever appears to be a slightly more fatal disease, in women 
 than in men, for while in some local epidemics the percentage of deaths 
 is greater among the latter than among the former, the reverse is found to 
 be the case when the records of a large hospital for a number of years are 
 Carefully examined. According to Murchison, the mortality at the Lon- 
 don Fever Hospital was about 1 per cent, higher among the female than 
 among the male patients, and about the same difference in the death-rate 
 
 1 Quoted by Liebermeister.
 
 320 TYPHOID FEVER. 
 
 of the two sexes has been reported by continental physicians. A greater 
 disparity even than this has been observed by Liebermeister at the hospi- 
 tal at Basle, where the death-rate for women was 14.8 per cent., and only 
 12 per cent, for men. Murchison says that this excess of mortality among 
 the former cannot be accounted for by the influence of child-bearing upon 
 the course of the fever, since it is much more decided between the ages of 
 five and fifteen than in the period of child-bearing. 
 
 The rich are not only as liable to contract typhoid fever as the poor, 
 but the disease is also quite as fatal among them. Murchison found 
 from the statistics of the London Fever Hospital that the mortality is 
 not greater among the destitute than among the better class of patients, 
 and expresses the opinion that in private practice enteric fever is prob- 
 ably more fatal among the upper classes than among the very poor. 
 Chomel and Forget seem to have reached a similar conclusion. 
 
 All authors agree that the prognosis is unfavorable in corpulent 
 persons, not only on account of the diminished power of resistance to 
 disease generally which such persons exhibit, but also because the febrile 
 movement is often intense in them, and the degenerative changes of 
 the muscles and organs of the body which it induces are generally 
 early developed and of high grade. Liebermeister goes so far as to 
 say that even in the case of ill-nourished, anaemic, or chlorotic indi- 
 viduals the chances for life are better than in the corpulent. Mur- 
 chison has also expressed the opinion that a large, muscular development 
 is likewise an unfavorable element in prognosis, having seen the strong 
 and robust succumb to the disease oftener than the feeble. The mortality 
 from the disease appears to be greater in certain families than in others. 
 This has been ascribed by some writers to peculiarities of constitution, 
 but it may be due to other causes, as, for instance, difference in the inten- 
 sity of the poison. The disease is also often very fatal among the intem- 
 perate, who usually bear the disease badly in consequence of the presence 
 of various degenerations of one or more of the important organs of the 
 body caused by the excessive indulgence in alcoholic stimulants ; paralysis 
 of the heart being not an infrequent cause of death among them. 
 
 Certain epidemics have been exceedingly fatal, while in others the 
 percentage of deaths has been very small. There can be no doubt 
 that in most of these cases there has been a difference in the viru- 
 lence of the poison. Recent residence in an infected locality has 
 been shown by Murchison and other writers to have a decided influ- 
 ence in increasing the fatality of the disease. Second attacks are, on 
 the other hand, usually mild. Some diversity of opinion exists among 
 authors in regard to the effect that pregnancy has upon the course of 
 ;ase. Murchison believes that it is a far less formidable compil- 
 ation than is usually thought, while Liebermeister, on the contrary, 
 diroftly opposite opinion. He also regards the prognosis as 
 able when the disease occurs in childbed or a short time after- 
 
 rd Individuals with disease of the heart, emphysema, or bronchial 
 rrh who contract typhoid fever are said to be more liable to paral- 
 s heart than others, hence the existence of these diseases mate- 
 rial iy , imimshes their chances of recovery. 
 
 TREATMENT. Inasmuch as the spread and propagation of typhoid 
 r may be prevented to a great extent, if not entirely, by the employ-
 
 TREATMENT. 321 
 
 ment of judicious sanitary measures, it is proper, before entering upon the 
 discussion of its curative treatment, to devote a few words to the prophy- 
 laxis of the disease. 
 
 Whether the physician accepts the theory so ably advocated by Mur- 
 chison, that typhoid fever may arise from exposure to the products of the 
 fermentation of healthy feces, or adopts the view now held by a large 
 number of investigators, that the disease is never generated in the absence 
 of the specific germ, he will admit the great importance of an efficient 
 system of sewerage, with a thorough flushing of the sewers at regular and 
 frequent intervals, for disposing of the fecal discharges of the population 
 of all towns, no matter how inconsiderable in size. No less important is 
 it that the drains of every dwelling should be well constructed and kept 
 in good order. They should be trapped just before they empty into the 
 sewer, and should be provided with the means of thorough ventilation 
 between the trap and the walls of the house by a free communication with 
 the outer air. The soil-pipe should be carried up three or four feet above 
 the top of the house, and every water-closet, bath-tub, stationary wash- 
 stand, and sink should have its own separate trap, and none of them 
 should be placed in rooms unprovided with a window or with some other 
 sufficient means of ventilation. Physicians should, as sanitarians, urge 
 upon the authorities of all cities and towns the importance of deriving 
 their water-supply from a source unpolluted by sewerage or by any other 
 substances likely to be deleterious to health. They should also see that 
 when water is stored in a tank inside of a house the overflow pipe does 
 not communicate directly with the drain, since if this is allowed to occur 
 the water may very soon become contaminated with sewer gas, and conse- 
 quently unfit for internal use. 
 
 In the case of isolated country-houses and of small villages some other 
 means of disposing of the fecal discharges of the inhabitants than by 
 sewers has to be found. In the great majority of instances no better way 
 presents itself than by the ordinary cesspool. Care should, however, be 
 taken that this is so constructed and situated that there can be no filtra- 
 tion of its contents into wells from which water for drinking is obtained. 
 
 As the alvine dejections of the sick are beyond question the medium 
 by which typhoid fever is most frequently communicated to others, the 
 importance of thoroughly disinfecting them before they have acquired 
 the power of imparting the disease cannot well be overestimated. Lie- 
 bermeister recommends that the bottom of the bed-pan should be strewed, 
 each time before being used, with a layer of sulphate of iron, and that im- 
 mediately after a passage crude muriatic acid should be poured over the fecal 
 mass, as much as one-third or one-half of the bulk of the latter being used. 
 He also urges, whenever it is practicable, that the contents of the bed- 
 pan should be emptied into trenches dug anew every two days and filled 
 up when discarded, care being of course taken that they are not located 
 anywhere in the vicinity of wells. Murchison seems to prefer carbolic 
 acid to other chemical agents as a means of preventing fecal fermentation. 
 For this purpose the liquid carbolic acid may be diluted with water in the 
 proportion of 1 to 40 to 1 to 20, or it may be mixed with sand or saw- 
 dust. I have myself employed as a disinfectant with success the solution 
 of the chlorides sold under the name of Platt's chlorides. As the dis- 
 charges must in cities, in the great majority of instances, be emptied into 
 VOL. I. 21
 
 322 TYPHOID FEVER. 
 
 water-closets, these should be freely flushed with water after every time 
 they are used ; and it is well to impress upon the attendant on the sick 
 the importance of doing this. The bed-linen of the patient and his 
 clothes, if they are soiled by his discharges, should be removed as soon as 
 possible, and subjected to a high degree of heat (248 F.) or soaked in a 
 solution of the chlorides or of carbolic acid for several hours before being 
 washed. If these precautions are observed, cases of typhoid fever may 
 be treated in the wards of general hospitals without danger to the other 
 patients. 
 
 In the doubt and obscurity which generally envelop the diagnosis of 
 the disease when the physician is first called upon to treat it, it is impos- 
 sible to lay down any positive rules for the management of typhoid fever 
 at its commencement. But even in those cases which begin insidiously, 
 if the patient is carefully examined enough of the early symptoms of 
 typhoid fever will be detected to put the physician on his guard. The 
 thermometer will show the existence of fever, which has a tendency to 
 increase at night. There will generally be found to be a little diarrhoea, 
 or at least an increased susceptibility to the action of purgative medicines ; 
 perhaps a little tympany and tenderness in the right iliac fossa, and more- 
 over a prostration which is out of all proportion to the other symptoms. 
 
 These symptoms, it is true, are not infrequent concomitants of many 
 diseases besides the one under consideration ; but when their presence 
 cannot be otherwise satisfactorily explained, especially if they have con- 
 tinued for several days, it is a safe rule in practice to regard the case as 
 one of typhoid fever, and to regulate the treatment accordingly. The 
 patient must be put to bed at once, and not allowed to leave it on any 
 pretext, not even to empty his bladder, after the first week. This is a 
 rule which should be rigidly enforced in every case, no matter how mild 
 the symptoms may be. Its non-observance, either through the neglect 
 of the physician or the ignorance or wilfulness of the patient, has been 
 the cause of some disastrous results ; in illustration of which it is only 
 necessary to refer to the frequency with which perforation of the bowel 
 occurs in walking cases of typhoid fever. Perfect quiet should be main- 
 tained in the sick room. Visitors should be excluded from it, and the 
 attendants limited in number to those actually necessary to carry out the 
 directions of the physician. All unnecessary talking is to be avoided, 
 and especially conversation carried on in a low tone of voice, which is 
 always annoying to the sick. 
 
 There is only one condition under which I should be disposed 
 to break the rule of absolute quiet and rest laid down above, and that is 
 when called upon to treat typhoid fever in the built-up portion of our 
 large cities during the summer season. If the patient were still in the 
 first week of the disease, if his circumstances were sufficiently affluent to 
 enable him to surround himself with every comfort, and if it did not 
 involve a journey of more than a few hours, I should unhesitatingly send 
 him to the sea-coast. I have so often seen cases prove fatal in summer in 
 consequence of the great heat of the city a heat, too, which is sometimes 
 ilmost as great at night as in the day-time that I should feel that I was 
 giving him an additional chance of life by sending him where the heat was, 
 at least occasionally, tempered by cool breezes from the ocean. During the 
 late war numbers of soldiers were frequently sent in the early stages of
 
 TREATMENT. 323 
 
 typhoid fever from the camps in the South to their homes or hospitals in 
 the North, and it is fair to say that they did at least as well as those who 
 remained behind. But when the journey may be accomplished by means 
 of Pullman cars and the other appliances of modern travel the risk, and 
 even discomfort, it involves to the patient is reduced to the minimum. 
 
 As the disease is usually one of long duration, the patient being rarely 
 able to leave his bed under four weeks, and more frequently being obliged 
 to keep it for a much longer time, the sick room should, wherever practi- 
 cable, be large, airy, and provided with an open fireplace, which is a much 
 more efficient means of securing thorough ventilation than an open 
 window, while it is not liable to the objection sometimes applicable to the 
 latter of causing a direct draught upon the patient. It is well, however, 
 for the physician to remember that the danger from this source is very 
 much exaggerated by the laity, and that patients in the febrile stage of 
 typhoid fever do not readily take cold. Still, the same end may gener- 
 ally be attained without the least risk to the patient by opening a window 
 in an adjoining room. The temperature of the sick room should be 
 steadily maintained at between 65 and 68 F. 
 
 The careful regulation of the diet is also a point of great importance 
 in the management of typhoid fever ; for in this disease there are not 
 merely the high fever and other exhausting symptoms, speedily inducing 
 excessive prostration, loss of strength, and emaciation, common to many 
 fevers, but there is also the peculiar ulceration of the bowels, which gives 
 rise to danger of its own and demands special consideration in treatment. 
 The food must therefore be not only nourishing, but also readily digest- 
 ible, and not likely to create irritation in its passage through the intes- 
 tines. All solid food should therefore be excluded from the dietary of 
 the patient as long as the fever lasts. Indeed, it is better to continue this 
 prohibition even after the subsidence of the fever if rose-colored spots 
 are still to be seen on the abdomen or elsewhere, or if there exists a tend- 
 ency to diarrhoea or any other symptom indicating that the disease has 
 not fully run its course. Having myself seen some rather disastrous 
 results from a too early return to solid food, I have been accustomed in 
 my own practice to interdict its use until at least two weeks after the 
 beginning of convalescence. Jaccoud also lays much stress upon this 
 point, saying that the early administration of meat always gives rise to 
 fever, to which, from its cause, he gives the name of febris carnis. On 
 the other hand, Flint 1 and Peabody have recently advocated the giving 
 of solid food immediately after the cessation of fever, in the belief that 
 recovery is thereby promoted. Milk as an article of diet is unquestion- 
 ably to be preferred to all others in typhoid fever. It is open, it is true, 
 to the objection of occasionally forming tough curds in the stomach, but 
 this may generally be prevented by giving the milk in small quantities at 
 a time, diluted with lime-water or barley-water or mixed with some 
 farinaceous substance. No positive general rule can be laid down as to 
 the amount to be given. This will be found to vary not only in different 
 cases, but also in the same case at different times. Indeed, in those cases 
 which begin abruptly with symptoms of gastro-intestinal irritation, if it 
 is forced upon the patient in large quantities it is not only usually 
 rejected, but also causes an aggravation of the symptoms, while after 
 1 Medical News, Mch. 29 and Apl. 5, 1884.
 
 324 TYPHOID FEVER. 
 
 this irritation is allayed it will be digested without difficulty. As a 
 general rule, most adult patients will be able to take from a quart and a 
 half to two quarts of milk daily, given in quantities of from four to six 
 ounces every two or three hours. It should be remembered, however, 
 that if more is taken than can be assimilated it will act as an irritant and 
 increase the diarrhoea. If, therefore, the stools contain undigested milk, 
 the quantity should be diminished. Patients are occasionally met with, 
 but not in as great number as is often asserted, with whom milk habit- 
 ually disagrees. In these cases it must of course be replaced in whole 
 or in parT by some other article of food. Under these circumstances 
 some one of the liquid preparations of beef may be given with advan- 
 tage, although it may be objected to them also that they sometimes occa- 
 sion an increase of diarrhoea. Beef-tea or beef-essence, made from the 
 fresh meat whenever this can be obtained, is to be preferred to all others ; 
 but when it cannot, that made from the preparations of Johnston or 
 Brand is the best substitute. When the stomach is very irritable, Valen- 
 tine's meat-juice, in consequence of the. smaller bulk in which it is given, 
 often answers an admirable purpose. 
 
 Various farinaceous substances, such as farina, corn-starch, and arrow- 
 root, are also occasionally given in typhoid fever, and, although the last 
 named would seem to be indicated in cases in which diarrhoea is a promi- 
 nent symptom, their tendency to cause flatulence is so great that their use 
 in the acute stage of the fever has not found favor among physicians 
 generally. In convalescence, on the other hand, they are generally per- 
 fectly well borne. 
 
 The subject of the administration of alcoholic stimulants in typhoid 
 fever may be conveniently considered in this connection. Some difference 
 of opinion exists in regard to the quantity in which they should be given, 
 and indeed in regard to the necessity for their use at all in many cases, 
 as, for instance, in those of young persons whose health and habits had 
 been good previously to the attack. I have myself treated several such 
 cases without alcohol, and have not been able to perceive that their dura- 
 tion was longer and the result less favorable than in cases in which it 
 was given in the usual amount. It is, moreover, not necessary to pre- 
 scribe it always, even in very severe cases, at the beginning of an attack. 
 When given at this time, it not infrequently does harm by increasing 
 the fever. It should be reserved, therefore, until the action of the heart 
 grows feeble and the first sound becomes indistinct. It is not possible to 
 lay down any general rule as to the amount to be given, even in severe 
 attacks. This will vary in different cases, and to a certain extent will be 
 determined by^the effects it produces. If the pulse grows stronger and 
 the delirium diminishes under its use, it is doing good and should be con- 
 tinued ; if, on the other hand, there is increase of delirium and restless- 
 ness, the quantity should be diminished. 
 
 In cases in which only a gentle stimulus is required wine in the form 
 of wine-whey will often be found to meet the indication fully. Gener- 
 ally, however, it will be necessary to have recourse to whiskey or brandy. 
 The choice between these may usually be left to the patient's fancy ; 
 randy is, however, to be preferred in cases in which diarrhoea is a promi- 
 t symptom. These stimulants should be given in small quantities fre- 
 quently repeated. In many cases a dessertspoonful every two or three hours,
 
 TREATMENT. 325 
 
 either diluted with water or, when the stomach is irritable, with carbonic 
 acid water or given in the form of milk punch, will be sufficient. In 
 others a tablespoonful every two hours, or even at shorter intervals, will 
 be required, but it will rarely be necessary to exceed eight ounces a day 
 for more than a few days at a time. 
 
 Although the physician will not often be called upon at the present 
 day to encounter and combat the prejudice so common formerly against 
 the free administration of water in the febrile condition, he will fre- 
 quently find nurses and others not sufficiently alive to the importance of 
 supplying it when the patient, having fallen into the typhoid state, ceases 
 to ask for it. The high temperature which is generally present in this 
 condition, and the rapid combustion of tissue which it causes, make a 
 full supply of liquid an urgent necessity which it is dangerous to dis- 
 regard. Water is the best of all diuretics, and it is important in this 
 disease, as indeed it is in many others, that the functions of the kidneys 
 should be kept active, so that the products of the combustion of the 
 tissues may be eliminated with their secretion. Care, however, should 
 of course be taken, as pointed out by Da Costa, 1 that water is not given 
 in such quantity that the desire for and capability of digesting food is 
 destroyed by it. 
 
 In the few cases which begin abruptly with symptoms simulating those 
 of a so-called bilious attack the practitioner will usually content himself 
 with the administration of medicines calculated to allay the irritability 
 of the stomach and bowels. For this purpose I have found the bicar- 
 bonate of potassa in solution, to which lemon-juice is added at the 
 moment it is taken, so as to produce an extemporaneous effervescing 
 draught, often an admirable remedy. In other cases I have used with 
 advantage small doses of calomel or blue mass, followed, if necessary, by 
 a gentle saline purge. When the symptoms have occurred soon after a 
 hearty meal, or when there is evidence that the stomach is overloaded, it 
 will occasionally be necessary to have recourse to an emetic. Usually, 
 the indications for treatment at the beginning of an attack are much less 
 definite, and even in the class of cases just referred to they become so 
 after the subsidence of the gastro-intestinal symptoms. Indeed, the 
 treatment in the larger number of cases must be purely symptomatic 
 until the nature of the disease has fully declared itself. The presence 
 of fever will suggest the use of the neutral mixture, effervescing draught, 
 or spirit of Mindererus, combined, if there is decided tendency to even- 
 ing exacerbations, with sulphate of quinia in full doses. If there is 
 much diarrhoea, Hope's camphor mixture or opium in some other form 
 may be given ; if delirium is a prominent symptom, ice or cloths wrung 
 out of cold water should be kept constantly applied to the head. 
 
 But even after all doubt in regard to the diagnosis has been dispelled 
 and the existence of typhoid fever has been recognized, the treatment 
 most in favor with physicians is in large measure symptomatic in charac- 
 ter. It is true that various specific treatments, to which fuller reference 
 will be made hereafter, have been lately proposed, but the results obtained 
 by them up to the present time where they have been fairly tested are not 
 so favorable as to induce the body of the profession to adopt them to the 
 exclusion of all other methods. It is certain that no remedy or plan of 
 1 Preface to Wilson's Treatise on the Continued Fevers.
 
 326 TYPHOID FEVER. 
 
 treatment has yet been discovered which has the power of cutting the 
 disease short, although this power has been claimed at different times for 
 several. Thus, at one time quinia in very large doses was believed to 
 possess it, at another venesection, and at another cold baths. But expe- 
 rience has shown that these and other perturbating remedies often do 
 harm, and there is good reason to believe that the apparent good which 
 has followed their use in a comparatively small number of instances may 
 be better explained by supposing that an error of diagnosis has been 
 made than by attributing to them the power of arresting the progress 
 of the disease. Medicines are, however, by no means useless in the 
 treatment of typhoid fever. There is no question that the disease is not 
 only generally conducted to a favorable issue, but that its duration is 
 often materially shortened, by their judicious use. It is evident, 
 however, that the treatment must vary with the severity of the 
 attack. In a few cases it is scarcely necessary to interfere with the 
 course of the disease by the administration of medicines. In others, 
 on the contrary, it is necessary to act promptly and energetically in 
 order to save life. 
 
 When called upon to treat typhoid fever, if the case is a mild one with 
 no bad symptoms, such as excessive diarrhoea, delirium, tremors, and the 
 like, and especially if the temperature does not rise higher than 102 F., 
 I am accustomed, after giving minute directions as to the diet and gen- 
 eral care of the patient, to prescribe from two to three grains of sulphate 
 of quinia four times daily. No great power in reducing the temperature 
 of the body can, of course, be claimed for these doses, but experience 
 has shown that the impression which they make is useful, and they do not 
 interfere with the administration of the drug in larger quantities should this 
 become necessary Their action, too, is tonic, and, as they rarely produce 
 cinchonism, the objection often made to the use of larger doses does not 
 apply to them. I am also in the habit of adding to each dose of quinia 
 from ten to fifteen drops of one of the mineral acids. These acids were 
 originally prescribed in typhoid fever under the impression that they 
 neutralized the cause of the disease, which was supposed to be an alkaline 
 poison. Although the results of recent research, which tend to show 
 that the cause of the disease is an organized germ, give no support to 
 this theory, they continue to be used by a large number of physicians 
 of experience. I do not know that any satisfactory explanation of their 
 action in typhoid fever has ever been given. They are certainly tonics, 
 and are therefore indicated, if not in the beginning of the disease, as 
 soon as the strength begins to fail. If, as the disease progresses, the 
 tongue becomes dry and fissured, and if there is much tympany, it will 
 be well to give, in addition to the quinia, ten drops of the oil of turpen- 
 tine in mucilage every two hours. This was a favorite remedy of the 
 late George B. Wood, the distinguished professor of the Theory and 
 Practice of Medicine in the University of Pennsylvania, who attributed 
 the improvement in the symptoms which generally follows its use to a 
 direct influence of this medicine upon the ulcers in the intestines. 
 Although inclined to believe that the correct explanation of this 
 
 mprovement is its stimulating action upon the circulation and secre- 
 tions, I tully agree with him in regard to its usefulness in many cases. 
 
 Under its use .. have often seen the dry, fissured, and shrivelled tongue
 
 TREATMENT. 327 
 
 grow moist and throw off its coating much earlier than in all probability 
 it would otherwise have done. 
 
 No other than this simple treatment is required in a large number of 
 cases, but even in mild cases symptoms occasionally arise which render 
 necessary some modification of it. It will, however, be more convenient 
 to postpone the discussion of this part of the treatment of typhoid fever 
 until after the treatment of the more serious forms of the disease has 
 been considered. 
 
 When typhoid fever assumes a severe type, the success of the physician 
 in the management of the disease will depend largely upon the readiness 
 with which he detects indications for treatment and the promptness with 
 which he meets them. Usually, one of the first symptoms to demand 
 attention is the high temperature. This is not only an early symptom in 
 many bad cases, but may continue throughout the attack ; or it may sud- 
 denly supervene in cases in which the fever has previously been moderate 
 in degree, anil when excessive may be the direct or indirect cause of death. 
 The reduction of the temperature is therefore an indication the importance 
 of which cannot well be overestimated. Fortunately, there are several 
 methods by which this end may be accomplished. It will, however, be 
 necessary for our purpose to consider only two of them in detail : 1, the 
 cold-water treatment ; 2, sulphate of quinia in full doses. 
 
 The cold-water treatment is not new, since it was practised in the form 
 of cold effusion in the treatment of fevers as long ago as 1787 by Currie 
 of Liverpool, who may be said to have introduced it, and who asserted 
 that it had the power not merely of moderating the symptoms of these 
 diseases, but also, in many cases, of cutting them short. It enjoyed at 
 first a high degree of popularity, which lasted for from twenty to thirty 
 years, but finally fell into disuse, probably in consequence of the exag- 
 gerated character of the claims which were made for it by its advocates. 
 Although resorted to from time to time in various parts of the world, the 
 merit of having brought it again into notice seems to be due to Brand of 
 Stettin, who published a work on The Hydrotherapy of Typhoid Fever in 
 1861. Still more recently, the recorded observations of Bartels, Jiirgen- 
 sen, Ziemssen, and Liebermeister in Germany, and of Wilson Fox and 
 others in England, have so far restored the treatment to professional favor 
 that there are few physicians either in this country or abroad who do not 
 occasionally have recourse to it. 
 
 The cold-water treatment may be applied in several different ways : 
 1, the cold bath ; 2, the graduated bath ; 3, cold affusions ; 4, the cold 
 pack ; 5, cold sponging ; 6, cold compresses ; and 7, frictions with ice. 
 They all act in the same manner, and depend for their efficacy upon their 
 power of abstracting heat from the body, and are useful just in proportion 
 as they do this. There is no reason for believing that they have the 
 power to modify the conditions upon which the production of heat 
 depends, but there is, on the other hand, no doubt that under their use 
 distressing and dangerous symptoms, such as coma, stupor, subsultus, 
 and the like, are often much relieved. They probably act, therefore, by 
 diminishing the metamorphosis of the tissues, and the consequent loading 
 of the blood with excrementitious products which the hyperpyrexia has a 
 tendency to promote. 
 
 The cold bath is the most effective of all the methods of applying the
 
 328 TYPHOID FEVER. 
 
 cold-water treatment. Liebermeister recommends that the bath for an 
 adult should be at the temperature of 68 F., and its duration should be 
 about ten minutes ; if, however, the patient shows signs of great weak- 
 ness, it should not exceed seven. After the bath he should be wrapped 
 up in a dry sheet or light blanket and put back in bed. If the pulse 
 should then show signs of failing, or if there should be shivering or any 
 other evidence of weakness, he should be given a glass of wine or brandy 
 or a dose of some other diffusible stimulus, and bottles containing hot 
 water should be applied to his feet. The process of cooling goes on for 
 some time after the patient's removal from the bath, for while a ther- 
 mometer placed in the axilla will show that the external temperature is 
 immediately affected by it, the same instrument placed in the rectum will 
 indicate a gradual fall, which will continue in many cases for at least half 
 an hour. Shortly after this t'he temperature will be observed to rise, and 
 in many cases it will not be more than two hours before it has attained its 
 former height. Liebermeister therefore recommends that the thermometer 
 should be frequently used, and that the baths should be repeated as often 
 as the temperature rises to 103 F. or above it. He has himself given 
 them as often as every two hours, or as many as two hundred during an 
 entire illness, but usually finds that not more than six or eight a day are 
 required. It often requires some persuasion to overcome the repugnance 
 which most patients feel at first for these baths, and the shock of being 
 suddenly immersed in cold water is agreeable to very few. Later, this 
 repugnance, he says, entirely disappears. Intestinal hemorrhage, perforation 
 of the bowel, and great weakness of the heart's action are all contraindica- 
 tions to the use of the cold bath. They are especially to be avoided, 
 according to Liebermeister, when the force of the circulation is so far 
 reduced that the surface of the body is cold while the interior is very hot. 
 On the other hand, the advocates of this plan of treatment contend that 
 the existence of pneumonia or of hypostatic congestion of the lungs is not 
 a sufficient reason for abandoning it, the congestion often disappearing 
 under its use. 
 
 The graduated bath possesses some advantages over the cold bath, as 
 its use involves less of a shock to the system. It is therefore more suit- 
 able than the latter for nervous and excitable patients, for persons of 
 advanced age or of general feebleness of constitution, or for very young 
 children. In it the temperature of the water, which at the time of the 
 immersion of the patient should be at or above 95 F., is cooled by the 
 gradual addition of cold water until it is reduced to 72, or below this 
 :>int. These baths, to produce the same effect as the cold baths, must 
 1 longer duration. They are contraindicated in the same conditions 
 as the latter, but to a less degree. 
 
 Although fully willing to admit the good effects of the cold bath in 
 
 ies, having been, of course, myself a witness of them, I am 
 
 1 to have recourse to it except in cases of hyperpyrexia of such 
 
 that death seems imminent and only to be averted by energetic 
 
 'cnt, or m cases in which other antipyretic remedies have failed to 
 
 ace the temperature; and for the following reasons: 1. In the first 
 
 is generally possible to produce a decided effect by the other 
 
 5 of applying the cold-water treatment, with much less discomfort 
 
 nt. 2. In a private house it is not always practicable to have
 
 TREATMENT. 329 
 
 a bath brought to the bedside of the patient, and in a general hospital to 
 do so often would occasion a good deal of annoyance to the other patients 
 in the same ward, and I have seen ill result from carrying him some dis- 
 tance to the bathroom. But even where the bath is brought directly to 
 his bedside, it involves so much movement, and is sometimes the cause 
 of so much excitement, that its good effects are more than neutralized by 
 its bad. 
 
 Cold affusions, while not nearly so efficacious in reducing the tempera- 
 ture of the body as the cold bath, are open to many of the objections 
 which may be urged against the latter mode of treatment. They are, 
 therefore, rarely employed at the present time. Liebermeister, however, 
 thinks that they may sometimes be resorted to with good effect for their 
 brisk stimulating effect on the psychical functions or the respiration. 
 
 The cold pack possesses the advantage over the cold bath and cold 
 affusions of involving less movement on the part of the patient and of 
 being less terrifying to children, and may therefore be resorted to in cases 
 in which the latter method of applying the cold-water treatment is con- 
 traindicated, as, for instance, in persons of feeble circulation. It is, how- 
 ever, inferior to either of th&ii in its cooling effects, and must be longer 
 applied to produce the same effect. Liebermeister estimates that a course 
 of four consecutive packs, of from ten to twenty minutes' duration apiece, 
 is about equivalent in effect to a cold bath of ten minutes. 
 
 Cold sponging is assigned a very low place among the methods of 
 abstracting heat from the body by many writers. It has, however, often 
 been in my hands of much service, and its easy application and the com- 
 fort which patients derive from it are certainly strong recommendations 
 in its favor. I have employed it frequently in cases of intestinal hemor- 
 rhage, and even in cases of great debility, and have never yet had any 
 reason to repent my having done so. The addition of a little vinegar to 
 the water has seemed to me to increase the effect of the sponging. 
 
 Cold compresses, either in the form of cloths wet with cold water or 
 bladders filled with ice, can only produce a local fall of temperature, and 
 therefore, except when applied to the head, can be of little service. 
 
 Frictions with ice are a powerful means of depressing the temperature 
 of the body, and may therefore be resorted to in cases of intense hyper- 
 pyrexia when for some reason the cold bath cannot be obtained, and when 
 there are no contraindications to the latter. 
 
 Liebermeister classes cold drinks, the internal administration of ice, 
 and the injection of cold water among the means of cooling the body in 
 fevers; but it is doubtful if any great reduction of temperature can be 
 brought about by any of these remedies in the quantities in which it 
 would be safe to use them. The first two, and to a less extent the 
 last, meet a very important indication, that of supplying water to the 
 system. Their free use, therefore, forms a very important part of the 
 treatment of typhoid fever. 
 
 Luton of Rheims 1 extols the Diseta hydrica in the treatment of typhoid 
 fever. The patient receives absolutely nothing else to drink but water, 
 which is given in large quantities, for from four to six days. No nour- 
 ishment is given until the beginning of the third week, and first of 
 all milk. If fever returns, the water is given again. Medicines such as 
 
 1 Journal de therapie, Oct., 1880.
 
 330 TYPHOID FEVER. 
 
 quinia and eucalyptus are given in adynamic conditions, which Luton 
 says are rare under this treatment, He believes that the increase of the 
 typhoid germs is prevented by absolute diet and abundant supply of 
 
 water. 
 
 Quinia to produce a decided antipyretic effect must be given in large 
 quantities. Murchison says that a dose of from fifteen to twenty grains 
 causes within an hour or two a fall of the temperature, and, to a less 
 extent, of the pulse, which may last from twelve to eighteen hours, and 
 that he has never known any other disagreeable symptoms result from its 
 use than noises in the ears, temporary acceleration and irregularity of the 
 respiration, and occasional vomiting. This quantity will often, however, 
 be found to be insufficient to produce a notable reduction of the fever, 
 and it is therefore necessary occasionally to increase it. Liebermeister 
 usually gives to adults from twenty-two to forty-five grains of the sul- 
 phate or the muriate of quinia, and this dose must positively be taken 
 within the space of half an hour, or, at the most, an hour, as it is use- 
 less, he says, to expect the full benefit of this dose to appear if the dose 
 is divided and its administration is extended over a longer time. He 
 never repeats it in less than twenty-four hours, and, as a rule, does not 
 give it again under two days. Jtirgensen has exceeded the dose of forty- 
 five grains without observing any bad effects from it. When these large 
 doses are taken the fall of the temperature usually begins a few hours 
 after the administration of the medicine, the minimum being reached in 
 from six to twelve hours, and it is usually not until the second day that 
 the temperature attains its former height. It is found in practice that the 
 most decided results are obtained when the medicine is given in the even- 
 ing, so that the time of its fullest antipyretic effects will coincide with 
 that of the morning remission. When these large doses produce vomit- 
 ing, as they occasionally will, the quinia must be given by the rectum or 
 hypodermically. 
 
 Quinia possesses the great advantage over the cold bath that it may be 
 given in conditions in which it would be dangerous to resort to the latter. 
 The existence of great cardiac weakness, of perforation of the bowel, or of 
 intestinal hemorrhage do not usually constitute contraindications to its use. 
 In my own practice I have not often found it necessary to have recourse 
 to much larger doses than those recommended by Murchison, preferring 
 to repeat them if necessary rather than to give a single dose of even half 
 a drachm. 
 
 It will be well, in this connection, to allude briefly to a few other 
 remedies which have been given for their antipyretic effect. One of these 
 is digitalis, which has been administered for this purpose in very large 
 Thus, Liebermeister recommends that from eleven to twenty-two 
 grams should be given in the course of thirty-six hours. I have never 
 used this drug in these doses, and therefore cannot speak of its effects from 
 personal knowledge of them. I have frequently had recourse to it, how- 
 ever, in more moderate doses, and I think with advantage. 
 
 Another is sodium salicylate. This remedy has been used largely in 
 England and Germany, and to a less extent in this country. It has been 
 claimed for it that it has the power of destroying the germs of typhoid 
 lever, but btricker 1 finds it difficult to accord it this property in the face 
 
 1 Deutsche Milit.-arzll Zeitsch., 1877.
 
 SYMPTOMS REQUIRING SPECIAL TREATMENT. 331 
 
 of the fact that he has had three cases of typhoid fever under his observa- 
 tion which occurred in patients just recovered from rheumatism, which 
 had been treated by this drug. My own experience with it in the treat- 
 ment of this disease is small, but has been unsatisfactory. While it is 
 undoubtedly an antipyretic, the pulse becomes weak and the inspiration 
 less strong under its use. The brain symptons do not diminish under its 
 use. Indeed, it is said to produce narcotism in some cases. Dr. Jahn l 
 and Dr. Jh. Platzer 2 speak more favorably of it, but admit that its 
 administration is occasionally attended by the inconveniences above 
 referred to. The verdict of the profession in regard to it, tersely 
 expressed by one who had given it a fair trial, appears to be that it is a 
 remedy that brings nothing but disappointment to the physician and dis- 
 aster to the patient. 
 
 Eucalyptus, in the form of the tincture, is also a favorite remedy with 
 many practitioners. Dr. Benj. Bell 3 is in the habit of giving a teaspoon- 
 ful every three or four hours in a wineglass of water, and asserts that it 
 diminishes the tendency to diarrhoea and the duration of the illness. 
 
 The different varieties of typhoid fever require slight modifications only 
 of the treatment laid down above. In the typho-malarial form, especially 
 in those cases in which the malarial element predominates, and in which 
 there is a marked tendency to remission, the early administration of 
 quinia in full antiperiodic doses is urgently called for. In some cases 
 which he had the opportunity of observing in the army, A. L. Cox 4 
 found great advantage from the use of arsenious acid in rather large 
 doses. When the disease attacks elderly people, an early resort to alco- 
 holic stimulants is usually necessary, in consequence of the excessive 
 prostration it induces in them. Henoch and Steffen 5 assert that cold 
 baths are not so well borne in children as in adults. Their influence is 
 transitory only, and their use has sometimes been followed by fatal col- 
 lapse. In the renal form dry, and in some cases cut, cups should be 
 applied externally and saline diuretics given internally. 
 
 SYMPTOMS REQUIRING SPECIAL TREATMENT. Vomiting, when it 
 occurs early in the disease, is usually checked by the administration of an 
 emetic and by the application of sinapisms to the epigastrium. The use 
 of emetics is no longer advisable when it occurs after the first week. It 
 is better then to trust to small doses of hydrocyanic or carbolic acid, 
 aromatic spirit of ammonia, or bismuth. It will often be found that 
 lime-water and milk will remain upon the stomach when every other 
 article of food or medicine is rejected. In some severe cases which have 
 been under my care the symptom was permanently relieved by the fre- 
 quent administration of small quantities of brandy in iced soda-water. 
 When vomiting is a consequence of peritonitis it usually resists every form 
 of treatment. 
 
 Diarrhoea, if the number of the stools does not exceed two or three in the 
 course of twenty-four hours, does not need special treatment. When, 
 however, it is more severe, prompt measures should be taken to check it. 
 Under these circumstances laudanum injections have seemed to me to be 
 
 1 Deuisches Arch.f. klin. Med., 1877. 2 Sayr. Arztl. Intel!. BL, 1877. 
 
 3 Edin. Med. Jour., Aug., 1881. 
 
 * Outlines of the Chief Camp Diseases of the United States Armies, by Joseph Janvier 
 Woodward, M. D., Philada., 1863. 6 Jahrb.f. Korhde, 1880.
 
 332 TYPHOID FEVER. 
 
 bv far the best remedy. It is not necessary that these injections should 
 aiwavs contain a large amount of laudanum or that they should be 
 repeated frequently. In many cases twenty drops once a day will be 
 found to be sufficient, and it is rarely necessary to exceed forty drops 
 twice daily. Opium given by the mouth or in suppository in equivalent 
 quantity does not act with anything like the same efficacy. If the lauda- 
 num injections fail to restrain the diarrhoea, it will be well to have 
 recourse, in combination with opium, to the subnitrate of bismuth or 
 the acetate of lead. Nitrate of silver was at one time much employed 
 in the treatment of typhoid fever, especially by the late J. K. Mitchell 
 of this city, but was afterward suffered to fall into neglect. Its use has 
 been recently, to a certain extent, revived in consequence of the recom- 
 mendation of William Pepper, 1 who claims for it the power of modifying 
 the course of the disease. I have given it in a number of cases, but have 
 never been able to satisfy myself that it possessed this power. I have 
 therefore ceased to prescribe it except in the later stages of the disease, 
 when the symptoms indicate that the intestinal ulcers are in an atonic 
 condition. Under these circumstances it has appeared to me to promote, 
 their cicatrization. It is important, however, to remember that diarrhrea 
 is occasionally caused and kept up by more food being given to the 
 patient than he can assimilate, and it is therefore a good rule to examine 
 the stools from time to time to see whether they contain curds of milk 
 or other undigested food. If such is found to be the case, the amount 
 of nourishment should be diminished, and it will be well also to prescribe 
 pepsin either in powder or in solution. 
 
 Tympanites also occasionally requires treatment, for in addition to 
 interference with the descent of the diaphragm and other discomfort it 
 produces, the distended condition of the bowels directly increases the 
 risk of perforation. It is usually sufficient to employ embrocations or 
 stupes of equal parts of sweet oil and oil of turpentine, or of camphor 
 liniment. If the tympanites coexist with constipation, enemata, either 
 with or without a small quantity of oil of turpentine, may often be used 
 with advantage. If it is extreme, an intestinal tube should be introduced 
 very _ carefully into the rectum and the gas drawn off. Charcoal has 
 occasionally been administered in this condition with a view of prevent- 
 ing decomposition of the intestinal contents. Tympanites occasionally 
 rapidly supervenes upon the occurrence of perforation, and must then, 
 of course, be treated with due reference to the latter condition. 
 
 Intestinal hemorrhage is a symptom which always demands prompt 
 attention, no matter how slight it may seem to be, for it is to be remem- 
 bered that not only is there a danger of its recurrence, but that the 
 quantity of blood which appears in the stools is by no means a reliable 
 measure of that actually lost, as more blood frequently remains in 
 the intestines than appears externally. In estimating its severity, it is 
 2tore proper to take into consideration the gravity of the other 
 symptoms which attend it, such as the fall of temperature, feebleness 
 of the pulse. In many cases the enforcement of absolute rest, with the 
 rimin.stration of wld drink and a small amount of opium to diminish 
 ic action is all that is needed. In cases in which the symptoms 
 t will be necessary to have recourse to more energetic meas- 
 1 Philadelphia Medical Times, Feb. 12, 1881.
 
 SYMPTOMS REQUIRING SPECIAL TREATMENT. 333 
 
 ures. Under these circumstances the hypodermic injection of from three 
 to five grains of ergotin, repeated if necessary, has seldom in my experi- 
 ence failed to check the hemorrhage. Dilute sulphuric acid, oil of tur- 
 pentine, and acetate of lead have also proved themselves useful remedies 
 in my hands. The application of ice to the surface' of the abdomen has 
 also been said to be attended with good results, but the objections to the 
 use of this remedy in the condition of collapse, which is so apt to accom- 
 pany profuse intestinal hemorrhage, are so evident that it is unnecessary 
 to discuss them here. MonsePs solution, tannic acid, and various other 
 mineral and vegetable astringents have been recommended for their direct 
 effect upon the bleeding surface, but, even admitting that they can, when 
 administered by the mouth, reach this unaltered or in a sufficient state 
 of concentration to be active, it is evident that they could only do so after 
 the loss of valuable time. 
 
 When perforation occurs, it is obvious that the indications for treat- 
 ment are to preclude the extravasation of the contents of the intestine 
 into the cavity of the peritoneum, and to prevent the peritonitis which is 
 a consequence of this accident from becoming general. Both of these 
 indications are met by the administration of opium, which diminishes, 
 and, if pushed, arrests, the peristaltic action of the intestines. By means 
 of it the bowels may be kept as free from movement as if " placed in 
 splints." A grain of solid opium may be given every hour until a 
 decided effect is produced, or if it is found to disagree with the stomach 
 an equivalent quantity may be given by the rectum, or it may be substi- 
 tuted by morphia administered by the mouth or hypodermically. With 
 the same view, food is to be allowed in small quantities only at a time, 
 and of a character capable of digestion by the stomach. A light poul- 
 tice, or, if there is much evidence of inflammation, ice should be applied 
 to the abdomen. It has been recommended also, in cases in which the 
 peritonitis has become general, to apply leeches to the abdomen, but few 
 patients in this condition will readily bear the loss of much blood. It is 
 very important not to interfere with the constipation which results from 
 the above treatment, and which it is one of its objects to promote, until 
 all inflammatory symptoms have been absent for at least a week, when 
 a simple enema may be administered. Peritonitis resulting from other 
 causes than perforation of the intestine does not require any modification 
 of the above treatment. 
 
 Severe abdominal pain, when it occurs independently of inflammation, 
 is best treated by the application to the abdomen of light poultices, to 
 which two or three teaspoonfuls of laudanum may be added. 
 
 Constipation is an occasional symptom, but it rarely calls for active 
 interference. When it is present so early in the course of the disease that 
 the diagnosis is still uncertain, and has continued for several days, it is 
 best to prescribe a small dose of castor oil ; a dessertspoonful is generally 
 sufficient. The late Dr. Gerhard was in the habit of giving a table- 
 spoonful of sweet oil in this condition. The inordinate action which 
 frequently follows the administration of these mild purgatives will often 
 dispel all uncertainty as to the nature of the disease we have to do with. 
 When it occurs in a more advanced stage of the disease it is best met 
 by the administration of enemata, which may contain, if there is much 
 tympanites present, a small quantity of oil of turpentine. Under all
 
 334 TYPHOID FEVER. 
 
 circumstances it will be well to remember the advice given by Baglivi 
 two centuries ago, to avoid the use of active cathartics in this disease. 1 
 
 The headache which is sometimes a distressing symptom in the begin- 
 ning of the disease is usually relieved by the application to the head of 
 cloths constantly wet with ice-water or by that of a bladder filled with 
 ice and lard. If it is very severe and does not yield to these remedies, a 
 few leeches applied to the temples often have a very happy effect in mod- 
 eratino- the pain. Murchison recommends that the cold affusion should 
 be administered by simply placing the patient's head over a basin at 
 the edge of the bed and pouring water on it from a height of two or 
 three feet. He also says that warm fomentations are to be preferred to 
 cold in aged and infirm persons of feeble circulation. Sleeplessness will 
 often disappear under the use of remedies presented for the relief of the 
 headache and other nervous symptoms. It is occasionally so persistent 
 as to call for special treatment. If it occur early in the disease, it will 
 generally be sufficient to prescribe at bedtime ten grains each of potas- 
 sium bromide and chloral, repeated once or twice during the night. 
 Later in the disease this combination ceases to produce any effect, besides 
 which chloral cannot be administered with safety after the action of the 
 heart becomes feeble. It is therefore necessary to have recourse to opium 
 in some form or other. There are, it is true, theoretical objections to its 
 use in typhoid fever, such as its interference with digestion and its tend- 
 ency to lock up the secretions ; but these will hardly weigh in the bal- 
 ance against the fact that the patient will die of exhaustion if the insom- 
 nia is allowed to continue, and that under certain circumstances opium is 
 the only drug which will procure the needed sleep. The form in which 
 it is given is not a matter of much importance. 1 prefer the deodorized 
 tincture, twenty or thirty drops, repeated if necessary in an hour or two, 
 but I have seen good results from the solid opium and from the hypo- 
 dermic injection of morphia. When the insomnia is attended by much 
 tremor and muttering delirium, camphor may be added to the opium, and 
 given throughout the day as well as in the evening. Violent delirium 
 is sometimes also relieved by administration of opium and alcoholic 
 stimulants, and by the application of cold to the head. It is also much 
 lessened by the cold-water treatment. When the delirium is so violent 
 that restraint is necessary, it is better that this should be mechanical than 
 that it should be left wholly in the hands of ignorant and untrained 
 nurses. A folded sheet passed over the chest of the 'patient and fastened 
 to the sides of the bed is frequently all that is needed. Stupor requires 
 very much the same kind of treatment as that suitable for the other 
 forms of nervous derangement. If it is extreme, counter-irritants should 
 be applied to the nape of the neck and cold to the head. The late Dr. 
 \\ ..M! was in the habit of shaving the hair and applying a blister to the 
 scalp of a patient in this condition, and I have seen good in more than 
 one instance result from this treatment. The urine should also be 
 examined, and if the quantity be insufficient diuretics should be given, 
 f it contain albumen or blood, counter-irritants and even cut cups should 
 be applied to the loins. It is also important, if the patient be in this 
 condition, that the physician should not rest satisfied with the nurse's 
 - 8antia tanqUam P 0616111 " O /> Omnia Medico- Practica et Anatomica, Georgii
 
 TREATMENT OF COMPLICATIONS. CONVALESCENCE. 335 
 
 assurance that the urine is passed freely, but should from time to time 
 examine the supra-pubic region himself. It is not infrequently found 
 under these circumstances that there is really retention, and that the 
 wetting of the bed upon which the nurse has based her assurances is 
 really the consequence of the dribbling of urine from an over-distended 
 bladder. I have known of serious results, such as cystitis, paralysis of 
 the bladder, having followed the neglect of this very simple precaution. 
 Convulsions when they occur are to be treated by the application of cold 
 to the head and counter-irritants to other parts of the body. 
 
 Epistaxis is rarely so severe as not to yield to the use of simple reme- 
 dies, such as the application of ice to the forehead or back of the neck, 
 or of styptics locally. In a few cases, however, it is profuse, and it will 
 then be necessary to have recourse to hypodermic injections of ergotin, 
 as in the case of hemorrhage from the intestines, or to plug the nostrils. 
 
 TREATMENT OF COMPLICATIONS. Hypostatic congestion of the lungs, 
 as it is usually the consequence of feeble action of the heart, is best treated 
 by frequently changing the position of the patient, and by remedies cal- 
 culated to increase the power of the organ, such as alcoholic stimulants, 
 ammonium carbonate, oil of turpentine, and digitalis. Recent German 
 authors, however, regard digitalis as a dangerous remedy when the heart 
 has undergone the granular degeneration peculiar to fevers. It had, 
 therefore, better not be given if the congestion occurs late in the disease. 
 I have myself always found advantage from the application of turpen- 
 tine stupes to the chest, and occasionally from the application of dry cups. 
 Pneumonia when it occurs as a complication does not render necessary a 
 material modification of the above treatment. It may sometimes be well, 
 if it occur early in a robust subject, to take blood locally, but it can 
 rarely be justifiable to do so by venesection. 
 
 Bed-sores may generally be prevented by frequently changing the 
 position of the patient, by scrupulous attention to cleanliness, and by 
 bathing prominent parts of his body with whiskey and alum. These 
 parts should also be protected from pressure by the judicious arrange- 
 ment of pillows and cushions. When redness or abrasions appear the 
 part should be covered with soap plaster smoothly spread upon kid. 
 This application may be continued even after the formation of sloughs. 
 As soon, however, as these show a tendency to suppurate poultices should 
 be applied, and the resulting ulcer treated as if occurring under other 
 circumstances. 
 
 Thrombosis of the femoral vein is best treated by elevating the affected 
 leg and enveloping it with flannel cloths saturated with hot vinegar and 
 water. Thrombosis of other veins is to be treated on the same general 
 principles. When an artery becomes obliterated, whether from embolism 
 or thrombosis, the part which it supplies should be surrounded with 
 cotton wool and every effort made to favor the establishment of the col- 
 lateral circulation. If sphacelus occurs, it should be treated on general 
 surgical principles. 
 
 TREATMENT OF CONVALESCENCE. The importance of a strict adher- 
 ence to a liquid diet in the early part of the convalescence of typhoid fever 
 has already been alluded to. The ulcers in the intestines often remain 
 unhealed for some time after the subsidence of the fever, and errors in diet 
 may therefore readily cause recrudescences of fever, if not true relapses.
 
 336 
 
 TYPHOID FEVER. 
 
 These recrudescences are sometimes produced by very slight causes. 1 
 have seen them follow undue mental exercise or worry, or sitting up too 
 early or too long. It is therefore important to guard our patients at this 
 stage of the disease from undue fatigue or excitement of any kind. _ Med- 
 icines calculated to build up the strength and to improve the nutrition are 
 clearly indicated at this time. If the diarrhoea should persist, nitrate or 
 oxide of silver, sulphate of copper, and subuitrate of bismuth in appro- 
 priate doses, given with a little opium, will all be found to be useful 
 remedies. When, on the contrary, constipation exists, it is still necessary 
 to avoid the use of drastic cathartics ; indeed, even mild laxatives should 
 be given by the mouth only after euemata have failed to produce a move- 
 ment of the bowel. 
 
 SPECIFIC TREATMENT. The search for a specific remedy in typhoid 
 fever is not new. It is as old as the theory that the disease is generated 
 by a specific cause. The hypothesis that this is an alkaline poison led 
 many years ago to the use of the mineral acids, and it was only after 
 experience had shown that they were without power to cut the disease 
 short, or even to control many of its symptoms, that they ceased in a 
 measure to be prescribed. Calomel also, which was occasionally resorted to 
 formerly for its antiphlogistic effects upon the intestinal lesions, has been 
 lately recommended in Germany in the treatment of typhoid fever on 
 account of its supposed antidotal properties. Seven and a half grains of 
 the drug, and in some eases a much larger dose, are given four times daily 
 on alternate days as soon as the nature of the disease is fully recognized. 
 It is claimed for this treatment that when it is begun early the rate of 
 mortality and the duration of the disease are much less under it than 
 under any other. Its advocates admit, however, that the latter is not 
 always the case a variety in the action of the medicine which is attrib- 
 uted to a difference in the way in which the poison of the disease has 
 been taken into the body. Salivation is rarely produced by the calomel. 
 The diarrhoea, which is at first increased by it, subsequently diminishes, 
 and the administration of each dose is followed by a decided although 
 temporary reduction of temperature. 
 
 A diminution in the rate of mortality is also said to have been obtained 
 by the administration of iodine in typhoid fever, although the results of 
 its use are on the whole less favorable than those of calomel. Lieber- 
 meister recommends that three or four drops of a solution of one part of 
 iodine, two parts of iodide of potassium, and ten parts of water should 
 be given every two hours in a glass of water. 
 
 
 Number treated. 
 
 Number died. 
 
 Percentage of 
 mortality. 
 
 Non-specificaily treated 
 
 Q77 
 
 en 
 
 1 Q q 
 
 Treated with calomel 
 
 223 
 
 na 
 
 H7 
 
 Treated with iodine... 
 
 239 
 
 35 
 
 14.6 
 
 Total 
 
 838 
 
 130 
 
 15.5 
 
 The preceding table, which is taken from Liebermeister's article on 
 lever in Ziemssen's Cyclopcedia, is based upon the results of
 
 SPECIFIC TREATMENT. 337 
 
 treatment in 839 cases, a part of which were treated with iodine, a part 
 with calomel, and a part with neither, the rest of the treatment being 
 exactly alike in all of them, and consisting in the employment of a 
 partial antipyretic method. 
 
 James C. Wilson 1 has recently used with great success in the 
 treatment of typhoid fever the following prescription, which was orig- 
 inally suggested by Roberts Bartholow : Ji. Tinct. lodinii f 31). ; Acid. 
 Carbolici liq. f 3J. M. Of this, one, two, or even three drops is given 
 in a sherry-glassful of ice-water after food every two or three hours 
 during the day and night. In addition to this prescription his patients 
 were given a dose of calomel varying in amount from seven and a half to 
 ten grains, which was repeated on every alternate night until three or four 
 doses had been administered in the course of the first six or eight days. 
 Of sixteen cases so treated, none proved fatal, although eight of them 
 were severe, the temperature reaching or exceeding 104 F. Da Costa 2 
 has used carbolic acid in this disease, and has found it useful in control- 
 ling the diarrhoea and in lowering the temperature, but suggests the use 
 of thymol in doses of from half a grain to one grain as a substitute, on 
 account of its greater acceptability to the stomach. C. G. Rothe 3 recom- 
 mends a mixture of carbolic acid, tincture of digitalis, tincture of aconite, 
 brandy, and tincture of iodine. Its use causes a decided fall of tempera- 
 ture and diminution in the frequency of the pulse. 
 
 My own experience does not enable me to speak with positiveness of 
 the value of this plan of treatment. Indeed, it has been used in so few 
 cases, to the exclusion of all other remedies, that it is difficult to decide 
 how far the result attained in cases treated by them is due to them, and 
 how far to the other therapeutic means employed. With the testimony 
 of such competent observers as those above named it is only proper that 
 the treatment by iodine and carbolic acid should have a further trial. 
 More caution, it seems to me, is required in the use of calomel. While it 
 is probable that in a few cases the intestinal lesions may be favorably 
 modified by the purgation which it induces, the indiscriminate use of 
 the drug is, I am sure, calculated to do more harm than good. 
 
 1 Transactions of the College of Physicians of Philadelphia, 3d Series, vol. yi., Pliiladei 
 phia, 1883, p. 221. 
 
 *Ibid., p. 234. * Deutsche Med. Wocheiisc.hr., 1880. 
 
 VOL. T. 22
 
 TYPHUS FEVER. 
 
 BY JAMES H. HUTCHINSON, M. D. 
 
 DEFINITION. Typhus fever is an acute contagious disease, usually 
 occurring epidemically, lasting from ten to twenty days, and characterized, 
 among other symptoms, by an abrupt commencement, great prostration, 
 profound derangement of the nervous system, and a peculiar eruption 
 which appears between the third and eighth days, and which, disappear- 
 ing at first under pressure, soon becomes persistent, and in severe cases 
 may be converted into and be associated with true petechise. When it 
 proves fatal, it generally does so at or near the end of the second week. 
 The lesions found after death are not specific in character, and consist 
 mainly of a marked alteration of the blood, congestions of internal 
 organs, softening of the heart, and atrophy of the brain. 
 
 SYNONYMS. Petechial Typhus, Putrid or Malignant Fever, Camp, 
 Jail, Ship, or Hospital Fever, Spotted Fever, Irish Ague, Contagious 
 Typhus, Brain Fever, Adynamic or Ataxic Fever, Ochlotic Fever, 
 Catarrhal Typhus. 
 
 The term typhus was first applied by Sauvages in 1760, and after- 
 ward by Culleu, to certain forms of fever, characterized by marked 
 prominence of the nervous symptoms, to distinguish them from another 
 group of cases to which they gave the name synochus, and is derived 
 from the Greek word ry^oc, which literally means smoke, and which is 
 employed in the treatise on internal affections attributed to Hippocrates 
 for a similar purpose. According to Murchison, 1 Hippocrates used the 
 word to define a " confused state of the intellect, with a tendency to 
 stupor." The appellation typhus, therefore, as indicating a very promi- 
 nent symptom of the disease about to be described, is perhaps the best 
 that could be given to it. It has been generally adopted by the physi- 
 cians in England and in this country to denote this disease, but on the 
 Continent, and especially in Germany, it is applied also to typhoid fever, 
 the two fevers being usually designated there as typhus petechialis and 
 typhus abdominalis, respectively. 
 
 ISIORY. As human want and misery and the evils which follow in 
 
 ; tram of war have never been wholly absent from the world, and as 
 
 e are the conditions which are now known to be favorable to the 
 
 ad, if not to the generation, of typhus fever, it is highly probable that 
 
 sease was the cause of some of the epidemics to which allusion is 
 
 ! by the sacred and profane writers of antiquity. Yet their descrip- 
 
 o vague to justify us in assuming that such was positively the 
 
 p^c 071 /* 6 Conti d Fevers of Great Britain, by Charles Murchison, M. D., 
 K. S., etc., second edition, London, 1873. 
 
 338
 
 HISTORY. 339 
 
 case. The records of the first fifteen centuries of our own era are 
 similarly wanting in details, for, with the exception of a brief notice of 
 an outbreak of the disease in the monastery of La Cava, near Salerno, in 
 the year 1083, by Corradi l it may be said to have been practically unde- 
 scribed before the year 1546, when Fracastorius 2 published his work, De 
 Contagionibus et Morbis Contagiosis. From the description which this dis- 
 tinguished physician gives there of the epidemics which prevailed in 
 Verona in the years 1505 and 1508, there can be no doubt that the dis- 
 ease he had the opportuity of observing was really typhus fever. Npt 
 only are the principal symptoms succinctly described, but its contagious- 
 ness and tendency to early prostration fully recognized. We learn also, 
 from the same work, that the disease, although previously unknown in 
 Italy, was one with which the physicians of Cyprus and the neighboring 
 islands were perfectly familiar. According to the same authority, it 
 again made its appearance in 1528 in Italy, and from there extended to 
 Germany. 
 
 During the last half of the sixteenth century epidemics of typhus 
 fever would seem to have been of more frequent occurrence than before 
 it, since many of the medical authors of this period not only refer to it 
 very fully, but also give accurate descriptions of the disease. There is 
 also abundant evidence of the same kind that it frequently prevailed 
 epidemically in almost every part of Europe during the seventeenth and 
 eighteenth centuries, following generally in the wake of famine and of 
 war, and often attaining a high degree of virulence in besieged towns. 
 The histories of many of these epidemics are exceedingly interesting, 
 especially those of the so-called Black Assizes which occurred at different 
 times in several of the towns of England, and which derived their name 
 from the fact that the disease was communicated from the prisoners on 
 trial to the judges and other persons in attendance upon the court; but 
 to give these in detail would be beyond the scope of this article. 
 Although many of the authors of these two centuries boldly advocated 
 copious venesection as the only rational method of treating the disease, 
 there was a not inconsiderable number who recognized its essentially 
 typhoid nature, its tendency to early prostration, and the fact that patients 
 suffering from it bear bleeding badly, as fully as is done by physicians 
 of the present day. They were also unquestionably quite aware of the 
 circumstances under which typhus fever generally arises, for in 1735, 
 Browne Langrish 3 wrote that it originated from " the effluvia of human 
 live bodies," and that its principal cause was overcrowding with deficient 
 ventilation, as a result of which " people were made to inhale their own 
 steams ;" and a similar opinion was expressed a few years later by Sir 
 John Pringle, 4 J. Carmichael Smyth, 5 and others. 
 
 Epidemics of typhus fever have frequently occurred in various parts 
 of Europe during the present century, although they have, on the whole, 
 shown a greater tendency than before to confine themselves to the place 
 in which they first appeared. The most severe of these began in 1846, 
 and after committing great ravages in Ireland extended to England, and 
 
 1 In Chron. Cavense Annali, p. 1, 101, quoted in Handbuch der Histori&h-Geographischen 
 Pathologic, von Dr. August Hirsch, Stuttgart, 1881. 
 
 2 Quoted by Murchison. 
 
 8 The Modern Theory and Practice of Physics, by Browne Langrish, p. 354, London, 
 1764. 4 Observations in Diseases of the Army, London. 4 Quoted by Murchison.
 
 340 TYPHUS FEVER. 
 
 subsequently to the Continent. The disease proved much more fatal 
 than the sword in the armies of Napoleon in the towns besieged by 
 him in the early part of this century, and was the cause of an immense 
 loss of life in the Russian and French armies in the Crimea after the 
 fall of Sebastopol. 
 
 In our own country typhus fever has appeared several times during 
 the present century, but the outbreaks have rarely attained the magnitude 
 of epidemics, such as are seen in Europe, and have usually been distinctly 
 traceable to importation from abroad. It was first met with, according 
 to Wood, 1 in New England in 1807 and in Philadelphia in 1812, 
 continuing to lurk, this author says, in the lanes and alleys of that city 
 until the winter of 1820-21, when, as a student of medicine, he had an 
 opportunity of studying it. Another outbreak of the disease occurred 
 in the same city in 1836, and is the subject of an admirable paper by 
 the late Win. S. Gerhard. 2 Since then epidemics of moderate sever- 
 ity have repeatedly occurred at different times in several of the American 
 cities, and have been described, among others, by Flint, Da Costa, 3 
 and Loomis. A large number of cases of typhus fever (1723), with 572 
 deaths, were reported to the Surgeon-General's office during the late Civil 
 War, but doubt has been thrown upon the correctness of the diagnosis 
 of many of these cases by Clymer 4 and Woodward, 5 and by other 
 army surgeons, who, as the result of their investigations of this subject, 
 have reached the conclusion that typhus did not prevail as an epidemic, 
 however limited, among our soldiers at depots for returned prisoners of 
 war. A like immunity from this scourge may be assumed to have been 
 enjoyed by the Confederate forces, since Joseph Jones, 6 one of the most 
 eminent of their medical officers, has stated positively that no case 
 of true typhus fever came under his observation during the war in any 
 army, in any field hospital, general hospital, or military prison, and that 
 the experience of all of his associates whose opinions on this question he 
 was able to obtain, either personally or by letter, was the same. It is 
 therefore most probable that the cases entered upon the sick reports of 
 both armies as typhus fever were in almost every case, if not in all, cases 
 of typhoid fever occurring in scorbutic subjects. 
 
 From the foregoing sketch of its histoiy it is evident that typhus fever 
 
 has prevailed from time to time in almost all the countries of Europe. 
 
 Indeed, it is probable that no one of them has wholly escaped its ravages, 
 
 while in others as, for example, Ireland it has been more or less con- 
 
 stantly present until within the last few years, when its visitations have 
 
 been less frequent as well as less severe. Even in countries which are 
 
 popularly supposed to enjoy an immunity from it there is evidence of an 
 
 ncontrovertible character that it has occasionally occurred. Such an 
 
 unity has been claimed for France, but in the works of Riverius, 7 
 
 1 A Treatise on the Practice of Medicine, by George B. Wood, M. D., etc., Philada., 1855, 
 
 . /ft, T ncaB Jo** of the Medical Sciences, February and August 1837. 
 Jowl., January, 1866. 
 
 by wm Aitken > M - D - mi --> 3d Amer - 
 
 rius, Londo 1678 
 
 0/ ^ Unit ** StateS Armies > by Jose P h Janvier Woodward, M. D., Phil- 
 P?^ P?"? 1 '* 81 '' Uenwirs-Medical, p. 600, New York, 1867. 
 
 g 7 & Translation of the Works of Lazarus Kive-
 
 ETIOLOGY. PREDISPOSING CAUSES. 341 
 
 Ambrose Pare 1 , and others will be found descriptions of the disease which 
 leave no doubt upon the mind of their entire familiarity with it ; and 
 Hirsch, in his work on Historico- Geographical Pathology, is able to give 
 references to several writers who describe outbreaks that have recently 
 occurred there. The disease has also been observed in Iceland. Typhus 
 fever is of much less frequent occurrence in the other divisions of the 
 eastern hemisphere than in Europe. According to Murchison, there are 
 no authentic records of its having been met in Africa, or, with the excep- 
 tion of India, in Asia, such as it is seen in England and Ireland. There 
 are, however, reports of its occurrence in Asia Minor, Syria, Persia, 
 Egypt, Nubia, Tunis, and Algeria, which Hirsch, 2 on the other hand, 
 believes place the occasional presence of this disease in these countries 
 beyond doubt. The same difference of opinion exists between these two 
 distinguished observers in regard to the accounts which have been pub- 
 lished of typhus fever occurring in Mexico, Central America, and South 
 America, the latter holding that they are entirely reliable, the former that 
 the cases described in them were really cases of malarial or typhoid fever. 
 The disease lias never been met with on the continent of Australia, in 
 New Zealand, or in the valley of the Mississippi and the States bordering 
 on the Pacific Ocean in our own country. 
 
 While Hirsch's researches go to show that the tropical zone has not 
 been so wholly exempt from the visitation of typhus fever as some 
 authors have asserted, they establish the fact that it is of much less fre- 
 quent occurrence there than in the colder portions of the temperate zone, 
 where the modes of life are certainly much more favorable to its exten- 
 sion. Natives of warm climates are as liable to be attacked by it as 
 others upon coming to places where it is prevailing, and in the Phila- 
 delphia epidemic of 1836, which Gerhard 3 has described, negroes and 
 mulattoes suffered from it more severely than the whites. 
 
 ETIOLOGY. The etiology of typhus fever will be best studied under 
 the heads Predisposing and Exciting Causes. 
 
 PREDISPOSING CAUSES. It may be stated, generally, that whatever 
 impairs the health or reduces the strength of an individual, even tempor- 
 arily, or acts depressingly on his nervous system, predisposes him to 
 typhus fever. But there are among the predisposing causes some which 
 exert a more special influence on its production than others. Among the 
 more powerful of these is the overcrowding of human beings, with 
 deficient ventilation. Indeed, there are some authors who consider that 
 this has been in many cases alone sufficient to occasion the disease ; and 
 although this opinion, as it involves the admission that it may be generated 
 de novo, is contested by others, there is great unanimity among authors 
 in attaching great importance to it. Of the patients admitted into the 
 London Fever Hospital with typhus fever, a large proportion came from 
 the more crowded districts of the city. The disease has always been 
 most prevalent in the poorer quarters of Glasgow, Dublin, and Edin- 
 burgh, and when epidemic in Philadelphia in 1836 it was confined to a 
 portion of the town which has always been noted for the squalor and 
 misery of its inhabitants. Among those admitted during that year to 
 the Philadelphia Hospital were seven negroes, said by Gerhard to 
 
 1 Traite de la Pesle, de la Petite Verolle el Eougeolle, par Ambrose Par, Paris, 1568. 
 1 Loc. cit. 3 Loc. oil.
 
 342 TYPHUS FEVER. 
 
 be "the entire population of a cellar." It is probably largely due to 
 the fact that the better social condition of the poor in this country pre- 
 vents the degree of crowding which often exists in European cities that 
 the disease is comparatively rare here. The effect of overcrowding is of 
 course much increased by want of cleanliness, either of the person or of 
 the clothes. 
 
 Poverty, not merely from its own depressing influences, but also from 
 the fact that it leads to overcrowding, is a powerful predisposing cause 
 of typhus fever. Insufficiency of food, which is one of its many conse- 
 quences, by impairing his nutrition and thus diminishing his vital resist- 
 ance, renders the individual more susceptible to the action of the specific 
 cause. Gerhard says that of the patients seen by him in 1836 a very small 
 proportion came from the better class of mechanics, and Tweedie l and Sir 
 William Jenner 2 state that it is rare to meet with instances of the disease, 
 except in the case of medical practitioners and students, among those in 
 comfortable circumstances. Bateman 3 goes so far as to assert that 
 " deficiency of nutriment is the principal source of epidemic fever ;" and 
 there is certainly a remarkable coincidence in time between outbreaks 
 of this fever and seasons of want and distress. But, as Murchison has 
 shown, destitution is not essential to the production of typhus, for the 
 Dundee epidemic of 1865 was due to overcrowding of the town, brought 
 about by the inhabitants of the surrounding country flocking into it in 
 consequence of labor being unusually abundant and wages good. 
 
 Similar in its action to the above cause is intemperance. Not only is 
 the habitual drunkard more likely to suffer from typhus fever than the 
 temperate man, but a single debauch has been followed by an attack in 
 individuals who had previously resisted the contagion. On the other 
 hand, the most rigid temperance will not afford in all cases a complete 
 immunity from its effects. The debility left by an illness is also a con- 
 dition favoring the occurrence of an attack of the disease in those who 
 are exposed to its exciting cause. Fatigue of all kinds renders the body 
 less able to resist the causes of disease, and typhus fever is not an excep- 
 tion to the general rule. Overworked nurses are specially liable to con- 
 tract it. The depressing emotions also favor its occurrence. It has been 
 observed during epidemics that those who exhibit an excessive fear of 
 the contagion are much more likely to suffer from it than the cheerful 
 and courageous. 
 
 No age enjoys an immunity from the disease. In fact, it is probable 
 that all ages are equally liable to it. Buchanan 4 has seen it at the 
 London Fever Hospital in an infant a fortnight old and in a man of 
 eighty, and attributes the prevailing opinion that children rarely suffer 
 from it to the fact that they are not often taken to hospitals, but are 
 vtamed in their own homes for treatment. Gerhard 5 says that no 
 m the asylum attached to the Philadelphia Hospital were 
 
 1 Lectures m (fc Distinctive Character, Pathology, and Treatment of Continued Fevers, by 
 author" London 1830 F ' *' S '' London > 1842 ' and Clinical Ee P orts m Fever > b ? s * me 
 
 * On the Identity ,or Non-Identity of Typhoid and Typhus Fevers, by William Jenner, 
 M.D London 1880; also Lancet, November 15, 1879 
 M.D FR"S LonTon^lS" 8 " Conta9ious Fever f this Country, by Thomas Bateman, 
 
 ' M - D - F - K -- P "' '
 
 EXCITING CAUSE. 
 
 attacked with the disease during the prevalence of the epidemic there, 
 but the distance of the asylum from the wards in which the cases were 
 treated was probably the reason of their escaping. In the few cases 
 which have come under my own observation the patients were young 
 men, varying in age from twenty-five to thirty-five. The sexes also 
 suffer from it equally. In some epidemics there may be a preponderance 
 of one sex over the other, but in others the reverse has been the case. 
 
 Occupation, except so far as it brings the individual into immediate 
 contact with the sick, as in the case of physicians, nurses, and clergymen, 
 does not predispose to the disease. There would seem also to be no dif- 
 ference in the susceptibility of the different races to the contagion. 
 Acclimatization affords no protection from the disease, as it does in the 
 case of typhoid fever, and change of the habits of life does not appear to 
 exercise any influence upon the liability to it. On the other hand, the 
 susceptibility of different individuals, and of the same individual at dif- 
 ferent times, varies considerably. Thus, while in many persons a single 
 exposure to the contagion is followed by an attack, in the case of an 
 engineer mentioned by Murchison it did not occur until after fifteen 
 years of continuous service at the London Fever Hospital. A person 
 who has once suffered from typhus fever is not likely to contract it again, 
 but this protection is not complete, as there are a few well-attested 
 instances of a second attack on record. 
 
 The disease prevails most frequently during the winter and . early 
 spring, principally because the cold weather of these seasons leads to the 
 closing of windows and all other avenues of ventilation, thus intensifying 
 its exciting cause. Still, some epidemics of great severity have occurred 
 in the warmer months of the year, as, for instance, the one described by 
 Gerhard. It is also doubtful if there is any relation between varia- 
 tions in temperature and the amount of moisture in the air and the prev- 
 alence of epidemics of typhus fever, although Hirsch regards a low and 
 damp situation as powerfully predisposing to the endemic and epidemic 
 prevalence of the disease. It is usually met with in' towns on the sea- 
 coast or on navigable rivers, but it has also been observed frequently in 
 country districts, and even in regions at a considerable elevation above 
 the level of the sea. 
 
 EXCITING CAUSE. The principal if not the only exciting cause of 
 typhus fever is a specific contagion developed in the bodies of the infected 
 and transmitted from them to the healthy by actual contact, by fomites, 
 or through the atmosphere. The nature of this contagion is unknown. 
 A careful study of its peculiarities seems to justify the opinion that it 
 depends upon the presence of a minute organism in the emanations given 
 off by the sick, which is capable of indefinitely multiplying itself in the 
 human body. But this is only an hypothesis, which rests principally upon 
 the analogy between typhus and some other diseases, as, for instance, 
 relapsing fever and diphtheria, in which such a growth is thought to 
 have been discovered, and upon the fact that the contagious principle 
 whatever it may be, is destroyed by a temperature over 204 F. 
 
 The evidence in favor of the contagiousness of typhus fever is conclu- 
 sive, and may be briefly stated as follows : When it breaks out in a 
 community the disease not only attacks those persons who have been 
 subjected to the same influence as the sick as, for instance, members of
 
 344 TYPHUS FEVER. 
 
 their own families, occupants of the same house, etc. but also those who 
 have come from healthy localities to visit them. In fever hospitals it is 
 rare for any member of the household who has not already had the fever 
 to escape an attack, and the probability of his suffering is in direct pro- 
 portion to the intimacy of his relations with the patients. Thus, the 
 nurses are far more likely to be attacked than servants whose duties do 
 not take them into the wards, except those employed in the laundry, who 
 are so often affected by it that Murchison says it is difficult to find 
 women who are willing to take the position. The spread of the disease 
 may often be promptly arrested by the complete isolation of the first few 
 cases, while free intercourse between the sick and the well is invariably 
 followed by its extension, not only in the locality in which it first ap- 
 peared, but to other localities. But the strongest argument in favor of 
 its contagiousness is found in the fact that patients taken into a previously 
 healthy place have frequently become the starting-point of an epidemic. In 
 this way the disease has often been introduced by Irish immigrants into 
 the cities on our seaboard, and even into some of our interior towns. 
 
 Actual contact is not necessary for the communication of typhus fever 
 from the sick to the well. The contagion may be transmitted through 
 the atmosphere. How far it will be transmitted in this way will depend 
 upon many circumstances. In a spacious and well-ventilated ward it is 
 probable that the presence of one or two patients with this disease does 
 not seriously endanger the safety of the other patients, and that the 
 only persons who run much risk of contracting it are the physicians and 
 nurses, who are often compelled in the performance of their duties to 
 inhale the emanations from the bodies of the sick. At the Pennsylvania 
 Hospital, where cases of this disease are occasionally admitted, it has been 
 usual to isolate them by placing them in a room a few feet distant only 
 from the dining-room of the men's medical ward and separated from the 
 ward by a short corridor. The steward of the hospital informs me that 
 during his connection with it, which extends over a period of more than 
 sixty years, he has never known the disease to extend to other persons, except 
 on two occasions. One of these was during the epidemic described by Da 
 Costa, when an unusual number of cases was received, and when one resident 
 physician and two nurses contracted the disease. On the other occasion, 
 which happened during my own term of service in the spring of 1881, 
 a young Danish sailor appeared to have taken the disease from two Brit- 
 ish seamen. ^ As it was ascertained positively that he had not entered the 
 room in which these two seamen were isolated, and as his bed in the ward 
 was one of the farthest removed from the room, and he had not therefore 
 been more or as much exposed to the contagion as the other patients, it 
 was difficult to understand why he alone of all of them should have suf- 
 fered from it. The explanation was, however, found in the fact that he 
 had been taken over to the women's ward to act as interpreter for a 
 ntrywoman who was not known at the time to be suffering from 
 typhus fever, and that he had remained there some time in conversation 
 with her. Murchison and Buchanan both assert also that typhus fever 
 has never extended from the London Fever Hospital to the inmates 
 ot adjacent houses, even when it was itself one of a row of houses, 
 the other hand, several patients with typhus fever are placed in a 
 rowded and ill-ventilated ward, the contagion will then be found to have
 
 EXCITING CAUSE. 345 
 
 acquired so much more virulence that few of the other patients will escape 
 its effects. 
 
 There is also no question that typhus fever may be communicated by 
 fomites. Numerous instances are on record in which the disease has 
 been communicated by the wearing apparel and bed-clothes of patients, 
 and we have already called attention to the frequency with which laundry- 
 women in fever hospitals are attacked by it. The clothes of persons who 
 are themselves free from the disease, but who have been in close attend- 
 ance upon the sick for some time, are often also the medium of communi- 
 cation. Indeed, Murchison goes so far as to say that men who have not 
 cl anged their clothes and " who have been living in close, ill-ventilated 
 apartments and on short allowance, may at length have their garments 
 so impregnated with the poison of typhus as to communicate it to others 
 without being themselves the subjects of it," even if they have not been 
 brought in contact with fever patients. The disease was communicated 
 in this way, he thinks, in the famous Black Assize in 1750 by several 
 prisoners to the court that tried them, although they were themselves free 
 from it. On the other hand, with proper precautions there is little 
 dangei of the disease being conveyed by physicians to their own families 
 or to other patients. 
 
 Some difference of opinion exists as to the stage at which typhus is 
 most contagious. Many authors believe that it is more infectious during 
 convalescence than at any other time, and base this opinion upon the fact 
 that the removal of fever patients to the convalescent ward is very often 
 followed by the occurrence of the disease among its other occupants ; but 
 this is probably due, as Murchison suggests, to the patients being 
 allowed at this time to wear their own clothing, which has not been 
 thoroughly disinfected. It is much more likely that the disease is more 
 contagious during the stage when the febrile symptoms are most marked 
 than during either the stage of convalescence or that of invasion. It 
 would appear also, from the observations of Dr. Gerhard and others, 
 that dead bodies do not readily communicate the contagion or that the 
 contagious principle is easily counteracted after death. Still, there are 
 several well-authenticated cases on record in which individuals have 
 unquestionably contracted the disease from dissecting the bodies of patients 
 dead from this cause. 
 
 A question of great interest naturally arises here, as to whether or not 
 typhus fever ever occurs except as the consequence of exposure to a pre- 
 vious case of the disease. Is it, in other words, ever generated de novo ? 
 Authorities are divided upon this point, many contending that an inde- 
 pendent origin is impossible, and others that it may occasionally arise in 
 this way. Among the latter is Murchison, who adduces in support of 
 the position he takes several instances in which poverty, with overcrowd- 
 ing and deficient ventilation, appears to have been the only cause of exten- 
 sive outbreaks of the disease, as in the case of the Black Assize already 
 alluded to. These cases the opposite party explain by assuming that the 
 germs of the disease are capable of lying dormant for a long time until 
 roused into activity by favoring circumstances. If the disease is caused, 
 as we have shown there is good reason to believe it is, by the presence of 
 a minute organism, this view does not seem to be untenable. Pasteur has 
 demonstrated that the germs of the splenic fever of some of the lower
 
 346 TYPHUS FEVER. 
 
 animals may be deprived of their virulence by cultivation in appropriate 
 liquids. If their virulence is diminished under certain .circumstances, 
 the assumption does not seem unwarrantable that under others it may be 
 increased, and if we may draw this conclusion in regard to one form of 
 microscopic growth, we may do the same for others ; and the hypothesis 
 is therefore not an unreasonable one that the typhus germ needs the 
 atmosphere engendered by overcrowding for it to acquire the power to 
 produce the disease. 
 
 PERIOD OF INCUBATION. The period of incubation of typhus fever 
 appears to vary considerably in length, but is usually about twelve days. 
 In some cases the interval between exposure to the contagion and the 
 occurrence of the first symptoms of the disease is asserted to have been 
 considerably longer, and in one instance as long as thirty-one days ; but 
 it is probable that there has been in most, if not in all, of these cases a 
 second exposure which has been overlooked. On the other hand, it is 
 said to have followed at once upon exposure, as in cases reported by 
 Gerhard, in one of which a nurse inhaled the breath of a patient whom 
 he was shaving, and in an hour afterward was taken with cephalalgia 
 and ringing in the ears, which were immediately succeeded by the 
 other symptoms of typhus. In this and other similar cases which are on 
 record it is difficult to exclude the possibility of a previous infection. 
 In a case, however, reported by Murchison there would seem to be no 
 reason to susj>ect that any such previous infection could have taken place, 
 as the patient, the matron of an orphan asylum where there was no 
 typhus, was taken ill immediately after opening a bundle of clothes which 
 a child had brought with her from a fever hospital, and which had not 
 been thoroughly disinfected. 
 
 ^ SYMPTOMATOLOGY. It will facilitate the study of typhus fever to 
 give, in the first place, as most of the systematic writers on fever have 
 done, a brief clinical sketch of the disease as it ordinarly occurs, and 
 then afterward to consider its leading symptoms in greater detail. 
 
 GENERAL DESCRIPTION. An attack of typhus fever is sometimes pre- 
 ceded for a few days by prodromata, such as a feeling of malaise, indis- 
 position to exertion, pain in the head and limbs, anorexia, and vertigo ; 
 but it oftener begins abruptly with a slight chill, or more rarely with a 
 decided rigor. This is followed in a short time by headache, by a 
 marked rise of jtemperature, and by an increased frequency of pulse and 
 respiration. Nausea is also occasionally present, and less frequently 
 vomiting. The tongue is at first moist and covered with a thin whitish 
 fur, but soon becomes dryish, and its coating is apt to assume a brownish 
 appearance in a day or two. With these symptoms there are loss of 
 appetite, great thirst, constipation, a dull, heavy expression of counte- 
 nance, a dark, dusky hue of the face, and injection of the conjunctiva. 
 
 .ental confusion is early observed, so that, although the patient may be 
 answer questions correctly when thoroughly roused, it is readily 
 :hat his mind is working with difficulty. The sleep is very often 
 disturbed by dreams, so that he awakes from it unrefreshed. Prostra- 
 tion and loss of muscular power are so decided from the very beginning 
 hsease that the patient is obliged usually to take to his bed at 
 : ; is much rarer to meet with walking cases of the disease than 
 m typhoid fever. The urine is dense, scanty, and hio-h-colored.
 
 DESCRIPTION OF SPECIAL SYMPTOMS. 347 
 
 Usually, about the fourth day of the disease the characteristic eruption 
 of typhus fever makes its appearance. It consists of numerous spots of 
 irregular form with ill-defined margins and of a dark red or purplish 
 color, occurring singly or in groups, and varying in size from that of a 
 pin's point to two or three lines in diameter. They disappear at first 
 under pressure, but in twenty-four hours becomes persistent, and in 
 severe cases may be converted later into petechise. Besides this eruption 
 there is another which consists of a faint, irregular dusky red, subcuticu- 
 lar mottling. The two eruptions together constitute the mulberry rash 
 of Jenner, and have been variously described by different authors under 
 the name of measly or morbilliform rash. 
 
 As the disease advances the prostration becomes greater and the pulse 
 grows weaker. The tongue becomes dry and brown and trembles when 
 protruded. Later, it is so dry and contracted that it can scarcely be put 
 out of the mouth. Sordes collect about the teeth and lips, and the sur- 
 face exhales a peculiar odor. The headache grows more severe or gives 
 place to delirium, which may at first be active and violent, and then pass 
 into the low and muttering form, or the delirium may be of the latter 
 variety from the start. The sleeplessness of the early stages may con- 
 tinue, and the condition known as coma vigil not infrequently supervenes. 
 The delirium is usually followed by stupor, which is more or less pro- 
 found in accordance with the severity of the case, and which is accom- 
 panied by all the symptoms which characterize the so-called typhoid state, 
 such as subsultus tendinum, picking at the bed-clothes, slipping down in 
 bed, retention or incontinence of urine, and sloughing of the parts 
 exposed to pressure. In this condition the temperature, although 
 usually still considerably above normal, is lower than during the first 
 week of the disease. 
 
 Meanwhile, the issue remains in doubt, and may continue uncertain 
 for several days before any improvement in the symptoms can be ob- 
 served, or, the stupor passing into coma, the case may speedily terminate 
 in death. When death is the result, it usually takes place about the 
 close of the second week or a little later, but it may occur earlier in con- 
 sequence of the violence of the fever, or, when due to a complication, 
 may be postponed until after the end of the third week. Fortunately, 
 however, recovery is the rule in this disease. The beginning of conva- 
 lescence is often as abrupt as that of the attack itself. The temperature 
 will often be found to have fallen to the normal or below the normal, the 
 pulse and respiration to have returned to a healthy condition, and all 
 confusion of the intellect to have disappeared in the course of a few 
 hours. Occasionally, however, its approach is more gradual, and a slight 
 fall in temperature and a corresponding improvement in the other symp- 
 toms may be observed before it actually occurs. Diarrhrea, an excessive 
 secretion of urine, with a tendency to the deposition of urates, and mod- 
 erate sweating, often take place simultaneously with the cessation of the 
 fever, and were formerly regarded as critical discharges. The return to 
 health is usually rapid, and very rarely retarded by the occurrence of 
 complications or relapses, as in typhoid fever. The disease itself leaves 
 no tendency to any other disease. 
 
 DESCRIPTION OF SPECIAL SYMPTOMS. The appearance of a patient 
 with typhus fever is pathognomonic, and is often alone sufficient to enable
 
 348 TYPHUS FEVER. 
 
 a physician or nurse familiar with it to recognize the disease when brought 
 in contact with it. The surface generally is congested ; the face is flushed, 
 and in bad cases dusky red or even livid in hue ; the expression is dull 
 and vacant, except during delirium, when it may be wild or even fierce ; 
 the conjunctive are injected, the eyes watery, and the teeth encrusted 
 with sordes. The skin is generally hot and dry, except toward the close 
 of bad cases, when it may be cool and bathed in a profuse sweat. 
 
 The symptoms connected with the nervous system are among the most 
 characteristic of the disease, and of them none is more marked than pros- 
 tration. It shows itself early, the patient usually taking to his bed 
 immediately after his seizure or within a few days of it. It is much 
 rarer than in typhoid fever to meet with walking cases of typhus, but 
 Buchanan l mentions that patients with the rash already out upon them 
 do occasionally present themselves at the out-door department of 
 the London Fever Hospital. It generally increases as the disease pro- 
 gresses, and is often accompanied by a tendency to syncope. It may 
 attain such a degree that the patient is unable to turn himself in bed or 
 to help himself in any way. Among the most distressing sensatious 
 which attend this condition of excessive feebleness is a feeling as if he 
 were sinking into the earth with nothing to support him. Headache is 
 also an early symptom. It is often observed among the prodromata of 
 the disease, and when these are absent supervenes directly after the chill. 
 It is usually frontal, but may be diffused. It is generally dull and heavy, 
 but is sometimes acute, and may be accompanied by a tendency to vertigo, 
 increased by sitting up, and by pains in the back and limbs. It becomes 
 more severe with the progress of the disease until the occurrence of delir- 
 ium, when it is, as a rule, less complained of. With the headache there 
 is generally some dulness of intellect, except in mild cases. This may be 
 slight at first, and may continue so throughout the whole course of the 
 attack, exhibiting itself principally in some confusion as to dates. In 
 more severe cases it is much more marked, and may finally pass into actual 
 stupor. On the other hand, it may be entirely absent, even in severe 
 attacks, as in a case reported by Da Costa and in some cases recently 
 observed by myself. It is usually soon replaced by delirium, which may 
 be low and muttering or wild and noisy, the former being the more 
 common. Delirium is said to occur most frequently among me educated 
 classes and those oppressed with care and anxiety, but is not rare among 
 those who occupy a lower position in the social scale, especially the intem- 
 perate. It is, as a rule, most marked at night, and in mild cases may 
 occur only at that time or upon waking iu the morning. When the 
 delirium is active the patient may shout and scream, or leave his bed and 
 attempt to throw himself from "the window, being endowed apparently 
 for the moment with strength sufficient to enable him to commit these 
 acts of violence. After the paroxysm is over he sinks back in bed 
 exhausted. The confusion of intellect or delirium continues in bad 
 cases until death supervenes or until the establishment of convalescence. 
 Indeed, the mental disturbance does not always end with the latter, and 
 t is not rare for feebleness of intellect to persist for some time after the 
 patient has in other respects regained his usual health, and in a few cases 
 nty has followed an attack of typhus fever. Among the most for- 
 
 1 Loc. cit.
 
 DESCRIPTION OF SPECIAL SYMPTOMS. 349 
 
 midable of the symptoms of typhus are convulsions, which are for- 
 tunately of infrequent occurrence. 
 
 The patient generally suffers from wakefulness, except during the first 
 few days. When sleep is obtained it may be unrefreshing or broken and 
 disturbed by dreams. In other cases the opposite condition of somno- 
 lence may be present. Occasionally, after having apparently slept for 
 hours, he may deny having been asleep at all. This condition, which 
 constitutes the coma vigil of Chomel, is entirely distinct from that 
 described by Jenner under the same name, in which the patient lies 
 with his eyes wide open, gazing into vacuity, his mouth only partly 
 closed, his face pale and devoid of expression, and which is invariably 
 fatal. Muscular tremor is more or less present in all cases of the disease, 
 and in bad cases may be a prominent symptom. The disease, when this 
 symptom is marked, especially if there is at the same time low, mutter- 
 ing delirium and a moist skin, presents a considerable degree of resem- 
 blance to delirium tremens. There is very often intolerance of light, 
 tinnitus aurium, and loss or perversion of the senses of taste and smell. 
 Deafness is also not uncommon, and is regarded by many authors as a 
 favorable symptom. In bad cases, in addition to subsultus tendinum, 
 there are carphologia, incontinence or retention of the urine, and paral- 
 ysis of the sphincter ani. 
 
 Some discrepancy is found to exist in the statements of different 
 authors in regard to the temperature curves of typhus fever. They 
 all agree, however, in assigning them certain characters, the knowledge 
 of which is often of great assistance in diagnosis. One of these is a 
 rapid rise of temperature immediately after the invasion of the disease. 
 Wunderlich 1 asserts that he has observed a temperature of 104.9 F. on 
 the evening of the first day, and Lebert has found it as high as 106.4 
 F. on that of the second. Such temperatures, occurring so early in the 
 disease, must be infrequent, as Murchison has never met with them. 
 Usually, the temperature attains its maximum on the third or fourth 
 day. The maximum is about 104 or 105 F. Murchison says it 
 scarcely ever reaches 106, except in children, in whom it rarely is as 
 high as 107, but Lebert states that he has known it to be as high as 
 107.8. On the other hand, it may never exceed 103, even in fatal 
 cases. When the maximum is attained early in the disease there may 
 be for several days, or until defervescence takes place, very little 
 variatioi in the evening temperatures, but, as a general rule, they are 
 slightly less elevated in the second than in the first week. This usually 
 occurs from the tenth to the fourteenth day, but it may be postponed 
 until the eighteenth, or even until much later. In some cases on the 
 day before the crisis a slight fall, and in others a considerable fall with 
 a subsequent rise of temperature, are observed. Defervescence is often 
 very rapid, the temperature falling five or six degrees in the course of 
 twelve hours. A true lysis is rarely observed. The occurrence of a 
 complication in the course of a disease will not only cause a decided rise 
 of temperature and a modification of the temperature curve, but may 
 also postpone defervescence beyond the usual time. Not infrequently 
 the thermometer indicates subnormal morning temperatures with slight 
 evening rises for several days after the crisis, unless complications arise, 
 1 On the Temperature in Disease, New Sydenham Society's translation, London, 1871.
 
 350 TYPHUS FEVER. 
 
 when fever of the hectic type may occur. A very slight cause will also 
 often produce a considerable, although temporary, elevation of tempera- 
 ture in this condition. The morning remissions are less decided than in 
 typhoid fever, especially in the first week. As a rule, they do not exceed 
 1, but Lebert lays stress upon the fact that in the same curve variations 
 fro'm 0.3 to 1.8 and from 0.6 to 2.1 often occur. Cases which termi- 
 nate fatally are generally characterized by high fever, with absence of 
 the morning remissions, which may continue uninterruptedly through 
 the second and even the third week. During the death-agony there is 
 frequently a rise of temperature of two or more degrees. A very high 
 temperature in the first week is often the forerunner of severe cerebral 
 symptoms in the second, and a fall of temperature unaccompanied by an 
 improvement in the other symptoms is not always indicative of the 
 approach of convalescence. 
 
 Anorexia is generally present in typhus fever from the beginning of 
 the attack, and may persist until its close. It is not, however, usually 
 attended by the same repugnance for food as in other fevers. Patients 
 can generally be persuaded at first to take nourishment. Indeed, Dr. 
 Gerhard asserts that the negroes who fell under his care in 1832 fre- 
 quently asked for solid food. Nausea and vomiting are rare symptoms ; 
 the latter may occur late in the disease, and then, not infrequently, is 
 caused by irritation of the brain. Thirst is present in all cases. In the 
 later stages of the disease, when tho senses are blunted, water may not 
 be asked for, although urgently called for by the condition of the system. 
 The bowels are, as a rule, constipated in this disease. The exceptions to 
 this rule are, however, more numerous than is usually thought. Wood ! 
 says that he has frequently seen diarrhoea in typhus fever when it occurs 
 in recently-arrived immigrants. Da Costa 2 mentions that it has occurred 
 in several of the rases which have come under his care, and Buchanan 3 
 says that he has observed it 'in at least one-third of the patients admitted 
 into the London Fever Hospital in recent years. When there is no diar- 
 rhoea the stools are of normal color and consistence. When it exists they 
 are watery and usually dark greenish in color, and never present the 
 peculiar ochrey-yellow appearance seen in typhoid fever. They are said 
 to be alkaline in reaction. Tympanites is rare in typhus fever. It may 
 be present in cases in which there is diarrhoea, and may then be associ- 
 ated with gurgling in the bowels, but rarely attains the degree common 
 in typhoid fever. Gurgling when present is, moreover, not confined to 
 the right ileo-ca?cal region, but may be produced in different parts of the 
 abdomen by pressure. There may also be tenderness in the epigastric 
 and hepatic regions, but the enlargement of the spleen so constantly 
 observed in typhoid is generally wholly wanting in this fever. 
 
 The tongue in the beginning of the disease is covered with a thin 
 whitish fur and is moist, and may continue so throughout in mild 
 attacks. Generally, however, it soon becomes dryish, and in bad cases 
 absolutely dry, and is tremulous when put out of the mouth, while its 
 coating becomes thicker and brownish, and finally brown, or even black 
 and cracked. It is rare to see the tongue itself fissured as in typhoid 
 fever. Less frequently it remains red, smooth, and glazed throughout 
 the attack. Occasionally the tongue is contracted in bulk, and it may 
 
 2 ioc. cit. *Loc.rit,
 
 DESCRIPTION OF SPECIAL SYMPTOMS. 351 
 
 then, in consequence of its dryness and that of the mouth, be impossible 
 to protrude it. Sordes frequently collect about the gums and lips in 
 severe cases. 
 
 The pulse is usually increased in frequency in typhus fever, and varies 
 from 100 to 120, but in many cases it never rises above 90, and in very 
 severe cases it may be as high as 150. This increase is observed from 
 the beginning, and generally bears some proportion to the severity of the 
 fever; but toward the close, when the prostration is great, the pulse may 
 continue frequent even after a fall in temperature has taken place, and is 
 always more frequent when the patient is sitting up than when he is 
 lying down. Occasionally, however, a very slow pulse is associated with 
 symptoms of great severity. When this association occurs the prognosis 
 is grave. In the young and robust the pulse may be full and bounding, 
 but it is more often compressible or small and weak. It is not so often 
 dicrotic as in typhoid fever. There is sometimes, according to Lyons, a 
 singular want of uniformity in the force and volume of the arterial pulse 
 in different parts of the system, and there may be but one pulsation at 
 the wrist for two of the heart. A very sudden fall in the frequency of 
 the pulse without an improvement in the other symptoms is not a favor- 
 able indication, as it may be due to impaired innervation or to degenera- 
 tive changes in the muscular tissue of the heart. Usually the beginning 
 of convalescence is marked by a gradual fall of the pulse. Later it may 
 fall to 50 or below it, and continue slow for some time, just as it does 
 in typhoid fever. 
 
 The heart shares in the general enfeeblement of the system. In severe 
 attacks the impulse soon becomes weak and diffused, and may be entirely 
 absent for some time even in cases which eventually terminate in recov- 
 ery. Stokes long ago called attention to an alteration in the systolic 
 sound of the heart which he taught indicated the urgent necessity for the 
 administration of stimulants. This sound is observed in the progress of 
 the disease to become shorter and less distinct, and finally inaudible, 
 while the second sound is unaffected. This modification of the heart- 
 sounds is ahvays an accompaniment of great prostration. Occasionally 
 the first sound is replaced by a functional murmur. 
 
 The characteristic eruption of the disease is generally preceded by the 
 fainter subcuticular mottling already alluded to, and usually appears 
 between the fourth and seventh days, but it has been observed as early 
 as the third day, and, on the other hand, its appearance is said by 
 Wood to have been delayed until the thirteenth. It consists of minute 
 spots with ill-defined margins, varying in size from that of the point of 
 a pin to two or three lines in diameter, irregular in shape, slightly ele- 
 vated above the skin at first only, and occurring singly or in groups. 
 They are pinkish in color, and disappear readily under pressure when 
 first observed. They may then, as Gerhard and others have pointed out, 
 present a considerable resemblance to the rose-colored spots of typhoid 
 fever. In the course of twenty-four hours they become brownish, and 
 later, when the attack is a severe one, livid in color. In malignant or 
 even severe cases they are frequently converted into true petechise. They 
 do not appear in successive crops, but usually require a couple of days 
 for their full development. Their duration is variable. In mild attacks 
 they may disappear in the course of a few days, but in bad cases often
 
 352 TYPHUS FEVER. 
 
 persist until after convalescence, and are recognizable after death. They 
 are confined to no part of the body, but appear usually earliest and most 
 abundantly upon the folds of the axilla and upon the abdomen^ Occa- 
 sionally, however, they are first observed upon the wrists, and in some 
 cases are more numerous upon the arms and legs than upon the body. 
 They are rarely found upon the neck and face, but in children the latter 
 may be so much covered by them that the disease may be readily mis- 
 taken for measles. They present some resemblance to flea-bites, but the 
 latter may be easily distinguished from them by the minute discoloration 
 in the centre left by the puncture of the insect. The eruption is oftenest 
 wanting in young subjects. It is usually, but not invariably, most copi- 
 ous in severe attacks, but cases have ended fatally in which it was wholly 
 wanting from beginning to end. Its color is also to a certain extent an 
 index of the severity of the attack ; the darker and more livid it is, the 
 graver the prognosis. In malignant cases or those complicated by scurvy, 
 in addition to the petechiae above referred to, purpura spots and vibices 
 are not infrequently observed. Some authors assert that the eruption is 
 followed by a slight desquamatiou of the cuticle, but this is denied by 
 others. Sudamina occasionally occur, but they are much rarer than in 
 typhoid fever. The blue spots described by the French under the name 
 of taches bleuatres are also sometimes met with. 
 
 A very disagreable odor is exhaled from the bodies of typhus-fever 
 patients after the first week. Although readily recognizable by those 
 who have once perceived it, it is difficult to describe. Gerhard spoke 
 of it as pungent, ammoniacal, and offensive, especially in fat, plethoric 
 individuals, and believed that those patients who presented this symp- 
 tom in the highest degree were most likely to communicate the disease 
 to others. Murchison has also expressed the opinion that the typhus 
 poison is associated with this odoriferous substance. Others have com- 
 pared the odor to the smell given off by rotten straw, the urine of mice, 
 and various other substances. Wood says that he has often per- 
 ceived the same odor in badly-ventilated rooms in which a number of 
 people have been shut up together for some time. 
 
 The sensibility of the skin in cases in which the stupor is not so great 
 as to render the patients insensible to all external impressions is said by 
 some writers to be much increased. There is also occasionally so much 
 tenderness in the epigastric region as to give the impression at first to the 
 attendant that there is inflammation of the stomach or liver. 
 
 Pulmonary complications are quite frequent in typhus fever, and, as 
 they often come on insidiously and give no evidence of their presence by 
 cough, expectoration, or even more hurried breathing, that is often seen 
 in uncomplicated cases, it is well to make it a rule to examine the chest 
 of every patient with this disease. To do this thoroughly it is not neces- 
 sary to make him sit up, which, where great prostration exists, is often 
 attended with danger. If he be turned gently upon his side the auscul- 
 tator will usually have no difficulty in ascertaining the precise condition 
 of his lungs. 
 
 The respiration is usually much more frequent in this disease than in 
 ft Even in cases in which there is no disease of the lungs it is 
 
 ten as high as 30, and in cases in which there is such a complication 
 it may be 60. Its frequency is generally proportional to the severity of
 
 VARIETIES. 353 
 
 the fever. On the other hand, in grave cases in which cerebral symp- 
 toms are predominant it may be reduced in frequency much below the 
 normal. When coma or profound stupor exists, it may become jerking 
 and spasmodic, or even simulate the stertorous respiration of apoplexy. 
 Bronchitis, if not of such constant occurrence as in typhoid fever, is cer- 
 tainly not rare. It usually occurs early in the attack, and makes itself 
 known by the presence of sonorous and sibilant rales, which give place 
 later to mucous rles. Expectoration is often absent in these cases ; where 
 it exists the sputa are either mucous or muco-purulent. In mild cases no 
 further lesion of the lungs occurs. When the attack is more severe 
 hypostatic congestion is very likely to supervene. This is a condition 
 which is often attended with danger, and which frequently, as has been 
 said already, escapes recognition unless the chest be thoroughly examined, 
 when dullness on percussion, feeble respiration, and subcrepitaut rales 
 may readily be detected. Occasionally the physical signs indicate the 
 existence of pneumonia. This, when it occurs in the course of this dis- 
 ease, is always of low grade, and is attended by the expectoration of 
 mucus streaked with blood. 
 
 The breath of the typhus-fever patient has a very disagreeable odor, 
 not unlike that given off from the body, and is said by Murchison to con- 
 tain an increased amount of ammonia. 
 
 According to Parkes, 1 the changes in the urine are those usual in 
 ordinary pyrexia. During the fever it is generally diminished in quantity, 
 dark in color, and of high specific gravity. It contains an increased 
 amount of urea and of uric acid, the latter of which is not infrequently 
 spontaneously precipitated. Sulphuric acid is also in excess. On the 
 other hand, the chlorides are diminished in amount or entirely absent. 
 This diminution cannot be ascribed to a decrease in the quantity in- 
 gested, for when they are administered with the food they are not found 
 to be eliminated by the kidney. The amount of phosphoric acid does 
 not appear to be affected by the disease. The urine is acid in reaction at 
 first, but its acidity soon diminishes, and it may become alkaline toward 
 the close of bad cases. It may also contain albumen, or even blood, the 
 former being present oftenest in cases characterized by high temperature. 
 According to Da Costa, tube-casts are more often present than absent in 
 severe cases. Those seen by this observer were either coated with rather 
 opaque epithelial cells, many of which were finely granular or covered 
 with granules, which, when tested with reagents, were sparingly soluble 
 in acetic acid, and which with very high magnifying powers did not 
 present the round shape of oil, and were probably the urinary salts col- 
 lected in the tube-casts. The crisis is sometimes marked by a copious 
 deposit of urates. During convalescence the mrine is usually increased in 
 quantity, is pale and limpid, and of low specific gravity, and is found to 
 contain the chlorides in gradually increasing quantity. 
 
 VARIETIES. Many of the varieties of typhus fever recognized by 
 authors as, for example, jail fever, ship fever, camp fever, and hospital 
 fever really differ in nothing but name and the circumstances under 
 which the disease has arisen. Others are mere modifications of it, due 
 to the predominance of one symptom or of a certain set of symptoms or 
 to the intercurrence of a particular complication, and likewise do not 
 1 The Composition oj the Urine, etc., by Edmund A. Parkes, M. D., London, ] SCO. 
 VOL. I. 23
 
 354 TYPHUS FEVER. 
 
 need a full description here. To this latter class belong the inflammatory 
 typhus, the nervous or ataxic typhus, the adynamic typhus, and the 
 ataxo-adynamic typhus of Murchison. The first variety occurs in 
 young and robust subjects, and, it is also said, in persons of the upper 
 class. It is characterized by high fever, intense headache, and active 
 delirium. In the second variety the nervous symptoms, such as delir- 
 ium, somnolence, stupor, and muscular tremblings, are the most promi- 
 nent. The most marked feature of the third variety is the excessive 
 prostration, which is shown in the feebleness of the heart's action and 
 the loss of muscular strength and of control over the sphincters. In 
 this form the eruption is dark colored. Purpura spots and vibices also are 
 very apt to appear, and even hemorrhages from the gums, nose, or other 
 parts to occur. In the ataxo-adynaniic form the symptoms of the ataxic 
 and those of the adynamic form are found united. In addition to these 
 there are certain other varieties, arising from differences in degree. 
 These differences are sometimes owing to diversities in the constitution 
 and habits of the patient, sometimes to variations in the character of the 
 epidemic, and are sometimes not readily explainable. One of these is the 
 mild form, in which the symptoms are those of moderate fever, and in 
 which the disease may run its course in seven days. In this form the 
 temperature may never rise above 102 F., the eruption be absent or very 
 scanty, and the characteristic stupor or dulness be wholly wanting. 
 Unless complications arise recovery invariably takes place. A walking 
 form of typhus fever, as has already been said, is much rarer than of 
 typhoid, but it does sometimes occur, Dr. Buchanan having often seen 
 the eruption out upon patients who have walked to the London Fever 
 Hospital to seek admission. In this form the disease, however, does not 
 always run a mild course, as alarming prostration is very apt to come on 
 later in its course. Another variety, the abortive form, has been described 
 by authors. In this an individual, in due time after exposure to the 
 contagion, may present all the characteristic symptoms of typhus fever, 
 but the disease, instead of running its usual course, may terminate 
 abruptly with a critical discharge of some kind. This form occurs 
 during epidemics, and is analogous to the abortive attack of scarlet 
 fever or some other diseases which are occasionally met with. On the 
 Other hand, a very severe form, the typhus sideraus of authors, also 
 sometimes occurs. In this variety the temperature rises rapidly, and 
 soon attains its maximum ; there are frequent pulse and respiration, severe 
 headache, and early delirium and stupor. The mortality in this form is 
 very great, Very frequently death takes place so rapidly as often to 
 leave the physician in some doubt as to the nature of the disease in those 
 cases in which exposure to the contagion cannot be positively traced. 
 
 COMPLICATIONS AND SEQUELAE. The complications of typhus fever 
 men exercise a decided influence upon the course of the disease, for they 
 not only retard convalescence, but are often the immediate cause of death. 
 
 icir early detection, therefore, becomes a matter of the greatest import- 
 They will be found to vary in different years, one epidemic being 
 characterized by complications which are entirely wanting in the next. 
 Among the commonest of them are several different conditions of the 
 respiratory organs. Bronchitis, if not quite so frequent as in typhoid 
 lever, occurs in a large number of cases. It may come on at any stage
 
 COMPLICATIONS AND SEQUELAE. 355 
 
 of the disease, either immediately after the beginning of the attack or in 
 its course, or not until convalescence. In cases accompanied by prostra- 
 tion mucus may accumulate in the bronchial tubes, and be the cause of 
 the patient's death by preventing the due aeration of the blood. It would 
 seem to be an especially frequent complication in Ireland, and it is rather 
 surprising that so acute an observer as Graves appears not to have been 
 aware of its real relation to typhus, and speaks of it as if it were a pre- 
 disposing cause. " Nothing can be more remarkable," he says, " than 
 the facility with which a simple cold, which in England would be per- 
 fectly devoid of danger, runs into maculated typhus in Ireland, and that, 
 too, unde circumstances quite free from even the suspicion of contagion; in 
 truth, except when fever is epidemic, taking cold is its most usual cause." 
 A much more serious complication than bronchitis is the form of pneu- 
 monia already alluded to as liable to occur in the course of typhus. This 
 may often occur so insidiously that it may be considerably advanced 
 before its presence is even suspected ; hence the necessity for examining 
 carefully the lungs of every patient with this disease who comes under 
 our care. Generally, however, it makes itself known by giving rise to 
 rapid breathing and great lividity of the surface, but, as has already been 
 said, both of these symptoms may exist in cases in which there is no 
 chest complication. This pneumonia, if it does not immediately prove 
 fatal, may, by becoming chronic, retard the convalescence. It occasion- 
 ally is followed by gangrene, and sometimes by phthisis, which may then 
 run a very rapid course. Phthisis is, however, a much less frequent 
 sequela of typhus than of typhoid fever. Pleurisy may also complicate 
 typhus fever, but it is much more rarely met with than pneumonia. 
 
 Perhaps next in frequency to pneumonia and bronchitis are diseases 
 of the kidneys. These are very serious complications, whether they 
 antedate the fever or have occurred in its course. Careful examination 
 of the urine will generally lead to the discovery of a small amount of 
 albuminuria in bad cases, but this is fortunately, in the majority of them, 
 only temporary. The urine should, however, always be re-examined 
 before the discharge of the patient, as there is good reason to believe that 
 many otherwise inexplicable cases of chronic albumiuuria have originated 
 in an attack of typhus. The presence of albumen and of casts in the 
 urine of a patient apparently convalescent from this disease should there- 
 fore make us careful in our prognosis as to his future health. The occur- 
 rence of diarrhoea may also very seriously affect the patient's chances of 
 recovery. Dysentery has also been observed in certain epidemics in Ire- 
 land, and is not infrequent when the disease breaks out in besieged towns 
 or when it occurs in summer. In grave cases or those complicated with 
 scurvy the blood may be so broken down as to escape readily from the 
 vessels. Under these circumstances, in addition to the purpura spots 
 beneath the skin, we may have epistaxis, haemoptysis, hsematemesis, intes- 
 tinal hemorrhage, or hemorrhage from any other part. Erysipelas, too, 
 may be a troublesome complication, for not only does it exhaust the 
 strength, but, when it invades the mucous membrane of the larynx, as 
 it sometimes does, it may prove rapidly fatal by producing oedema of the 
 glottis. Degeneration of the muscular structure of the heart may also 
 take place. This gives rise to a slow and feeble pulse and to a disposition 
 to syncope. Bed-sores are not so frequent as in typhoid fever. They
 
 356 TYPHUS FEVER. 
 
 do, however, sometimes occur, as does also gangrene of the toes and of 
 other parts not subjected to pressure. 
 
 Less common complications are jaundice, pen- and endo-carditis, men- 
 incitis, local and general paralyses, cancrum oris, a diffuse cellular 
 inflammation ending in purulent infiltration, and inflammatory swell- 
 ings of the glands, or buboes. The salivary glands and especially the 
 parotid gland are very apt to be affected by this inflammatory swelling. 
 This occurs rapidly, is very tender, and in most cases soon runs on to 
 suppuration, although it occasionally in children spontaneously subsides. 
 It may occur at any time during the course of the fever, or not until 
 convalescence, and sometimes affects the glands of both sides o the face. 
 These buboes form a connecting link between typhus fever and the 
 Oriental plague, and Murchison says that the distinguished Egyptian 
 physician Clot Bey, on seeing some cases of the former disease compli- 
 cated with parotid swellings, declared that in Egypt they would be 
 regarded as examples of the latter. 
 
 Many of the above-named complications may occur also as sequela?, 
 and in addition to these we may have pyaemia, giving rise to purulent 
 collections in the joints and phlegmasia alba dolens. The last named 
 is not in itself serious. Its chief danger is from the breaking down 
 of the clot and the subsequent occurrence of embolism. 
 
 Menstruation is said not to be uncommon in the early stages of typhus 
 fever, and may be so profuse as to greatly increase the prostration or even 
 to cause death. According to Murchisou, miscarriage does not inevitably 
 occur when pregnant women are attacked with the disease, and if it does 
 occur it is not necessarily fatal to either mother or child. 
 
 POST-MORTEM APPEARANCES. Emaciation when death has occurred 
 early in the course of the disease, and is due solely to the violence of the 
 fever, is usually not well marked, but in those cases which have been 
 protracted through the iutercurrence of complications it may sometimes 
 reach an extreme degree. Bed-sores, except under the circumstances just 
 mentioned, are also rare. Iligor mortis is generally not well developed, 
 and is of short duration. lu a few cases it would seem, however, to 
 have been well marked. The typhus maculae are persistent after death, 
 and so are any purpura spots and vibices which may have been present 
 during life, but the subcuticular mottling usually disappears. The skin 
 of the dependent portions of the body is discolored by the settling of 
 blood in it, and putrefactive changes are apt to set in rapidly. 
 
 The only constant lesion observed is a profound alteration of the blood, 
 which is darker in color and abnormally fluid. If clots are found at 
 all; they are large, soft, and friable. The fibrin is diminished in amount. 
 In the early part of the disease the red blood-corpuscles are said to be 
 slightly increased in number, but later they are diminished, and under 
 the microscope are observed to be crenated and not to form themselves 
 readily into rouleaux. The white corpuscles are increased in number. 
 .No accurate chemical examination of the blood appears to have been 
 made. Many of the post-mortem appearances which have been described 
 as characteristics of typhus fever are really the consequence of this 
 abnormal condition of the blood. 
 
 The respiratory organs generally present evidences of disease; the 
 
 nons of laryngitis, bronchitis, pneumonia, hypostatic congestion of the
 
 POST-MORTEM APPEARANCES. 357 
 
 lungs, and pleurisy have all been observed after death from typhus fever. 
 Usually, the traces of previous inflammation of the larynx are but slight; 
 in a few cases, however, ulceratiou has been found, but the ulcers are 
 stated to be always minute and superficial. Ulcers are also occasionally 
 found in the bronchi, and frequently indicate by their appearance the pre- 
 existence of a much higher grade of inflammation. The bronchial mucous 
 membrane is, however, ofteuer merely reddened and softened and covered 
 with a tenacious frothy secretion. True pneumonia is of infrequent 
 occurrence as compared with that of hypostatic congestivn of the lungs, 
 but it nevertheless does occur, and may be of either the catarrahal or 
 croupous variety. When pleurisy exists, it is usually accompanied, 
 according to Murchison, by purulent effusion into the pleura] cavity. 
 On 'the other hand, Lebert says the variety of inflammation of the pleura 
 oftenest met with is the plastic. The intestines present no constant lesion. 
 Gerhard says that in fifty examinations there was but in one case, and 
 that doubtful in diagnosis, the slightest deviation from the natural appear- 
 ance of the glands of Peyer. In a few cases the Peyer' s patches have been 
 found more prominent than usual, but not more so than they are in measles 
 and in some other diseases. Lebert alone of recent authors makes a con- 
 trary statement. In an epidemic at Breslau, he says, the solitary glands, 
 as well as the patches of Peyer, were the seat of small, isolated, and super- 
 ficial ulcers, which were usually situated in the vicinity of the ileo-csecal 
 valve. The mesenteric glands are generally unaffected, but in the Breslau 
 epidemic just referred to they were not infrequently found moderately 
 swollen. In cases in which dysentery has occurred as a complication the 
 characteristic appearances of the disease will of course be observed, as 
 well as those of typhus fever. The spleen is generally softened and 
 slightly enlarged. The enlargement is not, however, always present, 
 as Gerhard found it in one only out of every five or six of the cases 
 which he examined. Extravasations of blood into its structure are occa- 
 sionally met with. The liver is usually congested, somewhat enlarged, and 
 frequently under the microscope presents the appearances of commencing 
 fatty degeneration. The kidneys often present unmistakable signs of 
 renal disease in the swollen granular and more or less fatty condition of 
 their gland-cells according to the duration of the disease. The muscles 
 are darker in color than in health. Under the microscope they are found 
 to have undergone the peculiar granular or waxy degeneration described 
 by Zenker, and which have been fully referred to in the article on typhoid 
 fever. Extravasations of blood are occasionally found in them, which may 
 soften and form pseudo-abscesses. 
 
 Other post-mortem appearances which are met with less frequently 
 than those above detailed are inflammation, and even ulceration, of the 
 mucous membrane, of the bladder, inflammation of the salivary gland, 
 peritonitis, and congestion of the pancreas and of the stomach. 
 
 The muscular tissue of the heart is generally softened and easily torn. 
 It is not, however, as stated by some authors, invariably so, for in several 
 cases in which it was examined by Da Costa it had undergone this change 
 in one case only, in which there was no reason to suspect previous disease 
 of the heart. The alteration is similar in kind to that which takes place 
 in the voluntary muscles. An effusion of serum, which may be of a deep- 
 red color from the trausudatiun of the coloring matter of the blood, is
 
 358 
 
 TYPHUS FEVER. 
 
 sometimes found in the periairdial sac, as are ecchymotic patches upon 
 the surface of the heart. The endocardium may be stained from the 
 imbibition of blood. On the' other hand, endo- and pericarditis are 
 
 excessively rare. . 
 
 Notwithstanding the severity of the cerebral symptoms in typhus 
 fever, there are few or no important changes found in the brain or its 
 membranes after death. The sinuses are occasionally filled with dark 
 fluid blood, and' the appearances of congestion of _the brain are some- 
 times present, In other cases there may be an increased amount of 
 serum beneath the arachnoid and into the lateral ventricles, but not more 
 than is often seen after death from other causes. Very rarely a slight 
 film of hemorrhage has been found in the cavity of the arachnoid, ^and 
 sometimes also the evidences of non-inflammatory softening of the brain. 
 Actual inflammation of the meninges has only been detected in a very 
 few cases. There may also be congestion of the spinal membranes, 
 increase of the spinal fluid, and softening of the cord itself. The ganglia 
 of the sympathetic system appear to undergo a form of granular degen- 
 eration. 
 
 DIAGNOSIS. The diseases which most closely resemble typhus fever 
 are typhoid fever, measles, meningitis, and typhoid pneumonia, 
 
 The circumstances under which typhoid and typhus fever occur are 
 different. Typhoid is never generated by overcrowding, and if conta- 
 gious at all is much less so than typhus. Prostration occurs much earlier 
 and is usually much more marked in the latter. The eruption in the 
 former does not appear until the eighth day, and comes out in successive 
 crops, and usually disappears under pressure as long as it lasts, and there- 
 fore may be easily distinguished from that of the latter. The duration 
 of typhus is from ten to twenty days ; that of typhoid is rarely less than 
 twenty-one. Nevertheless, cases are occasionally met with in which it is 
 impossible to arrive at a correct conclusion as to their nature unless some 
 light is thrown upon it by the existence of other and more characteristic 
 cases in the same house or neighborhood. I have recently had under my 
 care a case which eventually proved to be typhoid fever, but which I and 
 many others who saw it at first believed to be typhus in consequence of 
 the presence of an abundant eruption, which did not disappear under 
 pressure, and was finally converted into petechiae. 
 
 The eruption of typhus is sometimes found upon the face, especially in 
 children, and then presents a considerable similarity to that of measles, 
 which, however, usually appears a little earlier. There is, moreover, 
 rarely the same amount of prostration or stupor in the latter disease, 
 which is also attended by coryza and more bronchial catarrh than is 
 often present in the former. The eruptions in the two diseases differ. 
 In measles it^ is crcsceutic in shape, and is more elevated than in typhus. 
 It is also brighter in color, disappears under pressure, except in malig- 
 nant cases, ^as long as it lasts, and is followed by free desquamation of the 
 cuticle, which is not often observed in typhus. The temperature may be 
 high in the former, but it usually falls upon the sixth day. 
 
 In meningitis the headache is much more severe, and does not disap- 
 pear upon the occurrence of delirium. It may be so severe as to cause 
 
 ie patient ^to cry out. The senses are painfully acute. There are intol- 
 erance of light and sound, and some hypersensitiveness of the surface,
 
 PEOGNOSJS. 359 
 
 strabismus, inequality of the pupils or some other local paralysis, and 
 retraction of the head. Nausea and vomiting are more common than iu 
 typhus, while the utter prostration of the latter disease is wholly want- 
 ing, and so is of course the characteristic eruption. The tache menin- 
 gitique is wanting in the latter, but too much reliance should not be 
 placed upon either the presence or absence of this sign. The diagnosis 
 is only likely to be difficult in those cases of typhus in which the delir- 
 ium is active. In that form of typhus in which the symptoms simulate 
 those of delirium tremens some difficulty may also be experienced in 
 making a diagnosis, especially if the patient be a drunkard. In delirium 
 tremens it will be remembered, however, that there is little or no eleva- 
 tion of temperature, that the skin is bathed in perspiration, the tongue 
 moist, and the characteristic eruption absent. Typhoid pneumonia can 
 be distinguished from pneumonia complicating typhus fever by the 
 presence of the eruption in the latter. 
 
 Other diseases which have occasionally been mistaken for typhus fever 
 are remittent fever, Bright's disease, giving rise to uremia and purpura. 
 It does not seem likely that even the severest forms of malarial fever 
 should ever present such a resemblance to typhus fever as to make the 
 differential diagnosis a matter of difficulty ; but it would appear from 
 the history of the latter disease given by Murchison that such a mistake 
 has occurred in some of the Spanish American countries. The enlarge- 
 ment of the spleen and liver is much less marked than in remit- 
 tent fever, and the remissions of temperature are much less decided. 
 Uraemia may at times present a good deal of resemblance to the condi- 
 tion often seen in typhus fever after the supervention of coma or stupor, 
 but the history of the case, the absence of fever and of eruption in the 
 former, will generally enable us to distinguish between the two condi- 
 tions. It should be remembered, however, that Bright's disease may 
 occur in the course of typhus fever. Purpura may generally be recog- 
 nized by the absence of fever and by the occurrence of hemorrhages from 
 the nose, gums, and bowels. 
 
 PROGNOSIS. The age, habits of life, and previous condition of health, 
 as well as the character of the prevailing epidemic, must all be fully 
 considered before making a prognosis in any special case. The -disease 
 usually runs a much milder course in children and young people than in 
 adults past thirty years of age. After this age the mortality progres- 
 sively increases, and in advanced life it becomes very high, being often 
 as much as 50 per cent, or over. Sex does not of itself exercise much 
 influence upon the course of typhus fever, for, although a few more men 
 than women die of it, this appears to be attributable to the greater preva- 
 lence of drinking among the former. Previous intemperance acts unfa- 
 vorably by producing a degeneration of the tissues of the body, thus 
 rendering the patient less able to withstand the effects of the disease. 
 Drunkards have therefore always furnished a large proportion of the 
 fatal cases. The mortality among patients who are unfortunate enough 
 to take typhus fever as they are convalescing from other diseases is 
 usually also very great. This has often been observed in general hospi- 
 tals in which cases of fever as well as those of other forms of disease 
 are admitted. Fat, lymphatic, or muscular people more frequently die of 
 it than those of a different conformation. Gerhard found it especially
 
 360 TYPHUS FEVER. 
 
 fatal among negroes in the epidemic of 1836, and Buchanan seems to 
 have had a similar experience at the London Fever Hospital. It is a 
 fact noticed by English writers that people of the better class, although 
 seldom attacked by typhus, often suffer severely from it. The mortality 
 is always high among those patients Avho previously to contracting the 
 disease have been for some time deprived of sufficient food, or have beeu 
 overworked, or who have been the subjects of mental anxiety, worry, or 
 any other depressing emotion. It is high also among those who in the 
 beginning of the disease have exhausted their strength in the vain effort 
 to resist the disposition to go to bed. The chances of recovery are, on 
 the other hand, very much improved by the removal of patients from 
 crowded, ill- ventilated houses to the wards of a spacious, airy hos- 
 pital. 
 
 Unfavorable symptoms arc a profuse dark-colored eruption associated 
 with purpura spots and vibices, general lividity of the surface, great 
 injection of the pupils, and a dusky hue of the countenance ; extreme 
 prostration ; an excessively frequent and feeble pulse, especially if it is 
 at the same time irregular or intermittent ; absence of the cardiac impulse 
 and of the systolic sound ; hurried and spasmodic or abnormally slow 
 respiration ; great dryness and retraction of the tongue ; excessive promi- 
 nence of the nervous symptoms, such as headache, delirium, whether active 
 or muttering ; unequal or pin-hole contraction of the pupils ; strabismus 
 or other local paralysis ; sleeplessness ; muscular tremblings/; subsultus 
 tendinum ; carphology ; protracted hiccough, retention of the urine ; 
 relaxation of the sphincters of the bladder and rectum ; coma and espe- 
 cially coma vigil, and convulsions; continued high temperature, rising 
 instead of falling after the tenth day, especially if it is associated with 
 coldness of the extremities and of the breath ; a profuse perspiration 
 without a general improvement in the symptoms; diminution in the 
 quantity of the urine, or the presence in it" of albumen, blood, or casts ; 
 vomiting ; and diarrhoea. Hope, however, should never be abandoned 
 even in the most unfavorable cases, as recovery has sometimes occurred 
 when the patient seemed almost in articulo mortis. Convulsions are said 
 to be in variably followed by death, and Graves regarded the presence of 
 the pin-hole contraction of the pupils as of very grave import. 
 
 Favorable symptoms are reduction of the "frequency of the pulse, a 
 fall of temperature, a diminution of the stupor or a resumption of cou- 
 sciousneas, and a return of appetite and of moisture to the tongue. 
 When the patient begins to improve he will often without assistance turn 
 upon his side after having lain for a long time upon his back, and this 
 change of position is sometimes the first indication of the approach of 
 convalescence. 
 
 The mortality varies of course in different epidemics. The cases which 
 have come under my own care being too few in number to draw deduc- 
 tions from on this point, I must rely upon the experience of those whose 
 >f observation has been more extended than my own. According 
 tfurchison, out of 18,268 cases of typhus fever admitted into the 
 *ever Hospital during twenty-three years, 3457 proved fatal, 
 king a mortality of 18.92 per cent,, or 1 in 5.28. Deducting 686 
 es fetal within forty-eight hours, the mortality falls to 15.76 per cent, 
 b.<34. Included among the fatal cases is a large number in which
 
 TREATMENT. 361 
 
 the disease had run its course to a favorable termination, and in which 
 death was really due to sequelae, such as pneumonia, erysipelas, etc. 
 Moreover, the death-rate in the hospital is greater than in the commu- 
 nity, because children, who rarely die of typhus fever, are seldom brought 
 to it; while, on the other hand, it receives a large number of the infirm 
 and aged inmates of the metropolitan workhouses. Making allowance 
 for these sources of fallacy, Murchison believes that the actual mortality 
 of typhus is not more than 10 per cent. In Gerhard's cases the propor- 
 tion of deaths amongst the black was much greater than amongst the 
 white men ; thus, of the whites 1 died in 4f , of the blacks 1 in 
 2^|. Amongst the women the reverse was true; thus, 1 white woman 
 died in 4|, but only 1 colored woman in 6 J, nearly. Da Costa lost 6 
 out of 39 cases. In one of the fatal cases the diagnosis was doubtful ; 
 in another there was a great deal of previous disease ; in two others death 
 was due to complications so that there were but two in which the fatal 
 result could fairly be attributed to the disease itself. 
 
 TREATMENT. Typhus fever is an eminently preventible disease. It 
 is therefore proper that the description of its curative treatment should be 
 preceded by a few words in regard to its prophylaxis. 
 
 It is still an unsettled question whether or not typhus fever ever occurs 
 de novo, and although the recent discovery by Klcbs and others of bacil- 
 lus peculiar to typhoid fever (the bacillus typhosus), and of special 
 bacilli in other analogous diseases, renders it highly probable that typhus 
 fever has also its own bacillus, and that therefore it is not likely to arise 
 except as the result of infection, it must be admitted that it has often pre- 
 vailed in localities into which it has not been possible to trace its 
 importation. Under these circumstances it will be well to refer to those 
 conditions which are asserted by some authors to favor its spontaneous 
 generation, especially as these same conditions are certainly known to 
 favor its propagation. It will not be necessary to do this at any great 
 length, as they have all been fully described in discussing the etiology of 
 the disease. The most important of them is the overcrowding of human 
 beings, especially when combined with deficient ventilation, destitution, 
 and want of personal cleanliness. The knowledge of the laws of hygiene 
 is now so universally diffused that this combination of conditions never 
 occurs at the present time to anything like the degree it often existed in 
 the eighteenth century, and consequently epidemics of this disease are 
 not only less frequent, but are also much milder in character, than for- 
 merly. Much work, however, still remains for sanitarians in the im- 
 provement of the homes of the poor, which even in this country are too 
 often overcrowded and ill-ventilated. 
 
 The extension of the disease in a community will almost always be 
 prevented by the prompt isolation of the first few cases. This can often 
 be thoroughly done, if the patient is in easy circumstances, by placing 
 him in an upper room, which should be stripped of its carpets, curtains, 
 and other unnecessary furniture; by cutting off all communication 
 between him and his attendants and the rest of the household ; and 
 by the free use of disinfectants. The room should be airy, and to 
 ensure good ventilation a window should be left partly open. This 
 may be done during the febrile stage, even in winter, without the risk 
 of any injury to the patient. Among the poorer classes, however, isola-
 
 362 TYPHUS FEVER. 
 
 tion can rarely be effectually carried out, and it is therefore much better 
 to remove the patient to a hospital. Upon the admission of such a patient 
 to an institution of this character his clothes should be at once disinfected. 
 This may be done by washing the underclothing in a disinfecting fluid, 
 and then exposing them to a free current of air, and by subjecting the 
 outer clothing to a very high temperature in an oven or to the fumes of 
 burning sulphur. Murchison believes that a neglect of this precaution 
 has often been the cause of the extension of the disease to other inmates 
 of the hospital, especially when the patient resumes during his convales- 
 cence the same clothing he wore upon admission. If the hospital is a 
 general one, he should be placed, whenever practicable, in a well-venti- 
 lated ward by himself or with other patients suffering from the same 
 disease. As this is not always possible, the number of the other occu- 
 pants of the ward should be reduced and their beds placed as far away 
 as possible from his. As the infectiousness of typhus fever is very much 
 lessened by free ventilation, this precaution is often alone sufficient to 
 prevent its extension to them. It is also well, however, to supplement it 
 by the use of disinfectants. The diffusion of a solution of carbolic acid 
 in the atmosphere of the ward by means of the steam atomizer has not 
 only rendered the odor emanating from the patient less perceptible, but 
 has also appeared to diminish decidedly the risk of infection. As a still 
 further precaution the patient may be sponged with a weak solution of 
 carbolic acid or some other disinfectant. His nurses should be selected, 
 whenever practicable, from among those who have had the disease them- 
 selves. They should never sleep in the sick room, lounge about the 
 patient's bed, or inhale his breath. They should be allowed a certain 
 amount of time every day for rest and recreation in the fresh air, and 
 should have a full supply of nourishing food. On the other hand, they 
 should be warned against the danger of over-stimulation, which is often 
 resorted to in the hope of warding off the disease, and should be relieved 
 as far as possible from attendance upon other patients. It may be well 
 here to say that the nursing of a case of typhus fever should never be 
 undertaken by the relatives or friends of the patient, except as a matter 
 of necessity. Not only do the anxiety and distress they naturally feel 
 unnerve them and render them unfit to carry out the directions of the 
 physician, but they can rarely execute the many offices required in the 
 sick room with half the skill of a trained nurse or with so little annoy- 
 ance to the patient. 
 
 Before the patient is allowed to leave his ward he should have a warm 
 
 bath. If the disease has occurred in a private house, the room which he 
 
 has occupied should be thoroughly disinfected. This is best done by 
 
 rep astering, repapering, and repainting it. In many cases, however, it 
 
 be sufficient to fumigate it with burning sulphur, and then to air it 
 
 several days. The bed and bedding should also be disinfected, and, 
 
 whore this cannot be thoroughly done, the latter had better be destroyed. 
 
 f primary importance in the treatment of typhus fever is the regula- 
 
 of the diet. Although there are no ulcers in the bowels in this as 
 
 fever, and although, consequently, there is not the same 
 
 necessity in this as in the latter disease to restrict the patient 
 
 1 articles of food, experience has shown that such articles are 
 
 much more readily digested and assimilated than solids. The diet
 
 TREATMENT. 363 
 
 should consist, therefore, of milk, beef-tea, and chicken or mutton broth. 
 Of all of these, milk is incomparably the best, and it should form, unless 
 the patient manifest an unconquerable. repugnance to its use, a large part 
 of the nourishment in every case. Farinaceous articles of food are gen- 
 erally not well borne in this fever, because the diminution in the secretion 
 of the salivary glands which almost always exists prevents their proper 
 digestion. After the third or fourth day nourishment should be given in 
 small quantities at short intervals, as every two hours, every hour, or 
 even every half hour when the prostration is extreme. It should be the 
 aim of the physician to give an adult at least two quarts of milk or their 
 equivalent daily. 
 
 It is sometimes necessary to put a delirious patient under some restraint 
 to prevent him from leaving his bed or doing some other act of violence. 
 Frequently a judicious nurse will be able to accomplish this without the 
 use of an undue amount of force, but at other times it will be necessary 
 to have recourse to mechanical means of restraint. Usually, all that is 
 necessary is to pass a folded sheet across the patient's chest, the ends of 
 which are fastened to the sides of his bed. 
 
 It is now a universally accepted axiom among physicians that typhus 
 fever is a self-limited disease, and that any attempts to cut it short is 
 worse than useless. Not only do remedies which are employed for this 
 purpose often produce alarming prostration, but there can be no doubt 
 that they have in some cases been the cause of a fatal termination, which 
 under another plan of treatment would have been averted. During the 
 last century it was not uncommon to bleed, and to bleed largely, in the 
 beginning of an attack of typhus fever, but even then there were physi- 
 cians as, for instance, O'Connell, Rogers, 1 Pringle, 2 and Rutty 3 who 
 raised a warning voice against the practice. Sir John Pringle goes so 
 far as to say that " many have recovered without bleeding, but few who 
 have lost much blood." A very similar opinion was also expressed by 
 Baron Larrey in the early part of this century. Indeed, it is very evi- 
 dent that the same difference of opinion existed as to the employment of 
 venesection in the treatment of acute affections when these authors wrote 
 as prevailed in England and this country until within the last thirty 
 years, and that the disastrous results which occasionally follow the 
 abstraction of large amounts of blood from patients affected with fevers 
 and inflammations were as fully recognized then as now by many physi- 
 cians. This would seem effectually to dispose of the change-of-type-in- 
 disease theory which was generally accepted in the first half of this cen- 
 tury as sufficient to explain the fact which could no longer be overlooked 
 that this class of patients did much better under a supporting than a 
 depleting plan of treatment. Purgatives were also at one time freely 
 given for the purpose of arresting the disease, but the results obtained 
 from their use were scarcely less unfavorable, and they are now never 
 employed with this view. The use of quinia in large doses has also 
 been advocated for the same purpose, but experience, while it has shown 
 that it is a valuable remedy, has demonstrated also that it does not possess 
 
 1 An Essay on Epidemic Diseases, p. 60, by Joseph Rogers, M. D., Dublin, 1734. 
 3 Loc.. cit. 
 
 8 A Chronological History of the Weather and Seasons, and the Prevailing Diseases, in Dub- 
 lin during the Space of Forty Years, by John Rutty, M. D., London, 1770.
 
 364 TYPHUS FEVER. 
 
 this power. Exactly the same thing may be said of the cold-water treat- 
 ment of typhus fever. There is no evidence that it has ever shortened 
 the duration of the disease. 
 
 If the physician is called to a case of typhus fever during the chill, 
 before reaction has taken place, he will of course have recourse to diffusi- 
 ble stimulants and external warmth to aid in the establishment of this 
 process. More frequently he is not sent for until after the chill has been 
 succeeded by fever. His treatment will then, of course, vary with the 
 condition of the patient. If his stomach is loaded with food, an emetic 
 should be administered to him. If the bowels are constipated, a mild cathar- 
 tic will often be of service, but after the bowels have been once well moved 
 it is generally unnecessary to disturb them further. During the first day 
 or two, while the fever is still moderate in degree, and during the uncer- 
 tainty which then usually exists as to the diagnosis, it will be sufficient to 
 prescribe the neutral mixture or the spirit of Miudererus in tablespoonful 
 doses every two or three hours. Upon the third day more active reme- 
 dies will generally be required to reduce the temperature. This is best 
 done by the cold-water treatment in some form or other, or by the inter- 
 nal administration of antipyretic doses of quiuia. The manner in which 
 the cold water is to be used and the cases to which it is applicable must 
 be left in a great measure to the judgment of the physician. In the 
 form of the cold affusion, it is now rarely resorted to, although Currie l 
 obtained most excellent results with it. It is calculated, however, to 
 alarm a timid patient, and it is probably owing largely to this fact that 
 it has fallen into disuse. The cold bath, packing in a cold wet sheet, 
 and sponging with cold water are the more usual means of employing 
 cold in the treatment of typhus fever at the present day. The .cold bath 
 is much used^ in Germany in the treatment of different forms of fever, 
 and even of inflammation. It is also resorted to in this country, but it 
 has never attained the same popularity here as abroad. The best way of 
 using it is as follows : The patient as soon as his temperature rises above 
 r . should be placed in a bath having a temperature between 80 
 and ! 0, and which, whenever practicable, should be brought to his bed- 
 side, as when he has to be carried to the bathroom he is sometimes not 
 only alarmed and rendered very nervous by the operation, but may 
 exhaust himself in his struggles to free himself from his attendants. 
 After his immersion cold wafer should be gradually added until the 
 temperature of the bath is between 60 and 70 F. The length of time 
 he should be allowed to remain in the bath will of course depend upon 
 circumstances. If shivering is produced by it, he should be at once 
 noved from it and thoroughly dried and put back to bed. If no such 
 mptoms are observed, he may be allowed to remain in it longer. As a 
 neral rule, a half hour is as long as will be necessary or safe for him to 
 jue immersed at any one time. His temperature will usually continue 
 some time after his removal from the bath, but in the course of 
 t will be found to have risen again to 103 or over, when he 
 Id .have another bath. In this way it may be necessary to repeat the 
 from eight to twelve times a day. Some authors recommend that the 
 I be placed at once in a bath having a temperature of 50 F.,
 
 TREATMENT. 365 
 
 but this method of applying cold possesses no advantage over that above 
 described, and is, like the cold affusion, very apt to excite alarm in the 
 patient. The cold bath is not, however, well borne by all persons, and 
 alarming symptoms, and even fatal collapse, have followed its use in the 
 old and feeble. It is also contraindicated when the skin is covered with 
 a profuse sweat or when the disease is complicated by an internal inflam- 
 mation. When the means of giving a cold bath are not at hand, the 
 cold pack will often be found a very efficient substitute for it. Sponging 
 with cold water, although not so efficacious in reducing the temperature, 
 has advantages over either of these methods of applying cold. In the first 
 place, it is more agreeable to most patients and less calculated to excite 
 alarm in those who are timid. Again, it may be more frequently 
 repeated, and may be used in cases in which the cold bath is contra- 
 indicated. Occasionally alcohol or vinegar may be added with advantage 
 to the water, with the view of increasing its refrigerant effects. 
 
 When quinia is given for the purpose of reducing the temperature in 
 the treatment of typhus fever, it must be used in large doses, as much as 
 ten or fifteen grains repeated once or twice in the course of twenty-four 
 hours being required for this purpose. When given in these quantities 
 it has the disadvantage of producing deafness and occasionally of increas- 
 ing the headache. I have therefore contented myself in the cases which 
 have fallen under my own care with giving it in more moderate quanti- 
 ties, in combination with one of the mineral acids, as, for instance, a couple 
 of grains of quinia in solution with from eight to ten drops of dilute 
 muriatic acid, repeated from four to six times a day. The mineral acids 
 were originally recommended in the treatment of typhus fever in the 
 belief that they neutralized the poison which caused the fever, and which 
 was supposed to be ammonia or some of its compounds. Although this 
 theory is now no longer entertained, there can be no doubt that the 
 tendency in this disease to the accumulation of ammonia in the blood 
 is prevented by their administration. Digitalis, aconite, or veratrum 
 viride may also be given in appropriate doses if with a high temperature 
 there coexists great frequency of the pulse. The first-named remedy is 
 especially indicated if there is at the same time diminution of the secre- 
 tion of urine. 
 
 As the disease progresses other symptoms present themselves for treat- 
 ment. One of the most urgent of these is the prostration. This not 
 only appears early, but is often extreme, and if not met by appropriate 
 remedies will often of itself be sufficient to cause the death of the patient. 
 As soon as it makes itself manifest stimulants must be prescribed. 
 These are, however, not to be resorted to simply because the patient 
 has typhus fever. Many cases do perfectly well without them. In the 
 young and robust it is often unnecessary to have recourse to them. 
 On the other hand, in the old, the feeble, and the intemperate they 
 should be employed early. The rule laid down by Stokes, that they 
 should be administered as soon as the first sound of the heart becomes 
 indistinct and inaudible, may be adopted for our guidance in this respect. 
 At first they should be given tentatively. If the delirium, headache, and 
 other nervous symptoms are increased after their administration, it is best 
 to withhold them. They should be continued, on the other hand, when 
 under their use the delirium ceases or grows milder, the other nervous
 
 366 TYPHUS FEVER. 
 
 symptoms subside, and the patient falls into a refreshing sleep. The 
 amount required to prevent fatal prostration will of course vary in each 
 case. I have rarely myself found it necessary to prescribe more than 
 half an ounce of whiskey or brandy every two hours, and frequently a 
 very much smaller quantity has been found sufficient. Cases are, how- 
 ever, reported in which from twenty to twenty-four ounces daily have 
 been given with asserted advantage. 
 
 Another symptom which often demands prompt relief is the headache. 
 When not severe, it may be relieved by the application of cold to the 
 head, either in the form of the ice-cap or by means of cloths frequently 
 wrung out of cold water, and by the administration of moderate doses 
 of potassium bromide ; but when intense it requires more active treat- 
 ment for its removal, such as the application of cups to the back of the 
 neck or of leeches to the temples. General bleeding will accomplish the 
 same result, but the good which is done by it is often more than counter- 
 balanced by the prostration it induces. Sleeplessness is also sometimes 
 the cause of a good deal of distress to the patient. When it occurs 
 early in the disease and is caused by the headache, it will generally sub- 
 side under the use of the remedies which are employed for the relief of 
 the latter symptom ; but when it comes on at a later period, it will often 
 require special treatment. There is some doubt as to the propriety of 
 giving opium under these circumstances, but Murchison, Gerhard, and 
 others assert that it may be given not only without injury, but with 
 positive advantage to the patient. Graves was in the habit of combining 
 it with a small quantity of tartar emetic in the condition in which the 
 sleeplessness is associated with active delirium. If, on the other hand, 
 the delirium is of a low muttering character, it should be given with a 
 diffusible stimulant. 
 
 In this condition I have often found a pill containing a small quantity 
 each of opium and camphor, frequently repeated, to answer an admirable 
 purpose, not only in procuring for the patient the needed repose, but also 
 in diminishing the restlessness, jactitation, and subsultus tendinum. 
 Opium should, however, not be used at all or used very carefully in cases 
 in which there is congestion of the lungs or disease of the kidneys. The 
 existence of the pin-hole pupil is also a contraindication to its employ- 
 ment. In young and robust patients, if the insommia is attended by 
 active delirium, chloral in twenty-grain doses, repeated if necessary, may 
 often be given with advantage, but it should never be prescribed in cases 
 in which the action of the heart is feeble. Other remedies which have 
 been recommended in the treatment of this condition are belladonna, 
 hyoscyamus, musk, chloroform, and caunabis indica. Potassium bromide 
 appears to have no po\yer to relieve it. No special modification of the 
 above treatment is needed when delirium occurs independently of sleep- 
 lessness aud headache. When the stupor is profound, eiforts should be 
 made to rouse the patient by the use of counter-irritants to the shaven 
 scalp or to the nape of the neck. Murchison speaks well of the adminis- 
 tration of strong coffee under these circumstances. If there is at the 
 s;im<> time suppression or diminution of urine, diuretics should be admiii- 
 rsteral^ m the hope of stimulating the kidneys to increased secretion. 
 
 ictention of the urine is not an infrequent occurrence in this condition, 
 and the physician ought never, therefore, to accept the assertions of the
 
 TREATMENT. 367 
 
 nurse or friends of the patient that the latter has passed water, but should 
 satisfy himself by an examination in regard to the condition of the 
 bladder at every visit. He will often find that the apparent passage of 
 urine is nothing more than the dribbling due to an over-distension of this 
 organ. Neglect of this precaution has occasionally been the cause of 
 much subsequent distress to the patient, as cystitis is sometimes set up as 
 a consequence of it. In one case which came under my observation, 
 and in which this precaution had been neglected, the patient suffered from 
 incontinence of urine for some time after his recovery from the fever. 
 Thirst is a symptom which is always present and complained of at the 
 beginning of the fever, and usually bears some proportion to the severity 
 of this process. Weak tea, an infusion of cascarilla-bark, and camphor- 
 water have all been recommended by different authors for its relief, but 
 it is probable that no one of them possesses any superiority over water. 
 If the stomach is irritable and water is not retained, small pieces of ice 
 should be allowed to dissolve in the patient's mouth. Later, when the 
 stage of stupor supervenes, it is very important to see that the patient 
 obtains a full supply of water. In this condition he will not call for it, 
 although it is even more urgently required than before. 
 
 Vomiting may occur at any time in the course of typhus fever. If it 
 is observed at the very beginning of an attack, an emetic will often arrest 
 it, but when it supervenes at a later period, it is generally of cerebral 
 origin, and will usually subside under the use of the remedies already 
 referred to which are prescribed for the relief of the nervous symptoms. 
 In addition to these, sinapisms may be applied to the epigastrium, and 
 champagne, when the circumstances of the patient will permit it, should 
 be given in the place of whiskey or brandy. When everything is rejected 
 by the stomach, recourse must be had to nutritious enemata. Constipa- 
 tion is to be overcome by gentle purgatives, as the use of powerful cathar- 
 tics is very apt to be followed by troublesome diarrhoea. If this should 
 come on, it is best treated by small doses of opium in combination with 
 a mineral or vegetable astringent. When these fail, it may sometimes be 
 relieved by a prescription containing sulphuric acid and morphia, and at 
 others by euemata of from twenty to thirty drops of laudanum in warm 
 water. When glandular swelling occurs in the parotid region or in other 
 parts of the body, an eifort should be made to promote resolution by 
 painting them with tincture of iodine. Blisters have also been recom- 
 mended for the same purpose, but they should be used carefully, as in 
 low conditions of the system they are sometimes followed by sloughing 
 of the integuments. If these remedies fail, poultices should be applied. 
 As soon as pus has formed it should be evacuated by one or more free 
 incisions. 
 
 Very few attacks of typhus fever run their course without the occur- 
 rence of some pulmonary complication. When this is slight it demands 
 no special modification of the previous treatment, and it is sufficient to 
 apply mustard poultices or stimulating liniments to the chest. But in 
 cases of greater gravity, it matters not whether the complication is bron- 
 chitis, congestion of the lungs, or pneumonia, a more active treatment is 
 required. Under these circumstances the ammonium carbonate in five- 
 grain doses, given in mucilage of acacia, frequently repeated, or from 
 thirty minims to a teaspoonful of the aromatic spirit of ammonia every
 
 3(J8 TYPHUS FEVER. 
 
 two hours, sufficiently diluted, may be prescribed with great advantage. 
 "When gangrene supervenes the prognosis is almost hopeless, but an effort 
 should be made to save the patient's life by the administration of potas- 
 sium chlorate and of an increased amount of stimulus. Murchison 
 also speaks well of the inhalation of tar vapor and of carbolic acid. 
 
 As the other complications of typhus are at least of as common occur- 
 rence in typhoid fever, it will avoid a good deal of useless repetition to 
 refer the reader to the article on the latter disease for a description of the 
 treatment which they render necessary. 
 
 The patient should be kept in bed for some time after the subsidence 
 of fever. Although relapses are rare in this disease, recrudescences of 
 fever not infrequently occur as a consequence of undue exertion in the 
 early part of convalescence. Syncope is also not infrequently produced 
 by the patient's sitting up too soon. The diet should be carefully regu- 
 lated until the recovery is complete. It should at first consist wholly of 
 liquid or semi-liquid articles of food, but later meat in some digestible 
 form may be allowed. Stimulants are often as urgently demanded at 
 this time as during the fever itself. They should be given as the strength 
 returns in gradually diminishing quantities. The length of time during 
 which it is necessary to continue them will depend in great measure upon 
 the previous habits of the patient. As a general rule, their use should 
 not be abandoned until he is able to leave his bed, and they may often be 
 continued after this with benefit to him. As convalescence progresses it 
 will be well to substitute ale or porter for the brandy or whiskey the 
 patient had previously taken. A return to health will also be promoted 
 by the judicious use of tonics, such as iron, quiuia, Huxham's tincture, 
 tincture of nux vomica, the mineral acids, and even cod-liver oil in some
 
 RELAPSING FEVER. 
 
 BY WILLIAM PEPPER, M.D., LL.D. 
 
 SYNONYMS. Febris recidiva, vel recurrens ; Fievre a rechutes ;. 
 Fi&vre recurrente ; Typhus icterodes, vel recurrens ; Bilious Typhoid; 
 Fever; Riickfall's Typhus; Tifo recidivo; Famine Fever, Hunger- 
 pest, Armentyphus, Hunger-typhus, Spirillum Fever. 
 
 DEFINITION. Relapsing fever is an epidemic contagious disease, the 
 specific cause of which is not certainly known, although a peculiar spi- 
 rillum appears to be constantly present in the blood. It occurs chiefly 
 among the over-crowded and destitute, but may spread widely when 
 introduced among more favorably situated populations. Its invasion 
 is abrupt, and is marked by a distinct chill or rigor, followed quickly by 
 high fever (101 to 106), with severe headache and pains in the back 
 and limbs. Delirium is comparatively rare. The tongue is heavily 
 coated, and there are epigastric tenderness, vomiting, constipation, andi 
 enlargement of the liver and spleen, with frequent jaundice. There is 
 no characteristic eruption. These symptoms cease abruptly from the 
 fifth to the seventh day, with copious sweating ; but after an apyretic 
 interval of about a week's duration a relapse occurs similar to the first 
 attack, but of less duration (three to five days). Second, third, or even 
 more numerous relapses may subsequently occur at less regular intervals. 
 One attack does not protect against a second one to the same extent as 
 with other contagious diseases. The mortality is usually small. 
 
 HISTORY AND GEOGRAPHICAL DISTRIBUTION. It is not important 
 to consider here at any length the history of this disease. Allusions to it 
 were made by Strother, 1729, and by Huxham, 1752, but the first reliable 
 account on record is the description of an epidemic in the year 1739 
 by John Rutty. 1 Relapsing fever undoubtedly occurred at diiferent 
 times and at various places during the next hundred years, although the 
 records of it are scanty, and for the most part imperfect, owing chiefly to 
 the want of a clear recognition of its essential difference from typhus and 
 typhoid fevers. 
 
 During the decade from 1842 to 1852 relapsing fever prevailed in a 
 very active and widespread form. Epidemics occurred in England, 
 Scotland, and Ireland, in various parts of Germany, and it was during 
 this time that it was first observed and described in America. In June, 
 1844, an emigrant ship from Liverpool came to America with eighteen 
 cases on board, which were taken to the Philadelphia and Pennsylvania 
 
 1 A Chronological History of the Weather and Seasons, etc., London, 1770, pp. 75-90. 
 VOL. I. 24, 369
 
 370 RELAPSING FEVER. 
 
 Hospitals. In 1848 a few cases were imported by emigrants to New 
 York, and in 1850 to Buffalo in the same way. 1 
 
 The next great outbreak of relapsing fever began in Ode?a in 1863 
 and lasted uutil 1872. It prevailed in various parts of Russia, in Ger- 
 many, France, and Great Britain, and for the first time occurred exten- 
 sively in the United States, especially in Philadelphia and New York. 
 The present article is based largely on a study of this epidemic as it pre- 
 sented itself in Philadelphia during the years 1869-70, when the writer, 
 in conjunction with the late Edward Ehoads, had the opportunity of 
 observing about two hundred cases, in the wards of the Philadelphia 
 Hospital. An admirable article on the same epidemic appeared from the 
 pen of the late John S. Parry, in the Amer. Jour. Med. Sciences, N. S., 
 vol. lx., Oct., 1870, p. 336. 
 
 Between the years 1877 and 1880 relapsing fever occurred quite 
 extensively at Bombay, and was there studied by Carter 2 and Lewis ; 
 and during 1879-80 it prevailed in Konigsberg, an account of which 
 epidemic has been published by Meschede. 3 
 
 The geographical distribution of relapsing fever is seen, therefore, to 
 have been very extensive ; and not only has it occurred in the above- 
 mentioned localities, but there have also been less extensive outbreaks in 
 France, India, Egypt, Algeria, South America, and elsewhere. 
 
 CAUSES. In all probability the essential cause of relapsing fever is a 
 specific poison, but we know nothing of its real nature nor of the pre- 
 cise conditions under which it originates. Recent investigations have 
 shown that the spirillum discovered by Obermeier is constantly present 
 during the febrile stages of relapsing fever, but it cannot yet be decided 
 whether this minute organism is the actual cause or only an invariable 
 accompaniment of the disease. 
 
 It appears that conditions of destitution, filth, and intemperance 
 amongst an overcrowded population favor the development of the 
 virus, and hence the epidemics have, as a rule, begun in towns, such 
 as Dublin, Glasgow, Odessa, St. Petersburg, Breslau, etc., where such 
 conditions prevail. Great importance has been attached, in particular, 
 to the scarcity of food and to destitution as powerful factors in favoring 
 the production of the disease. Some of its names (hunger-pest, hunger 
 typhus, famine fever) have been given with reference to this, and in the 
 case of several outbreaks a careful comparison has been made of the 
 decrease of the food-supply and the consequent advance in price of the 
 staple commodities with the development and progress of the disease. 
 Although this is in all probability true of those centres where relapsing 
 fever originates, it has but a partial application to the secondary centres 
 where the disease is imported and develops. 
 
 > The presence of destitution and filth, enfeebling the vitality of a sco- 
 rn of the community, would favor the spread of this as of any other 
 fever, but there is considerable evidence to favor the view that 
 1 1 H- importance of starvation as a cause of the fever has been exaggerated, 
 s was strongly urged by Parry 4 as the result of his study of the
 
 CAUSES 37] 
 
 Philadelphia epidemic of 1870, and our own more extended observation 
 showed that the vast majority of the patients appeared to be well fed. 
 On the other hand, the influence of overcrowding as favoring the devel- 
 opment and spread of relapsing fever has been clearly established by the 
 study of many epidemics, as in the Breslau attack of 1868, reported by 
 Wyss and Bock, where single tenement-houses furnished as many as 
 seventy-one cases; in the Edinburgh epidemic of 1869 and 1870, where 
 Muirhead found the breathing-space allotted to each individual in the 
 affected houses to vary from 250 to 400 cubic feet ; and in the Phila- 
 delphia epidemic, where the observations of Parry and ourselves showed 
 the presence of an extreme degree of overcrowding in most of the houses 
 where the disease broke out. 
 
 No age is exempt, but neither can it be said that age exerts any influ- 
 ence upon the occurrence or frequency of relapsing fever. Of 1164 cases 
 in the Philadelphia epidemic of 1869-70 in which the age was noted, 
 the result was as follows : 
 
 Males. Females. 
 
 Under 20 149 76 
 
 From 20 to 30 220 140 
 
 From 30 to 40 143 101 
 
 From 40 to 50 135 67 
 
 From 50 to 60 60 34 
 
 From 60 to 70 20 6 
 
 From 70 to 90 6 7 
 
 Total 733 431 = 1164 
 
 The youngest cases were in children two or three years old ; the oldest 
 patients were women over eighty-five years old. 
 
 Sex exerts no influence, though, on account of the larger propor- 
 tion of males likely to be exposed to the specific cause, the results of 
 nearly all epidemics show a preponderance of male patients in the pro- 
 portion of 33 per cent., 66 per cent., or even 85 per cent. (Meschede). 
 
 Nationality does not act as a predisposing cause, 1 except in so far 
 as certain countries may present more frequently than others the con- 
 ditions favorable for the development of this disease. Of 1170 cases 
 in Philadelphia in which the nativity was noted, 219 were Irish, 61 
 English, 161 German, 729 American. Of the latter 729, about one- 
 half, or nearly 28 per cent, of the whole number, were negroes, while the 
 negro population of Philadelphia was only about 3.3 per cent, of the 
 total. This excessive proportion of cases among the negroes was undoubt- 
 edly due in large part to the fact that in Philadelphia overcrowding is 
 notoriously more common and extreme among them than in any other 
 portion of the population, although it is also likely that they present an 
 excessive susceptibility to the virus of this as of many other specific 
 diseases. 
 
 Attempts have been made to show some connection between the 
 period of the year or the atmospheric conditions and the rise and 
 spread of epidemics of relapsing fever; but, as Murchison clearly 
 showed, these epidemics are wholly independent of such influences. 
 In Philadelphia, of 1176 cases in which the date of occurrence is 
 known, there occurred in September, 1869, 4 cases ; December, 1869, 
 6 cases; January, 1870, 5 cases; February, 1870, 13 cases; March, 
 1 Hirsch's Oeog. and Hist. Pathology, New Syd. Soc. ed., 1883, vol. i. p. 615.
 
 372 RELAPSING FEVER. 
 
 1870, 124 cases; April, 1870, 209 cases; May, 325 cases; June, 293 
 cases; July, 115 cases; August, 19 cases; September, 28 cases; October, 
 15 cases; November, 1 case; December, 2 cases; January, 1881, 2 
 cases ; February, 1 case ; March, 2 cases ; May, 7 cases ; June, 2 cases ; 
 September, 2 cases ; October, 2 cases. 
 
 Occupation exerts no predisposing influence, but in all epidemics the 
 great majority of cases occur among the vagrant classes, who lead 
 a precarious life and commonly sleep in foul, overcrowded lodgings. 
 Murchison noted that in the London epidemics a considerable propor- 
 tion of cases occurred among recent residents, but he attributed this, 
 correctly, not to any special local cause, but merely to the fact that this 
 floating population is largely of the vagrant type. In Philadelphia 
 a careful inquiry showed that recent residence produced no special pre- 
 disposing influence, and a study of other epidemics confirms this view. 
 
 Contagion is, however, the essential cause of the spread of relapsing 
 fever when the virus has once been developed. It seems clear from 
 the distinct periods and from the widely-separated localities in which 
 different outbreaks of relapsing fever have occurred that its special 
 poison is capable of being called into existence or activity by favor- 
 ing conditions. Murchison held the belief that it was veiy inti- 
 mately connected with, if not generated by, destitution, and, as already 
 stated, much evidence exists to show that the disease is most apt to break 
 out after periods of scarcity ; but no just and convincing proof exists that 
 destitution, any more than over-crowding and other depressing influences, 
 can actually engender a specific contagium capable of being transported 
 to great distances and of originating widespread outbreaks of the specific 
 tli.-case among differently situated populations. It appears necessary to 
 iiunie the existence of some unknown special virus which finds its suit- 
 able nidus for development in the conditions attendant on filth and over- 
 crowding, and which attacks with greatest facility the systems of those 
 who are enfeebled by want and depressed by vitiated air. When once 
 this specific poison has been called into active existence, however, there 
 can be no doubt as to the fact that it can be carried by fomites, and that 
 it is given off from the bodies of relapsing-fever patients so as to affect 
 any who may approach. Although a few observers have doubted this 
 contagiousness of relapsing fever, the evidence in its favor is overwhelm- 
 ing. In many epidemics, as in Philadelphia in 1869, its contagiousness 
 is at least as intense as that of typhus fever. A single case may, indeed, 
 be admitted to a healthy family among the better classes or into the wards 
 of a well-ventilated hospital without propagating the disease, although 
 striking cases of contagion are on record where a patient has communi- 
 cated the disease to all the members of a family favorably situated and 
 living at a distance from any other possible source of contagion. On the 
 )ther hand, if admitted to an overcroAvded and filthy lodging the disease 
 i apt to spread rapidly. Wyss and Bock report seventy-one cases as 
 
 ring occurred in a single lodging-house during the course of the 
 u epidemic of 1868, and in Philadelphia single houses in several 
 5 furnished more than a score of cases, and several short streets 
 more than one hundred cases each. 
 
 In the Philadelphia Hospital twenty-three persons lying sick in the 
 s with other affections contracted relapsing fever from the patients
 
 CA USES. 373 
 
 admitted with that disease ; two of the visiting staff, five resident physi- 
 cians, and nine nurses also suffered attacks of varying severity. This 
 corresponds with the general experience of those connected with fever 
 hospitals during the prevalence of relapsing fever. 
 
 As in the case of typhus and other contagious diseases, the distance 
 at which relapsing fever can be contracted by direct contagion through 
 the atmosphere is a very short one, not exceeding a few feet at most. 
 
 The poison may be carried by fomites. Instances are on record where 
 persons having visited infected districts have conveyed the disease to 
 others at a distance without contracting it themselves. 
 
 ^Yhen rooms which have been occupied by relapsing-fever patients are 
 subsequently occupied by other persons, these are very liable to acquire 
 the disease. Parry relates two remarkable cases in which relapsing fever 
 was transported to a distance by infected clothes ; and it has been more 
 than once observed that during epidemics of this disease laundry-women 
 engaged in washing the clothes of fever patients, but without any means 
 of more direct communication with the sick, were frequently attacked 
 (Cormack, Wyss and Bock). 
 
 In connection with the etiology of relapsing fever it is necessary to 
 consider the role played by a minute organism which has been frequently 
 detected in the blood of patients suffering with this disease. This spiro- 
 bacterium was first observed in relapsing fever by Obermeier 1 in 1873, 
 and has since been identified as a spirillum or spiroechete. .The very 
 numerous observations of Obermeier, Albrecht, H. V . Carter, Motschut- 
 koffsky, Koch, Cohen, Holsti, Enke, Meschede, and others leave no 
 doubt that this peculiar parasite does occur at least very frequently in 
 the blood of patients with this disease. The failure to detect it, which 
 has been reported by several good observers, may readily have been due 
 to the extreme delicacy of the organism, or to the neglect of the proper 
 method of preparing the slides of blood for examination, or to delaying 
 the examination of the blood until after death, when it rapidly disap- 
 pears. Thus no value can be attached to the negative observations of 
 Rhoads and myself, made prior to Obermeier's discovery, since our 
 method of examination was not sufficiently exact. 
 
 The following description of the mode of examining the blood, and of 
 the spirillum, is condensed from H. V. Carter's account : It is necessary 
 to employ magnifying powers of not less than 500 diameters. The fresh 
 blood may be examined immediately after obtaining it by pricking the 
 washed finger of the patient. For preservation dried specimens are 
 needed: a very thin layer of fresh blood is evenly spread with the 
 needle over the glass cover, exposed to the weak fumes of a solution 
 of osmic acid, and allowed to dry under protection from ^dust ; the 
 dried film of blood may then be treated with glacial acetic acid or may 
 be stained. 
 
 The spirillum [See Fig. 19] is a colorless, slender, twisted filament, 
 which when quiescent has a length of 2.66 times the diameter of a blood- 
 disc (j 5 \ to ^ inch = 0.01 2 to 0.043 millimetre). When unfolded 
 they become distinctly elongated. They are very narrow (not more than 
 .^^ inch), and present four to ten spiral turns ; when fresh they are in 
 active movement and unfold in part, becoming wavy or bent. They 
 1 Centmlbl.f. die med. Wissensch., 1873, No. 10.
 
 374 
 
 RELAPSING FEVER. 
 
 FIG. 19. 
 
 Spirillum from the blood in a case of relapsing fever, X 700 (Koch). 
 
 resist the action of concentrated acetic acid, and are readily stained by 
 certain dyes. In number, five or ten may be visible in a field or they 
 nuiv be too numerous to count. They have not been detected either in 
 
 the secretions or in the 
 evacuations. Both Koch 
 and Carter have suc- 
 ceeded in cultivating this 
 special form of bacteria 
 outside of the body. 
 
 To judge from the ob- 
 servations thus far made 
 on this difficult question, 
 the parasite is found first 
 toward the close of the 
 
 ^ -v ^-\^s -^ \ period of inoculation or 
 
 Uv ~ v V-^r-"'~' \/* soon after the beginning 
 
 of the fever, or it may 
 be detected throughout 
 the febrile stage ; but 
 shortly before the ces- 
 sation of the fever it 
 quickly disappears, to 
 reappear at the time of the relapse. There would seem, therefore, to be 
 some close connection between the febrile paroxysms and this organism, 
 and it is not remarkable that many observers have concluded that this 
 spirillum is the essential and specific cause of the fever, and that it is 
 impossible to have this disease present without the appearance of the 
 parasite in the blood; nor that the name spirillum fever has been ap- 
 plied to the disease by Carter. 
 
 Such conclusions appear to be premature, however, and we prefer to 
 regard the undoubted existence of the spirillum in the blood of relapsing- 
 Icver patients as at present only an important aid in diagnosis, and to 
 await the occurrence of other epidemics and the repetition of careful 
 studies upon this organism, both within and without the human system, 
 before venturing to decide whether it is merely one of the phenomena of 
 the disease or whether it is its true cause and specific contagious principle. 
 It must be added that both Carter and Koch have succeeded in inocu- 
 lating monkeys with relapsing fever, and Motschutkoffsky 1 of Odessa, who 
 had the opportunity of inoculating a human being, asserts that he suc- 
 ceeded in producing the disease, and found the incubation period to be 
 not less than five nor more than eight days. Carter also gives an 
 interoBtingtable 1 of six instances of inoculation, four of them by cuts 
 while making autopsies, with consequent development of relapsing fever 
 in each instance. Some allowance must be made for the fact that in all 
 the instances of this series there had been exposure to contagion by close 
 communication with fever patients, though this exposure had existed for 
 several months previously without leading to the development of relaps- 
 ing fever. 
 
 GENERAL CLINICAL DESCRIPTION. After a period of not less than 
 live or six days from the reception of the contagion the disease begins 
 
 1 Centnilbhttf. d. med. Wissenschaftm, 1876, No. 11, p. 194. a Op. clt., p. 403.
 
 GENERAL CLINICAL DESCRIPTION, 375 
 
 abruptly with a chill of variable severity, accompanied by headache and 
 aching pains in the back and limbs. The patient feels weak and is often 
 giddy, but is not always obliged to go to bed the first day. Nausea and 
 vomiting are among the earliest symptoms, and distress at the epigastrium, 
 with tenderness, may attend or even precede the chill. Fever quickly 
 follows ; the pulse runs up from 110 to 130 in a few hours ; the tempera- 
 ture reaches from 103.5 to 106 by the end of twenty-four hours; the 
 pains increase, and there are insomnia and great restlessness ; appetite fails ; 
 thirst is extreme; the tongue is moist and furred, and the bowels quiet. 
 During the subsequent six days these symptoms persist. The tempera- 
 ture presents a daily remission at some period of the twenty-four hours 
 amounting to one or two degrees, the maximum reached in fully-devel- 
 oped cases varying from 104 to 108. The pulse continues very rapid, 
 and not rarely exceeds 140 ; the respirations are hurried and rapid, and 
 cough attends many cases. Delirium is rare, but insomnia, restlessness, 
 headache, and rheumatic pains in the back and limbs may prove constantly 
 annoying. Appetite is variable, more frequently lost ; nausea and vomit- 
 ing are common ; thirst is very troublesome ; and the bowels are consti- 
 pated or loose. No characteristic eruption appears, but sudamiiia are 
 frequently present, since in a large proportion of cases there is more or 
 less sweating, even during the continuance of high fever. Abdominal 
 pain, tenderness in the epigastrium and hypochondria, and demonstrable 
 enlargement of the liver and spleen are almost invariable. The urine is 
 concentrated and dark or bile-stained. Jaundice is a common symptom, 
 though its frequency varies greatly in different epidemics. The same may 
 be said of epistaxis. 
 
 While these symptoms are at their height and the patient is suffering 
 severely the paroxysm suddenly ceases, and in a few hours he is entirely 
 relieved. This remarkable crisis occurs usually at the close of the seventh 
 day, but may occur as early as the third or as late as the fifteenth day. 
 ft is attended with a critical discharge, copious sweating being by far the 
 most common, though diarrhoea, free epistaxis, or hemorrhage from 
 some other surface may replace it. The patient feels weak and languid ; 
 the temperature and pulse have fallen below the normal, and remain so 
 for a day or two. Soon there is a rapid improvement in the appetite and 
 the appearance of the tongue, and the patient regains strength day by day, 
 and often feels so well that it is difficult to persuade him that he must 
 avoid exertion and exposure. The enlargement of the spleen subsides 
 rapidly, that of the liver more gradually ; epigastric tenderness subsides, 
 but in many cases some degree of it persists for several days. This 
 interval or apyretic period lasts about a week, when, again without warn- 
 ing or provocation, the patient relapses, and is seized abruptly with the 
 same set of symptoms which attended the first attack. This relapse 
 does not usually last more than three days (one to five are the limits), and 
 is terminated by a similar crisis, after which a slow convalescence is 
 entered upon, or else after an apyretic interval of some days' duration a 
 second relapse ensues, and this may, in rare cases, be in turn followed by 
 a third, fourth, fifth, or even sixth similar relapse. In addition, it must 
 be noted that many serious complications are liable to occur. The total 
 duration of the disease thus varies from eighteen to ninety days. Con- 
 valescence is often tedious, and there are many troublesome sequelae.
 
 376 RELAPSING FEVER. 
 
 The mortality, however, is not great, averaging 5 or 6 per cent. Death 
 may occur suddenly from collapse at the close of the first paroxysm or 
 from heart-clot ; it may be produced by exhaustion in protracted cases ; or 
 be hastened by any serious complication ; or the patient may sink into a 
 typhoid condition, with low delirium, coma, and suppression of urine for 
 several days before the fatal termination. 
 
 DETAILED STUDY OF SPECIAL CONDITIONS. It is usually difficult 
 to determine the period of incubation. In the unique case in which 
 Motsclmtkoffsky is said to have produced relapsing fever by inoculation 
 the initial symptoms occurred seven days after the inoculation. Wyss 
 and Bock had several good opportunities of determining the minimum 
 period of incubation, and found it to be six days. We may assume that 
 the ordinary period is six to eight days, but that it varies, in accordance 
 with the virulence of the virus or the susceptibility of the system, from 
 four to fourteen days. During this time the patient feels as well as usual, 
 or at most suffers for a day or two from slight malaise, with vague rheu- 
 matoid pains, headache, giddiness, and anorexia. In only 13 out of 181 
 of our cases in which this point is noted was the invasion gradual. Ex 
 amination of the blood prior to the invasion does not discover any spirilla. 
 
 The invasion is usually abrupt and during the daytime ; the patient 
 can often fix the very hour of its occurrence, a severe chill attacking him 
 while at work or at meal-time. This is the most common initial symptom 
 (138 out of 168 our cases of sudden invasion); less commonly, obstinate 
 vomiting and nausea or sudden vertigo are the first symptoms (each 8 
 times out of 168), or violent headache (14 times out of 168), or sharp 
 epigastric pain. Parry also observed that the occurrence of obstinate 
 and profuse vomiting as the initial symptom was especially frequent in 
 children. 
 
 The physiognomy is carefully noted in one hundred and seventy of 
 our records. The countenance is often flushed, with watery eyes and 
 anxious, suffering expression. The flush is less dingy and dull than in 
 typhus ; the eye is comparatively rarely injected ; and the expression is 
 much less dull and stupid than in that disease. In cases where grave 
 nervous symptoms supervene and the typhoid condition is developed the 
 facies assumes all the characteristics of that state. 
 
 The livid bronzing of the face, described by Cormack in 1843 and by 
 Carter (Bombay epidemic of 1877), was noticed in a moderate degree in 
 only nine of our cases, and seems to be of infrequent occurrence. When 
 we observed it it seemed due to an admixture of a faint jaundice tinge 
 with a deep flush. Jaundice, as already stated, is of common occurrence, 
 though its frequency varies greatly in different epidemics. It was present 
 in 25 per cent, of our cases, rather more frequently in the negro patients 
 than in whites, and in degree varied from a slight tinge of the conjunc- 
 tiva and skin to the deepest staining of the entire body. The presence 
 of jaundice in combination with the general features of high fever imparts 
 a most peculiar and alarming appearance to such patients. 
 
 With the occurrence of the crisis the flush rapidly subsides and the 
 face becomes pale, or, if the discharges have been profuse, it may appear 
 sunken, haggard, and almost choleraic. Parry described a peculiar puffed, 
 velvety look at this stage, as though the skin had been much thickened 
 and softened at the same time.
 
 DETAILED STUDY OF SPECIAL CONDITIONS. 377 
 
 There is no characteristic eruption in relapsing fever. In 150 out 
 of 180 cases where the condition of the skin was carefully noted there 
 was no eruption of any kind ; in 4 cases there were small roseolar 
 spots, with peculiar subcuticular mottling, which resembled the early 
 stages of typhus eruption, but soon faded away without becoming petechial. 
 A similar eruption was noticed by Murchison in 8 out of 600 cases. It 
 appears from the third to the seventh day of the first paroxysm ; it may 
 or may not recur in the relapse, or it may occur then only. Eruptions 
 apparently similar to this have been described by others as quite common 
 in certain epidemics. Carter describes minutely an eruption which was 
 noted in at least 10 per cent, of his Bombay cases, the spots of which 
 were at first small, slightly raised, and pinkish or rose-colored, and which 
 either faded away soon or changed into purplish, more persistent stains. 
 In a valuable report on the Konigsberg epidemic of 187980, Meschede 1 
 remarks that roseola was observed in cases complicated by exanthematio 
 typhus, which prevailed simultaneously, but in no case of uncomplicated 
 relapsing fever. While, however, this suggestion may apply to some few 
 of the cases of eruption observed by others, it is certainly inapplicable to 
 the vast majority of them. We also noticed an eruption of pale-reddish, 
 slightly elevated papules in seven cases. It must be borne in mind that 
 persons of such a low class as are the great majority of relapsing-fever 
 patients would naturally be expected to present a variety of cutaneous 
 eruptions from filth or vermin, and that in consequence some of the 
 appearances above described may have been of such origin. It is certain 
 that the bites of either mosquitoes, fleas, or bedbugs may in this disease 
 be followed by persistent reddish papules passing into petechiae. Apart 
 from this, however, true petechise have been quite common in some epi- 
 demics, while very rare in others. Parry saw " small spots of purpura " 
 once only, in a delicate girl ; and we did not observe petechise once in 
 several hundred cases, many of which had extensive internal ecchymoses. 
 On the other hand, they have been found in as much as 30 per cent, of 
 all cases (314 out of 1000 cases, Smith at Glasgow). They do not appear 
 on any fixed day, but are more common in the first paroxysm than in the 
 relapses ; and although sometimes associated with a tendency to hemor- 
 rhages from other surfaces, they have been so often observed in cases of 
 ordinary severity that scarce any unfavorable prognostic value can be 
 attached to them. 
 
 Vibices and extensive ecchymoses of the surface are of much more 
 grave import, and in cases where fatal sinking is threatened they may 
 appear accompanying a purplish lividity of the countenance. 
 
 Herpetic eruptions about the mouth or nostrils were observed in 20 out 
 of 181 of our cases in which this point is noted. They appeared usually 
 toward the close of the febrile stage, and their development was found to 
 have value in determining the approach of the crisis. Barensprung men- 
 tions especially the occurrence of herpes labialis in cases of irregular 
 relapsing fever which bore considerable resemblance to typhus. Suda- 
 mina are, as might be expected in a disease attended with so much sweat- 
 ing, of quite common occurrence, though much more so in some epidemics 
 than in others, unless searched for with greater care by the one set of 
 observers. Desquamation was noted in 42 out of 181 of our cases, and 
 1 Virchow's Arch., Bd. Ixxxvii., p. 405.
 
 378 RELAPSING FEVER. 
 
 invariably at the close of the relapse. It was usually confined to the hands 
 and face, and occurred in the form of comparatively small flakes. This is 
 more frequent than has been the case in most epidemics. Murchison quotes 
 a case in which a piece of epidermis ten inches square separated from the 
 body of a lad convalescent from relapsing fever. 
 
 A peculiar odor exhaling from patients with relapsing fever has been 
 repeatedly noticed. A description of this unpleasant symptom, given by 
 Kelly, as quoted by Murchison, 1 accords closely with what was frequently 
 manifest in our own cases : " The smell was peculiar, not fetid or heavy, 
 but somewhat like burning straw with a musty odor." Carter, in describ- 
 ing a similar odor in some of his cases, notes that the skin was not in 
 these instances in a particularly foul state. 
 
 From what has already been said, it will be anticipated that the varia- 
 tions of the temperature in relapsing fever constitute the most peculiar and 
 characteristic feature of that disease. A careful study of the accompany- 
 ing charts will convey a more accurate impression than can be given by any 
 description. The temperature begins to rise before the chill is fully devel- 
 oped, and when there is no initial chill the patient may be found within a 
 few hours of the appearance of giddiness and headache with a temperature 
 of 102.5 to 103.5. Before twenty-four hours have passed it has risen to 
 from 104 to 106. During the paroxysm the febrile movement is con- 
 tinued, presenting merely a diurnal variation of one to two degrees, some- 
 times attended with sweating and partial relief of distressing symptoms, 
 the minimum being observed at different hours in different cases, or even 
 in the same case, though more frequently it occurs in the morning. 
 
 In a case reported by Parry a chill recurred at the same morning hour 
 on three successive days. Wyss and Bock report some unusual cases in 
 which a brief intermission occurred, with a fall of pulse and temperature 
 to the normal, most frequently on the day before the real termination of 
 the paroxysm. The highest temperature varies from 104.5 to 108.75 ; 
 in our cases the highest observed was 107.5. This occurs, as a rule, on 
 the last day or the day before the last of the initial paroxysm, and Ober- 
 meier has observed a sudden rise of four degrees in ' half an hour just 
 'before the crisis. Meschede, 2 however, found the highest temperature on 
 the corresponding days of the first relapse. 
 
 The duration of the primary paroxysm is usually six or seven days ; 
 but this is subject to considerable variations, as will be seen from the 
 following table of 160 cases in which the duration was accurately ascer- 
 tained : Initial paroxysm lasted 2 days in ! case ; 3 days in 2 cases ; 
 4 days in 10 cases; 5 days in 19 cases; 6 days in 40 cases; 7 days in 
 58 cases ; 8 days in 18 cases ; 9 days in 2 cases ; 10 days in 5 cases ; 11 
 days in 2 cases; 14 days in 2 cases; 15 days in 1 case; and Parry, 
 observing the same epidemic, found the duration of the first paroxysm 
 to vary from 4 to 11 days. It is, however, rare for the duration to exceed 
 ten days unless some complication be present. 
 
 "With the beginning of the crisis there is a prodigious and sudden fall 
 of temperature, unequalled in any other condition of disease. Within a 
 few hours it may fall six or eight degrees (going clown at the rate of 1.5 
 or 2 an hour) ; and falls of 12, 13, or even 14.4 (Murchison), in the 
 course of twelve hours have been noted. In our own cases the greatest 
 
 1 Op. eU., p. 3-16. * Loc. c it.
 
 379
 
 380 
 
 RELAPSING FEVER. 
 
 fall was from 107.2 to 95, or 12.2 ; and this is as low a poiut as is 
 usually reached, though temperatures of 94, 93, or even 92, have 
 repeatedly been observed. Murchison refers to one case in which co] lapse 
 supervened, where the rectal temperature was 90.6. In nearly all of 
 
 FIG. 21. 
 
 Typical case of relapsing fever (Mary Collins, aged 32), terminating in recovery. One relapse, 
 with slight post-critical rise of temperature. 
 
 our cases a subnormal temperature occurred at the crisis, and lasted for 
 a day or two subsequently, when it gradually rose and remained normal 
 until the relapse, unless some transient complication caused a temporary 
 rise in the interval. 
 
 Occasionally, there is no relapse whatever, but convalescence follows
 
 DETAILED STUDY OF SPECIAL CONDITIONS. 
 
 381 
 
 the initial paroxysm. This occurred in 10 out of 181 of our cases, and 
 Murchison found that of 2425 cases reported by various authors no 
 relapses occurred in about 30 per cent. Carter describes these under the 
 name of the abortive form, and found them to constitute 23.8 per cent, 
 of all his cases. It is probable, however, that in many cases so regarded 
 either a relapse of very transient duration has been overlooked, or else 
 that an attack of ephemeral fever has been regarded as of specific nature. 
 In ordinary cases the duration of the intermission averages six or seven 
 days, but here, again, considerable variation occurs. In 139 of our cases 
 where its duration could be accurately determined it was as follows : 
 
 3 days in 4 cases. 
 
 4 " "3 " 
 
 5 " " 12 " 
 
 6 " " 12 " 
 
 7 days in 64 cases. 
 
 8 " " 22 " 
 
 9 " "9 " 
 10 " " 9 " 
 
 11 days in 1 case. 
 
 12 " " 1 " 
 
 13 " " 1 " 
 20 " " 1 " 
 
 Despite these variations in the duration of the initial paroxysm and of 
 the first intermission, the average date of the occurrence of the relapse in 
 any large series of cases is about the twelfth day from the primary chill. 
 
 The relapse is ushered in with the same striking abruptness as the 
 initial attack. The temperature again rises rapidly to 104 or 106, 
 and then pursues a continuous course resembling ordinarily that of the 
 primary paroxysm. The difference between the maximum of the two 
 paroxysms is rarely more than 1.5 or 2, though either may be much 
 milder than the other ; as a rule, the highest temperature is attained on 
 the last or penultimate day of the first attack. The duration of the 
 relapse averages three or four days, though it may last but a few hours 
 or a single day, and yet exhibit a rise of 5, 6, or 7 ; or, on the other 
 hand, it may be prolonged to six, seven, or even more days. Lyons, 
 observing the disease in the Crimea, reports some relapses as having 
 lasted twenty-one days, though it is improbable that a greater duration 
 than seven days occurs without the presence of some complication. The 
 relapse usually terminates by crisis, with an abrupt fall to an abnormally 
 low temperature ; though we observed at this time, much more fre- 
 quently than at the close of the first paroxysm, a gradual subsidence of 
 fever, or lysis. Again the patient regains strength and appetite, but in 
 a considerable proportion of cases subsequent relapses ensue. As a rule, 
 the second, third, and later relapses are attended with a febrile movement 
 of shorter duration and of less severity than the first two paroxysms, 
 and are also separated by intermissions of increasing length. Meschede 1 
 found from a study of 360 cases that the average duration was for the 
 first paroxysm six or seven days ; second paroxysm, four or five days ; 
 third paroxysm, three or four days ; fourth paroxysm, one or two days ; 
 fifth paroxysm, one day. 
 
 In a remarkable case given in full at page 394, the duration of th< 
 paroxysms and intermissions were as follows : 
 
 X J.AOL L/*\/a 
 
 Second 
 
 5 " second 
 
 1 
 
 f ' 
 
 Third 
 
 1 
 
 third 
 
 6 
 
 1 
 
 Fourth 
 
 / 
 
 ' fourth 
 
 8 
 
 i 
 
 Fifth 
 
 5 
 
 ' fifth 
 
 9 
 
 1 
 
 Sixth 
 
 4 
 
 ' sixth 
 
 10 
 
 ' 
 
 Seventh 
 
 3 
 
 ' seventh 
 
 11 
 
 1 
 
 Eighth 
 
 3 
 
 ' followed by convalescence. 
 
 1 Loc. cit.
 
 382 RELAPSING FEVER. 
 
 The proportion of cases in which more than a single relapse occurs 
 appears to vary in different epidemics. Mnrchison found that in 1500 
 cases reported by various authors a second relapse occurred 109 times (1 
 out of 14) ; a third relapse, 9 times (1 out of 166); and a fourth relapse, 
 once. Of 182 cases noted carefully by ourselves, a second relapse 
 occurred 24 times (1 out of 7) ; a third relapse, 5 times (1 out of 
 36); a fourth relapse, once; and in the above-mentioned case six or 
 seven relapses. 
 
 It follows that the total duration of the morbid process varies from the 
 average of about eighteen or twenty days, in cases with a single relapse, 
 to forty, sixty, or even ninety days. Of course the occurrence of compli- 
 cations may lead to very great modifications of the febrile movement and 
 of the total duration of the disease. 
 
 There are several additional points about the febrile process requiring 
 mention. In all the paroxysms there is a greater tendency to local or 
 general perspirations than is met with in other continued fevers, and 
 occasionally there are rigors or slight chills about the same hour on 
 several days after the invasion or on the day preceding the crisis. It 
 has been noted also that, even when the temperature is very high, the 
 quality of the heat, as judged by the feeling of the skin, is different from 
 that in typhus fever, and that the peculiar pungent irritating sensation 
 known as calor mordax is rarely marked. But a more important pecu- 
 liarity is the fact that the extreme temperatures (106, 107, or 108) 
 that are frequently observed in relapsing fever for several days in suc- 
 cession do not appear to involve any great increase of danger, and in par- 
 ticular are not attended with the production of the grave nervous symptoms 
 so often met with in connection with hypei'pyrexia in typhus and typhoid, 
 and often regarded as the direct result of the exalted temperature itself. 
 This striking fact is of much interest in its bearing on the theory of 
 livperpyrexia, and may possibly be explained by some marked difference 
 in the conditions of heat-dispersion in these different diseases. 
 
 The pulse in relapsing fever is very rapid, and on the whole the 
 rate corresponds with the movement o'f the temperature. It usually 
 rises above 110, the limits being 90 and 140, the lower rate being 
 noticed in the milder and uncomplicated cases and in subjects of 
 phlegmatic constitution. The pulse rises rapidly at the invasion, 
 and may reach 120 in the course of a few hours. Its maximum 
 is usually noticed when the temperature is highest, shortly before 
 the crisis; 'and when this actually begins the pulse may fall with a 
 rapidity as remarkable as that of the decline of the temperature. Thus, 
 within twenty-four hours it may fall from 152 to 80, or in even a shorter 
 time from 140 to 54, or even as low as 48 (Obermeier) or 44 (Muirheid), 
 or even 30 (Stille). While this great fall is often noted, it is by no 
 means constant. In our own cases it was frequently observed that the 
 critical fall in temperature was not accompanied by a commensurate foil 
 in pulse. Thus, at the close of a very severe initial paroxysm lasting 
 nine days the temperature was 107, and fell in the course of twenty- 
 four hours to 99, and in twenty-four hours more to 96 ; during the first 
 day of this fall the pulse was from 96 to 100, and durino- the second it 
 fell to 76. 
 
 This want of correspondence was more marked at the close of the
 
 DETAILED STUDY OF SPECIAL CONDITIONS. 383 
 
 relapse than of the primary attack ; thus, in a well-marked case, where 
 the maximum temperature (105.4) occurred eighteen hours before the 
 crisis of relapse, the temperature fell in four hours from 104.4 to 96.2, 
 while the pulse, which was 130, fell in twelve hours to 108, and in twelve 
 more to 92. In another case, in a man aged twenty, the temperature at 
 the close of the second relapse was 106.4, with a pulse of only 100 ; 
 after the crisis, as the temperature fell, the pulse rose to 120, and did not 
 descend until the end of twenty-four hours ; and later, at the close of 
 thirty-six hours, the temperature was 98 and the pulse 72, lower than 
 which it did not go. Carter l states that in the Bombay epidemic it was 
 invariably the case that the pulse did not decline to an extent correspond- 
 ing with the temperature. 
 
 During the remainder of the intermission the pulse may be normal, 
 or it may continue accelerated in consequence of some irritative condition ; 
 as the time for the relapse approaches it frequently again becomes abnor- 
 mally slow. In either event it is found that any muscular exertion 
 causes marked acceleration of the pulse. 
 
 During the paroxysm the character of the pulse is full and bounding, 
 and there is considerable arterial tension. This is well shown in some 
 of the sphygmographic tracings by Carter ; 2 while in one of our 
 tracings from the right radial of a man set. 32, taken on the fourth day 
 of a severe initial paroxysm, the line of ascent is steep and the summit 
 sharp. During the crisis, and for a day or two thereafter, the pulse 
 may be weak, compressible, and dicrotic, and occasionally irregular. 
 
 The sounds of the heart and its impulse are weakened, except possibly 
 during the first few days of the primary paroxysm. Blood-murmurs 
 over the base of the heart and along the great vessels in relapsing fever 
 were first noticed by Stokes, and have been frequently observed in subse- 
 quent epidemics. They were found in a large proportion of our cases, 
 not rarely in both paroxysms, and during the early stage of convalescence 
 when anaemia was marked ; but during the intermissions they are rarely 
 audible, and when the action of the heart was slow they were replaced by 
 prolongation of the first sound. 
 
 It must be further noted that the pulse-rate is not a reliable indication 
 of the danger in this disease, since, just as is the case with the hyper- 
 pyrexia, extreme rapidity of pulse may be present when the general 
 symptoms denote no unusual danger, and when the patient ultimately 
 recovers most satisfactorily. 
 
 There is a remarkable disproportion and dissimilarity between the 
 cerebral and peripheral nervous phenomena in relapsing fever and 
 those familiar to us in typhus and typhoid fevers. We have seen that 
 patients almost invariably complain of headache. When prodromes are 
 present it is commonly among them, and it may be the initial symptom 
 to usher in each paroxysm. When the attack is fully developed head- 
 ache is usually very severe, and no symptom is more bitterly complained 
 of. It varies in seat and character. More commonly it is frontal or 
 general ; occasionally we found it occipital, and still more rarely it was 
 unilateral, constituting hemicrania. It rarely continues during the relapse. 
 Headache of an equally acute and violent character may be present in 
 typhoid, but the headache of typhus is much more dull and coutusive. 
 
 1 Op. cit., p. 140. ' Op. tit., p. 103.
 
 384 RELAPSING FEVER. 
 
 The mental condition is only- exceptionally affected, a circumstance 
 which greatly increases the patient's perception of his sufferings. Delir- 
 ium is not 'present in ordinary cases, even though very severe and 
 attended with hyperpyrexia ; or if present is limited to the period 
 immediately preceding the crisis, when there may be violent and noisy 
 delirium of transient character. In some of our cases forcible restraint 
 was necessary under these circumstances. 
 
 There are numerous instances on record showing the abruptness with 
 which noisy, demonstrative, or even destructive delirium may appear, 
 and the equal suddenness with which in the course of a few hours, or 
 even of fifteen minutes, the patient may become rational and composed. 
 Such attacks resemble hysteroidal spells, and probably occur more readily 
 in patients of a nervous or hysterical temperament. They were certainly 
 more common when the patients had been of intemperate habits ; and, 
 further, we had opportunities of noting that the occurrence of relapses 
 in habitual drunkards who had previously suffered with delirium tre- 
 mens was apt to develop a form of delirium which was to all appearance 
 of that nature. 
 
 Delirium of a different and much more grave type may appear in con- 
 nection with the symptoms of the typhoid state. In some cases this 
 results from the presence of serious complications which induce a state 
 of great prostration, while in others it is associated with great diminution 
 or entire suppression of urine. The delirium under these circumstances 
 is apt to be low and muttering, with a tendency to pass into stupor or 
 profound coma. 
 
 Vertigo is present more frequently and in a more persistent form than 
 in any other febrile disease. It was noticed as among the occasional 
 prodromes, and was especially severe for the first few days of the initial 
 paroxysm, though it often continued throughout this stage and recurred 
 with the relapse. Occasionally it was complained of in the recumbent 
 position, but usually it was excited only by a change of position. 
 
 Wakefulness was one of the most distressing symptoms in all cases, 
 and appears to have been noted in all epidemics. Although the severity 
 of the pain in various parts of the body and the absence of blunting of 
 the perceptions would naturally cause much loss of sleep, the degree of the 
 insomnia and the obstinate resistance it offers to the action of anodynes 
 are apparently far in excess of what could thus be accounted for. Parry 
 found that several of his patients could take as much as three grains of 
 opium every second hour throughout the afternoon and night without 
 either inducing sleep or causing contraction of the pupils. 
 
 Convulsions are rare and of very grave import. They may occur at 
 the period just preceding crisis, when the nervous irritation is most 
 intense, and are then somewhat less indicative of a fatal result than if 
 occurring in the course of the paroxysm, when they are apt to be asso- 
 ciated with extreme prostration of the nervous centres, with a tendency 
 to subsequent fatal coma. No connection has been observed between 
 their occurrence and the presence of albumen in the urine. 
 
 General tremor is rare, and was observed only in those of our cases 
 where there had been habitual intemperance, witl/presuniably a tendency 
 to delirium tremens. Muscular rigidity was noticed occasionally, but 
 may have been only apparent, being induced by the hypersesthesia and
 
 DETAILED STUDY OF SPECIAL CONDITIONS. 385 
 
 soreness which were marked in some cases. The hypersesthesia which 
 was observed was both cutaneous and muscular, and was attended with 
 tenderness of the body of the muscle, and also of the nerve-trunk sup- 
 plying it. Meschede speaks of opisthotonos as a rare complication in 
 his cases. 
 
 Motor paralysis involving single muscles or groups of muscles is occa- 
 sionally noticed, as of the deltoid or of one arm (Meschede). Parry 
 observed transient loss of power of the extremities in several cases, 
 chiefly during the intermission or the period of convalescence. In 
 one of our cases temporary hemiplegia occurred, with partial loss of 
 sensation on the aifected side. 
 
 The bladder and rectum are rarely aifected, except in cases where the 
 typhoid state with tendency to coma is present. Disorders of sensation 
 are, however, much more common. When motor palsy occurs the aifected 
 part may also be the seat of impaired sensibility, while in a large pro- 
 portion of all cases numbness of the extremities, with or without a sense 
 of tingling, is complained of; out of 182 cases we noted this symptom 
 in 94, affecting the fingers alone in 62, the feet alone in 6, and all the 
 extremities in 25 cases. Cutaneous hypersesthesia or partial anaesthesia 
 are also occasionally observed. But the most noteworthy and constant 
 symptom of this class are the pains in the muscles and joints which are 
 bitterly complained of by nearly all patients with relapsing fever. They 
 constitute, indeed, one of the highly characteristic features of the disease, 
 and possess a diagnostic value. They may occur among the rarely present 
 prodromes, but usually they appear with the chill and increase in intensity 
 during the paroxysm ; they may persist with even greater severity during 
 the intermission, or, if they have then subsided, recur with the relapse, 
 and may constitute one of the most troublesome hindrances to convales- 
 cence. It will thus be seen that in frequency, severity, and persistency 
 they differ widely from the aching pains in the extremities complained 
 of in typhus and other specific fevers. They are one of the most potent 
 causes of the extreme insomnia, and are apt to dwell in the mind of the 
 patient so vividly that he dreads each relapse on this account, and con- 
 sequently looks back upon his attack of relapsing fever as a terribly 
 painful experience. These pains are usually described as rheumatic in 
 character, and several times patients presenting themselves at the hospital 
 on the second or third day of the initial paroxysm stated that they had 
 inflammatory rheumatism. As a fact, we observed the utmost intensity 
 of these pains in a few cases where the patients were of marked rheu- 
 matic diathesis. The nape of the neck, the muscles of the trunk or 
 extremities, or the large or small joints, or lower parts of the spinal 
 region, may be the seat. At times they extend along the course of nerve- 
 trunks. In character they are described as a deep intense aching, with 
 occasional severe or excruciating, sharp, lancinating pains. Pressure or 
 movement increases them. The joints are not red or swollen (though 
 swelling may appear as a sequel), and the pains seemed to us rather to be 
 referred to the joints than to be caused by any local irritation therein. 
 As already stated, there is often tenderness of the body of the muscles, 
 and this was especially marked in many of our cases on pressure along 
 the course of the nerve-trunk. 
 
 Murchison suggests that they are due to the circulation in the blood of an 
 
 VOL. I. 25
 
 386 RELAPSING FEVER. 
 
 abnormal substance, such as uric, lactic, or phosphoric acid ; but it appears 
 to us altogether probable that they are rather to be connected with states 
 of congestive irritation of the sheaths of the nerve-trunks (early stage 
 of perineuritis), or possibly in some cases of the spinal membranes also. 
 It is true that they are sometimes shifting in their seat and fluctuating in 
 their severity, but this is not inconsistent with the above suggestion, while 
 the widespread irritative processes found in this remarkable disease, the 
 resemblance of these pains and the frequently attendant numbness and 
 tingling to the sensations caused by other forms of perineuritis, and the 
 occasional development of local palsies of a single muscle or group of 
 muscles, all are in its support. 
 
 The special senses are acute, sometimes painfully so. The eyes are watery 
 and occasionally injected, but this latter condition is rare and slight in 
 relapsing as compared with typhus fever. At the crisis and for a few days 
 subsequently wide dilatation of the pupils is not infrequently observed. 
 Duluess of hearing was present during the paroxysm in 14 of our cases, 
 and a few patients complained of tinnitus ; but these symptoms are not 
 at all common in the disease, although it will be seen hereafter that 
 affections of the middle ear are among its sequelse. 
 
 Debility is not such a prominent symptom as in typhus and typhoid 
 fevers. Patients manage to drag themselves about for several days dur- 
 ing the initial paroxysm with all the symptoms fully developed, and after 
 admission to the hospital mil often be able to help themselves, or even to 
 rise from bed, unless prevented by the severe pains or the vertigo. Still, 
 there are many cases, not necessarily of very grave type, in which there is 
 a marked sense of weariness and exhaustion, and of course in all cases of 
 typhoid character the prostration is great. It must constantly be borne 
 in mind that even when the patient feels or seems able to sit up he must 
 on no account be permitted to do so, since the occurrence of sudden and 
 fatal syncope is one of the accidents constantly to be apprehended. It is 
 not only during the pyrexia that this precaution must be enforced ; we 
 meet with extreme debility during the intermission in some cases, and 
 syncope has followed exertions made at that period as well as at 
 others. 
 
 During the paroxysms the respirations are much accelerated, at times 
 to a greater degree than would correspond with the pulse-rate, while at 
 others extreme rapidity of pulse may be associated with moderate eleva- 
 tion of the rate of respirations. 
 
 ^ As examples of the relation between temperature, pulse, and respira- 
 tions we quote the following from our records of adult cases : 
 
 (a) Temperature, 108 ; pulse, 124 j respiration, 40. In the relapse ; 
 no chest trouble. 
 
 (6) Temperature, 107.5; pulse, 120; respiration, 28; falling to tem- 
 perature, 96 ; pulse, 68; respiration, 18, within twelve hours, during 
 which crisis occurred. 
 
 (c) Temperature, 107; pulse, 144; respiration, 31. In the relapse. 
 
 (d) Temperature, 107 ; pulse, 108 ; respiration, 44. Initial paroxysm ; 
 no pulmonary congestion. 
 
 Temperature, 106; pulse, 116; respiration, 28. Kelapse; no pul- 
 monary congestion. 
 
 Temperature, 97 ; pulse, 76 ; respiration, 24. Critical fall ; cough,
 
 DETAILED STUDY OF SPECIAL CONDITIONS. 387 
 
 congestion of lungs posteriorly, and left one relatively dull on per- 
 cussion, but pneumonia did not develop. 
 
 In many epidemics bronchitis, hypostatic congestion, and pneumonia 
 are of rare occurrence, while in others, as in Philadelphia in 1870, they 
 are comparatively frequent and lead to serious respiratory symptoms. 
 While the pyrexia was high there was very frequently an irritative dry 
 cough, with the fine crepitant and subcrepitant rales attending congestion 
 and imperfect expansion of the lungs heard at the middle and lower por- 
 tions of the chest posteriorly. In numerous instances the rales would 
 disappear entirely after a few full inspirations in the sitting posture, just 
 as in the corresponding condition in typhoid fever. But in a consider- 
 able proportion of all the cases (fully 35 per cent.) there was more trouble- 
 some bronchial cough, associated with sonorous, sibilant and subcrepitant 
 rales, with mucous or muco-purulent expectoration. 
 
 Bronchitis of this character was a source of serious annoyance to many 
 patients. In several cases there was impaired resonance at the lower 
 margins of the lungs posteriorly, with imperfect bronchial respiration, 
 but without the symptoms of fully-developed pneumonia. Such condi- 
 tions were regarded as due to hypostatic congestion, and proved amenable 
 to treatment. Pneumonia occurred in eleven cases out of 200 recorded 
 with reference to this complication. It will be more fully discussed 
 under the head of Complications. It was attended with the usual 
 physical signs, and gave rise to extremely rapid and labored breathing, 
 especially when associated with painful enlargement of the liver and 
 spleen. In a case of double pneumonia, with enlarged and ruptured 
 spleen, the respirations were from 80 to 90 for two days, the pulse being 
 130 to 136. It was a very fatal complication, death resulting in all but 
 two instances. 
 
 Leyden l has shown that though the percentage of carbonic acid in the 
 air expired during the pyrexia is diminished, the total quantity exhaled 
 is increased, the proportion being as 1>5 to 1 in the non-febrile state. 
 
 Elaborate investigations have been made of the condition of the urine 
 in relapsing fever by numerous observers, and in the Philadelphia epi- 
 demic of 1870 we had the great advantage of being assisted by the dis- 
 tinguished chemist, the late Horace B. Hare, who conducted an extensive 
 series of analyses in our cases. In a number of cases quantitative anal- 
 yses were continued daily throughout the entire course of the disease. 
 
 As a rule, the quantity of the urine is comparatively free during the 
 febrile periods, very scanty at the time of crisis, except in the cases where 
 critical discharges of urine occur, and excessive for some days after the 
 crisis. 
 
 Still, there were not rare exceptions, especially to the first of these 
 statements. Thus on four successive days of the relapse of a severe 
 case with delirium, but without albumen, and which ultimately recovered, 
 the analysis gave 
 
 Temperature. Amount in com. . 8p. gr. Urea In Grm. Na. CL 
 
 103 400 1024 23.8 2.64 
 
 105 300 1025 15.27 1.95 
 
 106 500 1024 24.7 4.3 
 106 to 97 850 1021 24.735 5.525 
 
 1 "IT. d. Resp. in Fieber," Deutsch. Arch. f. klin. Med., 1870, 536, quoted by Murchison.
 
 388 RELAPSING FEVEE. 
 
 And in another severe case, also resulting in recovery, the analysis was, 
 for two days preceding the crisis of the initial paroxysm 
 
 Amount. Sp. gr. Urea. Na. Cl. 
 
 500 1014 12.9 Traces of albumen. 
 
 650 1014 15.85 1.365 
 
 After the crisis : 
 
 2250 1004 18.9 15.75 No albumen. 
 
 And again, in another case at the height of the initial paroxysm, within 
 twenty-four hours of the crisis, no vomiting, purging, or epistaxis being 
 present ; temperature 105 ; only 500 ccm. was passed of dark reddish 
 colored urine, non-albuminous, and with sp. gr. 1011. 
 
 In a fatal case there was total suppression of urine for three days, the 
 catheter drawing off only a few drops of almost pure liquid blood. 
 
 When crisis occurs by copious urination the discharges are frequent, 
 large, and of light color and low specific gravity. 
 
 The urine of the intermissions is of similar character, and for several 
 days after crisis it is not rare to have 2000 to 2500 ccm. passed. The 
 largest amounts we noted were in a man who recovered, and who passed 
 at the crisis of the relapse and during the following days the amounts 
 here given . 
 
 Amount. Sp. Gr. Urea. Na. Cl. 
 
 1000 ccm. 1010 14.9 2.6 
 
 2000 
 3550 
 2600 
 2800 
 2500 
 2700 
 
 1003 20.2 42.8 
 
 1002 26.625 130.995 
 
 1002 19.24 27.30 
 
 1005 24.96 22.66 
 
 1013 47.25 11.25 
 
 1014 59.13 7.29 
 
 Carter reports a case where the patient continued for two weeks after 
 the relapse to pass 130 oz. of sp. gr. 1002.6. 
 
 The amount of urea varies considerably, and is evidently under 
 the influence of complicated conditions. The rule appears to be that 
 it increases during the paroxysms, diminishes during the crisis, in- 
 creases during the few days following crisis, and then falls off again. 
 These results are stated upon the authority of Murchison, quoting from 
 Pribram and Robitschek, Wyss and Bock, and others. Our own obser- 
 vations, however, while agreeing in the main with these, show that there 
 are numerous and important exceptions, especially to the occurrence of 
 the post-febrile increase in the elimination of urea. 
 
 The largest amount of urea excreted in twenty-four hours by any 
 of our patients was 59.13 grammes, or 912 grains, on the sixth day 
 after the end of the relapse, but as much as 74 grammes (1142 grains) 
 have been found. 
 
 Deposits of urates were very common in the urine of the paroxysms 
 and of the crisis. The uric acid has been found increased, and so also 
 have the phosphates, crystals of which are frequently found mixed with 
 the urates. 
 
 _The chlorides diminish during the paroxysms, until just before the 
 crisis their amount is very small, or they may even have disappeared. 
 Immediately after the crisis they reappear slowly or quickly, and even
 
 DETAILED STUDY OF SPECIAL CONDITIONS. 389 
 
 very large amounts may be discharged, as seen in the figures given by 
 Hare's analyses : 2.6 grm. on day of crisis, 42.8 grm. the following 
 day, and the enormous amount of 130.995 grm. on the next day. A 
 copious flow of urine corresponds with great augmentation in the amount 
 of the chlorides. 
 
 Bile-pigment was constantly present in jaundiced cases, the amount 
 being proportioned to the depth of the jaundice and the quantity of the 
 urine. Bile-acids have been detected (Carter and Schmidt), and also 
 leucin and tyrosin (Pribram and Robitschek). 
 
 Albumen, with or without tube-casts, is not uncommonly found, and 
 traces of sugar have been detected in a few cases. More careful consid- 
 eration will be given to these under the head of Complications. 
 
 The following appearance of the tongue has been repeatedly described, 
 and when present may be regarded as possessing some diagnostic value : 
 The body of the tongue slightly swollen, so as to show the impressions 
 of the teeth, and by the second day the central part of the dorsum 
 covered with a peculiarly white fur, while the edges and a small trian- 
 gular space at the tip are clean and red. Such a tongue was seen in 
 many cases at the beginning of the Philadelphia epidemic, but later it 
 was present in but a small proportion. We find it specially mentioned 
 in 97 of our recorded cases, or about 50 per cent., the general descrip- 
 tion being given that it was moist, rather large, with pink, clear edges, 
 and a triangular clear space at the tip, and with heavy white fur in the 
 centre. 
 
 Some accurate observers, as Wyss and Bock, did not notice anything 
 peculiar about the tongue, but merely described it as moist and coated 
 with a thick white fur. The tongue often remains moist throughout the 
 case, the coat becoming yellowish, and later brownish. Of course if 
 there is nasal obstruction from epistaxis or catarrh, and the patient 
 breathes through the mouth, the tongue will soon become dry and 
 brown ; but in addition, this state of the tongue with sordes on the 
 teeth and lips, appears in a small proportion of cases (3 per cent., Zuel- 
 zer; 12 per cent, of our own patients) in conjunction with grave typhoid 
 symptoms. 
 
 During the intermissions the tongue clears off quite rapidly, unless 
 marked gastric disturbance persists, but regains its former state as soon as 
 the relapse occurs. 
 
 In rare cases the tongue is red and glazed, and Parry and ourselves 
 observed peculiar painful cracks continuing obstinately after the relapse. 
 It is apparent, therefore, that the tongue presents evidences of vitiated 
 secretions, of local catarrh of the buccal mucous membranes, and of the 
 high grade of gastric irritation so constantly attendant on this disease. 
 
 As a rule, there is complete anorexia during all of the febrile par- 
 oxysm, while in the intermission the appetite soon returns, and is some- 
 times truly ravenous. We did not, however, observe in any case a 
 voracious appetite during the febrile paroxysms, such as was very often 
 present during the London epidemic of 1843 and the Irish epidemic of 
 1847, and is particularly mentioned by Murchison. 1 
 
 Thirst is constant and intense, and is excited not only by the high tem- 
 perature, but by the irritation of the stomach ; it may continue through 
 
 1 Op. dt,, p. 360.
 
 390 ' RELAPSING FEVER. 
 
 the intermission, when natural appetite and the power of digesting solid 
 food have returned. 
 
 Nausea and vomiting are always prominent symptoms, and most espe- 
 cially so in children. In some cases nausea occurs among the prodromes ; 
 and occasionally the attack is ushered in by profuse and uncontrollable 
 vomiting instead of by a chill, and the stomach continues entirely non- 
 retentive throughout the paroxysm. Vomiting is not usually so obstinate 
 and severe, however, and with extreme care in feeding and medication it 
 will often be allayed after two or three days. It occasionally recurs pro- 
 fusely immediately before the crisis, as in the case given in full at page 
 394, where after a violent attack of vomiting the patient fell asleep, and 
 awakened in a profuse sweat. 
 
 This symptom was present in 146 out of 182 of our cases, was usually 
 confined to the febrile stages, and was, as a rule, worse in the initial 
 paroxysm. 
 
 The matters vomited consist of the ingesta colored with bile, of glairy 
 mucus tinged with bile, or of green bile, sometimes in considerable quan- 
 tity. Small particles of blood may occasionally be noticed in the matters 
 vomited, and in rare instances true hematemesis occurs. Judging 
 from the frequency with which in fatal cases we find ecchymoses of 
 the gastric mucous membranes with blood-stained mucus in the cavity 
 of the stomach, we should expect black vomit to be more often observed 
 than is the case. Murchison (p. 361) states that it was not noted in any 
 British epidemic except that of 1843, and then it occurred in only a few 
 cases, although it seems to have varied in frequency at different places. 
 Arrott at that time described the symptoms as "quite common" in 
 the fever at Dundee ; and "W. Reid of Glasgow recorded the case of a 
 girl in the same epidemic who vomited large quantities of clotted blood, 
 and who also had hemorrhages from the bowels and from the ears. It 
 has occasionally been observed in the continental epidemics. It was 
 observed in four of our cases. By all who have observed blood-vomiting 
 in relapsing fever it is recognized as a symptom of almost invariably 
 fatal import. Three of the four cases in which we observed it proved 
 fatal, but one patient, who had copious hematemesis, both at the close of 
 the first relapse and during the second relapse, recovered after a desperate 
 and protracted struggle. 
 
 The bowels are not so often constipated as in typhus, and it is not rare 
 for diarrhoea and constipation to alternate, or for the bowels to be loose 
 throughout the paroxysms. They are noted in 181 of our cases as regu- 
 lar in 32, loose iu 61, and constipated in 88 instances. Meschede states 
 that diarrhoea was present in nearly one-half the cases of the Konigsberg 
 epidemic of 1879, though usually as a late symptom, the early stage 
 being marked by constipation, which in a few cases persisted throughout. 
 The stools may be consistent and dark or thin and bilious, or occasionally, 
 when gastric or intestinal hemorrhage has occurred, they contain black 
 coffee-ground matter. Occasionally, the diarrhoea has a critical character, 
 and occurs at the close either of the initial paroxysm or of the relapse, 
 though it may not entirely substitute sweating. This mode of crisis 
 occurred in two of our cases, but Douglas observed it in 6 out of 33 
 cases. 
 
 The abdomen may appear enlarged, but this is as much the result of the
 
 DETAILED STUDY OF SPECIAL CONDITIONS. 391 
 
 enlargement of the liver and spleen as of gaseous distension, which is rarely 
 present in a high degree. Abdominal pain is almost constant, and may be 
 very severe. It is especially mentioned as having been present in 148 out 
 of 182 of our cases. It commonly extends throughout the epigastrium and 
 both hypochondria, but may be present on one or the other side, while, 
 on the other hand, there may be general abdominal soreness. It is asso- 
 ciated with tenderness on pressure, which may be so great as to hinder 
 the movements of the trunk and to render the descent of the diaphragm 
 in breathing painful. This may be the first symptom to usher in the 
 attack, and it occurs at an early stage in most cases. Many of our 
 patients when admitted to the hospital had already been cupped or blis- 
 tered over the region of the liver or spleen. This distress was greatest 
 in cases attended with jaundice and marked gastric irritation ; and Parry 
 reports that in his cases (occurring in the early part of the epidemic 
 which we studied) jaundice was rare (4 out of 37), and abdominal ten- 
 derness was not present. It is not difficult to explain its almost 
 universal presence in view of the severe lesions of the substance of 
 the liver and spleen, the distension of their capsules from the acute 
 swelling of the organs, and the implication of the coats of the stomach. 
 
 Enlargement of the liver and spleen probably exists to a greater or 
 less degree in every case of relapsing fever without exception. This 
 statement is based on the concurrent testimony of accurate observers in 
 all epidemics and upon the evidence of post-mortem examinations. 
 
 The enlargement of the liver can be demonstrated in nearly all 
 instances by careful percussion. It varies greatly in its degree, however ; 
 in mild cases, it may be slight, while in severe ones the liver may be 
 found extending at least three inches below the margin of the ribs 
 within three or four days from the initial symptom. In our own fatal 
 cases the weight of the liver averaged between four and four and a half 
 pounds. 
 
 The spleen enlarges even more rapidly and to a greater degree than the 
 liver. In fact, its enlargement in relapsing fever is greater than in any 
 other acute disease. It may be detected by percussion by the first or 
 second day, and may then continue to rapidly increase until by the fifth 
 or sixth day a large painful mass is readily recognized by palpation and 
 percussion, or even by inspection. The organ often weighs twelve or 
 sixteen ounces, not rarely twenty to twenty-five, and, as an instance of 
 the extreme limit that may be reached, Kiittner reports sixty-eight ounces 
 in one case. This enlargement is greatest toward the close of the first 
 or second paroxysm, and subsides quite rapidly in most cases during the 
 intermissions and as convalescence progresses ; we have, however, known 
 a moderate degree of enlargement of the spleen to persist for some weeks 
 after the crisis of the last paroxysm. 
 
 The occurrence of jaundice in a considerable proportion of cases of 
 relapsing fever is a clinical fact of much interest. Its frequency varies 
 greatly in different epidemics, and even at different stages of the same 
 epidemic. At times it is rarely met with (1 out of 14, 20, or 35 cases), 
 while in other epidemics it is present in 1 out of every 6, 5, or even 4 
 cases. Of 182 of our own cases jaundice is recorded in 45, or exactly 
 in 1 out of 4. According to our observation, it occurred in a larger 
 proportion of cases among negroes (14 out of 32) than in whites, and
 
 392 RELAPSING FEVER. 
 
 StillS states that it occurred in nearly every such case that came under 
 his observation. When present it usually occurs during the first par- 
 oxysm, and may be limited to that stage ; or, again, it may be present in 
 each of ^three or four successive paroxysms in the same case ; or, finally, 
 it may first appear in the relapse. As a rule, it subsides speedily after 
 the crisis, though Carter states that in two or three cases the symptom 
 made its first appearance just after the crisis. It varied from the slight- 
 est yellow tinge of the conjunctiva to the deepest staining of the whole 
 surface. The urine is discolored in proportion to the intensity of the 
 jaundice, and the serum of a blister will be deeply tinged. It must be 
 carefully noted, however, that the feces are not decolorized, but, as 
 already described, contain fully a normal amount of biliary coloring 
 matter. This fact has been relied on by Murchison and others to prove 
 that the jaundice in relapsing fever is purely dependent on the morbid 
 state of the blood, and is not due to obstruction of the biliary passages ; 
 and we are prepared to admit that the element of blood-dyscrasia may 
 play a part in the production of the jaundice. The anatomical evidence, 
 however, given on page 414, renders it probable that in many cases ai 
 least the essential cause is to be sought in an obstructed state of the 
 minute gall-ducts of certain areas of the liver. If the main hepatic 
 duct or the common duct were obstructed, there would of course be 
 paleness of the feces, as the bile would be prevented from entering the 
 duodenum. But when a large amount of highly-colored bile is being 
 secreted, as in relapsing fever, it seems clear that the obstruction of a 
 certain number of minute ducts would cause sufficient resorption of the 
 bile to induce jaundice of varying degrees of intensity, while at the same 
 time allowing a flow of bile through the patulous ducts. 
 
 Jaundice must be regarded as an unfavorable or even a grave symp- 
 tom in relapsing fever, but not to the extent that would be the case 
 ^ere it directly connected with the intensity of the blood-dyscrasia. 
 Many of the most violent cases in all epidemics have been unattended 
 with jaundice, while, on the other hand, many cases in which jaun- 
 dice has been marked " have had not a single symptom that made them 
 differ from ordinary cases excepting the yellowness" (Henderson). It 
 follows, therefore, that the gravity of a certain proportion of the jaun- 
 diced Ceases does not follow directly from the presence of bile in the blood 
 and tissues, but from the lesions of the liver of which the jaundice is a 
 symptom, or from the existence of widespread irritation of many parts 
 of the body. Thus jaundice is present in an unusually large proportion 
 t the cases attended with marked enlargement and tenderness of the 
 li ver and spleen, whether vomiting is also present in extreme degree or 
 not. It was noteworthy that it was disproportionately frequent in 
 negroes, and that in these patients the lesions of the liver and spleen 
 were also unusually pronounced. Again, jaundice is present in an 
 unusually large proportion of the cases attended with low delirium, 
 extreme prostration, defective secretion of urine, and the other features 
 of the typhoid state so much so that such cases have been described by 
 various writers under the name of bilious typhoid fever. 
 
 But, as already stated, it is not legitimate to consider the gravity of 
 these cases as the result of the jaundice, but rather that the jaundice is 
 merely a symptom of the widespread irritative lesions, which in such
 
 SYMPTOMS ATTENDING THE CRISIS. CONVALESCENCE. 393 
 
 cases not only involve the liver and spleen, but the kidneys, the lungs, 
 the marrow of the bones, the muscle of the heart, and occasionally the 
 membranes or substance of the brain and cord. 
 
 The true prognostic value of jaundice in relapsing fever would then 
 seem to be, that of itself it indicates merely an obstructed state of a 
 certain number of minute bile-ducts, but that its presence justifies the 
 apprehension that the local lesions of the liver may become excessively 
 developed, or that there is a tendency to widespread tissue-changes which 
 at a later stage of the disease may lead to the appearance of grave con- 
 stitutional disturbance of a typhoid type. 
 
 Hemorrhage in relapsing fever is not uncommon, and may occur from 
 various surfaces. Epistaxis is, however, the only form which is frequent 
 enough to justify being regarded as a symptom. It usually occurs in 
 from 5 to 15 per cent, of cases of relapsing fever, but in the Philadel- 
 phia epidemic it was much more frequent than this, occurring in not less 
 than 83 out of 182 of our cases. It was not more frequent or profuse 
 in grave cases than in those of ordinary severity, and consequently could 
 not be regarded as a reliable indication of the intensity of the blood- 
 dyscrasia. Although ordinarily moderate in amount, it was occasionally 
 so copious and persistent as to require prolonged plugging of the nostrils, and 
 in at least one case contributed chiefly to cause ( an intense anaemia, which 
 long delayed convalescence. It occurs at all periods of the paroxysms, 
 but more commonly toward the close. In fifteen of our cases extraordi- 
 narily profuse epistaxis attended the crisis, and evidently replaced in part 
 the copious sweating by which the paroxysm more commonly terminates. 
 
 SYMPTOMS ATTENDING THE CRISIS. We have already described the 
 aggravation of all the symptoms which immediately precedes the crisis in 
 typical cases of relapsing fever, and the abrupt fall of temperature, and 
 usually of the pulse, that follows. But this extraordinary change is 
 nearly always attended with some profuse critical discharge, of which 
 sweating is by far the most common, though copious epistaxis, 
 metrorrhagia, diarrhrea, or vomiting may also occur, and to a greater or 
 less degree, but seldom entirely, replace the sweating. In 182 cases in 
 which we carefully noted the mode of termination of the paroxysm there 
 was no definite crisis (termination by lysis or gradual and irregular defer- 
 vescence) in 76 ; profuse sweating, 89 ; profuse epistaxis, 15 ; profuse 
 diarrhoea, 2. 
 
 In most epidemics the proportion of true crises is greater than in the 
 above table a fact dependent upon the unusually severe and complicated 
 form of the disease which we were studying. The beginning of the 
 sweat may be preceded by chilliness or rigors, by extreme and dangerous 
 prostration, or by violent nervous disturbances ; or there may be an 
 attack of profuse vomiting, followed by sleep, during which sweating 
 begins. The sweat may be moderate in amount, but is often extraordi- 
 narily copious ; the patient is literally bathed in it, the bed- and body- 
 clothing is saturated, and we have seen the mattress saturated. It has an 
 acid reaction, but we do not know of any accurate analyses of it. Some 
 writers have attributed to it a characteristic disagreeable odor, but we did 
 not notice any in our cases that could be considered peculiar to this dis- 
 ease. 
 
 CONVALESCENCE. We have already stated the average duration of
 
 394 RELAPSING FEVER. 
 
 relapsing fever to be eighteen or twenty days, while the extreme limits 
 are from eighteen to ninety days. Despite the fact, however, that the 
 mortality is in most epidemics only about 5 or 7 per cent. greatly 
 less, therefore, than in typhus fever the convalescence from relapsing 
 fever is frequently slow and protracted. The obvious cause is, just as in 
 the case of typhoid fever, the existence of numerous and serious lesions 
 of the solids and the tendency to many troublesome complications and 
 sequelae. We have, however, seen many instances of rapid recovery of 
 strength and health, even after prolonged attacks with several successive 
 relapses. 
 
 The following case is quoted partly on account of the numerous 
 relapses, and the long duration of the sickness : 
 
 B. B. Y., medical student, was much exposed to the contagion of 
 relapsing fever in the wards of the Philadelphia Hospital during the 
 spring of 1870, and in May had an attack apparently of this disease, 
 which, however, subsided in four or five days and was followed by no 
 immediate relapse. He continued his attendance at the hospital during 
 the remainder of May and the whole of June ; in July took a trip to 
 the South, where there was no relapsing fever prevailing, and after exert- 
 ing himself for several days during intensely hot weather, he became 
 sleepless and much prostrated. He returned home, and after recovering 
 from the fatigue felt quite well for about a week, until 3 A. M., August 
 1st, when he was attacked with a severe chill, followed by great insomnia, 
 obstinate vomiting, intense headache, especially in the back of the neck, 
 occasional sweating, violent fever, recurrence of very severe chill the fol- 
 lowing day at 11 A. M., epigastric and hypochondriac tenderness, decided 
 jaundice, costive bowels, and scanty, high-colored urine. This paroxysm 
 lasted till the morning of August 9th, when severe vomiting took place, 
 followed by sleep, during which crisis occurred by drenching sweat last- 
 ing several hours. Appetite and strength soon began to return, though 
 some jaundice persisted, and by August 17th he felt able to drive out a 
 short distance, and retired feeling somewhat fatigued. He awoke with 
 pain in the back of the neck, which continued increasing till 11 A. M., 
 August 18th (second paroxysm), when a severe chill occurred, lasting 
 three hours and followed by the same train of symptoms, including jaun- 
 dice, which persisted five days, till Aug. 23d, when crisis again occurred 
 by sweating. On the 24th he felt well enough to use slight exercise, which 
 was followed by prostration and by a return of chill (third paroxysm) 
 the next day at 11 A. M., with subsequent headache, fever, irregular 
 sweats, etc., lasting but one day. Again felt well until Aug. 30th, when 
 he was attacked (fourth paroxysm) at 11 A. M. with severe chill, lasting 
 three hours, followed by severe paroxysm, lasting six days, till Sept. 5th, 
 when crisis again occurred by sweating. Again felt well for eight days, 
 until Sept. 13th, when the fifth paroxysm occurred, lasting five days, 
 ending Sept. 18th by critical sweating. This was followed by an inter- 
 mission of nine days, until Sept. 27th, at 11 A. M., when the sixth parox- 
 ysm occurred, lasting four days, and less severe than the preceding ones. 
 This was followed by an intermission of ten days, till Oct. llth, when 
 the seventh paroxysm occurred at the same hour of the day, and lasted 
 three days. He then went sixty miles from home to a fine, pine-bearing 
 district, and enjoyed an intermission of eleven days, when the eighth and
 
 VARIETIES. 395 
 
 last paroxysm occurred at the same hour, and lasted three dajs, until 
 Oct. 25th. His convalescence was very satisfactory, and he was enabled 
 to resume his studies by the middle of November. No sequelae occurred. 
 In 1878 Dr. Y., who had been working very steadily with a rapidly- 
 growing practice, was attacked with severe typhoid fever, with grave ner- 
 vous symptoms and with albumen and tube-casts in the urine, and died on 
 the twelfth day. 
 
 It will thus be seen that in this unusually protracted case there were 
 seven distinct relapses, one of which was brief and interrupted one of 
 the regular intermissions, while the rest were all severe. 
 Duration of 1st paroxysm, violent, 8 days. 1st intermission, 9 days. 
 
 2d 
 
 3d 
 
 4th 
 
 5th 
 
 6th 
 
 7th 
 
 8th 
 
 violent, 5 <f 2d 
 
 less violent, 1 day. 3d 
 
 severe, 6 days. 4th 
 
 severe, 5 " 5th 
 
 less severe, 4 " 6th 
 
 less severe, 3 " 7th 
 
 1 
 
 6 days. 
 
 10 
 
 11 days, followed by 
 
 mild, 3 " convalescence. 
 
 The total duration of the case, which was entirely free from complications, 
 was therefore ninety days. 
 
 VAEIETIES. The foregoing clinical description prepares us to appre- 
 ciate the varieties of relapsing fever that may be said to exist. They con- 
 sist of 
 
 The abortive form, in which a single paroxysm of variable length and 
 severity occurs, terminating in a critical fall of temperature and usually 
 with some critical discharge, but not followed by any relapse. There can 
 be no doubt of the existence of such cases, although they are not common ; 
 and at times the paroxysm is so slight that were it not for the known 
 exposure of the individual to the prevalent epidemic influence, in the 
 absence of any other adequate cause, the case might readily be regarded 
 as one of non-specific febricula. The caution must, however, be borne 
 in mind as to the occurrence of relapses of such extreme shortness of 
 duration (less even than twenty-four hours) as to readily escape notice 
 unless a careful watch be kept for their detection. 
 
 The ordinary or typical form, including the cases with one or two 
 relapses, presenting the usual variations in the severity of the symptoms 
 and in the duration of the paroxysms and of the intermissions. 
 
 The multiple or protracted form, if it be thought desirable to thus par- 
 ticularize cases presenting an excessive and unusual number of relapses, as 
 three, four, five, six, or even seven. 
 
 The grave or subintrant form, which is designed to include the highly 
 congestive form of Cormack and the bilious typhoid of Griesinger and 
 Lebert. 
 
 Under another heading (see relations to other diseases, p. 420) we shall 
 give reasons for regarding the bilious typhoid fever of Griesinger and 
 Lebert as merely a form of relapsing fever, with which a certain propor- 
 tion of cases of true typhoid fever complicated with hepatic catarrh may 
 have been included. 
 
 The characteristics of this grave subintrant form are as follows : Jaun- 
 dice, occasionally absent, but usually present in an intense degree ; marked 
 enlargement of the liver and spleen ; a tendency to hemorrhage from 
 various mucous surfaces ; extreme prostration ; defective or suppressed
 
 396 RELAPSING FEVER. 
 
 secretion of urine ; hypostatic congestion or inflammation of the lungs in 
 a large proportion of cases ; dry brownish tongue ; low muttering delir- 
 [om, often passing into stupor or coma ; hiccough ; imperfect crisis ; and 
 a continuance of some morbid phenomena, so that merely a remission 
 occurs to separate the paroxysms ; and a high percentage of mortality. 
 The great modification of the intermission which is so highly character- 
 istic of typhoid relapsing fever is doubtless due in chief part to the serious 
 local lesions developed, and seems to justify the name of subintrant as 
 above suggested. The course of such fever is well illustrated by the 
 following case, in which the characters of typhoid relapsing fever were 
 present in the highest degree, death occurring on the fifteenth day : 
 
 Charles Hood, colored, set. 28, of temperate habits, was taken ill on 
 April 5, 1870, after malaise lasting thirty-six hours, with fever, nausea 
 and vomiting, headache, and general aching throughout body ; and was 
 admitted to the hospital April 6th. There was already marked jaundice, 
 and epistaxis had occurred ; there were also insomnia ; wandering delir- 
 ium ; extreme tenderness over the liver and spleen, both of which were 
 enlarged ; dryness of tongue, vomiting, and distension of the abdomen. 
 These symptoms continued, his condition becoming daily more aggravated. 
 Restless delirium alternated with heavy sopor. The jaundice grew deeper. 
 Marked digital formication existed, but the arthritic pains were not so 
 severe as in ordinary cases. The tongue was dry and of a red orange 
 color. Profuse epistaxis occurred on the seventh day of the disease, 
 requiring plugging of both anterior and posterior nares, and followed by 
 great prostration. A gradual fall in the temperature occurred during the 
 sixth, seventh, and eighth days, reaching 99 on the latter day. During 
 this decline the delirium ceased and the mind remained merely dull ; the 
 jaundice decreased, as did also the tenderness of the hypochondriac zone. 
 The pulse and respirations improved, and diarrhoea ceased. The improve- 
 ment was but brief; for about eighteen hours he lay apyretic, with cool 
 hands and feet, and with eyes closed and mind dull but free from dilir- 
 ium. Fever then reappeared and with the ascent of the temperature the 
 unfavorable symptoms recurred. The relapse lasted but two days, and was 
 followed by irregular decline of fever till death occurred on the fifteenth 
 day of the disease. Obstinate hiccough appeared on the eleventh day, and 
 continued, accompanied with occasional vomiting on the fourteenth day. 
 Delirium alternating with sopor reappeared. Jaundice again became 
 marked, and again there was extreme tenderness over the liver and 
 spleen. The pulse grew small and feeble, the respirations shallow and 
 labored, with an expiratory moan. Cough began on the twelfth day, and 
 was soon followed by the physical signs of pneumonia of the lower lobe 
 of both lungs. The urine continued free from albumen. The patient 
 sank into deeper coma, and died on the fifteenth day. Post-mortem 
 examination showed highly-developed characteristic lesions of the spleen 
 and liver, with red hepatization of lower lobe of both lungs. There was 
 no affection of the glands of Peyer. The course of the fever is shown 
 in the following tracing (see Fig. 22). 
 
 COMPLICATIONS AND SEQUELJE. As would be anticipated from what 
 has been said of the wide range of the symptoms and of the remarkable 
 course of the temperature in relapsing fever, there are many complica- 
 tions and sequelae liable to occur, and which require special consideration.
 
 COMPLICATIONS AND SEQUELAE. 
 
 397 
 
 They may be classified according as they affect the febrile movement, the 
 state of the blood, or one or other of the groups of organs. 
 
 We have already described the various irregularities presented by the 
 febrile paroxysms and the intermissions, and no further allusion need be 
 made to mere variations in length, severity, or number of the former. 
 In rare cases, however, a peculiarity is presented, usually in the first 
 intermission, which is difficult of explanation. About twenty-four hours 
 
 FIG. 22. 
 
 From a case of the bilious typhoid or grave subintrant form of Relapsing Fever. See p. 396. 
 
 after an apparently complete crisis, with a fall of temperature to a sub- 
 normal point, there may be a sudden and rapid rise or rebound of tem- 
 perature to 104 or 105, attended with distressing symptoms of high 
 fever, but lasting only twenty-four or forty-eight hours. A good exam- 
 ple of this is given in the case described on page 394 ; and Carter l 
 cites several examples of it terminating either in recovery or in rapid 
 death. He asserts that examinations of the blood during such post- 
 critical febrile rebounds invariably showed an absence of spirilla, so 
 that in his opinion such fever must be considered non-specific. Their 
 explanation seems difficult, since the pyrexia is too brief to be associated 
 with any local inflammatory complication. 
 
 More frequent and serious is the protracted post-critical pyrexia which 
 we have already described as modifying the interval, so as to produce a 
 subintrant type by maintaining continuous though irregular fever until 
 the accession of the relapse, unless cut short by death. This post-critical 
 fever is non-specific, is unattended with spirilla in the blood, and is to be 
 associated with the extensive irritative processes in the liver, spleen, kid- 
 neys, lungs, and other parts that are present in these grave and compli- 
 
 1 Op. tit., p. 172.
 
 398 RELAPSING FEVER. 
 
 cated cases. It is to be noted that the course of those paroxysms which 
 terminate in lysis indicates that they may represent a milder type of the 
 above process. 
 
 The peculiarities of the delirium, amounting sometimes to maniacal 
 excitement, which attends some cases of relapsing fever, has been fully 
 described. 
 
 Less common are the following : mental hebetude, lasting some days or 
 even weeks after the close of the last paroxysm, or, as in a case of Carter's, 
 gradually increasing mental feebleness, terminating in imbecility. In 
 such cases suspicion must arise of the occurrence of some local lesion of 
 the membranes or substance of the brain. 
 
 Partial palsy is mentioned by numerous authors as occurring during or 
 shortly after attacks of relapsing fever. Paralysis of one or both deltoids 
 has been noted, the latter by Cormack, who saw it continue ten days after 
 the patient was well in all other respects. Temporary paralysis of the 
 forearm (Douglas) or of the whole arm (Parry, Meschede) has been 
 observed ; and Parry also describes loss of power in the legs lasting 
 for one week. In one of our cases temporary loss of power of the left 
 arm and leg occurred, attended with such impairment of sensibility that 
 the woman had to feel for the fingers of the left hand to assure herself 
 of their existence. This loss of power occurred during the initial par- 
 oxysm, and gradually passed away, but she was unable to stand alone on 
 the thirty-first day of the disease. In a case reported by Tennent 1 facial 
 palsy was developed six days after the second crisis. 
 
 Various explanations have been offered for these local palsies, but, as 
 already stated (see page 386), it seems probable that they are referable to 
 morbid conditions of the nerve-trunks, or, less commonly, of the spinal 
 cord. It must be noted, however, that in a certain number of autopsies 
 serious intracrauial lesions are found, which are evidently the results of 
 the attack of relapsing fever. These consist of abscess of the brain, men- 
 ingitis, and specially cerebral hemorrhage. This was present in one of oui 
 cases, but Carter found copious hemorrhage in no less than 8 out of 54 
 autopsies, and in 5 others there were minute capillary cerebral hemor- 
 rhages. Still, in nearly all the cases of large hemorrhage we have found 
 recorded the effusion was upon the surface of the brain, and this, com- 
 bined with the absence of true hemiplegia from the forms of paralysis 
 noted in relapsing fever, and the transient character of these palsies, 
 makes it clear that they are not to be explained by any considerable 
 cerebral hemorrhage. On the other hand, however, it must be admitted 
 that an additional possible cause of them is to be found in minute 
 hemorrhage into small areas known to govern the movements of certain 
 groups of muscles. Again, we have had occasion to note the occurrence 
 of both thrombosis and embolism among the lesions of relapsing fever, 
 and it s evident that either of these accidents, if involving^ compara- 
 tively small branch of a cerebral vessel in certain motor areas, might cause 
 transient paralysis, such as has been described. Nor can we fail to see 
 that, while such symptoms as the delirium, mania, coma, or subsequent 
 mental impairment may receive other explanations, it is possible that 
 they may arise from similar processes of minute hemorrhage, thrombosis, 
 or embolism involving other parts of the brain. 
 
 1 Glasgow Med. Jour., May, 1871, p. 379.
 
 COMPLICATIONS AND SEQUELAE. 399 
 
 The frequent occurrence of severe rheumatic pains in the muscles and 
 joints during the course of the disease has been dwelt upon (p. 385) ; but 
 in some cases they persisted during the intermissions and for a considerable 
 time after all other symptoms of disease had passed away. Occasionally 
 they greatly retarded convalescence by interfering with exercise and sleep. 
 These pains were mostly in the legs, and were increased by exercise, and 
 also seemed to be influenced by changes of weather. Patients who suf- 
 fered thus were also liable, after exposure or in consequence of severe 
 atmospheric changes, to sharp attacks of similar pains elsewhere, and 
 especially in the course of the intercostal nerves. Occasionally violent 
 and persistent headache follows the disease, not improbably associated 
 with changes in the membranes of the brain, although in other cases 
 severe neuralgia occurs in consequence of the anaemia which may remain 
 in an intense degree after the fever. Troublesome numbness and soreness 
 of the soles of the feet and of the palms of the hands, increased by pres- 
 sure, has been noted as a sequel persisting for several days or weeks. 
 
 Affections of the special senses are not rare. The most remark- 
 able among these is the affection of the eyes, which is apt to occur far 
 more frequently in connection with relapsing fever than with typhus 
 or typhoid. The proportion of cases in which this sequel appears 
 varies greatly in different epidemics. In the British epidemics of 
 1826 and 1843, when this form of post-febrile ophthalmia was first 
 accurately described by Mackenzie of Glasgow, it was very frequent; 
 and it was equally so in Finland in 1867-68, when Estlander 1 again 
 carefully studied it. 
 
 On the other hand, so far as can be stated in regard to a sequel which 
 may appear after convalescence is far advanced and the patient discharged 
 from medical care, it was very uncommon in the Philadelphia epidemic 
 of 1869-70. This ophthalmia may occur during the course of the fever, 
 but more frequently it begins during convalescence, and even some 
 months after convalescence has been established. It occurs in patients 
 of both sexes and at all ages. Usually it affects but one eye, but both 
 may be attacked simultaneously or consecutively. Patients who were 
 very ill-nourished and debilitated were most apt to present this sequel, 
 and Murchison regards previous starvation as one of its main causes. 
 The exciting cause and true pathology appear obscure as yet, however, 
 and the existence of a neural origin is not improbable. In some cases 
 the ophthalmia has seemed to result directly from exposure to cold. 
 Among our own patients, as already stated, eye symptoms were less 
 common and severe. A careful record of 184 cases was kept in reference 
 to this question. Several patients complained of diplopia during the 
 febrile stage, and one asserted that every object appeared fourfold to 
 him. Conjunctivitis of moderate severity, usually associated with otor- 
 rhoea, occurred in about 5 per cent, of our cases ; it generally affected 
 only one eye, and occurred in a few instances as late as the third week 
 after the relapse. In a few cases (four) also there was dulness of vision 
 in one eye, noted during the course of the disease and persisting for some 
 time after convalescence began. In only one instance, however, did per- 
 manent impairment of vision ensue, and this man had passed through 
 a violent attack of the fever with unusually grave nervous symptoms. 
 
 1( 'U. Choroiditis nach Febris Kecurrens," Arch.f. Ophth., 1869, Bd. xv., Abth. ii., 108.
 
 400 RELAPSING FEVER. 
 
 It left him with optic neuritis on the right side, which induced partial 
 atrophy of the nerve and great limitation of the field of vision. Mes- 
 chede reports intraocular affections in 6 cases out of 180 specially exam- 
 ined, though it is not certain that such affections were directly connected 
 with the febrile process. Occular ecchymosis occurs in a small propor- 
 tion of cases, especially of the graver types. 
 
 Dulness of hearing is not so common in relapsing fever as it is in 
 typhoid. It was present in 14 out of 184 of our cases during the 
 course of the disease, and in a few instances partial or almost complete 
 deafness in one ear persisted after convalescence, owing doubtless to a 
 slight affection of the middle ear. In one case marked deafness 
 appeared suddenly on the day after the termination of the relapse by 
 crisis. Meschede 1 found disease of the middle ear in no less than 8 
 per cent, of his cases. 
 
 Purulent otorrhcea from one or both ears is of more frequent occur- 
 rence, and without any special exciting cause may present itself at any 
 time during the course of the disease or more commonly after the relapse. 
 In the same manner purulent coryza may occur. 
 
 The eruptions occasionally present during the fever have been described. 
 Bed-sores from pressure are much less common than in typhus, but are 
 met with in a small proportion of cases. As a rule, they are of moderate 
 size and heal quickly. Superficial gangrene of the lips, nose, and ears has 
 also been noted in rare cases (Zuelzer) in connection with gangrene of the 
 extremities, probably from embolism. The occasional occurrence of pain- 
 ful boils, of abscesses in the cellular tissues (Wyss and Bock), and the 
 more rare occurrence of erysipelas may be mentioned among the sequelae. 
 
 As already stated, the severe pains in the joints and members which 
 so frequently occur during relapsing fever are, as a rule, unattended by any 
 redness or swelling of the joints. In rare cases, however, there is effu- 
 sion into the joints during the fever, or more commonly there are attacks 
 during convalescence which simulate subacute rheumatic arthritis. Such 
 attacks may last but a few days, but in several of our cases there was 
 painful swelling of the knees, wrists, and fingers which persisted for 
 several weeks after the fever, being attended with slight crepitation on 
 motion, and altogether behaving like subacute rheumatism. 
 
 As would be expected from the severity of the fever, the marked 
 disorder of digestion, and the lesions of the spleen and liver in relapsing 
 fever, ansemia is a common sequel. In cases where there has also been 
 free hemorrhage, usually in the form of epistaxis, the anemia may indeed 
 reach an intense degree. 
 
 The cardiac murmurs which have been described as present in a certain 
 proportion of cases are dependent upon the blood-changes, and when the 
 anaemia is extreme these murmurs are also audible over the large veins 
 and the pulmonary artery, and persist after convalescence is fully 
 established. 
 
 GEdema of the lower extremities occurs in a considerable number of 
 cases. It is clearly due in part to the anaemia, but the cardiac debility 
 which follows the fever is also largely concerned in its production. It 
 was, indeed, marked in some of our cases where no anaemic murmurs 
 existed, but where there was great nervous and muscular debility. 
 
 1 Loc. cit.
 
 COMPLICATIONS AND SEQUELS. 401 
 
 Usually limited to the feet and ankles, it occasionally extended above 
 the knees, and in one case, where great anaemia and debility from fever 
 and over-exertion coexisted, there was oedema of the hands and wrists, 
 with great distension of the legs up to the" hips. It is not associated with 
 albuminuria as a rule, and yields readily to treatment and rest, in the 
 course of a few weeks. 
 
 Hemorrhages from various surfaces have already been mentioned, and 
 a full account given of epistaxis, which is by far the most common form. 
 Bloody vomiting has been noticed in a small proportion of cases in vari- 
 ous epidemics. It varies in amount, but is always attended with great 
 gravity of the attack, and usually is followed by fatal results. It 
 occurred in four of our cases, two of which presented also black stools 
 containing altered blood, and suppression of urine; while in another 
 it occurred at the close of the first relapse, and during the second 
 relapse was copious and repeated. In this case it was attended with 
 alarming symptoms of collapse, from which the patient rallied, and after 
 a desperate struggle recovered. 
 
 Blood may also be discharged from the bowels in such large amount 
 as to constitute actual hemorrhage a symptom of great gravity ; or in 
 small quantity and completely altered, so as to impart an inky black 
 color to the stools a condition not necessarily attended with urgent dan- 
 ger ; or, finally, there may be frequent bloody dysenteric stools. 
 
 Hemorrhage has also been observed from the uterus, from the kidneys, 
 from the ears, and from the old cicatrix of a syphilitic chancre. Hemor- 
 rhage occurred in 87 out of 183 of our cases, or in nearly 50 per cent. 
 It was from the nostrils in 82 cases, from the uterus in 1 case, from the 
 stomach in 4 cases, and from the cicatrix of a chancre in 1 case. 
 
 Sudden collapse occurs with such comparative frequency in relapsing 
 fever as to require special attention as one of its complications. It may 
 occur at any period of the disease, but it is most common at the crisis of 
 the first paroxysm or of the relapse. The symptoms are usually those 
 of cardiac failure, with rapid, small, and feeble pulse ; shallow and hur- 
 ried, or slow, labored, and imperfect respiration ; coldness of the extrem- 
 ities, while the central temperature may remain elevated ; muttering 
 delirium, rapidly passing into unconsciousness. Occasionally almost 
 instantaneous death occurs from syncope induced by some muscular 
 exertion, as standing up or even rising in bed. In other cases the symp- 
 toms indicate the development of cardiac thrombosis, and subsequent 
 examination has verified this opinion. In still other cases the symptoms 
 resemble those which occur in extreme hyperpyrexia dependent upon 
 overwhelming and paralysis of the nervous centres. Copious hemor- 
 rhage from the stomach and nose may also induce syncope of alarming 
 and even fatal severity. When from the latter cause, reaction may be 
 induced and the patient may ultimately recover, as we saw in a case 
 where after repeated hematemesis the patient sank into profound col- 
 lapse. In all of its forms, however, this complication is of extreme and 
 imminent danger, and death follows, as a rule, in a few hours. The 
 cases in which it occurs are usually of severe type, occurring in persons 
 who have previously been in poor health or intemperate, or who have 
 been subjected to privation and improper exposure previous to and during 
 the early stages of their attack. Still, collapse may occur in mild cases 
 
 VOL. I. 26
 
 402 RELAPSING FEVER. 
 
 also, and whatever the type of the disease there may be no special indi- 
 cation of approaching trouble, when the patient rapidly passes into col- 
 lapse, to be followed by death in a few hours. It occurred in nine of 
 about two hundred cases under tur observation. In one it was the result 
 of hemorrhage from the stomach, and ended in recovery ; in one, at the 
 close of the initial paroxysm the patient, who was stupid, with mutter- 
 ing delirium, sank into collapse as the temperature rapidly fell from 105 
 to 97, and died in a few hours ; in one, on the fourth day of the relapse 
 the temperature suddenly fell from 102 to 96, with free sweating, but 
 suddenly rebounded to 102, with very rapid, feeble pulse, distinct basic 
 cardiac murmur, constriction of chest, restlessness and delirium, slight 
 convulsions, and death in eight hours ; in one, a man at the end of the 
 initial paroxysm, immediately after his admission to the hospital in 
 apparently fair condition, became violently delirious, with bounding 
 pulse, soon grew comatose, and died in one hour ; in one, a man who 
 was in feeble condition, on the nineteenth day, with irregular persistent 
 fever (he had splenic abscess), sat up on the edge of the bed, sank back 
 in syncope, and died in less than an hour ; in one, a man who did well 
 until the second day of the relapse, when pleuro-pneumonia and peri- 
 carditis were developed, died suddenly four days later : there was con- 
 siderable pericardial effusion ; in one, sudden death from syncope or 
 cardiac thrombosis occurred on the twelfth day in a man who had sup- 
 purative parotitis and metastatic abscesses of the lungs ; in one, sudden 
 collapse and death occurred in one and a half hours at the end of the 
 initial paroxysm ; in one, a drunkard with large fatty liver had pyrexia 
 continuing after the initial paroxysm, and on the ninth day, while in a 
 state of hebetude, with mild delirium and a pulse of 112, coma suddenly 
 occurred, and death followed in two hours. 
 
 Pericarditis is a rare complication, and is apt to coexist with pleuro- 
 pneumonia. This combination occurred in one of our cases where 
 pleuro-pneumonia and pericarditis were developed on the second day of 
 relapse, and proved fatal by sudden collapse on the fifth day, with the 
 pericardial sac distended with serum and its layers coated with plastic 
 lymph. 
 
 Thrombosis of veins, as in phlegmasia alba dolens, occurs much more 
 rarely than after typhoid fever. Arterial embolism, on the other hand, 
 is not uncommon. Murchison 1 reports a case in which gangrene of the 
 left foot from obstruction of the left femoral artery, together with cere- 
 bral softening from obstruction of the left middle cerebral artery, occurred 
 in connection with cardiac thrombosis. Zuelzer alludes to similar cases 
 in the St. Petersburg epidemic of 1865-66, where, in addition to the 
 extremities, the nose, ears, and lips became gangrenous. Other examples 
 of embolism are found in lesions of the spleen and kidneys, where 
 infarctions are of frequent occurrence. 
 
 Heart-clot, or cardiac thrombosis, appears to occur more frequently 
 than in any other acute zymotic disease, with the exception of diph- 
 theria. Even when the occurrence of passive hemorrhages and of 
 ecchymoses of various tissues indicates marked dyscrasia of the blood, 
 there will not rarely be found firm white clots in one or other of the 
 cavities of the heart. These frequently present unmistakable evidences 
 
 1 Op. til., p 384.
 
 COMPLICATIONS AND SEQUEL JB. 403 
 
 of ante- mortem formation, and, as already stated, there is a certain pro- 
 portion of the cases of rapid and unexpected death where the fatal 
 result is directly due to cardiac thrombosis, attended with the usual 
 symptoms. 
 
 The constant affection of the spleen has been fully described ; it 
 is not therefore surprising that both complications and sequelae arise 
 in connection with it. At times, in cases which ultimately recover, 
 the pain in the splenic region is so violent and continuous, and is 
 attended with so much tenderness over the enlarged organ, that 
 localized peritonitis is undoubtedly present. Occasionally this peri- 
 splenitis persists, and in conjunction with the inflammatory changes in 
 the substance of the spleen maintains an irregular fever after the specific 
 pyrexia has run its course. This was noticed in several of our cases, 
 but especially so in a case where, after the initial paroxysm, an irregular 
 fever was kept up, obscuring the relapse, until the nineteenth day, when 
 death occurred suddenly from syncope on rising on the edge of the bed, 
 and where examination showed splenic peritonitis, with a splenic abscess 
 as large as a pigeon's egg. 
 
 The enlargement of the spleen usually subsides during the intermis- 
 sion, and disappears speedily or in the course of a few weeks after con- 
 valescence is established. Occasionally, however, it persists, and is 
 attended with marked auremia. In one case, where death occurred from 
 pneumonia, the sequel of relapsing fever, at about the thirtieth day, the 
 spleen weighed twenty-nine ounces ; and in another case, where death 
 occurred from gangrenous pleuro-pneumonia, at the fortieth day, the 
 spleen was still enlarged and presented characteristic changes in its pulp. 
 On the other hand, in a case where death occurred on the twelfth day of 
 typhus, occurring forty-four days after recovery from a very bad case 
 of relapsing fever, making it altogether the one hundredth day, none 
 of the lesions of the first disease were discoverable. 
 
 Rupture of the spleen occurs occasionally, and is usually attended with 
 sudden pain, collapse, and speedy death. Mnrchison refers to two exam- 
 ples recorded by Zuelzer and one by Hudson ; Petersen reports fifteen 
 cases, in seven of which sudden rupture occiirred with speedy death, 
 while in the other eight the rupture followed local softening from 
 infarction, and resulted in death in a few days from purulent peri- 
 tonitis. 
 
 In one of our cases, where death occurred on the sixteenth day, appar- 
 ently from double pneumonia and heart-clot, it was found that there was 
 a rupture in the enlarged spleen near its upper end, recent plastic peri- 
 tonitis in the region of the spleen, and a moderate amount of bloody 
 pulpy fluid throughout the peritoneal cavity. 
 
 As we have seen, disturbances within the respiratory tract occur with 
 very different frequency in different epidemics. In many they are rare, 
 while in 1870 we noticed cough and other evidences of respiratory 
 trouble in no less than 90 out of 200 cases. 
 
 Severe catarrhal laryngitis is a rare and dangerous complication. It 
 did not occur in our cases, but both Bcgbie and Paterson report cases of 
 it which required tracheotomy, and Wyss and Bock met with ulcerative 
 laryngitis with perichondritis. 
 
 Bronchitis of moderate severity, although rare in many epidemics,
 
 404 RELAPSING FEVER. 
 
 occurs so frequently in others, as in Philadelphia in 1870, as to rank as 
 a symptom of the disease. 
 
 Pneumonia is one of the most fatal complications. The results of our 
 own observations agree with the statements of Jenuer and of Carter, that 
 it is the next most common lesion after enlargement of the liver and 
 spleen. On the other hand, Murchison noted it only in 4 or 5 out of 
 600 cases. It occurred in at least 11 of our cases, 8 of which were fatal ; 
 and unquestionably less extensive inflammation was present in other cases 
 which recovered, in view of the marked respiratory disturbances fre- 
 quently present. Both lungs were involved in 4 cases ; of the remainder, 
 the rif'ht and left were about equally divided. Out of 23 autopsies, the 
 lesions of pneumonia were found 8 times. The lower lobes were affected 
 in every case. The form of this disease was croupous in 9 cases ; in 1 it 
 was that of metastatic suppuration, and in 1 it was more proj>erly 
 described as splenification. The amount of plastic pleurisy associated 
 with it was usually great, and in one case there was also severe pericar- 
 ditis. In another case the disease advanced to the stage of gangrene of 
 a circumscribed area of the pleura and of the superficial layer of the lung. 
 In only one instance was albuminuria present. In two cases the pneu- 
 monia occurred so late in the course of the disease that it might be 
 regarded as a sequel. Death occurred in one of these on the thirtieth 
 day, and in the other (that in which gangrene ensued) it ran a subacute 
 course, and death did not take place until the fortieth day. In the other 
 cases the disease began at the close of the initial paroxysm, during the 
 intermission, or early in the relapse. As would be expected, the sympa- 
 thetic fever due to this complication modified and obscured the charac- 
 teristic course of the specific pyrexia. 
 
 This rare termination in gangrene has been noted by other observers ; 
 in all five or six times. Parry met with a truly remarkable case of 
 double pneumonia, followed by gangrene, and yet resulting in recovery. 
 Jaundice is apt to attend cases of relapsing fever which are complicated 
 with pneumonia. 
 
 Pleurisy is an almost constant accompaniment of pneumonia, and fre- 
 quently occurs in marked degree. It may also be present in cases of 
 severe splenic inflammation. In all probability, localized plastic pleurisy 
 is not infrequent, and may cause some of the severe thoracic pains so 
 frequently present. 
 
 Metastatic abscesses of the lung occur occasionally as a result of the 
 profound toxaemia, and are apparently preceded by patches of infarction, 
 which soften in the centre, as in the usual development of pyaemic 
 abscesses. This condition was found in one of our cases in conjunction 
 with suppurative parotitis. It has been included among the instances 
 of pneumonia. 
 
 Acute miliary tuberculosis, involving chiefly the lungs and intestinal 
 canal, occurred as a sequel in one case under our observation, and 
 phthisis has been found to follow by other observers (Carter). It is 
 to be expected that if the patient did not so quickly pass from under 
 observation it would be found that an affection so gravely complicating 
 nutrition as does relapsing fever is frequently followed by serious organic 
 disease. 
 
 Parotitis is mentioned by so few authors as to show that it is a
 
 COMPLICATIONS AND SEQUELS. 405 
 
 rare complication in most epidemics, varying from 1 in 600 to 1 in 
 50 cases. One gland only is affected at a time as a rule, though 
 both may be involved successively. The inflammation begins either 
 during the intermission or the relapse, and may terminate by reso- 
 lution or by suppuration. Although a painful and severe complication, 
 it is followed by recovery in a considerable proportion of cases. Carter * 
 states " that in some degree it was noted in 2 or 3 per cent, of all cases, 
 and nearly as often amongst survivors as in the casualties." It occurred 
 in three of our cases (185) ; once it underwent resolution; once suppura- 
 tion occurred in the parotid and in the masseter muscle, with metastatic 
 abscesses in the lungs, and death ; and once the patient, who had pre- 
 viously existing amyloid degeneration of liver and spleen without albumin- 
 uria, had severe relapsing fever with two relapses, in the first of which 
 parotitis occurred in both glands, successively terminating in suppuration, 
 after which he did well through an apyretic period of six weeks, when 
 sudden high fever appeared, followed by speedy death. 
 
 Pharyngitis and tonsillitis of mild grade occur in from 3 to 25 per cent, 
 of the cases in different epidemics. 
 
 Hiccough deserves to be ranked among the complications, because it 
 is of frequent occurrence, obstinate and annoying. It occurred in a con- 
 siderable proportion of our cases, and much more frequently in those who 
 had jaundice. It was often present both in the initial paroxysm and in 
 the relapse, but disappeared soon after the end of the pyrexia. It bore 
 no constant relation to the severity of the vomiting. Not rarely it lasted 
 several days and nights, causing exhaustion and interference with sleep 
 and proving rebellious to treatment. Hypodermic injections of morphia 
 and atropia, chloroform internally, and extremely careful alimentation 
 proved most serviceable. 
 
 Hemorrhage from the stomach has already been spoken of (see p. 390). 
 
 Diarrhoea, as already stated (see p. 390), occurs much more frequently 
 than in typhus fever, varying from 1 per cent. (Murchison) to 15 per 
 cent. (Scotch epidemics) or 33 per cent. (Philadelphia), or even 50 per 
 cent. (Konigsberg). It is usually of moderate severity, but occasionally 
 is so profuse and intractable as to constitute the main cause of death. In 
 some epidemics the attacks of looseness occur almost exclusively after the 
 relapse, but in others the bowels are frequently loose during the febrile 
 stages. In our cases there were not infrequently from three to eight 
 thin, dark, bilious or light yellowish stools daily after the second or third 
 day of the initial paroxysm, and then the looseness would stop during 
 the intermission, probably to recur in the relapse. Occasionally diarrhoea 
 with very frequent liquid stools occurs at the close of one or both of the 
 febrile stages, assuming a critical character, and substituting more or less 
 of the sweating which is the common mode of crisis, although in several 
 cuch cases quoted by Murchison from Douglas the sweating, despite the 
 critical diarrhoea, was usually profuse. It can scarcely be said that there 
 is any relationship between diarrhoea and vomiting ; both are frequently 
 present, and may even be severe and persistent in the same case, though 
 either may be marked while the other is moderate or slight. Abdominal 
 pain and tenderness in the epigastrium and hypochondria are constant 
 symptoms, but when diarrhoea is marked there are apt also to be griping 
 
 1 Op. cit.,'p. 210.
 
 406 RELAPSING FEVER. 
 
 pains and tenderness in the lower segment of the abdomen. When diar- 
 rhoea occurs as a sequel, either beginning after the close of the relapse 
 or continuing in cases where the bowels have been loose during pyrexia, it 
 is apt to prove obstinate and intractable, or even to lead to a fetal result. 
 
 The character of the stools varies much ; usually thin and dark, they 
 may be light yellowish or even whitish. Thus, in a severe case with 
 deep jaundice we observed seven liquid and decidedly whitish stools in 
 twenty-four hours. In such instances there is undoubtedly more or less 
 complete closure of the biliary ducts by plugs of mucus or by swelling 
 of the mucous membrane. On the other hand, the stools may be inky 
 black from admixture with altered blood, or, lastly, they may consist of 
 mucus and blood, in which event the complication assumes the form of 
 actual dysentery and is attended with increased abdominal pain and with 
 tenesmus. Dysentery was, as would be expected, quite frequent in the 
 Indian epidemics studied by Carter. 1 It is usually of moderate severity, 
 but occasionally it runs into gangrenous inflammation, is attended with 
 perforation of the bowel, or is followed by hepatic abscess. In one 
 instance we noticed a peculiarly fetid puriforni discharge from the anus, 
 which occurred during the relapse and persisted for several weeks, 
 gradually subsiding, as though from some unhealthy ulceration which 
 slowly healed. 
 
 Jaundice is of frequent occurrence, but has been sufficiently discussed 
 at page 391. 
 
 Peritonitis is not rare in its circumscribed form. This statement is 
 based on the comparative frequency with which localized splenic perito- 
 nitis, of varying degrees of severity, is found after death in relapsing 
 fever from various causes, and from the great frequency of severe pain 
 and tenderness in the region of the enlarged spleen in favorable cases. 
 In its lesser degrees it may not add materially to the danger of the 
 patient, but in more severe forms, associated with serious splenic lesions, 
 it may run a protracted subacute course and maintain irregular fever. 
 
 General peritonitis is, on the other hand, a rare complication, occurring 
 not more than once in several hundred cases. It results from dysenteric 
 perforation of the bowel, from rupture of a splenic abscess, or from 
 rupture of the spleen itself. An example of this latter accident which 
 occurred under our observation has already been given. Speedy death 
 invariably follows, though in the case just referred to the symptoms of 
 peritonitis were totally masked by those of the coexisting double pneu- 
 monia, which seemed to be the immediate cause of death. 
 
 Suppuration of the mesenteric glands is a rare complication, mentioned 
 especially by Wyss and Bock. As these glands are not usually found 
 enlarged, there being no irritative lesion of the intestines of common 
 occurrence in relapsing fever, it is probable that the collections of pus 
 which have been found were metastatic in origin. 
 
 Dyspepsia is not an infrequent sequel, as would necessarily be the case 
 after a disease characterized by so much gastric irritation and by such 
 serious lesions of the liver and spleen. As a consequence, care in diet is 
 often required for a considerable period after the course of the disease has 
 ended ; dyspeptic symptoms are frequently complained of, and marked 
 emaciation and anaemia often protract convalescence. 
 
 1 Op. eii., p. 218.
 
 COMPLICATIONS AND SEQUELS. 407 
 
 It may be observed that a striking appearance of emaciation is often 
 developed shortly after the crisis of the first paroxysm, or, more particu- 
 larly, of the relapse. It is partly due to the actual loss of weight during 
 the high pyrexia, but even more to the abrupt transition from a state of 
 extreme febrile turgescence to one of equally extreme relaxation and 
 maceration of the surface. 
 
 The amount of urine has been seen (p. 387) to vary greatly in cases distin- 
 guished by no special disorder of the kidneys ; the extremes in ordinary 
 cases being from twelve or fifteen ounces just before the crisis to from 
 eighty to one hundred and twenty within forty-eight hours after the crisis. 
 Suppression is, however, sometimes noted, and is always a grave symptom, 
 though Parry l reports more than one case in which on several successive 
 days there was not more in twenty-four hours than one fluidounce of 
 non-albuminous urine, and in which no symptoms of uraemia occurred, 
 and the sweat had no urinous odor. In one of our fatal cases, with 
 intense jaundice, hematemesis, inky black stools, and oedema of the feet 
 and of the lungs, there was not a drop of urine secreted during the last four 
 days of the initial paroxysm ; death occurred on the eighth day, and the 
 kidneys were found intensely engorged, of a deep blackish-blue color, 
 with numerous ecchymoses in the cortex, due to impaction of the con- 
 voluted tubules with blood, while the renal epithelium was granular and 
 swollen, and many tubules were filled with epithelial cells and granular 
 matter. At the autopsy the urinary bladder was firmly contracted and 
 contained a very small amount of bloody liquid. 
 
 More frequently, incontinence of urine, with or without retention, 
 occurs during the febrile stages according to our observation, most com- 
 monly in cases attended with mental disturbance and tending to a typhoid 
 condition. The symptom was not of very grave significance, however, 
 and after the use of the catheter for a few days the bladder regained its 
 tone. 
 
 Albumen is quite frequently present in small amounts during the 
 pyrexia of relapsing fever. Thus, in 18 cases of ordinary severity, which 
 all recovered, and in which the urine was carefully examined daily, a 
 trace of albumen was found in 5 ; in 2 cases it appeared both in the 
 initial paroxysm and in the relapse, but in all instances its presence was 
 of brief duration. In one of these five cases the albumen appeared at 
 both critical periods, when the amounts of urine in twenty-four hours 
 were respectively 150 ccm. and 250 ccm. ; but in the other cases the 
 transient albuminuria coincided with free secretion of urine (1250 ccm., 
 1850 ccm.). It is probable that were the same careful search to be made 
 in all cases the presence of albumen would be detected in fully 20 to 25 
 per cent. On the other hand, in fatal cases the occurrence of albuminuria 
 is by no means constant, although undoubtedly it is present in a larger 
 proportion of such cases than of those of ordinary severity. 
 
 Our experience does not confirm that of Murchison, who states 
 that he never met with typhoid symptoms in relapsing fever without 
 albumin uria or some other evidence of retarded elimination by the kid- 
 neys. In several of our cases where the typhoid state was developed in 
 the highest degree repeated examination of the urine failed to discover 
 albumen. 
 
 1 Op. dt.
 
 408 RELAPSING FEVER. 
 
 Most observers have been struck with the comparative immunity of 
 the kidneys from serious disturbance in a disease presenting such com- 
 plicated morbid processes and widespread lesions as relapsing fever. To 
 show, however, that these organs suffer specially in certain epidemics, it 
 may be mentioned that Obermeier l reports having found albumen with 
 tube-casts of various kinds in 32 out of 40 cases of relapsing fever, thus 
 showing that, in the particular epidemic he was studying, catarrhal 
 nephritis was of almost uniform occurrence. It is true that serious 
 interference with the elimination of urea and other nitrogenous matters 
 may occur without the coexistence of alburninuria, so that it is impossi- 
 ble to deny that severe nervous symptoms may result from impaired renal 
 activity even when the urine contains no albumen. 
 
 Attention has already been called to the variations presented in 
 the amounts of urea, but more extended observations are required 
 to show the precise relations of these variations to the graver nervous 
 phenomena. It will be found, we venture to opine, that, while in one 
 group of relapsing-fever cases of grave type, cerebral symptoms are 
 dependent upon the retention and accumulation in the system of urea 
 and other effete nitrogenous products, owing to interference with renal 
 activity from pre-existing organic disease of the kidneys or from an 
 exceptional degree of congestion of those organs, there are other groups 
 where similar typhoid cerebral symptoms are more directly dependent 
 upon the specific toxaemia, upon the hyperpyrexia, upon exhaustion of 
 the nerve-centres by intense peripheral irritation, or upon congestion or 
 other morbid conditions of the nerve-centres themselves. 
 
 In all cases where cerebral symptoms manifest themselves in relapsing 
 fever the daily examination of the urine which here, as in other zymotic 
 diseases, is a duty in all cases -becomes of extreme importance. Three 
 conditions should be borne in mind in such examinations. In the first 
 place, the attack of fever may have occurred in one already the subject 
 of organic kidney disease, and, considering the classes from which the 
 majority of the cases of relapsing fever are drawn, this possibility cannot 
 be of rare occurrence. Out of eighteen post-mortem examinations in 
 which the kidneys were studied with especial care we found positive evi- 
 dence of pre-existing organic disease four times. In these cases the 
 albuminuria was marked and persistent, though tube-casts were rarely 
 found, and severe cerebral symptoms of typhoid type were prominently 
 present. In another highly interesting case the patient, who had amyloid 
 disease of the liver, spleen, and kidneys, contracted severe relapsing fever ; 
 he had increased albuminuria during both febrile stages, suppurative paro- 
 titis, but no grave cerebral symptoms, and apparently recovered. After 
 an apyretic period of six weeks, during which the symptoms of the 
 amyloid visceral disease persisted, a sudden and rapidly fatal pyrexia 
 occurred. Unfortunately, the existence of spirillar infection of the blood 
 was not known at the time. 
 
 In the second place, the attack of fever may become complicated with 
 acute nephritis from special localization of the poison, as in Obermeier's 
 cases, or from vulnerability of the kidneys. In such cases careful study 
 of the urine should indicate the event, and the prognosis, though grave, 
 is not so hopeless as in the first instance. An interesting example of 
 1 " U. d. wiederkehrende Fieber," Arch. f. path. Anat. u. klin. Med., Bd. xlvii. p. 170.
 
 COMPLICATIONS AND SEQUEL -JE. 409 
 
 this occurred under our observation, where the patient, who had appar- 
 ently an ordinary attack, was seized with acute catarrhal nephritis, with 
 temporary uraemia, during the relapse, but after a dangerous illness recov- 
 ered without any organic renal disease as a sequel. 
 
 In the third place, may be found the more usual and more readily- 
 determined condition of slight and transient albuminuria (with variations 
 in urea excretion) which has already been discussed, and which has no 
 serious prognostic significance. 
 
 The following very interesting case deserves special mention : The 
 patient, a man aged thirty-six, was admitted on the fifteenth day of an 
 attack of acute catarrhal nephritis, with slight ascites, marked oedema of 
 the feet and legs, and highly albuminous urine. In the course of ten 
 days the oedema and albumiuuria were much diminished, when on the 
 thirteenth day after admission he was attacked with relapsing fever, the 
 ward in which he lay containing a number of persons ill with that 
 disease. The initial paroxysm was severe, but without any grave cere- 
 bral symptoms ; the urine grew scanty, dark, and bloody, and the oedema 
 increased and invaded the pelvis. Crisis occurred on the fifth day, tem- 
 perature falling 9, sweating copious, urine 473 com. in twenty-four 
 hours, color of porter, highly albuminous, and depositing blood, renal 
 epithelium, hyaline, granular and epithelial casts, all stained reddish. 
 Two days later, urine 1600 ccni., light colored, with only a small amount 
 of albumen. 
 
 A slight and brief relapse (101 for two days) occurred after an inter- 
 val of four days ; a second imperfect relapse (100.5 for three days) after 
 a further interval of six days ; and finally, after a further interval of 
 only two days, a violent relapse (temperature rising rapidly to 106) with 
 crisis (fall of 8 in twelve hours) at close of fifth day. The oedema 
 gradually diminished from the time of the first crisis, did not increase in 
 the relapses, and disappeared completely and finally about ten days after 
 the last relapse. The urine was very free after the first paroxysm, aver- 
 aging from 2000 to 2300 ccm. During the subsequent febrile periods 
 it did not decrease, and indeed on the second day of the last relapse, 
 with the temperature at 105, the amount in twenty-four hours was 
 3200 ccm. Four days subsequently, during crisis, the amount was 
 only 350 ccm. 
 
 The albumen disappeared entirely from the urine in two weeks from 
 the close of the last relapse ; there had then been no tube-casts for some 
 days, and the patient was discharged entirely well a short time afterward. 
 The treatment consisted of hot vapor-baths, repeated dry cupping over 
 the kidneys, infusion of digitalis with acetate of potash during pyrexia, 
 and Basham's iron mixture in the intermissions. It seemed that the 
 occurrence of the relapsing fever interfered wonderfully little with the 
 recovery from nephritis. 
 
 Hematuria is a comparatively rare and very grave complication. It 
 may occur as an additional evidence of the dyscrasia of the blood in 
 connection with hemorrhages from other surfaces, or as in the case we 
 have before referred to or in that reported by Murchison, 1 it results 
 from intense engorgement of the kidneys. In Murchison's case hema- 
 turia, with much albumen and tube-casts, occurred in both paroxysms 
 
 1 Op. cit., p. 370.
 
 410 RELAPSING FEVER. 
 
 without aiiy uraemia or typhoid symptoms, aud was followed by satis- 
 factory recovery. 
 
 Sugar is sometimes present in small quantity as a transient symptom ; 
 and diabetes has beau observed as a sequel. 1 
 
 Metastatic inflammation of the kidneys, with centres of suppuration, 
 was observed by "VVyss and Bock. 
 
 When menstruation occurs during relapsing fever, as it may do at 
 any time, it is apt to be excessive, and may amount to severe hemorrhage. 
 Crisis has been known to occur in this manner. 
 
 The numerous cases reported by various observers of relapsing fever 
 occurring in pregnant women establish the rule that abortion almost inva- 
 riably occurs, whatever may be the stage of the pregnancy. In a large 
 majority of cases the mother recovers, but the child, if viable, is still- 
 born or dies in a few hours. Only two of our patients were pregnant 
 women, and the result in each was unusual. In one, the patient, already 
 the mother of several children, was in the fifth mouth of gestation ; the 
 initial paroxysm was severe, with delirium, but no symptoms of abortion 
 occurred ; the intermission lasted six days, during which she felt very 
 well ; the relapse was also severe, and crisis occurred on the fifth day, 
 the temperature falling below normal, and the case promising to do well ; 
 but on the following day there was a sudden rebound of temperature, 
 pulse 140, severe prsecordial pain, and death occurred in twenty-four 
 hours, the contents of the uterus being partially expelled during the act 
 of dying. In the other case, a girl of eighteen years, who had aborted at 
 the third month of gestation eight months previously, and who was again 
 three months advanced in pregnancy when attacked with relapsing fever, 
 went safely through a bad attack and carried her baby successfully to full 
 term. 
 
 MORBID ANATOMY. The surface of the body often presents patches 
 of livid discoloration, and jaundice persists in cases where it has been 
 present during life. There is but little appearance of emaciation, except 
 in cases where it has been present before the attack. 
 
 When death occurs while the temperature is high the body remains 
 warm an unusual length of time. Thus, in one case where death oc- 
 curred at 11.30 P. M., the temperature at 12 was 103, and at 1 A. M. it 
 was 101f, that of the room being 73 ; at 6 A. M. it remained at 93, the 
 room being at 73 ; between 9 A. M. and 2 p. M. the room was kept at 
 55, but the body was still at 82 at the latter hour. 
 
 The voluntary muscles are often jaundiced, and in prolonged cases 
 they may be found flabby and having undergone marked granular 
 degeneration. In many cases, however, they remain quite dark and firm. 
 Ecchymoses of the muscular substance are met with occasionally. 
 
 In one case, where during life there had been painful swelling of the 
 left parotid region, with fistulous openings on the cheek, and where 
 death occurred on the twelfth day of the disease, the masseter muscle was 
 swollen, with patches of dark, almost black, discoloration from ecchy- 
 mosis, and was studded throughout with small collections in its sub- 
 stance. The fluid from these contained very numerous cells indistin- 
 guishable from leucocytes. The muscular fibrils were friable and granu- 
 lar, and there was multiplication of the nuclei of the sarcolemma. 
 1 Tyson, Phila. Med. Times, 1871, i. 418.
 
 MORBID ANATOMY. 411 
 
 These unusual lesions seerned to have originated in interstitial disinte- 
 grating thrombi, with consequent inflammation of the muscle. 
 
 The muscle of the heart is more frequently affected, and in the fatal cases 
 our attention was particularly drawn to those lesions. Ponfick 1 has also 
 described them minutely. The degree of change varies from a partial loss 
 of transverse striation, with slight granular appearance, up to a very high 
 degree of granulo-fatty degeneration. The organ is then flabby, its sub- 
 stance pale gray or brownish, either wholly or in streaks, and microscopic 
 examination shows an extreme degree of fatty granular change. It must 
 not be forgotten, however, that many of the subjects of relapsing fever 
 have been leading irregular and dissipated lives, and that in some instances 
 the lesions of fatty degeneration detected in their organs may have been 
 the result of their previous habits. 
 
 Lesions of the cardiac muscle were most marked in those of our 
 patients who had been intemperate, and in whom fatty degeneration of 
 the viscera (chiefly liver and kidneys) was also found. They were most 
 fully developed in cases where death occurred at a comparatively late 
 period, while in some very severe cases, in which death occurred as early 
 as the fifth day, the cardiac fibre presented merely faintness of striation 
 without actual granular degeneration. 
 
 Ponfick in particular notes that the great majority of the bodies he 
 examined were of persons who had been habitual drunkards. 
 
 Pericarditis is occasionally present, and is marked by the usual lesions. 
 In a very severe case in which it contributed largely to the production of 
 the fatal result it was associated with pneumonia. In addition to this, 
 effusions of blood beneath the endocardium and pericardium are not 
 rare ; and we have seen them quite large and numerous in cases where 
 the muscular fibre was firmly contracted and the cavities contained 
 quite firm decolorized clots. 
 
 Thus in our case No. 62, Series C., " the heart was normal in size, 
 with no appearances of previous disease. There were numerous ecchy- 
 moses of both layers of the pericardium. The right cavities contained 
 large, firm, yellowish, fibrous clots, forming a cast of the upper part of 
 the ventricle and of the auricle, and extending both into the pulmonary 
 artery and back into the veins, and so firm that by gentle traction a com- 
 plete cast of these vessels was drawn out. The clot in the pulmonary 
 artery was throughout firm, fibrous, and yellowish. There were numer- 
 ous ecchymoses of the pleura and of the mucous membranes of the 
 stomach and urinary bladder, hemorrhagic infarctions in the kidneys and 
 lungs, and granulo-fatty degeneration of the cardiac muscle." Death had 
 occurred in this case about the close of the third week, and was preceded 
 by hematemcsis and suppression of urine. We must note in this con- 
 nection the tendency to embolism that exists in this disease. 
 
 Especial interest attaches to the condition of the blood in relapsing 
 fever. Usually it presents no abnormal appearance if drawn during 
 life, though in grave cases it may coagulate imperfectly. We have 
 no knowledge of its minute chemical characters, save that in several 
 cases where there was great diminution in the amount of urine, with 
 ursemic symptoms, urea has been found in considerable amount in the 
 blood (Murchison, p. 368). The red globules present no definite or 
 1 Virchow's Archiv.f. path. Anal., Bd. Ix. Hft. 2, p. 162.
 
 412 RELAPSING FEVER. 
 
 characteristic changes. In some of our examinations they appeared 
 of light color and became crenated very quickly on exposure. On 
 the other hand, the white corpuscles have repeatedly been observed to 
 be increased in number, at times considerably so (Cormack, Thompson, 
 Zuelzer, Carter, Boeckmann, and ourselves), though this change is not 
 regarded as constant or essential. It has, however, a very great interest 
 in connection with the characteristic lesions of the spleen which will be 
 described hereafter. In several cases we observed that many white cor- 
 puscles were small and apparently imperfectly developed. Boeckmann 1 
 concludes that they increase in number during the febrile paroxysm, 
 reaching their highest number at the crisis, and then diminishing grad- 
 ually to the normal. The red globules are much decreased during the 
 fever, and return to the normal slowly during convalescence. 
 
 In addition to these changes, various abnormal elements have been 
 observed more or less constantly. By far the most important of these is 
 the spirillum or spirochete of Obermeier, which has been already care- 
 fully described. In proportion as this organism has been carefully looked 
 for it has been found constantly, so that the evidence has become very 
 strong in favor of its uniform presence in the blood of relapsiug-fever 
 patients during the febrile stage of the disease. 
 
 Ponfick in 1874 2 called attention to the occurrence of large granule- 
 cells in the blood in this disease. They are found during life as well as 
 after death, when they exist in largest proportion in the blood of the 
 splenic, hepatic, and portal veins. Their shape is spherical, ovoid, or 
 elongated ; the basis of the cells is a delicate, translucent, albuminous 
 substance; and the granules are of a fatty nature, as shown by the 
 action of reagents. These cells have been found by other observers, 
 and the view is generally received that they are derived from the 
 lyniphoid elements of the spleen, and perhaps of other portions of the 
 lymphatic system; and Carter, who has studied them carefully, is 
 inclined to think there is some connection between them and the 
 development of the spirillum. 
 
 Ponfick also first described 3 certain other large, irregularly-shaped, pale, 
 granular, nucleated cells, which occur in smaller number in the blood in 
 relapsing fever, and which he regarded as altered endothelium, derived 
 from the lining of the blood-vessels, of the lymphatics, or of the lacunar 
 spaces of the spleen. Occasionally these cells are found with such highly 
 granular contents as to make them closely simulate the large granule- 
 cells described above. These results of Ponfick have been confirmed by 
 other observers. 
 
 In several of our reports of examinations of blood there is mention 
 made of quite abundant, free granular matter an appearance also 
 observed by Carter. Finally, the latter describes the occurrence of 
 thread-like filaments and of short, rod-like bodies. 
 
 There are no characteristic lesions connected with the gastro-intestinal 
 canal. The mucous membrane of the stomach may be normal or merely 
 injected, though where there has been much vomiting, and especially 
 bloody vomiting, there is marked injection, and not rarely ecchymosis 
 and submucous extravasations of blood, with softening of the membrane. 
 
 1 Deutsr.h. Arch.f. Urn. med., Sept. 1881, p 513. 
 
 Centrcdbl.f. d. med. Wissensch., 1874, p. 25. ! Loc. cit.
 
 MORBID ANATOMY. 413 
 
 These extravasations are usually small, but Cormack reports a case where 
 one-third of the mucous membrane of the stomach was the seat of ecchy- 
 mosis and extravasation. In one of our own cases the extravasations 
 occupied an area of four inches square. 
 
 The small intestines exhibit patches of congestion or ecchymosis less fre- 
 quently than the stomach, though it is usual to find injection of the mucous 
 membrane, especially of the lower portion, in cases where there has been 
 diarrhoea. Carter, observing the disease in India, found in one-half of 
 all autopsies some amount of congestion, hemorrhage, or inflammation of 
 the ileum. In two instances he found a layer of diphtheritic deposit over 
 the mucous membrane of the lower part of the ileum. 
 
 There are no special alterations of the solitary or agminated glands, 
 and ulceration never occurs. Even in cases where the constitutional 
 infection is severe, whether diarrhoea has been present or not, it is note- 
 worthy that there is rarely any swelling of the solitary glands or Peyer's 
 patches, such as is met with in many other acute specific diseases. It was 
 not present in any of our autopsies. 
 
 The large intestine in like manner exhibits no characteristic lesions. 
 Patches of congestion and occasionally submucous ecchymoses may be 
 observed, and croupous exudation occurs here somewhat more frequently 
 than in the small intestine. 
 
 Wyss and Bock l speak of enlargement of the mesenteric and retro- 
 peritoneal glands as of frequent occurrence, but we did not observe it, 
 and Murchisoii states that these glands present no abnormal appearance. 
 
 Alterations of vascularity of the brain or its membranes are met with, 
 but they are variable and bear no definite relation to the precedent symp- 
 toms. Ecchymoses of the membranes are occasionally observed, and in 
 one of our cases extensive meningeal hemorrhage was found. Murchison 
 reported a case in which embolism of the left femoral artery occurred, and 
 subsequently of the left middle cerebral artery, inducing death. The sug- 
 gestion may be hazarded that in some of the cases where there is severe 
 delirium ending in stupor and death there has been multiple capillary 
 embolism of the cerebral vessels. 
 
 There is occasionally the evidence of catarrhal inflammation of the 
 upper air-passages, and in some epidemics diphtheritic exudation in the 
 pharynx and larynx has been noted (Wyss and Bock) ; and Ponfick 
 found acute oedema of the glottis in a considerable proportion of the 
 fatal cases at Berlin. The lesions of pleurisy are met with in a small 
 proportion of cases ; in our own autopsies this complication was more 
 frequent than in most epidemics. 
 
 The lungs may be normal, and Murchison concludes that they are 
 more frequently so than in typhus. Still, they often present congestion or 
 oedema, and subpleural ecchymoses, hemorrhagic infarctions, and pneu- 
 monic consolidation are not rare. Lobar pneumonia was present in 33 
 per cent, of our own autopsies, in 28 per cent, of Carter's, and in 20 per 
 cent, of those conducted by Ponfick. The inflammation usually presents 
 the regular stages, and is associated with a moderate degree of plastic 
 pleurisy ; but occasionally, as in one of our cases, it terminates in gan- 
 grene. In the instance referred to there was an area of gangrene about 
 three inches square and one inch in depth, involving the pleura and a 
 
 1 Op. dt., p. 223.
 
 414 RELAPSING FEVER. 
 
 superficial layer of lung on the antero-lateral aspect of the left lower lobe. 
 In another remarkable instance, already referred to on account of the 
 suppurative inflammation of one masseter muscle, the lungs, which were 
 stained yellow throughout, presented numerous deep purplish patches, 
 which on section altogether resembled the secondary metastatic deposits 
 of pyfemia, with yellowish softening or even puriform centres surrounded 
 by a rim of purplish livid discoloration. Very numerous similar patches, 
 varying from the size of a pea to that of a hazel-nut, and presenting 
 every stage of development, were found throughout both lungs. In a 
 few instances we found the lesions of chronic phthisis, which had, of 
 course, existed before the attack of relapsing fever. The bronchial glands 
 were found swollen and infiltrated in cases where inflammatory processes 
 in the lungs have existed. 
 
 Much interest attaches to the state of the genito-urmary organs in 
 relapsing fever, but caution is required to distinguish lesions that have 
 existed prior to the attack from those properly referable to it. 
 
 Owing to the intemperate and exposed lives of many of the patients, 
 renal lesions might reasonably be expected in no small proportion. The 
 comparative rarity of albuminuria (see p. 407), even in severe cases, is 
 suggestive of the view that when it is present it may at least sometimes 
 be due to pre-existing lesions aggravated by the acute infectious process, 
 and further that the extreme gravity generally presented by such cases 
 may be in part due to the impaired condition of the kidneys. 
 
 The morbid changes most frequently referable to the fever are mode- 
 rate enlargement and congestion, occasionally very intense so that we find 
 it described in our notes as deep blackish-purple or blue ; ecchymoses of 
 the capsule or of the mucous membrane of the pelvis ; small hemorrhagic 
 infarctions, usually in the cortex ; and cloudy swelling of the glandular 
 cells. Less commonly are found hemorrhagic infarctions, or small embolic 
 patches advanced to various stages of disintegration, even to the formation 
 of small puriform collections. In quite rare cases the lesions of acute 
 nephritis are present, while caution must be used in interpreting other 
 changes occasionally met with, such as pallor with grai.ulo-fatty degenera- 
 tion or other advanced alterations of the glandular cells, or hyperplasia of 
 the intertubular connective tissue, with or without contraction of the kidneys. 
 
 The mucous membrane of the bladder, as already mentioned, may present 
 ecchymoses, or, more rarely, croupous exudation (Wyss and Bock). The 
 urine contained may be bloody, or, as in one of our cases where there had 
 been total suppression of urine for over seventy-two hours before death, 
 there may be but a small amount of almost pure blood, containing a 
 few phosphate crystals, but no tube-casts. In this case there were also 
 ecchymoses of the bladder and of the pelvis of the kidneys, with 
 intense congestion and numerous small hemorrhagic infarctions of the 
 kidneys. 
 
 The liver is constantly though variously affected. It is found enlarged 
 in the great majority of cases, especially if death has occurred during the 
 febrile stage. The ordinary degree of enlargement in our cases was 
 from four to four and a half pounds, but in a few instances the liver 
 weighed one hundred or one hundred and two ounces, though in most of 
 these extreme cases the patients had been drunkards, and there was such 
 advanced fatty alteration of the liver as to make it probable that the
 
 MORBID ANATOMY. 415 
 
 organ had beeu diseased previously. These figures correspond with the 
 results of other observers. 
 
 In many cases, especially when death occurs early and during the 
 febrile stage, the capsule and substance of the liver are congested, at 
 times intensely so ; and when ecchymoses are found elsewhere they are 
 apt to be present here also, appearing as purplish patches dotted over the 
 capsule and extending into the superficial layer of hepatic tissue. Not 
 rarely, however, the liver substance is paler than normal, and presents a 
 yellowish tinge, apart from the decided yellowish staining present incases 
 attended with jaundice. Carter describes a partial mottled paleness of 
 the liver as having been frequently observed in his cases, the circum- 
 scribed pale areas presenting a corresponding localized degeneration of 
 the cells, as though from some local interruption of circulation. 
 
 Cloudy swelling and fatty degeneration of the liver-cells are indeed 
 very often present, and in some epidemics with preponderance of bilious 
 symptoms are constantly found (Ponfick). The degree of the cell-altera- 
 tion varies from a slight granulo-fatty change to an advanced fatty degen- 
 eration, even with a marked tendency, in rare cases, to disintegration of 
 the cells, so as to produce lesions analagous to those of acute yellow 
 atrophy (St. Petersburg epidemic). 
 
 The whitish deposits described by Kiittner as due to albuminous or 
 fibrinous infiltration are probably referable to transformed hemorrhagic 
 infarctions, and the minute puriform collections that have been observed 
 at the centre of the acini (Wyss and Bock) may have been metastatic in 
 origin, or attributable to the disintegration of minute thrombi associated 
 with irritative hyperplasia of the adjacent lymphoid elements. The con- 
 sistence of the liver varies : when death occurs early and bilious symp- 
 toms have not been marked, it may be even firmer than normal, but more 
 frequently it is softer, and it may be relaxed, flabby, and friable. 
 
 The condition of the bile-ducts is of great interest in view of the fre- 
 quency of jaundice as a symptom in relapsing fever, and most authorities 
 unite in saying that they present no lesions capable of explaining it. 
 
 The gall-bladder is usually found full of dark bile, but there is no 
 such degree of inspissation, except in rare instances, as could interfere 
 with its passage through the ducts. Murchison quotes the statement of 
 Peacock that in some instances the bile was thick and viscid, so as 
 appaiently to cause obstruction, but all observations agree in showing 
 that this is exceptional. The mucous membranes of the larger ducts 
 may present evidences of slight catarrhal inflammation, but in nearly all 
 cases where they have been carefully examined, even when jaundice had 
 been marked, they have been found patulous and free, so that the jaundice 
 cannot be regarded as due to obstruction of the larger ducts save in rare 
 instances (Pastau). In further confirmation of this may be stated the fact 
 that there is no want of bile in the duodenum and feccs. 
 
 On the other hand, a careful consideration of the lesions of the sub- 
 stance of the liver will show that it would be most improbable that the 
 minute biliary ducts in the areas most affected should escape implication. 
 Munch, who investigated this subject carefully, found that there was a 
 catarrhal state of the fine bile-ducts in every case of relapsing fever with 
 jaundice ; and Litten found the smallest ducts plugged with bile-stained 
 pellets of mucus. It would appear, therefore, that in many cases at least
 
 416 RELAPSING FEVER. 
 
 the jaundice is really obstructive in its origin, the seat of the obstruction 
 being in the too-rarely examined minute bile-ducts, though further inves- 
 tigation of this interesting question is required. 
 
 The clinical bearing of these conditions has been fully discussed in the 
 appropriate section. 
 
 The changes in the spleen are constant, and even more remarkable 
 than those in the liver. It is enlarged with rare exceptions, and espe- 
 cially so if death has occurred during the febrile stage. Upon the 
 subsidence of the fever the spleen probably returns to its normal size 
 more rapidly than the liver. The more common extent of the enlarge- 
 ment in our own cases was from ten to eighteen ounces, though we 
 found the spleen in one case weighing twenty-nine and a half ounces and 
 in another forty-four and a half ounces. In neither of the latter 
 instances was there any reason to suspect malarial complication. The 
 most extensive enlargement we have found recorded is sixty-eight ounces 
 in a case reported by Kiittner l 
 
 There is usually a correspondence between the stage and extent of the 
 splenic and hepatic lesions, but this is not invariable, and one or the 
 other organ may present a far higher degree of enlargement or much 
 more intense interstitial changes. It may be mentioned, moreover, that 
 in some unusual cases the lesions of the lungs, such as ecchymoses and 
 hemorrhagic infarctions, may be disproportionately marked as compared 
 with those of either the liver or spleen. 
 
 The capsule of the spleen often presents a mottled look, with at times 
 large purplish ecchymoses ; it is apt to be more or less opaque, and local 
 peritonitis, with thin layers of plastic exudation often forming friable 
 adhesions with the abdominal wall, may exist. 
 
 In one of our cases the capsule presented a small perforation or rup- 
 ture, with an exudation of plastic lymph over an area of four by six 
 inches, and diffuse peritonitis, with effusion of bloody liquid with shreds 
 of lymph throughout the abdominal cavity. This fatal termination is 
 fortunately rare, but there are several other instances on record. The 
 splenic pulp may retain its consistency and firmness, even in cases that 
 have run a long course ; but more frequently it is softened, and may be 
 almost diffluent. The pulp is often swollen, so that when cut it projects 
 above the section. The color is darker than normal, and often is of a 
 deep maroon color. This swelling is due to enlargement of the blood- 
 vessels, associated with great increase of the cellular elements of the pulp 
 and with enlargement of the Malpighian corpuscles. 
 
 When death occurred early in the disease w r e found these bodies gray- 
 ish or grayish-yellow in color and of the size of hempseed, so that the 
 section very thickly studded with them closely resembled shad-roe, and 
 this stage of the lesion is frequently described in our notes as the shad- 
 roe spleen. Subsequently, the Malpighian bodies enlarge still more, and 
 stand out above the section a line or more in diameter, and of a lighter 
 color ; not rarely, several of them come in contact, and thus form a con- 
 siderable mass of irregular shape, resembling the infarctions described 
 below. 2 It is probable that central softening may occur later in the 
 
 1 Schmidts Jahrb., 1865, vol. cxxvi. 
 
 2 Thus, Wyss and Bock describe "multitudes of minute abscesses as large as poppy or 
 hempseed, and containing a single drop of pus."
 
 MORBID ANATOMY. 417 
 
 Malpighian bodies, though we are inclined to regard the puriform col- 
 lections frequently found as chiefly due to the disintegration of hemor- 
 rhagic infarctions or of erabolic patches. Of these, hemorrhagic infarc- 
 tions are by far the most common and present the familiar appearances. 
 They may be quite numerous, superficial, or deep-seated, and of variable 
 shape and size. At first dark reddish, firm, and sharply separated from the 
 surrounding pulp, they grew reddish-yellow or yellowish later, softened 
 in the centre, and eventually were transformed into puriform collections. 
 Doubtless, in a large proportion of cases that recover such infarctions 
 exist and are slowly absorbed. Ponfick has shown that these are venous 
 infarctions, the arterioles leading to them being patulous. True arterial 
 embolism does, however, occur, though much more rarely (Ponfick, Mur- 
 cliison), giving rise to firm, wedge-shaped infarctions at the periphery of 
 the spleen, which may undergo degenerative changes similar to those 
 above described. The resulting abscesses may burst into the peritoneum, 
 pleura, lung, or bowel. The microscopic appearances have been most 
 fully described by Ponfick, our own comparatively meagre observations 
 having accorded entirely with his subsequent accurate description. The 
 cells of the swollen pulp contain red blood-discs and pigment, and some 
 present collections of bright granules. The lymphoid cells of the Mal- 
 pighian corpuscles are at first in a state of cloudy swelling with multi- 
 plication of their nuclei, and later show marked granular fatty degener- 
 ation. 
 
 The lymphatic glands present no lesions, and the pancreas is normal. 
 
 The peritoneum is not affected as frequently as other serous membranes 
 in this disease. Superficial ecchymoses are, however, quite common, espe- 
 cially so over the solid viscera ; and more rarely effusions of blood have 
 been found in the subperitoueal connective tissue, involving the muscular 
 or glandular tissues beneath. We have already mentioned (p. 406) the oc- 
 casional occurrence of local peritonitis, most frequently of the splenic 
 capsule, and also the rare accident of diffuse inflammation from rupture 
 of the spleen. 
 
 The marrow of the bones was carefully examined by Ponfick, who first 
 called attention to the presence of important changes in relapsing fever, 
 which have since been confirmed by other observers. These changes 
 consist in proliferation and subsequent degeneration of the lymphoid 
 cells of the marrow, with multiplication of the nuclei in the walls of the 
 minute vessels and fatty degeneration of their coats. As a result of 
 these changes, spots of puriform softening may form, chiefly in the can- 
 cellous tissue of the extremities of the long bones, with the production 
 of localized necrosis, and possibly with extension of inflammation to the 
 neighboring articular cavity. 
 
 Considerable space has been devoted to the detailed consideration of 
 the pathological changes in relapsing fever, partly because we believe the 
 fact has not been sufficiently recognized that the disease is constantly 
 attended with important and characteristic lesions. These consist, in 
 brief, of remarkable changes in the blood; of widespread ecchymoses 
 and infarctions, which not rarely undergo puriform disintegration ; of 
 hyperplasia and subsequent degeneration of the Malpighian corpuscles 
 of the spleen, with changes in the cellular elements of the splenic pulp; 
 of cloudy swelling of the gland-cells of the liver and kidneys, with a 
 VOL. I. 27
 
 418 RELAPSING FEVER. 
 
 marked tendency to fatty degeneration ; of changes in the marrow of the 
 lono- bones ; aud, finally, of grauulo-fatty degeneration of the muscles, 
 and especially of the heart. 
 
 DIAGNOSIS AXD KELATION TO OTHER DISEASES. The entire ques- 
 tion of the diagnosis of relapsing fever is dominated by that of spirillar 
 infection. Before Obermeier's discovery the differential diagnosis of the 
 initial paroxysm, and to a less extent that of the subsequent events 
 of a case of relapsing fever, was attended with considerable difficulty. 
 But if, as now seems established, immediately before and throughout the 
 initial paroxysm and subsequent relapses a characteristic spirillum is to 
 be detected in the blood upon proper examination, while it rapidly dis- 
 appears after the crisis, it is evident that as soon as a suspicion is aroused 
 as to the possible presence of relapsing fever the question may be settled 
 conclusively by the microscope. 
 
 None the less is it important to consider carefully, but briefly, the 
 symptoms by which relapsing fever is to be distinguished from various 
 affections which may simulate it, because even the most experienced 
 observers admit that the spirillum cannot be invariably detected ; because 
 it is not yet known that a similar organism may not be found in some 
 other affections ; and, finally, because on the outbreak of an epidemic of 
 relapsing fever, especially in America, where its occurrence has hitherto 
 been so rare, there is strong probability that the nature of the early cases 
 will not be even suspected until the relapse occurs. 
 
 Typhus fever often prevails in an epidemic form simultaneously with 
 relapsing fever, so that it was inevitable they should have been for a time 
 confused. Their essential non-identity is, however, now too well recog- 
 nized to require any lengthy demonstration. The following statement of 
 the heads of the argument may therefore suffice. 
 
 In typhus there is no characteristic spirillum, and the lesions which are 
 truly characteristic of relapsing fever are totally wanting. There are 
 convincing differences in the symptoms, course, and results of the two 
 diseases. There is no evidence to show that when fever has been im- 
 ported into a locality by a single case, typhus fever has ever produced 
 other than typhus, or relapsing other than relapsing fever. The two 
 diseases often prevail together, and may coexist in the same house, each 
 preserving its own distinct characteristics ; and persons exposed to the 
 double contagion may contract one or the other, or first one and then the 
 other at a shorter or longer interval, so that an attack of either exerts no 
 protective power against the other. It must be noted, however, that in 
 a large majority of such cases of successive contagion it is relapsing 
 fever which has been followed by typhus, while the reverse has been 
 observed much more rarely. 
 
 In 1869-70 the two diseases were prevalent in Philadelphia, and the 
 wards of the municipal hospitals constantly contained a considerable num- 
 ber of cases of both. Three instances came under our care in which after 
 recovery from relapsing fever the patient contracted typhus. All of these 
 patients were employed as assistant nurses, and were continuously under 
 observation from the early part of their attack of relapsing fever to the 
 end of the attack of typhus. In one case the interval of health between 
 the close of the relapse and the onset of typhus was forty-four days ; in 
 the second it was thirteen clays. In both cases the original disease was
 
 DIAGNOSIS AND RELATION TO OTHER DISEASES. 419 
 
 thoroughly characteristic and the subsequent attack of typhus was typ- 
 ical. In both death followed, and the post-mortem examination verified 
 the above statement. The third patient had severe relapsing- fever, from 
 which he recovered and returned to work, though with pains in the legs, 
 shoulders, and forehead. After an interval of apparent health of eleven 
 days he developed a well-marked attack of typhus, which terminated on 
 the twelfth day in recovery. It may be added that although typhus is 
 not of frequent occurrence in any portion of North America, there have 
 been a number of epidemics unattended with a single case presenting the 
 features of relapsing fever. 
 
 Between well-marked cases of the two diseases there should be no dif- 
 ficulty in making a prompt diagnosis. Relapsing fever is distinguished 
 from typhus clinically by the severity of the initial chill ; the rapid ele- 
 vation of the pulse and temperature ; the comparative infrequency and 
 mildness of cerebral symptoms, despite the intense fever ; the severity of 
 the gastric symptoms, nausea and vomiting ; the enlargement of the liver 
 and spleen, with marked abdominal pain and soreness ; the frequency of 
 jaundice, of epistaxis, and of other hemorrhages, and of ansemic murmurs 
 over the heart and large vessels ; obstinate insomnia ; vertigo ; peculiar 
 rheumatoid pains and perversions of sensation ; the frequency of sweating 
 during the high pyrexia ; by the occurrence of crisis, subnormal tempera- 
 ture, apyretic interval, and relapse ; the rarity of measly eruption and of 
 bed-sores; the frequency of pneumonia, diarrhoea, ophthalmia, oedema, 
 and desquamation as complications and sequelre ; the usual occurrence of 
 abortion in pregnant females ; the protracted course of the disease, and 
 its remarkably low mortality despite the severity of the symptoms, except 
 in cases of complicated or typhoid type ; and, finally, by the modes in 
 which death occurs. Of course to this must be added the specific result 
 of examination of the blood in relapsing fever. 
 
 Doubt will arise only in very rare cases where a measly eruption 
 appears on or before the fifth day of relapsing fever, with headache and 
 mild delirium, but without severe gastric symptoms, epistaxis, or jaun- 
 dice. If no relapsing fever were prevalent at the time, such a case 
 might well be regarded as one of mild typhus until the crisis and the 
 relapse disclosed its real nature. But if the two diseases were known to 
 be prevalent in the community, examination of the blood would properly 
 be made at once and the diagnosis be established. 
 
 The diagnosis between ordinary cases of relapsing fever and typhoid 
 is readily made by the gradual onset and peculiar course of the 
 pyrexia in the latter disease, as well as by the frequency of delirium, 
 of abdominal distension, and of diarrhoea, and by the characteristic 
 eruption. The occurrence of epistaxis, bronchial irritation, and splenic 
 enlargement is common to both, and an eruption of small rose-pink 
 spots has been noted by some observers (Carter, pp. 194, 317). But 
 jaundice, enlargement of the liver, hypochondriac pain and soreness, 
 excessive nausea and vomiting, severe rheumatoid pains, and numbness 
 and tingling of the extremities, are very significant symptoms of relaps- 
 ing fever. Attention has already been called to the grave type of relaps- 
 ing fever in which the typhoid state is fully developed, and to the fact 
 that in such cases the pyrexia is often modified, the onset less abrupt, the 
 crisis imperfect, and the interval occupied by an irregular post-critical
 
 420 RELAPSING FEVER. 
 
 symptomatic fever. It is altogether probable that such cases have not 
 rarely been regarded as of true typhoid character ; and indeed the attempt 
 has been made by Griesinger to establish as a separate and independent 
 affection, under the name of bilious typhoid fever, a group of cases which 
 close examination seems to show to be chiefly composed of grave compli- 
 cated relapsing fever with a certain proportion of true typhoid fever, 
 complicated with jaundice. 
 
 The recognition of the bilious typhoid type of relapsing fever is based 
 upon the history of the case ; the mode of onset ; the greater severity of 
 the pains, arthritic and abdominal ; the early appearance and intensity of 
 the jaundice; the more marked enlargement of the liver and spleen; the 
 marked tendency to hemorrhages from various surfaces ; the peculiarities 
 which careful study of the temperature curve will show, especially about 
 the time of crisis; the rarity of eruption; the characteristic spirillum; 1 
 and the totally different anatomical lesions, which are, unfortunately, 
 often demonstrable, as this form of relapsing fever is fatal in from 33 to 
 50 per cent, of cases. 
 
 Since the discovery of the spirillar test for relapsing fever it may be 
 said that Griesinger's bilious typhoid must be stricken from medical nosol- 
 ogy as an independent affection. 
 
 The case of Charles Hood, on page 396, is a good example of the bilious 
 typhoid form which occurred not rarely in the Philadelphia epidemic : 
 
 Murchison points out that, owing to the frequent occurrence of jaun- 
 dice in relapsing fever, this disease has been mistaken for yellow fever 
 by such good observers as Graves, Stokes, and Cormack. Difficulty in 
 diagnosis would be likely to arise only in regard to the bilious typhoid 
 type of relapsing fever, and since its clinical history has become so well 
 known, a mistake is not likely to occur. The geographical distribution 
 of the diseases is widely different. Yellow fever is influenced powerfully 
 by season and temperature, while relapsing fever is independent of both. 
 Negroes are but slightly liable to yellow fever, while relapsing fever 
 attacks them with special violence. Yellow fever is not contagious, but 
 infectious, and second attacks are extremely rare ; relapsing fever is one 
 of the most contagious of the zymotic diseases, but one attack does not 
 protect against a subsequent one. The mortality, the anatomical lesions, 
 the course of the pyrexia, the leading clinical symptoms, are all widely 
 distinct in the two affections; and, finally, no spirillum has been found 
 in the blood in yellow fever. Yellow fever is an extremely fatal disease ; 
 the ordinary form of relapsing fever has a mortality of 2 to 10 per cent.; 
 the bilious typhoid form, one of 33 to 50 per cent. In yellow fever the 
 spleen is but slightly enlarged, and the liver is pale and softened ; in 
 relapsing fever the liver and spleen are greatly enlarged, and there is 
 great tenderness over the hypochondriac region. In yellow fever albu- 
 minuria is much more common, and the urine more frequently suppressed, 
 than in relapsing fever. 
 
 The sudden onset, the severe headache and pains in the limbs, the vomit- 
 ing, jaundice, epigastric tenderness, enlargement of the liver and spleen, occa- 
 sional epistaxis, hematemesis, or hematuria, absence of characteristic erup- 
 tion, liability to herpes facialis, pneumonia, and diarrhoea; the occasional 
 occurrence of remissions in the pyrexia, and even of more or less fully- 
 developed chills for several successive days during the initial paroxysm or 
 1 As first demonstrated by Motschutkoffiky.
 
 DIAGNOSIS AND RELATION TO OTHER DISEASES. 421 
 
 the relapse, suffice to explain the difficulty which may arise in distinguishing 
 the bilious form of relapsing fever from bilious remittent fever. But the 
 latter disease arises exclusively from malaria, and is therefore powerfully 
 influenced by season and locality ; is not contagious ; does not present any- 
 thing approaching to the crisis, the apyretic interval, or the abrupt relapse 
 of relapsing fever; presents pigmentary changes in the blood, instead of the 
 spirillum ; and lesions of the spleen and liver totally unlike those charac- 
 teristic of relapsing fever; can be promptly controlled by autiperiodic 
 doses of quinine, and therefore should have a mortality far less than that 
 of the grave form of relapsing fever. It is not necessary to pursue this 
 subject further, but a reference to the temperature charts of Carter 1 or 
 of Litten 2 will show that in some epidemics single paroxysms resembling 
 those of quotidian ague might occur during the interval between the 
 initial paroxysm and the relapse, or a series of two, three, or more such 
 paroxysms of quotidian or tertian type might represent an entire relapse. 
 Such phenomena are wholly uncontrollable by quinia, and are presum- 
 ably dependent upon irregularities in the specific infection, instead of 
 upon a blending of malaria with the poison of relapsing fever. There 
 is some ground for believing, however, that those who have recently 
 passed through an attack of the latter are highly, perhaps unusually, 
 susceptible to malarial infection, as we have already seen they are liable 
 to contract typhus. 
 
 The chill, the sudden and high fever, the acid sweat, the high-colored 
 urine, the intense pains and soreness, and the occasional murmur over 
 the heart, will in some cases of relapsing fever suggest the idea of severe 
 rheumatic fever, with illy-developed articular inflammation and with a tend- 
 ency to hyperpyrexia. The urgent danger presented by the latter condi- 
 tion and the necessity for immediate recourse to cold baths and large doses of 
 quinine or of the salicylates, render it highly important that no such error 
 of diagnosis should be made. It will usually be avoided readily by 
 observing that in relapsing fever there are great nausea, repeated vom- 
 iting, insomnia, peculiar formication of the extremities, jaundice, early 
 enlargement of the liver and spleen, with abdominal pain and soreness, and 
 a tendency to epistaxis ; and, further, that despite the high temperature, 
 cerebral symptoms such as result from rheumatic hyperpyrexia are not 
 threatened, except in grave typhoid cases or just preceding the crisis. 
 
 The onset of relapsing fever may suggest forcibly the invasion period 
 of small-pox, with its marked rigors, high fever, lumbar pain, aching in 
 the head and limbs, nausea and vomiting, and if the patient is known to 
 have been exposed to the contagion of both diseases a diagnosis would 
 be impossible until the third day. But such a dilemma can rarely occur, 
 and under ordinary circumstances the patient's antecedents will enable 
 a correct opinion to be formed. 
 
 Severe cases of simple febricula with marked gastric disturbance may, 
 as remarked by Jenner, closely simulate relapsing fever ; and the same is 
 true of attacks of acute gastro-hepatic catarrh, with severe headache, sharp 
 fever, choltemic eye, epigastric tenderness, and frequent vomiting. Of 
 course there is no danger under ordinary circumstances of these simple 
 conditions being regarded as relapsing fever, but when the latter is prev- 
 alent in epidemic form it is probable that the mistake is frequently made. 
 
 1 Op. dt. 2 Deut. Arch.f. klin. Med., xlii. 1874.
 
 422 RELAPSING FEVER. 
 
 Although an immediate diagnosis might be possible only by microscopic 
 examination of the blood, the peculiar clinical symptoms of relaps- 
 ing fever would soon be found wanting, and suitable treatment would 
 bring the simpler affection under control. 
 
 Acute yellow atrophy of the liver occurs chiefly in pregnant 
 women, though it is also met with in men and children ; but it is so 
 rare that should a case of it come under observation during the prev- 
 alence of relapsing fever there is considerable danger that its nature 
 would be overlooked. It resembles relapsing fever in the occurrence of 
 jaundice and other signs of hepatic disorder, of delirium, and of a tend- 
 ency to hemorrhage from various surfaces. The temperature, however, is 
 more moderate, and does not exhibit the sudden remission of relapsing 
 fever; the liver is usually demonstrably diminished in size; severe nervous 
 disturbances, such as convulsions followed by stupor and then by coma, 
 are more constant ; while the occurrence of spirilla in the blood of relaps- 
 ing fever and of leucin and ty rosin in the urine of acute yellow atrophy 
 serves to distinguish completely the two diseases. Acute yellow atrophy 
 is, moreover, invariably fatal. 
 
 With ordinary care there is but little danger that any of the local 
 complications of relapsing fever will so absorb attention as to lead to a 
 neglect of the specific general disease, so that the cerebral symptoms 
 should be readily distinguished from the onset of any acute intracranial 
 affection; the parotitis which occasionally appears early in the disease 
 should not be confounded with idiopathic mumps ; and so for other com- 
 plications. There is far more danger, indeed, lest some of the complica- 
 tions may be overlooked ; and this is especially true of pneumonia, one 
 of the most frequent and most important of them all. Its occurrence is 
 the cause of the supervention of grave typhoid symptoms or of the modi- 
 fication of the normal course of the pyrexia in so many cases that noth- 
 ing but a systematic daily examination of the lungs will avert serious 
 oversights. 
 
 MORTALITY AND PROGNOSIS. The rate of mortality has varied in 
 different epidemics from 2 or 3 to 24 per cent. Murchison shows that 
 out of 2115 cases admitted to the London Fever Hospital during a period 
 of twenty-two years, and embracing two distinct outbreaks, only 39 
 proved fatal, making 1.84 per cent, mortality. Adding to these the 
 results of Scotch and Irish epidemics, a total of 18,859 cases, with 761 
 deaths, is reached, giving the rate of mortality for Great Britain as 4.03 
 per cent. The great Indian epidemics studied by Carter gave 111 deaths 
 out of 616 cases, equal to 18.02 per cent. Kecent German epidemics 
 have given from 5 to 10 per cent. The above rates are obtained where 
 all the cases observed during an epidemic are included. If, however, the 
 mortality of the ordinary form of relapsing fever is computed separately 
 from that of the bilious typhoid form, it does not exceed 2 to 5 per cent., 
 whilst the mortality of the latter form rises to from 33 to 50 per cent., or 
 even higher. 
 
 In the Philadelphia epidemic, out of a total of 1174 cases there were, 
 as nearly as can be ascertained, 169 deaths, giving a rate of mortality of 
 14.4 per cent. Taking all the cases admitted to the hospital under our 
 observation, many of which entered at a late period of the disease and 
 not a few when moribund, the mortality was not less than 13 per cent.
 
 MORTALITY AND PROGNOSIS. 423 
 
 The mortality among the negroes who were attacked with the disease 
 was considerably greater than among the whites. Finally, if the mor- 
 tality of the bilious typhus form be considered separately although from 
 the frequency of jaundice in this epidemic and the numerous gradations 
 of severity presented it is difficult to form a sharply defined group of 
 this character it was certainly not less than 50 per cent. 
 
 The date of death varies with the epidemic, the form of the disease, 
 and the previous condition of vitality of those attacked. Ordinarily, by 
 far the larger proportion of deaths occur during the first relapse or the 
 second interval, but in bilious typhoid cases, presenting grave complica- 
 tions, especially pneumonia or severe hemorrhages at an early date, or in 
 cases occurring in intemperate subjects, or in those previously in impaired 
 health, the mortality is much heavier in the initial paroxysm or the first 
 interval than at later periods. 
 
 Youth exerts the same favorable influences upon the result of relapsing 
 fever as it does in the case of typhus and typhoid. Murchisou states 
 that of 717 male patients under twenty-five years of age admitted into 
 the London Fever Hospital, not one died, and in most epidemics similar, 
 though not equally marked, results have been noted. In some epidemics 
 the mortality among young children has been considerable. As a rule, 
 the percentage of deaths increases with each decade after thirty years. 
 
 Sex does not exert any definite or constant influence upon the mor- 
 tality. The number of males affected is far greater ; they are liable to 
 be exposed to the contagion in its most concentrated form ; a larger pro- 
 portion of them are probably the subjects of intemperance than in the 
 case of females ; and thus most statistics agree in making the mortality 
 somewhat greater in the male sex ; but, all things being equal, there 
 is no good reason for holding that sex itself has any value in determin- 
 ing the result. 
 
 As in other zymotic diseases, the mortality from relapsing fever is highest 
 during the early period of an epidemic, and the type of the disease grows 
 milder as the epidemic declines. Cases of the bilious typhoid form have 
 become notably less frequent during the later stages of some epidemics 
 than at an earlier period. 
 
 Marked difference has been observed also as to the action of remedies 
 at different stages of epidemics, the early cases exhibiting an extraordinary 
 resistance to remedies, and especially to anodynes, which passes away later. 
 "When typhus and relapsing fevers have prevailed together, and a clear 
 discrimination between the two sets of cases has not been made, it has 
 appeared that the mortality increased as the epidemic advanced, but this 
 apparent exception has been due to the fact that at first the cases of relaps- 
 ing fever were in the majority, while later those of typhus, the much 
 more fatal disease, preponderated. 
 
 Epidemics of relapsing fever prevail at all seasons, but more com- 
 monly they are at their height during the colder mouths of the year. 
 The total mortality will of course correspond, but the actual percentage 
 is not constantly greater during any one season, although it is probable 
 that the greater liability to chest complications during the colder months 
 will render the disease more fatal then. 
 
 The gravity of relapsing fever has varied so greatly in different epidem- 
 ics that it is very difficult to determine what influence upon the mortality
 
 424 RELAPSING FEVER. 
 
 has been exerted by mere difference of race. A further source of difficulty 
 is found in estimating the differences in the physical conditions of the poorer 
 classes in the various communities affected. The mortality has been excep- 
 tionally high in the Russian and Indian epidemics and in some of the 
 German ones, while in the British epidemics it has uniformly been light. 
 It is interesting to note that in the Philadelphia epidemic, where the 
 great majority of patients were Irish or negroes, the mortality was high, 
 over 14 per cent. The previous condition of the Irish patients must cer- 
 tainly have contrasted favorably with that of the individuals attacked 
 in the Dublin and Belfast epidemics, so that the difference in result 
 seems attributable only to a greater virulence of the disease. As an ample 
 opportunity was here afforded to judge of the relative severity of relaps- 
 ing fever in the negro and white races when the cases occurred at the 
 same season, at the same stage of the epidemic, and in individuals living 
 under nearly similar conditions, it may be stated that the conclusion of 
 all who studied the question closely was that the disease was much more 
 severe among negroes, and in particular that they displayed a greater 
 tendency to serious complications and to the bilious typhoid form. 
 
 Although the degree and virulence of the infection undoubtedly con- 
 stitute the most important elements in determining the mortality, the 
 previous health and habits of those attacked with relapsing fever exert 
 an influence upon the result. This is especially true of habitual intem- 
 perance, which, by disposing to disease of the liver and kidneys, greatly 
 increases the liability to a fatal result. It has been seen (page 409), however, 
 that even when acute catarrhal nephritis existed at the time of the attack 
 severe relapsing fever might terminate favorably. Another observation 
 which we made frequently, and which coincides with what is well known 
 in regard to typhoid and typhus, is that improper exertion and exposure 
 during the stage of incubation and immediately after the invasion pro- 
 duced a highly unfavorable effect on the subsequent course of the disease, 
 aud seemed in particular to dispose to dangerous or fatal collapse at the 
 critical periods. 
 
 Apart from these general considerations, there are many special points 
 to be considered in regard to the prognosis of relapsing fever : 
 
 If after the crisis of the invasion there is not rapid and decided 
 improvement, complications should be suspected. 
 
 A sharp rebound of temperature quickly following crisis may be fol- 
 lowed by speedy death. 
 
 Mere elevation of temperature during the invasion and the relapse, even 
 though to an extreme height, is not attended with the danger which even 
 a somewhat lower degree would indicate in other zymotic diseases. 
 
 Increased elevation toward the expected time of crisis should arouse 
 anxiety, as sudden and dangerous cerebral symptoms may occur. 
 
 Prolonged duration of the pyrexia, or the substitution of irregular 
 gradual defervescence (lysis) for the characteristic crisis often associ- 
 ated with typhoid symptoms as are these conditions, is significant of 
 complications and of danger. 
 
 Wild delirium during the pyrexia, or transient active delirium about 
 the time of crisis, is not necessarily unfavorable, but continuous low 
 delirium, with disposition to stupor, is associated with a typhoid tend- 
 ency and is frequently followed by death. Excessive muscular
 
 MORTALITY AND PROGNOSIS. 425 
 
 tremor or convulsions are highly unfavorable, but not necessarily 
 fatal, symptoms. 
 
 Cardiac murmurs are not of serious import. The pulse is not usually 
 as rapid in proportion to the temperature as in typhus or typhoid, and 
 an excessively rapid pulse toward the expected time of crisis, especially 
 if associated with feebleness of the heart's action, points to the danger 
 of sudden collapse at or soon after that time. Previous cardiac disease, 
 especially fatty degeneration in habitually intemperate persons, increases 
 this danger. Continued frequency of pulse after the crisis indicates some 
 complication or the danger of some accident. 
 
 Cough of a bronchial origin is not a specially unfavorable symptom, 
 but if associated with the physical signs of pneumonia and with marked 
 disturbance of respiration it indicates extreme danger. 
 
 Epistaxis, even when copious, often occurs in favorable cases, but hem- 
 orrhage from the stomach or the kidneys is usually, though not invari- 
 ably, followed by death. 
 
 An eruption, measly or of pink spots, with or without minute 
 petechise, is rare, and usually occurs in severe cases, but is not of spe- 
 cially unfavorable significance unless associated with the typhoid state or 
 with patches of purpura. 
 
 Hiccough is a much less unfavorable symptom in relapsing fever than 
 in typhoid or typhus, and vomiting, even frequent and persistent, may 
 occur in cases of ordinary severity. 
 
 Enlargement of the liver and spleen indicates special risk only when 
 persistent for some time after the relapse, in connection with persistent 
 irregular fever. Jaundice has no necessarily unfavorable signification, is 
 frequent in ordinary cases in some epidemics, but when it is associated 
 with the other features of the bilious typhoid form the danger is extreme, 
 at least 33 per cent, of such cases proving fatal. 
 
 Slight transient albuniinuria may exist without special danger, but if 
 associated with evidences of catarrhal nephritis, or if extreme diminu- 
 tion of urine, with or without albuniinuria, exists, cerebral symptoms are 
 apt to ensue, with a high degree of danger. 
 
 All serious complications parotitis, erysipelas, dysentery, abortion, 
 pneumonia, and, above all,' peritonitis greatly increase the risk. 
 
 It is not possible to determine in what cases the relapse will fail to 
 occur. Motschutkoffsky's statement, that when a slight post-critical rise 
 occurs a relapse will follow, must be applicable only to a limited number 
 of cases. 
 
 In all cases at least one relapse must be expected ; the patient in the 
 interval must be regarded as still sick, and after the close of the relapse 
 he must still be treated with rigid care until convalescence is permanently 
 established. It must be remembered in hospital practice that many 
 patients enter toward or after the crisis of the first paroxysm, so that 
 caution is needed in estimating the eifect of remedies and the period of 
 the disease. 
 
 The undue prominence of certain conditions during the course of the 
 disease is apt to be followed by corresponding sequelae, and emaciation, 
 anaemia, dyspepsia, diarrhoea, dysentery, enlargement of the spleen and 
 rheumatoid pains may then be anticipated. The liability to ophthalmia 
 a ad affections of the middle ear is not to be forgotten.
 
 426 RELAPSING FEVER. 
 
 CAUSES OF DEATH. In fatal cases death occurs from exhaustion 
 dependent on the protracted and severe sufferings of the patient ; from 
 cerebral symptoms ; from hyperpyrexia ; from the virulence of the tox- 
 semia; from ursemic poisoning; from sudden collapse; or from some 
 complication, such as hemorrhagic meningitis, hemorrhages, pneumonia, 
 dysentery, rupture of the spleen, peritonitis, or abortion. 
 
 TREATMENT. The indications for treatment presented by regular 
 cases of relapsing fever seem to be to moderate the pyrexia ; to relieve 
 distressing symptoms, especially pain, insomnia, and gastric irritability ; 
 to sustain the strength of the system ; to prevent or modify the relapses ; 
 and to avoid complications and sequelae. 
 
 It is needless to observe that until the nature of the specific cause of 
 relapsing fever is fully determined, whether the spirillum occupy that 
 relation or not, it is impossible to direct our efforts rationally toward 
 its neutralization or elimination. The various remedies which have been 
 employed for these special purposes have no clinical support to recom- 
 mend them. And while experiment has shown that the activity of the 
 spirillum is readily destroyed by the direct action of various weak solu- 
 tions, as of quinine, carbolic acid, iodine, and mineral acids, no special 
 curative effect follows the internal administration of these remedies, even 
 in the largest doses consistent with safety. In fact, there can scarcely be 
 any disease in which treatment is less satisfactory or its results more 
 difficult to estimate. The marked difference between various epidemics, 
 and the wide variation presented by the development of individual symp- 
 toms in different cases of the same epidemic, fully account for this. 
 
 Quinine, as might be expected, has been largely used, in the hope that 
 it might control the pyrexia or prevent the relapse. Murchison 1 quotes 
 a considerable amount of evidence from various sources to show that it 
 does not possess either of these powers. It was administered to a con- 
 siderable number of our cases, either in small and frequently repeated doses 
 during the pyrexia or the intermission, or else in large doses repeated 
 several times in immediate anticipation of the expected time of the relapse. 
 Thus in some cases three grains of sulphate of quinia were given every 
 two or three hours until tinnitus was produced, and then this was main- 
 tained during the remainder of the pyrexia and of the intermission. The 
 amount given daily was from thirty to forty-two grains. It seemed to 
 rather increase the discomfort in the head, and in some cases it aggravated 
 the irritability of the stomach. The pyrexia was certainly not controlled 
 by it. Given in the same manner during the intermission, it was usually 
 well borne, but was not effectual in preventing the relapse. It is true that 
 in some cases the subsequent relapse seemed to be somewhat modified. 
 
 Thus in one case 30 grains were given on the 6th of April ; 39 grains on 
 the 7th ; 39 grains on the 8th ; 42 grains on the 9th ; and 60 grains on the 
 10th ; the critical fall had occurred during the night of the 7th, and the 
 relapse began on the evening of the 9th, but the rise in temperature was 
 less abrupt than usual, and the relapse lasted less than five days. It was 
 quite severe, however, so that it is doubtful whether the apparent modifi- 
 cation was anything more than is frequently observed in cases where no 
 quinine has been administered. 
 
 In another case the fall in temperature at the end of the first paroxysm 
 
 1 Op. cil., p. 408.
 
 TREATMENT. 427 
 
 was from 105.5 to 97 on March 26th : 35 to 40 grains of sulphate of 
 quinine were given daily on April 4th, 5th, 6th, 7th, and 8th ; the tem- 
 perature began to rise on the 3d, but the severe pyrexia and the usual 
 symptoms of the relapse were limited to a period of less than thirty-six 
 hours. This is a less common irregularity, and yet does not afford suf- 
 ficient evidence of the efficiency of quinine. In other cases, however, as 
 already stated, no appreciable effect followed its administration in this 
 manner. 
 
 To illustrate the other method of giving quinia, a case may be quoted 
 in which 20-grain doses every three or four hours were giveu from 
 April 25th to April 29th, so that in four days 575 grains were taken. 
 The initial paroxysm was of average severity, and terminated at the end 
 of the seventh day, April 20th. The quinine did not postpone the 
 relapse, which occurred on April 28th, but was of much less than the 
 usual duration. 
 
 In no other case in which these large doses were given was there even 
 as much reason as in the above instance to attribute to quinine any posi- 
 tive influence upon the course of the disease. 
 
 In order to demonstrate that the failure of quinine was not dependent 
 upon a want of absorption, Muirhead injected large amounts subcutane- 
 ously with no better results. 
 
 In conclusion, it may be said that the evidence shows positively that 
 quinine possesses no specific influence whatever upon relapsing fever; 
 that in only occasional cases, if at all, will eVen enormous doses given 
 during the intermission postpone or modify the subsequent relapse ; and 
 that it is not effective in reducing the temperature. In view, therefore, 
 of the usual gastric irritability and tendency to vertigo and headache, 
 which seem to be increased by large doses of quinine, and, further, in 
 view of the small mortality, and of the fact that when death occurs it 
 usually comes from causes over which large doses of quinine could exert 
 no influence, it seems clear that this drug should be prescribed only in 
 tonic doses and only in cases where it is well tolerated by the stomach. 
 
 Arsenic was used in a considerable number of our cases with the view of 
 determining if it possessed any power of relieving the severe pains or of 
 influencing the relapse. It was administered in the form of Fowler's 
 solution (Liq. potassii arsenitis), and was given exclusively by the mouth. 
 If given during the intermission, it was well borne in doses of five to ten 
 drops every four or even every three hours, given freely diluted with 
 water and immediately after food. In several cases it quickly induced 
 puffiness about the eyes, but no effect whatever was produced on the pains 
 or on the succeeding relapse. In more than one such case there was an 
 unusually profuse crop of sudamina during the relapse, many of the 
 vesicles breaking and being followed by brownish stains. When given 
 during the pyrexia it aggravated the nausea and vomiting, so that it had 
 to be suspended. In one unfortunate case, indeed, although promptly 
 suspended, the arsenical solution seemed to have assisted in the establish- 
 ment of vomiting and purging, which proved uncontrollable and con- 
 tributed greatly to the fatal result. Hypodermic injections of arsenic 
 have been used considerably with no better results. There seems, there- 
 fore, to be no reason whatever for any further use of this drug in relaps- 
 ing fever.
 
 428 RELAPSING FEVER. 
 
 The high pyrexia and the severe rheumatoid pains have naturally sug 
 gested the use of salicylic acid and the salicylate of soda. We were not 
 sufficiently aware of their antipyretic properties in 1869-70 to have 
 recourse to them, but in more recent epidemics Uuterburger 1 and Riess 2 
 have found that large doses of the latter substance (one hundred grains 
 or more daily) will reduce the temperature either in the initial paroxysm 
 or in the relapse, but that the disease is not cut short nor are the lesions 
 of the blood or solids prevented. 
 
 It must be borne in mind here, as in connection with the action of 
 quinine, that apparent modifications of the relapse are to be viewed with 
 great distrust, since such great irregularities therein naturally present 
 themselves. Care must further be taken lest such attempts to reduce the 
 temperature aggravate the irritation of the stomach, and by lessening the 
 power of taking food induce more serious exhaustion than would have 
 resulted from the unchecked pyrexia. The evidence in our possession is 
 not sufficient to justify a positive decision as to the therapeutic value of 
 the salicylates in relapsing fever, but, apparently, they are applicable to 
 only a portion of the cases, and in these are of but limited utility. 
 
 The same failure which has followed the use of quinine, of arsenic, and 
 of saliciu and the salicylates has attended the effort to prevent the relapse 
 by berberine, benzoate of soda, tincture of eucalyptus, and other reputed 
 antiperiodics. 
 
 Digitalis, veratrum viride, and aconite were used by us quite freely 
 as antipyretics. The first t\v r o of these were often suspended on account 
 of the irritability of the stomach, and no valuable results followed their 
 use when well tolerated. Aconite in small doses, frequently repeated, as 
 one drop every two hours, seemed to aid in allaying nausea and to exert 
 some slight influence upon the fever. In cases where there was a distinct 
 tendency to heart-failure, digitalis was given freely with a Ivantage. 
 
 Cold baths were not used to reduce the temperature in a~i v of the cases 
 under our observation. They have been employed in other epidemics, 
 but, as far as we know, with no other effect than to cause merely tempo- 
 rary lowering of temperature, without any decided relief to the other 
 symptoms and without any apparent influence upon the course of the 
 disease. Frequent spongiugs with cool water and the application of ice 
 to the head gave only slight and temporary relief. 
 
 Simple febrifuge remedies, such as effervescing draught or spirit of 
 nitrous ether with solution of acetate of ammonium, were well received by 
 the stomach, and appeared to promote perspiration and the more free 
 secretion of urine. 
 
 Finding all our efforts to control the pyrexia so unsuccessful, recourse 
 was had in a large proportion of our cases to the hyposulphite of soda, 
 given, dissolved in two ounces of water, in doses of twenty grains every 
 two or three hours. In two cases it seemed to increase nausea, and at 
 times it caused some purging, but otherwise it was well borne by the 
 stomach, and, indeed, frequently appeared to aid in controlling vomiting. 
 The records show that this drug was given in only two or three of the 
 fatal cases, so that although the patients who took it regularly presented 
 every grade of severity of the disease, they did well uniformly. It is 
 certain, however, that the hyposulphite of soda exerted no specific effect 
 
 1 Jahrb. f. Kinderheilk. v. x., 1876. J Deutsch. Med. Wochnsch., Dec., 1879.
 
 TREATMENT. 429 
 
 upon the disease ; it did not reduce temperature, it did not prevent or 
 modify the relapses nor relieve the severe pains ; it may have promoted 
 more free and healthy secretions, and, by tending to prevent vomiting, 
 may have aided in maintaining nutrition ; but, on the whole, it may 
 fairly be doubted whether this remedy merits any more extended 
 trial. 
 
 One chief reason of the failure of antipyretics in relapsing fever is to 
 be found in the existence of widespread irritative lesions of the glandular 
 and mucous tissues, which combine with the specific blood-changes in 
 causing and maintaining the high temperature. It is not surprising, 
 therefore, that the remedies which afford the greatest relief in this dis- 
 ease are opiates and sedatives to the gastro-intestinal mucous membrane. 
 Opium, or morphia, must indeed be regarded as the basis of the rational 
 treatment of relapsing fever. It is called for by the insomnia, the severe 
 headache and the pains in various parts of the body, the nausea and vom- 
 iting, and the pyrexia. It does not appear to have been as prominent a 
 feature in the treatment of other epidemics as we found it necessary to 
 make it in Philadelphia. Parry * used it very freely, chiefly in the form 
 of opium, by the mouth, and found a singular tolerance exhibited by his 
 patients, several of whom took as large a dose as three grains every two 
 hours during the afternoon and night without producing any sleep or even 
 any contraction of the pupils. This resistance to the action of opium 
 was observed chiefly in the early part of the epidemic, and we may add 
 that it was exhibited chiefly when opium was given by the mouth. When 
 morphia was used hypodermically we found that one-fourth of a grain, 
 given at intervals of six to twelve hours, afforded very great relief to 
 the pains, aided and relieved vomiting, and often induced quiet, refresh- 
 ing sleep. Its use was not contraiudicated by jaundice, by cough or pul- 
 monary congestion, or by moderate contraction of the pupils. It was 
 frequently given so as to maintain decided drowsiness throughout the 
 pyrexia. When the pains persisted during the intermission the morphia 
 was continued in smaller doses or at longer intervals. It occasionally 
 happened that when patients were thus kept continuously under opium 
 influence no relapse occurred ; but here, as in regard to the action of 
 quinine, it may safely be asserted either that what was regarded as the 
 initial paroxysm was in reality the relapse, or else that the absence 
 of a relapse was a mere irregularity, and in no way to be attributed to 
 the action of the opium. On the other hand, in cases presenting a 
 tendency to the typhoid state, with a disposition to stupor, or where 
 the urine was scanty and albuminous, no opiate was administered. 
 
 We have already stated that in our cases quinine in acid solution was 
 frequently ordered, and it answered very well to add to each dose of this 
 a suitable amount of morphia. 
 
 Atropia, in the dose of gr. -fa to gr. $, was usually associated with 
 the hypodermic injections of morphia. This was done particularly in 
 cases where the pains were very severe, when the pupils were disposed 
 to be contracted, or when there was continued profuse sweating. In 
 addition to this, atropia was continued without morphia during the inter- 
 mission in a few cases. The patients proved susceptible to its influence, 
 and dryness of the mouth with dilatation of the pupils was readily 
 
 1 Loc. cit.
 
 430 RELAPSING FEVER. 
 
 produced by gr. -^ every six hours. In one case gr. -fa every four hours 
 for two days caused delirium, with the usual symptoms of belladonna 
 action, all of which passed away quickly after withdrawal of the drug. 
 But in none of these cases was the relapse influenced in the least. 
 
 Other remedies may be used for the relief of the insomnia, which is 
 always one of the most distressing symptoms. Chloral and bromide of 
 potassium have been found serviceable in various epidemics, and some 
 observers have preferred them to opium for the relief of headache and 
 insomnia. They did not prove reliable in the Philadelphia epidemic of 
 1869-70. Bromide of potassium, even in large doses, produced scarcely 
 any effect, and, while in a few cases chloral in doses of gr. xx. gave posi- 
 tive relief, in the majority of instances 40 grains failed to cause sleep or 
 relieve suffering. It must not be forgotten also that, as there is a special 
 tendency to cardiac failure in this affection, the action of chloral must be 
 closely watched. 
 
 In a small series of our cases where muscular pains, hyperasthesia, 
 and twitching were marked succus couii was given quite freely, but with- 
 out any apparent benefit. 
 
 The condition of the stomach required attention in almost every case. 
 Nausea, vomiting, and epigastric and hypochondriac soreness were the 
 prominent symptoms. Anorexia was usually complete during pyrexia, 
 and not rarely patients were admitted to the hospital who asserted that 
 for one or more days they had not taken any nourishment whatever. 
 Under such circumstances, and in a disease where the tendency to pros- 
 tration and cardiac failure calls for stimulants and food, it is evident that 
 strict care must be given to the diet. In many cases skimmed milk with 
 lime-water, meat broths, arrowroot, or gruel, could be taken in small 
 amounts at short intervals, and retained. But whenever these are 
 rejected, no attempt should be made to persist in their use, but koumiss, 
 whey, or chicken-water should be substituted, and continued until the 
 stomach grows retentive. Equal care must be paid to the selection of a 
 suitable form of stimulus. It may be proper to employ a mild and 
 relaxing emetic if the patient be seen at the onset of the disease and if 
 there is reason to suspect the presence of indigested food in the stomach, 
 but under any other circumstances there seems no reason for its use in a 
 disease where vomiting is so common and gastric irritability one of the 
 most troublesome symptoms. Nor should purgatives be given save when 
 very positive indications exist for their use. 
 
 Constipation is rarely obstinate ; the amount of nourishment taken is 
 very small ; in a considerable proportion of cases there is diarrhoea, or at 
 least a sensitive state of the bowels ; and as a consequence it is preferable 
 in nearly every case to dispense with laxatives entirely, and, if the 
 bowels must be opened by assistance, to administer a simple enema. 
 
 When irritability of the stomach is marked, benefit may be derived 
 from very small doses of calomel frequently repeated, as, for example, 
 gr. | or ^ every one or two hours. Subnitrate of bismuth may be used 
 in combination with this or as a substitute for it. In several instances 
 more prompt relief was obtained from nitrate of silver given in the dose 
 f r< lV every three or four hours, dissolved in thin mucilage of acacia. 
 
 Stimulants were remarkably well borne, and their administration in 
 such form as was acceptable to the stomach was clearly of service,
 
 TREATMENT. 431 
 
 even from an early period of the disease. As a rule, whiskey was 
 employed, given in the form of milk punch. By carefully grad- 
 uating the amount of alcohol, and when necessary diluting the milk 
 freely with lime-water, the stomach usually received it well. If 
 circumstances favored, dry champagne, or brandy or sherry in carbon- 
 ated water would often prove preferable. The exhausting nature of 
 the disease, the marked tendency to cardiac failure, and the inability to 
 digest an adequate amount of nourishment, ail indicate the early use of 
 stimulants. In cases where a tendency to the development of the 
 typhoid state existed alcohol was freely given, even to the extent of six- 
 teen ounces of whiskey in twenty-four hours. Other stimulants were 
 usually given in these cases, such as carbonate of ammonium, especially 
 if pulmonary congestion existed ; turpentine, especially if tympany was 
 marked ; or Hoffmann's anodyne or spirit of chloroform, if muscular 
 twitchings, hiccough, or insomnia with wandering delirium were promi- 
 nent symptoms. In all cases of severity the use of tonics and stimu- 
 lants should be maintained in reduced doses during the intermission and 
 for some days after the final fall of temperature. 
 
 It remains to allude briefly to certain special remedies and to certain 
 symptoms requiring special treatment. Formerly, much diversity of 
 opinion existed as to the propriety of venesection or local depletion in 
 relapsing fever, but Murchison concluded, after a careful examination 
 of the evidence, that it had not been shown to be of service ; and 
 certainly the disease as it occurred in PhUadelphia in 186970 presented 
 no indication whatever for even the mildest depletory measures. This 
 corresponds with the recognized plan of treatment in all the specific 
 fevers. 
 
 Blisters are not so objectionable in relapsing fever as in either typhus 
 or typhoid, and there are several conditions in which they have been 
 found decidedly useful. In cases where the headache has obstinately 
 resisted cold applications, bromide of potassium, and opiates, a blister to 
 the back of the neck has afforded marked relief, with no unfavorable 
 result. Again, in cases where the vomiting and epigastric distress were 
 severe and obstinate the application of a blister three inches square to 
 the epigastrium is to be recommended. 
 
 Chloroform has proved of value for the relief of various symptoms in 
 relapsing fever. As already stated, it was found the most useful remedy 
 for the hiccough which was so troublesome in a number of our cases, and 
 especially in those where jaundice was pronounced. It also seemed ser- 
 viceable in controlling the peculiar chills which in varying degrees of 
 severity were present in a few cases, recurring at about the same hour on 
 successive days. These rigors or chills were uninfluenced by very large 
 doses of quinine or other antiperiodics, but were apparently controlled 
 by full doses of chloroform given in advance of the expected hour of 
 recurrence. 
 
 Jaundice, which, as has been stated, is partly of hsemic origin, but is prob- 
 ably also due in part to obstruction from catarrhal swelling of the mucous 
 membrane of the bile-ducts, is not influenced by mineral acids, and still less 
 should mercurials or purgatives be administered for its relief. It would 
 seem proper, in cases where this symptom is marked, to observe special 
 care in diet, and the use of stimulants, and to employ local sedative
 
 432 RELAPSING FEVER. 
 
 astringents, such as small doses of nitrate of silver combined with opium 
 and belladonna. 
 
 Muscular soreness, pains, and tremor may call for special treatment on 
 account of their severity. The only remedy which has proved useful in 
 relieving the first two of these symptoms is opium, conjoined with the 
 external use of anodynes. Iodide of potassium fails even in doses as 
 large as can be borne, and the same is true of muriate of ammonium and 
 cimicifuga, which we used thoroughly without any effect. In the mus- 
 cular pains, however, which torment the patient during convalescence, 
 the ammoniated tincture of guaiacum was found of service. Atropia 
 hypodermically and chloroform internally have been found useful for the 
 relief of severe muscular twitchings. 
 
 Upon the whole, therefore, it will be seen that in ordinary cases a sup- 
 porting and expectant plan of treatment is all that is required. Aban- 
 doning the idea of forcibly controlling the fever or of preventing the 
 relapse, care should be given in the first place to the diet and to judicious 
 stimulation. 
 
 Opium or morphia should be used to control pain, excitement, and 
 insomnia, aided, as far as the latter is concerned, by bromide of potas- 
 sium or the cautious use of chloral. Cooling drinks should be allowed, 
 cool applications made to the head, and the body should be repeatedly 
 sponged with cooling and disinfecting lotions. If the stomach is reten- 
 tive, quinine in moderate doses may be given in acid solution, alternating 
 with a simple fever mixture ; but if nausea and vomiting are present, 
 the first purpose will be to allay them by the appropriate measures 
 already discussed. 
 
 Epistaxis is a frequent symptom, but usually requires no special atten- 
 tion. Occasionally it is profuse, and then should be promptly checked, 
 since serious exhaustion may follow its continuance. If, therefore, mild 
 astringent applications do not arrest it, recourse must be had to the tam- 
 pon saturated with diluted Monsell's solution. 
 
 The urine must be closely watched and frequently analyzed in relaps- 
 ing fever. In some epidemics serious alterations in this secretion are 
 rare ; in others it is not uncommon for the urine to be scanty, and to 
 contain albumen or blood When this latter condition is presented, espe- 
 cially if at the same time ursemic symptoms exist, dry cups should be 
 applied over the kidneys, to be followed by the use of dry heat, and free 
 perspiration should be promoted by hot-air baths or by the hot wet pack. 
 It is probable that jaborandi given in repeated small doses, so as to avoid 
 any depressing effect on the heart, will be found valuable in such cases. 
 Infusion of digitalis, with spirit of nitrous ether or with acetate of 
 potassium, may also be used with advantage. 
 
 Absolute rest must be insisted on throughout the entire period of 
 paroxysm and relapse. The records of every epidemic present instances 
 of sudden death from cardiac syncope following trifling exertions. The 
 patients should therefore be kept strictly quiet in bed from the initial 
 rigor until their strength is fully restored after the relapse. As the 
 danger of collap.se is especially great at the time of the critical fall in 
 temperature, the patient should be closely watched as the end of the 
 initial paroxysm and of the relapse approaches. If there is any sudden 
 rise of temperature, with head symptoms due to hyperpyrexia, large doses
 
 TREATMENT. . 433 
 
 of quinine, ice to the head, cold spraying, or the cold bath must be 
 promptly used. As sweating begins the body must be covered with a 
 warm blanket and warm stimulating drinks be administered. If any 
 marked tendency to collapse is observed, the subcutaneous injection of 
 strychnia or of ether and digitalis, conjoined with diffusible stimulants 
 internally and hot applications externally, are to be employed immedi- 
 ately. The special remedies required for the various complications and 
 sequelae have already been sufficiently indicated. 
 
 I desire in conclusion to acknowledge the important assistance received 
 from Drs. Geo. S. Gerhard, Louis Starr, Charles Shaffner, and R. G. 
 Curtin, who, under the supervision of my colleague, the late Dr. Edward 
 Rhoads, and myself, recorded the histories of most of the cases which 
 serve as the basis of this article, and also tabulated them for statistical 
 purposes. 1 
 
 1 Reference must also be made to the interesting observations on spirilla published by 
 Miilhauser in Virckoufs Archiv for July 9, 1884, after this article had been printed. Ilia 
 results go to confirm the view that the spirillum of Obermeier is the essential cause of 
 relapsing fever. 
 
 VOL. I. 28
 
 VARIOLA. 
 
 BY JAMES NEVINS HYDE, M.D. 
 
 VARIOLA is an acute, febrile, contagious, and systemic aflection, pre- 
 ceded by an incubative period, characterized by the evolution of symp- 
 toms in a relatively determinate order, with a cutaneous efflorescence 
 successively papular, vesicular, and pustular in type, followed by crust- 
 ing, and terminating either fatally or by complete convalescence, with 
 or without sequelae in the form of multiple, circumscribed, and super- 
 ficial cicatrices. 
 
 SYNONYMS. Lai., Variola; Eng., Small-pox; Fr., Petite VSrole; 
 Get:, Pockeu ; ItaL, Vajuolo. 
 
 HISTORY. -Small-pox is a disease which, there is reason to believe, 
 was first developed in the earliest ages of which the human family has 
 record. Originating probably in China, India, and the adjacent countries 
 of the Asiatic continent, its extension over Europe and America was, 
 without question, in the line of progress pursued by the advancing cen- 
 tres of traffic and population. The earliest traces of its ravages can be 
 dimly recognized in the descriptions of writers in the middle and latter 
 parts of the sixth century. In the early years of the tenth century, 
 however, a remarkably accurate picture of the disease was drawn by 
 Rhazes, a physician of Bagdad. His treatise, translated by Greenhill 
 for the London Pathological Society, 1 sets forth the views of an Egyp- 
 tian physician named Ahron, who wrote in the sixth century. After 
 these dates the remarkable political and social changes in Europe, which 
 are to be attributed either directly or remotely to the Crusades, contrib- 
 uted largely to the opportunities for the spread of the disease and to the 
 occurrence later of those decimating epidemics which became veritable 
 scourges. In the last century the resulting mortality in some of the 
 countries of Europe was often equal to the entire population of one of 
 their largest cities. If a modern traveller could find himself transported 
 to the streets of the city of London as they appeared in the early part 
 of the present century, it is probable that no peculiarities of architecture, 
 dress, or behavior would be to him so strikingly conspicuous as the enor- 
 mous 'number of pock-marked visages he would encounter among the 
 people at every turn. In the face of all cavil and sophistry, medical 
 science will alwavs count among its greatest triumphs the modifications 
 
 I'l "!. 1 . & * 
 
 wnicn variola Has undergone since its preventive treatment was estab- 
 lished upon a satisfactory basis by the discovery of the immortal 
 Jenner. 
 
 1 A Treatise on the Small-pox and Measles, by Abu Beer Mohammed Ibn Zacarfj-a Ar- 
 riizf, London, 1848. 
 
 434
 
 ETIOLOGY. 435 
 
 The bibliography of the disease is extensive, and the list of authors 
 contributing to the subject is enriched by the names of such men as 
 Boerhaave, Van Swieten, Sauvages, "NVillan, E. Wagner, Johanuy 
 Rendu, Hebra, and, more lately, Kaposi. 
 
 ETIOLOGY. Respecting the etiology of variola, it can scarcely be 
 affirmed that our knowledge has been greatly extended since the date of 
 the experiments of Jeuuer. There is no historical knowledge of its 
 generation de uovo ; and the earliest cases of the malady must therefore 
 be classed with the exceedingly rare instances of spontaneous cow-pox 
 which have proved such a boon to the vaccini-culturists. To-day every 
 case of small-pox is justly regarded as having been directly or indirectly 
 transmitted from one or more individuals affected with a similar disorder. 
 It is thus recognized as specifically infectious, contagious, and iuoculable, 
 its transmission occurring, first, without contact, by atmospheric conduc- 
 tion of a volatile contagious principle of unknown nature ; second, with 
 contact either by (a) actual transference of dry or moist infectious secre- 
 tions deposited upon a susceptible surface, immediately or through the 
 medium of garments, bed-clothing, paper money, and similar material 
 substances ; or (6) by inoculation of unprotected persons with the path- 
 ological product of an infected organism. There is no doubt but that 
 the contagious principle displays its greatest activities in connection with 
 the contents of the lesions undergoing a change from the vesicular to the 
 pustular phases, though from the beginning to the end of the disease it 
 is probable that all the tissues and fluids of the infected body are in 
 various degrees capable of producing the malady in those who are unpro- 
 tected. Furthermore, whether associated or not with an organic sub- 
 stance, the coutagium of the disease is known to preserve the power of 
 reproducing itself for a period lasting for weeks, mouths, and even a 
 longer time. A field for its activities once secured, there is a period of 
 time during which few if any evidences of its progress are declared, this 
 period being abruptly terminated by distinct and characteristic symptoms. 
 This is known as the period of incubation. 
 
 The nature of the contagium in small-pox has been the subject of 
 much speculation, careful investigation, and experiment, the results hav- 
 ing established but few facts of any practical value. There is at present 
 no proof that any bacteria, vegetable germs, or other minute organisms 
 foreign to the human body are the essential causes of the disease. It is 
 certain that iu health the human body is completely enveloped in a vola- 
 tile medium emanating from the secretions of the glands of the skin, 
 which can be recognized by some of the keen-scented lower animals when 
 it is wafted through the air at a distance of several hundred feet from a 
 single individual. It is reasonable to conclude that not only in small- 
 pox, but in other contagious and infectious diseases, these emanations 
 possess a pathological character, and become capable of transmitting such 
 maladies from diseased to healthy organisms. Certain also it is that 
 when the subjects of these diseases are crowded together, as in prisons, 
 hospitals and camps, this contagious element gathers an unwonted inten- 
 sity. By far the larger number of all transmissions of variola occur 
 after inhalation of the infective medium in other words, by the avenue 
 of the lungs. It is probably for the same reason that the disease spreads 
 more \videly and with greater virulence during the cold seasons of the
 
 436 VARIOLA. 
 
 year, in this latitude especially from December to February a time 
 when the veutilation of inhabited dwelling-houses is usually much less 
 perfect than in warmer weather. 
 
 The disease affects individuals of all ages and both sexes, not sparing 
 the foetus in utero, and, in the case of the latter, occurring both with and 
 without previous infection of the mother of the unborn child. Nowhere 
 are its ravages so extensive and followed by such fatal results as among 
 those who have long been unprotected by previous vaccination. Among 
 the debilitated, as also among the very young and the very old, small- 
 pox is liable to be followed by severe complications and a fatal result. 
 Negroes, possibly in consequence of tendencies inherited through genera- 
 tions of unvaccinated ancestors, are particularly prone to the disease. 
 Lastly, there is occasionally noted an individual idiosyncrasy, in conse- 
 quence of which either a remarkable susceptibility to the disease exists 
 or a no less singular immunity against its encroachment is conferred. 
 
 Thus, physicians, much exposed to its influences in the discharge of 
 their professional duties, are known to be relatively exempt, while other 
 individuals, few in number it must be admitted, have either had repeated 
 attacks of the malady itself, or, after each exposure to its contagious 
 principle, a recurrent illness of variable type. In the immense majority 
 of all cases, however, one attack confers immunity upon the sufferer 
 against subsequent invasion of the disease for the remainder of life. 
 Upon a few occasions I have known variola to occur in individuals pre- 
 viously affected with cutaneous diseases, especially the eczematous a fact 
 which merely suggests that such pre-existing disorder of the integument 
 conferred no immunity against infection. 
 
 SYMPTOMATOLOGY. The earliest symptoms of small-pox may be occa- 
 sionally recognized during the stage of incubation, which, as described 
 above, embraces a period of from ten to fifteen days, though these limits 
 are not absolutely fixed, since both shorter and longer incubative periods 
 have been at times established. During the interval the patient may 
 appear to enjoy perfect health, or, on the other hand, suffer from an ill- 
 defined malaise, with anorexia, languor, insomnia, and allied symptoms. 
 Close observation of the patient thus affected will often reveal the exist- 
 ence of a peculiar pallor of the face, accompanied by a skin-color which 
 suggests a slight degree of sallowness of the complexion. These rather 
 indeterminate symptoms are naturally most marked toward the comple- 
 tion of the period of incubation. 
 
 The latter terminated, the period of invasion follows, and extends from 
 the conclusion of the incubative stage to the moment when the first 
 cutaneous lesions of variola appear upon the surface. The symptoms 
 which characterize the onset of this period of invasion are conspicuous 
 and characteristic. There is often a sharp vespertine rigor or a more or 
 less continuous chilliness, accompanied by sensations of " creeping " over 
 the surface, lasting even for several hours. Meantime, the temperature 
 rises to 103 or 105 F., the pulse running up to 120 or 130 beats per 
 minute. In this febrile condition there is commonly complaint of a 
 characteristic aching in the head and back, intense, scarcely intermittent, 
 and so peculiar as to have frequently furnished a clue to the diagnosis of 
 the approaching malady. These sensations are quite analogous to the 
 substernal and other pains which frequently precede the first explosions
 
 SYMPTOMA TOLOG Y. 437 
 
 of syphilis, and are all, without question, due to the circulation of a 
 poisoned blood, the influence of which is in this manner confessed by the 
 nervous system. In the case of infants and young children the invasion 
 of small-pox is frequently ushered in by delirium and convulsions 
 symptoms which are to be explained by the facts just named. 
 
 This complexus of febrile and nervous symptoms, varying somewhat 
 in intensity and possibly interrupted by sensations of chilliness, may be 
 recognized as continuing on the second and third days of the period of 
 invasion. Meantime, there may be noted a dusky hypersemia of the 
 pharnyx and tonsils, the surface of which may even display elevated 
 points which develop later into papules. In exceptional instances the 
 intensity of the poison is such that the system fails to rally before the 
 violence of the onset, and a fatal result ensues before the characteristic 
 exanthem appears upon the skin. 
 
 On the second and third days of the invasion stage of the disease, if 
 they are displayed at all, the variolous rashes appear. Too much atten- 
 tion can scarcely be paid to the importance of their recognition on the 
 part of the diagnostician. Often indeed have practitioners been 
 deceived by their occurrence, having been either completely blinded to 
 the serious nature of the malady in progress, or, as Bartholow l has well 
 shown, having supposed that they were dealing with a concurrence of 
 variola and scarlatina or rubeola. 
 
 Hebra was the first to point out the significance of the rash known as 
 roseola variolosa or erythema variolosa. Occurring at about the dates 
 named above, it is in a few patients pronounced and vivid, even in soli- 
 tary instances rivalling in severity the exanthem which succeeds it. In 
 others, the majority of all patients in some epidemics, it may be entirely 
 wanting. The writer has certainly observed its most typical develop- 
 ment in women who were either menstruating or in the puerperal state. 
 It is said also to be relatively frequent in subjects of a tender age. Ka- 
 posi 2 has recognized it in all its manifestations at every age. 
 
 It appears in the form of puncta, striae, or diffuse and uniform blushes 
 covering extensive areas of the integument, livid red, purplish, or 
 brownish-red in hue, paling under pressure, but never leaving upon the 
 skin over which the finger-nail is quickly drawn the characteristic whitish 
 streak by which many practitioners test the scarlatinal rash. The sur- 
 faces involved may be either not raised or slightly elevated above the 
 general level of the skin, and are usually circumscribed. The regions 
 chiefly involved have been carefully described by Th. Simon, a ad are 
 hertce sometimes called Simon's triangles. Thus the groin, the internal 
 face of the thighs, and the hypogastric region may be involved at once 
 (femoral triangle of Simon) ; the surface of the axilla, the pectoral region, 
 and the inner face of the arm (brachial triangle of Sirnon), as also the 
 extensor faces of the knees and the elbows, the dorsum of the feet, and 
 indeed every portion of the surface of the body. 
 
 In the midst of these rash-covered areas may also appear petechial or 
 hemorrhagic, dark-red, pin-head to bean-sized maculae, which undergo 
 color-changes both in lighter and deeper shades as the invasion period 
 
 1 "The Variolous Diseases," Med. News, Mar. 4, 1882, p. 232. 
 
 * Consult the admirable chapter on variola in his treatise, Path. u. Therap. der Haut- 
 krankt, Wien, 1882.
 
 438 VARIOLA, 
 
 lapses. In lieu of these, however, transient wheals may come and go 
 over the surface, and even the erythema described above may assume an 
 erratic phase and appear in one part only to disappear and recur at 
 another. None of these flash-light warnings of the oncoming exanthem 
 are proportioned to the latter in the matter of extent and intensity of 
 development. They may be followed by grave or mild manifestations of 
 the disease. The subsequent eruption may also be much more abundantly 
 developed in regions where the invasion rashes have not appeared, and 
 the latter completely fade before the former have advanced to occupy the 
 field thus deserted. 
 
 The invasion stage of variola commonly occupies three days. Rarely 
 it extends into the fourth, fifth, and even the sixth, day after the pre- 
 monitory chill and fever. 
 
 Upon its subsidence the exanthem of the disease as a rule promptly 
 appears. Simultaneously, the temperature abates, the rapidity of the 
 pulse diminishes, and there is marked amelioration of the general 
 symptoms. The patient, frequently deceived by the completeness of this 
 defervescence, is apt to conclude that he is convalescent from his disorder, 
 and is thus often astonished at the discovery of the exanthem upon the 
 person, usually the face. In other cases, more commonly those of a 
 a grave character, there is failure of this defervescence, the febrile symp- 
 toms continuing or even increasing in severity. 
 
 The eruption first appears in the form of pin-head sized and larger, 
 firm, conical, discrete, coherent or confluent, reddish papules, sometimes 
 accompanied by mild sensations of a pricking or painful character, often 
 exciting no subjective symptoms by which their presence could be declared. 
 To the touch they are characteristically indurated, and suggest the hard- 
 ness of small shot imbedded in the skin. They appear first and in great- 
 est abundance upon the face and scalp, involving later and progessively 
 the trunk, the extremities, and the palmar and plantar surfaces. It is at 
 this moment that the eruption most resembles that to be recognized in 
 measles (the distinction between the eruptive symptoms of the two diseases 
 will be considered later). At times a reddish areola surrounds each lesion, 
 especially those appearing upon the trunk. All are situated about the 
 orifices of the follicles and glands of the skin. 
 
 On the first and second days of the eruption the papular lesions mul- 
 tiply in number, involve an increasingly large area, and individually aug- 
 ment in size ; so they appear first upon the head, and are successively 
 presented to the eye upon the lower portions of the body. The older 
 lesions are usually recognized upon the scalp, face, neck, and shoulders ; 
 the more recent upon the extremities. By the third day of the eruptive 
 stage there is usually evident at the apex of the older lesions a minute 
 vesicle containing a drop of pellucid serum, which rapidly changes in 
 character and size till a distinct vesicle is formed with cloudy or lactescerit 
 contents. Early in their career an apicial depression can be seen, which 
 later deepens into a characteristic umbilication. This umbilication in the 
 vesicular stage is somewhat peculiar. It is more than a mere depression 
 of the summit, such as might be made by thrusting a blunt-pointed pin 
 centrally and downward so as to carry the roof-wall before it. It is made 
 clinically most distinct by the fluting or puckering of the peripheral part 
 of the roof-wall, giving the lesion a crenated appearance which is not
 
 SYMPTOMATOLOGY. 439 
 
 assumed by any other cutaneous efflorescence of multiple development. It 
 may be regarded as pathognomonic of variola. 
 
 The pock is usually mature by the sixth day of the eruption. It is 
 pea-sized and globular in shape ; its umbilication has been usually quite 
 removed by the complete filling of its chamber with distinctly purulent 
 contents ; it is often surrounded by a halo due to hypersemia or exuda- 
 tion ; and, the total number of individual lesions being then fairly deter- 
 mined, it is often closely set against its fellows, islets of unaffected integu- 
 ment having meantime become i'ewer and more contracted. The face, 
 covered with this eruption, then exhibits a typical aspect. The entire 
 integument becomes swollen and brawny or cedematous. The eyes are 
 thus closed by the tumid lids, which are separable with difficulty, arid 
 this, too, even though they be the seat of comparatively few lesions. The 
 nose, lips, cheeks, and ears are by similar processes deformed and given a 
 most repulsive unsightliness. Mucus and puriform secretions gather and 
 dry about the mucous outlets. The skin of other parts of the body 
 (hands, feet, genitalia, and the entire extremities) is in a similar condition, 
 merely most noticeable in the exposed and disfigured visage. 
 
 The fever of maturation or suppuration, or, as it is often called, the 
 secondary fever, is lighted to activity with the onset of the suppurative 
 process. The temperature rises to a point ranging between 101 and 
 105 F., the pulse-rate simultaneously rising to 100 and even 150 in the 
 minute, varying of course with the age of the patient and the severity 
 of the attack. During its continuance, from the eighth or ninth to the 
 eleventh or twelfth day of the disease, the victim of the malady is in a 
 deplorable and critical condition. The intense grade of cutaneous inflam- 
 mation, with its resulting subjective sensations of burning pain and ten- 
 sion, the soreness of the mouth (tongue, pharynx, inside of lips, and 
 palate), due to the existence of pus-filled pocks upon the buccal mem- 
 brane, and, for similar reasons, the dysphagia and irritation of the larynx 
 and tracheal membrane, are all sufficient to account for the general condi- 
 tion. In cases of mild grade the patient lies conscious, but in a stolid 
 apathy, listlessly accepting the services of his attendants. In others there 
 is delirium of low or high grade, often sufficient to demand constant sur- 
 veillance, lest in consequence the patient do serious injury to himself. 
 
 The behavior of the pustules which appear upon the mucous surfaces 
 accessible to the eye is modified somewhat by the heat, moisture, and fric- 
 tion to which these surfaces are exposed. Typical, fully-distended pustules 
 occasionally persist upon the soft palate and the inside of the lips. Soon, 
 however, the macerated roof-wall yields, leaving a reddish floor where 
 the mucous membrane is exposed, denuded of its epithelial layer or 
 covered with a new tender and hyperaemic pellicle. In grave and severe 
 cases these pustular lesions may extend deeply into the mucous tracts, 
 involving the trachea, bronchi, or alimentary canal. In an autopsy made 
 by the writer on the body of a male subject dead of unmodified variola, 
 there was no portion of the alimentary canal from the mouth to the anus 
 which was not studded by thickly-set pustules. The urethra, vagina, 
 vulva, external auditory canal, and conjunctiva? are, in severe cases, 
 similarly involved. According to Kaposi, the tympanum is usually 
 exempt. 
 
 The period of desiccation begins usually on the thirteenth or fourteenth
 
 440 VARIOLA. 
 
 day of the disease, and, according to the severity of the previous path- 
 ological processes, requires for its completion from one week to a fort- 
 night. Its onset is characterized by a second marked but gradually 
 developed defervescence. With a diurnal temperature successively less 
 elevated above the normal standard there is a corresponding fall of the 
 pulse-rate. As the disease has by this date taxed the vital resources of 
 the system to the utmost limit, the exhaustion resulting may be declared 
 by a pulse which is flagging, weak, and even in the matter of frequency 
 much below the standard of health. 
 
 The cutaneous lesions now again undergo a change. Some of the 
 pustules rupture, and their viscid contents, oozing forth, concrete into a 
 yellowish crust which gradually assumes a brownish hue. Others desic- 
 cate en masse, the roof-wall first collapsing upon the contents, thus pro- 
 ducing an appearance which again suggests umbilication of the lesions. 
 This is sometimes termed a secondary umbilication. The desiccation en 
 masse is doubtless due to the evaporation of a portion of the fluid exuded 
 into the superficial strata of the integument, and the consequent inspissa- 
 tion of the pus. Often the face at this moment is totally concealed by a 
 dense, dry, brownish or even blackish mask, composed of the crusts fur- 
 nished by numerous individual lesions. At the same time the tumefac- 
 tion of the skin subsides, and the subjective sensations to which it gave 
 rise gradually disappear. Beneath the crusts cicatrization advances till 
 the former are lessened, and finally, becoming detached, fall in quantity 
 from the surfaces subjected to friction. Beneath them are seen brownish 
 and violaceous blotches, the integument thus stained slowly losing its 
 abnormal color. It is thus seen to be the seat of multiple, slightly de- 
 pressed, shining scars of a dead white color, which in the course of time 
 lose somewhat of their disfiguring prominence, but which when typically 
 distinct persist for a lifetime. This exfoliation of crusts continues till 
 the skin is completely rid of its pathological products, the process being 
 completed with entire restoration to health about the conclusion of the 
 fourth or fifth week of the disease. Meantime, in favorable cases, con- 
 valescence progresses pari passu. The patient has a returning appetite, 
 decadence of symptoms originating in impairment of function of the 
 mucous membranes, and gains in weight till the restoration to sound 
 health is complete. 
 
 Such is the history in outline of what may be regarded as a typical 
 form of uncomplicated variola. It should not be forgotten, however, 
 that in different epidemics there are marked differences in the career and 
 manifestations of the malady, and that even among the cases observed in 
 a single locality visited by the disease the same divergence of symptoms 
 is no less conspicuous. This diversity is due to several causes, irrespec- 
 tive of the remarkable modifications displayed in the variolous who have 
 been previously vaccinated. Individual susceptibility is doubtless to be 
 considered in this connection, as also the temperament, bodily vigor, and 
 hygienic surroundings of those who are infected. It is possible also that 
 the intensity of the poison may be subjected to occasional modifications 
 in its transmission from individual to individual. In this way the follow- 
 ing types of variola present themselves in clinical forms with divergent 
 features : 
 
 CONFLUENT VARIOLA (variola confluens). This virulent form of
 
 CONFLUENT VARIOLA. 441 
 
 small-pox is ushered in by a relatively short incubative period, followed 
 by a severe invasion of the disease. The premonitory chill is violent ; the 
 cephalic and lumbar pains are excruciating ; the fever, rising to a high 
 grade, 106 to 110 F., with few and slight remissions, scarcely subsides, 
 if at all, with the appearance of the eruption, the latter developing early, 
 and, to borrow an expression from syphilographers, exploding with vio- 
 lence over large areas of the surface of the body. The initial lesions of 
 the exanthem are dense and deeply-set papules, so closely coherent even 
 at this moment that they scarcely leave between them interspaces of sound 
 skin. During the vesiculo-pustular transformation which they promptly 
 undergo on the second day there is a more or less complete coalesence of 
 the elements of the eruption, which circumstance has given this form of 
 the disease its name, confluent variola. This confluence is most conspicu- 
 ous upon the face and hands, where large flat vesicles run together, form 
 pus-filled bulla?, and finally convert the surface on which they rest into a 
 single, large, many-chambered pustule. All this occurs upon an enor- 
 mously swollen and inflamed skin, disfiguring every feature of the face 
 and wellnigh obliterating every external distinction between the scalp, 
 nose, eyes, and mouth. Here and there the mass is elevated by the 
 quantity of exuded pus to a more notable projection from the surface. 
 Pustules filled with blood may appear at several points. At others, the 
 suppurative inflammation may be seen to have eroded the derma, which 
 is covered with a diphtheritic membranous exudation similar to that 
 covering the mucous membranes lining the mouth, nose, and ears. Natu- 
 rally, the skin in its totality often yields to these destructive processes 
 and in large patches falls into gangrene. 
 
 The confluence of the lesions is less marked in other parts of the body 
 than the face and hands, yet the entire surface may be covered with a 
 coherent exanthem which becomes elsewhere, in large areas, confluent. 
 The writer has seen patients in whom the head of a pin could not be 
 placed upon an unaffected patch of skin in any portion of the body. 
 The parts subjected to pressure in the reclining posture, such as the back, 
 shoulders, and buttocks, are especially liable to this coalescence of the 
 pustular lesions. 
 
 In confluent variola too, as already intimated, the mucous surfaces 
 suffer proportionately. Pasty accumulations of muco-pus and diphthe- 
 ritic exudation, like macerated chamois leather, cover the tongue, which 
 is often so enormously swollen as to bulge between the teeth and project 
 from the mouth. These exudations line the mouth, pharynx, larynx, 
 and even the bronchi. Beneath these masses the eroded mucous surface 
 is dry, livid red in color, and has a varnished aspect. Gangrene here 
 may lead to necrosis of the cartilages of the larynx. Aphonia is often 
 complete, deglutition impossible, respiration difficult. The stench 
 arising from the patient is intolerably fetid and pervading, and a 
 single exhalation will poison the best-ventilated apartment. The sub- 
 maxillary and sublingual glands are enlarged and the neighboring 
 lymphatics swollen. 
 
 The patient who is plunged into this grave condition is the victim of a 
 fever which is unquestionably septicsemic in character ; he has a small, 
 frequent, and often fluttering pulse ; his mental condition is betrayed by 
 a delirium of varying grade or he lies comatose. In this state a fatal
 
 442 VARIOLA. 
 
 result is often induced by either exhaustion of the vital forces or an 
 mtercurrent malady, such as pleurisy, pneumonia, cardiac inflammation, 
 oedema of the glottis, or an uncontrollable diarrhoea. In yet other cases 
 the patient falls into a typhoid state, and, after surviving for a fortnight 
 or more with a low fever, a broncho-pneumonia, or a diarrhoea, succumbs 
 to an inevitable exhaustion, the surface of his body being yet covered 
 with a dry, blackish, and fetid crust. 
 
 The expression of an intense variolous poison is known as hemor- 
 rhagic variola ; also as purpura variolosa and black pox. A large num- 
 ber of such cases have been designated and treated as black measles, the 
 real nature of the malady having been mistaken. 
 
 The law readily observed by the diagnostician of diseases in general 
 must here be recognized. There are no hard and fast lines in nature. 
 Hemorrhagic variola occurs, without question, in different types. At 
 the one extreme are classed the inevitably fatal cases, where the patient 
 sinks smitten by the malady even before the exanthem is developed ; at 
 the other are found the cases of confluent variola, not necessarily fatal, 
 in the course of which hemorrhagic lesions appear in variable number, 
 blood either filling the pustules after the latter have arrived at maturity,' 
 or forming ab initio purpuric pocks intermingled with the typical lesions 
 of the variolous exanthem. However ill-defined the limits between these 
 classes may be, the symptoms of hemorrhagic variola are sufficiently 
 characteristic to require separate description. According to Kaposi, it 
 occurs in the two following types : 
 
 The first form is termed variolic purpura. Its incubative period is 
 brief and distinguished by unusual conditions of malaise and lumbar 
 pain. On the fourth day there is an intense fever with rapid pulse, 
 and this is speedily followed by a deep purplish-red staining of the 
 face, neck, trunk, and extremities, the skin thus affected being slightly 
 tumid and quite dry. Minute maculo-papules can be distinguished here 
 and there over the surface, often closely set together, and presenting 
 the characteristic color described above. At this stage of the disease 
 the eruption greatly suggests an intense rubeolous exanthem, and has 
 been, as a result, repeatedly mistaken for the so-called black measles. 
 But the excruciating pains persist, there is often coincident delirium, 
 and the pin-head sized maculo-papules noted above become lenticular in 
 shape, cease to lose their color under the pressure of the finger, extend 
 peripherally even in a few hours, flatten and become purpuric patches of 
 a bluish-black shade, palm-sized and even larger, covering extensive 
 areas of the integument, new lesions forming in unaffected islets of the 
 skin ; conjunctival ecchymoses appear at the angles formed by the lids, 
 and finally encircle the cornea with an annular purplish-black cushion. 
 The mucous surfaces become dry, crack, and bleed where the epithelium 
 is torn, and become covered with offensive crusts. The odor exhaled by 
 the patient is intolerably fetid. He lies stupid as the march to a fatal 
 issue is hourly hastened. Hemorrhages occur from the larynx, bronchial 
 membrane, intestinal surfaces, and even into the parenchyma of the viscera, 
 the muscles, serous membranes, periosteum, and neurilemma. The urine 
 is retained in the bladder ; the respirations rapidly increase in frequency ; 
 1he pulse flutters; and death closes the scene between one and two days 
 after the onset of the malady. In several cases observed by the writer,
 
 VARIOLOID. 443 
 
 occurring in infants and children, the entire course of the malady was 
 completed in twelve hours. 
 
 In the second and much rarer form of hemorrhagic variola there are 
 the usual unfavorable portents of intense prodromic symptoms. On the 
 fourth day the skin is swollen and indurated in consequence of the 
 development within its structure of numerous firm, roundish, slightly 
 acuminate papules, so thickly set together that it is wellnigh impossible 
 to distinguish between them. These are early in betraying the bluish- 
 black hue significant of hemorrhage into their mass. They multiply in 
 number and increase in size, while their hemorrhagic stains widen and 
 sweep from each as a centre, like the waves that spread from a pebble 
 thrown into smooth water. In these cases, more often than in those first 
 described, pus-filled pocks may develop over some portions of the surface, 
 while in others a species of gangrene occurs in consequence of the sepa- 
 ration of the derma from the subcutaneous tissues by effused blood. At 
 times pustules of somewhat typical aspect are formed and subsequently 
 filled with blood by a hemorrhage from below. The accompanying 
 symptoms are grave, but less rapidly fatal than in the other types of the 
 disease. Delirium, stupor, an intense fever, and a rapid, feeble pulse are 
 commonly noted. A fatal result is usually reached in from four to five days. 
 
 Hemorrhagic lesions, isolated or confluent, are seen also in severe 
 forms of variola, not of the two types described above. Thus, in con- 
 fluent small-pox, especially when occurring among the unvaccinated, 
 some of the pustules on the face, the back, or possibly the legs, where 
 varicosities of the veins permit a passive engorgement of the tissues with 
 blood, may become the seat of a hemorrhage. For these local causes are 
 often etiologically effective. In other cases the appearance of the hemor- 
 rhagic lesions seems to be due to a dyscrasia, such as that recognized in 
 phthisis, chronic alcoholism, and haemophilia. 
 
 Aside from the trivial accidents to which the exanthem may be sub- 
 ject, the hemorrhagic types of variola may be regarded as necessarily 
 grave and in a large proportion of cases inevitably fatal. That they are 
 all truly the results of variolous poisoning is shown, first, by the occur- 
 rence of intermediate forms ; second, by the occasional transmission of 
 the disease in its typical aspects to the partially protected. 
 
 VARIOLOID is that form of variola in which the disease is modified, 
 either in its course, duration, or intensity of symptoms, such modification 
 usually resulting, directly or indirectly, from the protective influence of 
 vaccination or from a previous attack of variola. 
 
 The symptoms of the class of patients commonly regarded as suffering 
 from varioloid are all those of variola, modified, however, in the direc- 
 tion of a mitigation of their intensity and dangerous character. It is 
 thus evident that there is no strict line of demarcation between the very 
 mildest physical expression of the variolous poison and that variola vera 
 which presents atypically benign symptoms in any stage of its career. 
 Within this wide range of possibilities cases of varioloid occur which cer- 
 tainly diifer from each other .by very marked degrees. 
 
 The invasion stage of varioloid may be shorter or longer than that 
 occurring in variola vera, and may be insignificant or intensely marked 
 as regards the severity of its symptoms. According to Bartholow 1 the 
 
 1 Loc. cit.
 
 444 VARIOLA. 
 
 invasion rashes are here of common occurrence ; and the more extensive 
 the latter, the less copious the subsequent eruption. It must be admitted 
 that a personal experience has not confirmed us in this view. 
 
 After the -high fever and severe cephalic and lumbar pains of this 
 stage there may follow, in the case of varioloid, a complete deferves- 
 cence and the appearance of a very copious exanthem. With this, how- 
 ever, the apogee of the disease may be reached, and the subsequent 
 symptoms be altogether insufficient in comparison with those which have 
 preceded. Thus, the maculo-papules may never reach a vesicular stage, 
 or, having attained this, the vesicles may not be umbilicated, or may 
 shrivel after their contents have assumed a lactescent color, and be suc- 
 ceeded by light superficial crusts which in a few days fall. Or, again, 
 the pustular stage of the lesions may be fully developed, even with the 
 production of a halo about the pocks, while yet there is no swelling of 
 the skin and but trifling subjective sensations experienced by the patient. 
 The pustules in the course of from four days to a week desiccate and are 
 shed, leaving behind them violaceous pigmentations of the surface with- 
 out persistent cicatricial sequelae. 
 
 Other cases, again, instead of producing the impression upon an 
 observer of being illustrations of a malady aborted or cut short at some 
 period of its career, seem to exhibit merely a modification in the intensity 
 or distribution of symptoms betrayed in a wellnigh typical career. 
 Thus, there may be a total absence or insignificant reminder of the sep- 
 tic fever usually known as the secondary fever of variola, and the ele- 
 ments of the eruption may be few or appear in scanty number upon the 
 face and more copiously elsewhere. The latter may, however, pursue a 
 perfectly typical career and be followed by characteristic scars. 
 
 There is yet another type of varioloid with which many practitioners 
 become familiar who have experience in epidemics of small-pox. The 
 patient exhibits distinct symptoms of malaise in the period of incubation. 
 The fever of invasion, with its characteristic pains and nausea, is equally 
 well marked. Defervescence occurs with a trifling eruption of maculo- 
 papules, which in two days have wellnigh completely disappeared. 
 There is no secondary fever, but the patient is far from well. There is 
 a period of anemia, mental depression, marked langour, and unmistaka- 
 ble evidences of physical prostration out of all proportion to the prece- 
 dent symptoms. In these cases it may well be believed that the poison 
 has at last produced a strong impression upon the nervous centres. The 
 most characteristic feature of these cases is the tedious convalescence from 
 an apparently trifling form of the malady. 
 
 The identity of varioloid with variola is abundantly shown first, by 
 the occurrence of intermediate forms of every grade, from the mildest 
 evidence of variolous poisoning to typically developed cases of variola 
 vera ; second, by the fact that patients affected with varioloid are capable 
 of transmitting variola to the unprotected ; third, by the anatomico- 
 pathological fact that the structure of the pock, when it appears, is the 
 same in all. 
 
 A variation as to the form and contents of the lesion of modified vari- 
 ola occasionally occurs as a consequence of individual peculiarities or of 
 the special surroundings of the patient, A number of useless terms 
 have been employed to designate these peculiarities, the most of which
 
 COMPLICATIONS AND SEQUELS. 445 
 
 are relics of the superstitions of the past. In variola siliquosa the pocks 
 are said to contain air only ; in v. pemphicosa, bullous lesions predomi- 
 nate ; in v. verrucosa, the papules, after partial evolution and involution, 
 leave minute wart-like papillary masses upon the face ; in v. crystallina, 
 there are superficial vesicles only filled with clear serum, which somewhat 
 resemble those recognized as sudamina. The older English writers with 
 as little reason described cases of horn-pox, swine-pox, etc., differing 
 only from those of variola by the anomalous behavior of the exauthem 
 in the course of its evolution. 1 
 
 COMPLICATIONS AND SEQUELAE. The complications and sequelae of 
 variola are fewer in number and more restricted in range than those of 
 many other maladies. This results from the remarkable unity of the 
 disease as it occurs in its several manifestations among the unprotected, 
 its relatively rapid progress, and its absolute disappearance on the com- 
 pletion of its curriculum. There is no chronic form of variola lingering 
 for weeks and months after the violence of the fever has abated. 
 
 Furuncles and abscesses occasionally result during or after the pustular 
 stage of the disease has been reached, sometimes of such extent as to 
 give exit to large quantities of an ill-conditioned pus. The tissues, 
 weakened by the suppurative process which the skin has undergone, 
 may then necrose, and thus lay bare periosteum, cartilage, or bone. Ery- 
 sipelas, especially about the lace, may close the eyes, encroach upon the 
 scalp, or spread extensively over other regions. Muscular paralyses, 
 hemiplegic and paraplegic attacks, albuminuria, diarrhoaa, and the inflam- 
 mations of chronic type affecting the thoracic organs may each supervene, 
 and either greatly prolong convalescence or precipitate a fatal issue. 
 None of them is perhaps more common than a low typhoid and febrile 
 state, in which the patient lies after his variola is practically ended, his 
 skin struggling to regain its normal tone, a fever of remittent type- 
 taxing his energies, his bowels in frequent movements discharging a thin 
 and fetid feculent matter, while a low delirium renders him insensible to 
 the gravity of the situation. 
 
 Reference has been made above to the implication of the eyes of the 
 variolous, and the possibility of the disorder terminating, after an 
 otherwise favorable convalescence, in total blindness, should not be 
 forgotten. The cornea may be the seat of pustules or a diffuse puri- 
 form infiltration resulting in ulceration, and eventually perforation 
 with hernia of the iris. At times it is merely macerated by the pus 
 continually covering it, and in that condition yields to even moderate 
 pressure. At others the deeper portions of the globe fall into inflam- 
 mation, and there is a resulting cyclitis, irido-cyclitis, or parophthalmia. 
 
 In the nose severe destructive effects may follow the pustular involve- 
 ment of the Schneiderian membrane, including necrosis of the nasal bones 
 and profuse epistaxis. 
 
 In a similar way, the external ear may be involved, the tympanum 
 disappear, a severe otitis media supervene, and the mastoid cells become 
 filled with pus and detritus of necrosed tissue. 
 
 1 Besides the terms given above, Hebra gives the following list of Latin adjectives which 
 have been employed to describe special varieties of small-pox, none of which requires 
 special explanation : variola papnlosa, conica, acuminata, globosa, globulosa, tuberculosa, 
 cornea, fimbriata, miliaris, lymphatica, vesiculosa, pustularis, rosea, morbillosa. carbun- 
 eulosa, etc.
 
 446 VARIOLA. 
 
 In the larynx, which may be well lined with pustules, as indicated 
 above, complications may arise in the shape of oedema of the ary-epi- 
 glottic folds, 1 Iaryugo-O2sophageal abscess and various diphtheritic deposits 
 lining every portion of the mucous membrane. 
 
 Other disorders noted as complicating variola are hydrocele and orchitis 
 in the male, ovaritis in the female, gangrene of scrotum or labia, hsema- 
 turia, peritonitis, adenopathy and lymphangitis and arthritis, as well as 
 peri-arthritic suppurative inflammation. 
 
 PATHOLOGY AXD MORBID AXATOMY. Ours is a day in which 
 bacteria, special to each of a number of infectious diseases (lepra, pem- 
 phigus, tuberculosis, etc.), are constantly reported as coming to light 
 under the persuasive influence of modern staining solutions. With 
 respect to variola, it may be said that while Cohn, Klebs, Weigert, and 
 others have, without question, recognized microsphasra, micrococci, and 
 similar organisms in variolous pus, their causative relation to the patho- 
 logical process has certainly not yet been demonstrated. 
 
 The pathological anatomy of the cutaneous lesions of variola has been 
 very carefully studied by Auspitz and Basch, 2 and Heitzmann. 3 The 
 following is a condensed account of the results reached by these 
 observers : 
 
 First appear circumscribed patches of hypersemia, in which the papil- 
 lary layer of the corium is concerned, and which is followed by some 
 thickening of the rete, the epithelia involved becoming coarsely granular. 
 This granular condition is due to an increase of living matter within the 
 protoplasmic bodies, evident at the points of intersection of the reticulum 
 of which they are composed, the nuclei becoming solid and shining, and 
 the threads traversing this cement-substance between them becoming also 
 increased in thickness. The papilke beneath increase in size in conse- 
 .quence of their vascular engorgement, and in consequence of the change 
 experienced by the connective-tissue bundles, which are partly trans- 
 formed into protoplasm, while the protoplasm between them increases 
 also. There is, in brief, a liquefaction of the glue-giving basis-substance, 
 which makes visible the reticulum of living matter formerly hidden 
 within it. In this way the epidermis is raised into the flat solid papules 
 which are the early lesions of the disease. 
 
 Then follows an exudation of a serous fluid at one or more points in 
 the papule, the meshes of the reticulum being so stretched and torn that 
 small chambers are formed filled with the liquid exudate containing 
 granules. Between these chambers the separating strata of epithelia are 
 compressed so as to form septa or partition walls. The neighboring epi- 
 thelia become granular, divested of their cement envelope, and transformed 
 into protoplasmic clusters still connected with the living reticulum by 
 slender threads. An irregular cavity is thus formed in the thickened 
 rete traversed by septa, the contained exudation being filled with 
 granules, coagulated fibrin, and lymph. A few protoplasmic bodies 
 are here also distinguishable, which Heitzmaun regards as either debris 
 of destroyed epithelia or colorless blood-corpuscles. 
 
 In these changes the connective-tissue beneath participates. The papillae 
 eventually disappear, the superior portion of the corium being replaced by 
 
 1 J. William White, " Surgical Aspects of Small-Pox," Medical News, March 4, 1882, 
 p. 241. 2 Virch. Arckiv, Bd. 28. 3 Trans, of Amer. Derm. Ass., Aug., 1879.
 
 DIAGNOSIS. 447 
 
 clusters of medullary or inflammatory elements uninterruptedly connected 
 by threads of living matter. 
 
 The pus-corpuscles which eventually appear originate mainly from 
 transformed epithelia. In the process of transformation the increased 
 protoplasm of the epithelia first exhibits shining homogeneous lumps, 
 which, after an intermediate stage of vacuolation, undergo an endogenous 
 metamorphosis into nucleated bodies with a reticulum in each. To the 
 number of these there is possibly an addition by the immigration from 
 below (diapedesis) of leucocytes. 
 
 The question of repair with or without the production of cicatrices 
 rests upon the behavior of the connective-tissue elements. If these are 
 not torn asunder, but remain in connection with each other, the re-forma- 
 tion of a glue-giving basis-substance is possible, and new bundles of 
 fibrous connective-tissue take the place of the old. If, on the contrary, 
 the latter are completely destroyed, their place is filled with the cicatricial 
 new growth. The pigmentation, which is such a common transitory sequela 
 of the skin lesions, is due both to the imbibition of the coloring matter 
 of the blood by the epithelia and by direct hemorrhagic exudation into 
 both the rete and derma. 
 
 The umbilication of the mature pock is doubtless due to the situation of 
 such lesions at the orifices of the excretory ducts of the skin-glands. 
 The epidermis, in one or more of its 'strata, dips downward to form a 
 living investment for such glands, and in this situation ties down the 
 centre of the roof-wall of the pustules. Eventually, it too, as a result 
 of the maceration and tension incidental to the complete filling of the 
 pock with pus-elements, is ruptured or stretched, and the umbilication of 
 the pustule disappears. 
 
 The anatomy of the exanthematous lesions in hemorrhagic variola is 
 not different from that described above. The pocks in such cases are 
 merely filled with blood instead of with pus or sero-pus. In some forms 
 of hemorrhagic variola, as indeed would be suggested by their clinical 
 observation, there is hemorrhage directly into the tissues of the integu- 
 ment, or, more probably in severe cases, a mere passive leaking of the 
 sanguineous fluid with its coloring matter through the relaxed and weak- 
 ened vascular walls. 
 
 The morbid changes occurring in the viscera are described by Cursch- 
 mann as follows : The mucous surfaces may be the seat of pustules, diffuse 
 purulent infiltration, and catarrhal, croupous, or diphtheritic inflammation. 
 As regards the extent of diffusion of the pustular lesions, they occur, 
 according to Wagner, in bronchi of the second and even of the third order, 
 rarely in the stomach and intestines, and in the rectum only in its lowest 
 portion. The bladder, urethra, and serous surfaces are always exempt. 
 The lungs, breast, liver, spleen, brain, and spinal medulla are variously 
 involved. Often the tissues of these organs are quite unchanged as 
 regards their macroscopical appearance. At other times the tissues 
 appear swollen, granular, and undergo a fatty degeneration. In purpura 
 variolosa the spleen and walls of the heart, however, are seen to be firm, 
 dark-red, and more or less indurated. 
 
 DIAGNOSIS.- The establishment of a correct diagnosis where there is 
 question of variola is one of the most critical and important of the duties 
 of a physician. Upon such decisions have turned, again and again, pro-
 
 448 VARIOLA. 
 
 fessional success or disaster. To pronounce that case to be variolous 
 which is not of such a nature is to subject one to the indignation of the 
 few and the ridicule of the many. On the other hand, to be guilty of 
 treating a patient with small-pox, and of remaining ignorant of the nature 
 of the malady, is to subject many ignorant people to the danger of expo- 
 sure to the disease and to render one's self liable for the redress sought 
 by recourse to the civil authorities and the law. It is difficult to decide 
 which predicament is the graver. 
 
 Typical variola vera is readily recognized by its characteristic features. 
 As usual, it is the atypical and modified forms where the difficulty most 
 often arises and where the danger to the physician is proportionately 
 increased. 
 
 In the invasion stage of the disease it is often impossible to recognize 
 any symptoms characteristic of variola. High fever with severe lumbar 
 pain, considerable gastric distress, and the appearance of one of the inva- 
 sion rashes (roseola variolosa) would, however, put the observant practi- 
 tioner on his guard. I have often noticed in these cases a symptom which, 
 apparently insignificant, has on more than one occasion preceded the 
 eruptive period. It is the occurrence upon the centre of the two cheeks 
 of a vivid damask-red blush, occasionally having a purplish-red hue, and 
 with a very remarkable circumscribed area. This may be recognized in 
 children and adults of both sexes when it occurs in typical aspect, and is 
 undoubtedly a hypersernia of the character of that producing the rashes 
 in Simon's triangles. 
 
 When the variolous exanthem first appears the practitioner should 
 secure as soon as practicable a history of the invasion stage if this has 
 not been subject to his personal observation. He should then make care- 
 ful inquiry as to the possibility of a neighboring source of contagion, and 
 ascertain by inspection whether the person of the patient exhibits the 
 evidences of successful vaccination. In this connection it is always well 
 to estimate the value of the elements represented by (a) the period ascer- 
 tained as having elapsed since the last successful vaccination ; (6) the 
 typical or atypical character of the existing cicatrices of vaccinia ; (c) the 
 unicity or multiplicity of the cicatrices simultaneously resulting from 
 vaccinations performed at one and the same date. 
 
 Without question, the first papular lesions of variola resemble those of 
 rubeola or measles to an extent which has often deceived the most expert 
 diagnosticians. The distinguishing points are (1) In measles, catarrhal 
 symptoms (conjunctival, nasal, laryngeal, bronchial), which are usually 
 absent in the early stages of variola, and later are obviously associated 
 with the irritation set up of the pustules of the maturing period. (2) 
 The difference in the temperature record, that noted in the invasion stage 
 of variola varying from 104 to 105 F., Avhile in rubeola it is rarely 
 registered above 103 F. Moreover, in typical variola the defervescence 
 is marked and characteristic on the appearance of the exanthem, while in 
 rubeola, when the rash appears, the temperature is usually sustained at a 
 maximum, and may even rise. (3) The differences in the rashes of the 
 two disorders. The papules of variola, even in its confluent forms, are, 
 when first observed, remarkably discrete and exhibit not the slightest 
 tendency to grouping, while the maculo-papules of rubeola are (a) devel- 
 oped simultaneously on the face and trunk, while those of variola com-
 
 DIAGNOSIS. 449 
 
 mouly appear first on the face and afterward on the trunk, the older, and 
 larger therefore, in the site of earliest appearance ; (6) are set in clusters 
 or groups having a distinct tendency to crescentic arrangement, a symptom 
 decidedly best appreciated by the eye when the eruption is viewed in 
 totality or in large areas with the eye of the observer somewhat removed 
 from the surface ; (c) are often made to disappear or pale beneath the 
 pressure of the finger, while there is greater persistence of color in the 
 variolous papules ; (d) are surrounded by little or no halo, each element- 
 ary lesion of the eruption being abruptly defined upon the sound skin, 
 while the variolous papule is apt to rest upon a circlet of hypersernic 
 integument. 
 
 Even with careful observation of all the specific differences between 
 the two diseases, they may, for a brief time, so resemble each other as to 
 defy the skill of the expert. In all doubtful cases the physician should 
 invariably admit the doubt and defer an exact diagnosis for twenty-four 
 hours. During the delay the variolous exanthem should betray its indi- 
 viduality by the formation of a minute vesicular apex at the summit of 
 several papules. 
 
 In scarlatina the uniform diffusion of the exanthematous blush, the 
 absence of papules and vesico-papules, the continuance of the fever after 
 the rash has appeared, the characteristic scarlet or boiled-lobster color of 
 the skin, and the anginose condition of the throat, are all significant 
 symptoms. In hemorrhagic small-pox the color of the integument is a 
 much more purplish and lurid-reddish hue, rapidly reaching that stage 
 where it refuses to pale under the pressure of the finger, and never leav- 
 ing in the track of the finger-nail quickly drawn over its surface the 
 peculiar transitory yellowish-white line which can be usually obtained in 
 the skin of the patient with scarlatina. 
 
 The pustular stage of variola might be confounded with the pustular 
 syphiloderm. But in the latter there should be a history of a chronic 
 rather than of an acute affection, and, as a result, the simultaneous 
 appearance of lesions in very different stages of their career, some dis- 
 tended with pus, others ruptured and crusted, yet others which have 
 recently formed in the immediate vicinity of the oldest lesions, while the 
 latter have been in full involution or have been replaced by superficial 
 losses of tissue. 
 
 The resemblance of pustular variola to certain suppurative and other 
 disorders of the sebaceous glands is well attested by the name given by 
 certain French authors to molluscum epitheliale (M. contagiosum, IVf. 
 sebaceum) viz. acne varioliformis. But in the case of acneiform dis- 
 orders the concurrence of comedones, the chronic course of the disease, 
 the absence of fever and systemic disturbance, and the particularly irreg- 
 ular distribution of the lesions upon the face, with failure to appear else- 
 where, all these facts forbid the confusion of the affection with variola. 
 In medicamentous acne, accompanied by the sudden appearance of numer- 
 ous pustular lesions symmetrically displayed upon the surface, there will 
 indeed be a source of error. In such cases, of course, a history of the 
 ingestion of a medicament capable of producing a rash will afford valu- 
 able aid in the diagnosis. In pustular forms of dermatitis medicamen- 
 tosa there will usually be found a more abundant development of the 
 pus-containing lesions upon the head and both arms and forearms, with 
 VOL. I. 29
 
 450 VARIOLA. 
 
 no tendency to extension over very large areas of the trunk and lower 
 extremities a circumstance which a delay of but a few hours will often 
 substantiate. 
 
 The absence of marked defervescence is the most characteristic differ- 
 ence between variola in its eruptive stage and typhus, typhoid, and 
 relapsing fevers. Pneumonia, cerebro-spinal meningitis, acute miliary 
 tuberculosis, and gastric fever are all to be differentiated from variola 
 by the occurrence of symptoms characteristic of the involvement of the 
 several organs which in these diseases respectively are more particularly 
 impaired. 
 
 PROGNOSIS The prognosis of variola is wellnigh inseparably asso- 
 ciated with the question of protection by vaccination. Variola vera in 
 the unprotected is an exceedingly fatal malady, the death-rate varying in 
 different epidemics according to the severity of. each and the ages and 
 hygienic surroundings of the victims of the disease. Certainly, from 
 15 to 50 per cent, of unprotected individuals affected with the dis- 
 ease occurring in epidemic form in any given community will perish. 
 This number may, however, be enormously increased, as, for example, 
 among a large number of unprotected negroes crowded together in a filthy 
 prison, or when the malady makes a periodical visitation to an insular 
 community where long isolation has begotten a carelessness with respect 
 to vaccination. 
 
 "With respect to individual cases it may be asserted, first, that an intense 
 series of prodromic symptoms, followed by the appearance of an 
 unusually large number of cutaneous lesions, is often unfavorable. Con- 
 fluence of the latter adds to the gravity ; hemorrhagic and purpuric 
 symptoms are in the highest degree portentous, and commonly indicate a 
 fatal result. Women pregnant or in the puerperal state, infants at the 
 breast, and persons of both sexes at advanced ages, are little able to 
 resist the ravages of the disease. According to Kaposi, women recently 
 delivered prematurely or who have lately suffered from an abortion suc- 
 cumb more often than others of their sex. Chronic alcoholism among 
 male subjects and the cachexia induced by all chronic visceral and sys- 
 temic disorders are sources of weakness which largely increase the death- 
 list by adding to the heavy strain upon the vital energies. The prog- 
 nosis is rendered uncertain or unpromising by extensive involvement of 
 the mucous as well as of the cutaneous surfaces, by marked visceral com- 
 plications, by evidences of shock or exhaustion before the apogee of the 
 exanthem is reached, by grave sequelfe, and even by simple complications 
 of the malady when, instead of entering promptly upon convalescence, 
 the patient lingers for weeks in a typhoid condition. An unfavorable 
 symptom in any case is the sudden cessation of the processes active-ly pur- 
 sued upon the surface of the body. The swelling of the integument then 
 suddenly diminishes and the crusts by which it was covered shrivel. 
 The eruption, in brief, seems to undergo what may be described as a col- 
 lapse. The pulse at such moments usually flutters feebly, and there are 
 other portents of dissolution which the eye of the physician will hardly 
 fail^ to interpret correctly. The fluids in such instances mechanically 
 drain away from the surface of the body to seek the deeper parts. This 
 is not peculiar to small-pox. Similar phenomena occur even in the case 
 of other than exudative affections of the skin. In pityriasis rubra the
 
 PROPHYLAXIS AND TREATMENT. 451 
 
 patient dies leaving an integument apparently unaffected, and I Lave 
 seen a patient dead of even multiple sarcoma of the skin when the tumors 
 were reduced fully one-half in bulk as the result of a similar cause. 
 
 On the other hand, the practitioner should never forget that even 
 apparently desperate cases of variola rally and are w r on back to life. 
 That the exudative process should be in full evolution at the surface of 
 the body is, cseteris paribus, certainly so far a good omen. The most 
 hideous, extensive, and stench-emitting crusts have hidden for a time the 
 forms that have for many subsequent years not only known the enjoy- 
 ment of life, but have made that life of inestimable value to others. 
 The physician in the presence of this most loathsome and formidable dis- 
 ease should never despair. 
 
 PROPHYLAXIS AND TREATMENT. The loftiest end to be reached by 
 the physician of our day with respect to variola is its complete removal 
 from all civilized countries, and indeed from the face of the earth, by the 
 practice of universal vaccination and revaccination. The evident modifi- 
 cations which the disease has undergone in late years as a consequence of 
 the extraordinary attention given to this subject is an earnest of the 
 future. The day is probably not far distant when the man, woman, and 
 child unprotected by vaccination will properly be regarded as an enemy 
 of the human race, and treated accordingly. Evidences of the most 
 satisfactory character as to successful vaccination should be imperatively 
 required of all applicants for admission to schools, academies, colleges, 
 charitable institutions, public libraries, art -galleries, and places of labor 
 controlled by incorporated institutions ; of all members of conventions, 
 legislatures, political, religious, and deliberative bodies ; of every pur- 
 chaser of a ticket for purposes of travel ; and of every voter. In addi- 
 tion, there should be in every district a systematic and periodical inspec- 
 tion of all persons registered in the census by persons qualified and com- 
 petent to perform compulsory vaccination. This is the scientific treat- 
 ment of variola. 
 
 Respecting the therapeutic management of variola, it must be admitted 
 that there are no remedies known to exert the slightest influence in either 
 cutting short the curriculum of the disorder or in checking its progress 
 in any stage. When vaccination is practised after the disease is fully 
 developed, the two disorders, vaccinia and variola, apparently concur, and 
 proceed pari passu to the evolution peculiar to each. Quinia, the sar- 
 racenia purpurea, the salicylate of sodium, emetics, diaphoretics, purga- 
 tives, and other remedies and methods vaunted as efficacious, have again 
 and again failed to establish the claims which have been put forth respect- 
 ing the value of each. 
 
 The most important of the considerations to be regarded at the outset 
 of the management of the small-pox patient relate to his hygienic sur- 
 roundings and nursing considerations which scarcely differ from those 
 recognized as of general importance in the case of all septic, contagious, 
 and filth-producing diseases. 
 
 The timid, the fearful, and the unprotected are to be at once dismissed 
 from the bedside, and trustworthy attendants secured' who have received 
 protection by either recent vaccination or a prior attack of the malady. 
 The sick chamber should be sufficiently large and capable of the most 
 thorough ventilation by free access of air. Solar light should be excluded
 
 452 VARIOLA. 
 
 as rigidly and completely as possible, since it is reasonably certain that 
 its access to the face has an etiological relation to the pitting of that part, 
 often the most serious sequel of the affection. It is an interesting fact 
 that pitting is much less frequently noted on those parts of the body 
 from which light is excluded by the covering of the clothing. The 
 temperature of the sick room during the febrile stages of the disorder 
 should not rise above 70 F. nor be permitted to fall below 60 F. 
 Between these extremes a variation may be made in accordance with the 
 sensations of the patient. 
 
 During the invasion stage of the disease the patient can rarely assimi- 
 late food, but if this be possible it should be given throughout the entire 
 course of the disease in the form of animal broths, eggs, nutritious soups, 
 and milk. Iced and acidulated beverages are often grateful to the palate, 
 and small lumps of ice should be permitted to dissolve slowly in the 
 mouth. Lime-water may be required by unusual gastric irritability. 
 As the disease progresses and the palate and buccal membrane become 
 painful and sore by reason of the localization there of pustular and other 
 lesions, various mouth-washes and gargles may be ordered, such as those 
 containing the chlorate of potassium, the tincture of myrrh, the tincture 
 of cinchona, or even the milder demulcent fluids made by the addition 
 of flaxseed, gum acacia, or powdered elm-bark to water. In almost all 
 such cases the skilled nurse will accomplish a grateful result by fre- 
 quently cleansing the mouth of the sufferer (especially before the deglu- 
 tition of aliments) by covering the finger with a soft handkerchief, 
 dipping it in pure hot water, and then thoroughly and gently cleansing 
 the entire buccal cavity. The spray of a saturated solution of boracic 
 acid in rose-water may then be directed over the parts. 
 
 Applications of cool and iced water to the skin are commonly grateful, 
 and, as a rule, are accompanied by no danger to the patient, though in the 
 early periods of the disease they unquestionably retard the full evolution 
 of the cutaneous symptoms. For the pain in the back, therefore, which 
 is often the most urgent symptom of the invasion stage of the disease, it 
 s usually preferable to make hot applications. The large rubber bags 
 now in common use, filled with hot water and from time to time applied 
 to the lumbar region, may be employed with good effect simultaneously 
 with iced, spirituous, or camphorated applications to the head. 
 
 Numerous indeed have been the topical applications made to the 
 surface of the skin in the pustular stage of the malady, both with a 
 view to assuage the soreness and pain and to obviate the tendency to 
 pitting. The opening of the pustules and the evacuation of their con- 
 tents (practicable only in other than confluent forms of the disease) has 
 been practised from an early date, but is ineffectual from the standpoint 
 of any practical results thus obtainable. The same may be said of the 
 subsequent cauterization of the floor of the pustular chamber, which only 
 adds to the distress experienced by the sufferer in his skin. Medicated 
 unguents, applied to the skin, containing mercury, iodine, and other sub- 
 stances, are not known to be followed by any better results. It may in- 
 deed be laid down as a general rule that fatty applications to pus-producing 
 surfaces where the pathological product is virulent are apt to undergo 
 decomposition and otherwise act unfavorably upon the tissues a fact 
 first pointed out by Ricord in connection with the treatment of the chan-
 
 PROPHYLAXIS AND TREATMENT. 453 
 
 croid. Vaseline, as not liable to undergo chemical decomposition, is not 
 open to this objection. 
 
 Curschmann, Kaposi, and other authors are in agreement respecting 
 the value of water-compresses over the surfaces invaded by the eruption 
 a method of topical treatment which I desire to fully endorse after 
 personal observation of its value. Curschmann recommends compresses 
 dipped in iced, Kaposi those moistened with tepid water. The sensation 
 experienced by the patient will prove the best guide to the temperature 
 of this fluid. I prefer a solution containing one drachm of boracic acid 
 to the pint of water as hot as can be discovered to be productive of com- 
 fort, a drachm or two of glycerine being added to the solution. The 
 compresses dipped in this (or a carbolated solution, if the latter is pre- 
 ferred by either physician or patient) should be assiduously moistened 
 and changed regularly by the attendants just as long as they can accom- 
 plish good. They operate, first, by protecting the part ; second, by keep- 
 ing it moist ; third, by maintaining the surface temperature at the point 
 most pleasant to the patient ; fourth, by exercising the gentlest degree of 
 equable compression over the surface. When desired, this may be covered 
 with the Lister protective material or a piece of oiled silk to prevent 
 evaporation at the surface. 
 
 In Vienna warm baths, administered either by the process of continu- 
 ous immersion so generally practised there or by immersion for from two 
 to three hours of each day, have been found to furnish the greatest amount 
 of comfort to the patient. The skin is thus speedily relieved of its 
 tension, the exfoliation of the crusts is hastened, and the time required 
 for the evolution of the cutaneous lesions, if not shortened, is at least not 
 retarded by the accidents of exposure to the desiccating influences of the 
 air ends which for the patient are practically one. In this, country, and 
 especially in private practice outside the larger charities with their ampler 
 provision for these emergencies, nearly the same result may be reached by 
 wrapping the patient completely in sheets wrung out of water of the 
 temperature desired. 
 
 From first to last in the treatment of variola, all indications should be 
 made subordinate to that most prominently set forth by the general 
 character of the symptoms viz. the conservation by every possible 
 means of the vigor of the patient. The tax upon all reserves of vital 
 energy is here so enormous and constant that he will gravely err who for 
 a moment loses sight of this fact. Hence it is that anodynes, chloral, 
 opium and its alkaloids, the bromide of potassium, and similar medica- 
 ments, introduced either by tli stomach or by hypodermic injection, are 
 to be jealously reserved for emergencies when it would seem cruel to 
 withhold the temporary comfort they may impart. Stimulants are of course 
 to be freely employed whenever they are indicated by exhaustion as this 
 may be shown by a weak pulse and other failing functions of the body, 
 but are certainly best reserved for such emergencies. In general, it may 
 be remarked that the fewer the medicaments ingested by the stomach, and 
 the larger the restriction of the labor of this organ to the task of sus- 
 taining the nutrition of the body, the better are the chances of a favorable 
 issue. 
 
 It is unnecessary to add that all other indications presented in any given 
 case are to be met, subject to the conditions indicated above. Abscesses
 
 454 VARIOLA. 
 
 are to be opened and antiseptically treated; delirious patients are to 
 be sedulously prevented from doing themselves injury; daily move- 
 ments of the bowels are to be secured; while the diarrhoea of the 
 typhoid state, occasionally resulting from the exhausted condition of the 
 system when the force of the disease is spent, demands proper control. 
 
 Cleanliness is to be enforced by every judicious measure. The skin of 
 the patient is to be washed in tepid water and soap as often as practicable 
 in the course of the disease, and under no circumstances are applications 
 of ointments, washes, or lotions to be allowed to collect in strata upon the 
 surface commingled with the pus and crusts of the disease. At the time 
 of such ablution, and occasionally oftener, the linen and other garments 
 of the patient are to be changed. When the crusts are regularly exfoliat- 
 ing from the surface of the body general warm baths may be ordered, 
 after each of which the surface of the body may be anointed with vaseline 
 or covered with a finely-sifted dusting-powder, such as the corn-starch 
 farina sold by grocers. 
 
 Inasmuch as hemorrhagic variola is usually hopeless in character, and 
 remedilessly fatal, Kaposi's liberal use of opiates may be recommended 
 when euthanasia is all that can be expected. So long as there is the 
 narrowest chance of recovery resort may be had to ergot, turpentine and 
 the mineral acids internally, combined with the external use of styptics 
 and ice. But little confidence can, however, be placed in these measures, 
 which will prove entirely ineffective in the great majority of all cases. 
 
 In all fatal cases of variola the duties of the physician are not ended by 
 the death of the patient. It is for the benefit of the living that he should 
 require destruction or disinfection and long disuse of all domestic articles 
 that were employed upon or about the patient. The lifeless body should 
 be disposed of by cremation, and medical men should exert their influ- 
 ence in favor of legal enforcement of such a wholesome practice.
 
 VACCINIA. 
 
 BY FRANK P. FOSTER, M. D. 
 
 SYNONYMS. Vaccina, Variolas vaccinae (Jenner), Cow-pox, Cow- 
 pock, Kine-pox, Kiue-pock; Fr. Vaccine; Ger. Kuhpocken, Schutz- 
 pocken, Impfpocken, Schutzblattern ; It. Vaccina ; Sp. Vacuna. 
 
 DEFINITION. An eruptive disease characterized by a cutaneous lesion 
 closely resembling that of small-pox, going through the stages of papu- 
 lation, vesiculation, pustulation, incrustation, and cicatrization ; differing 
 from small-pox in the mildness or almost total absence of the constitu- 
 tional symptoms, by being communicable only by inoculation, and by the 
 fact that the lesions, as a rule, are developed only at the points of inocu- 
 lation and in their immediate neighborhood. 
 
 This definition holds good for the great majority of cases, but in each 
 of its parts we must take account of exceptions. For example, the lesion 
 does not always follow the regular sequence of changes described. It 
 may stop short at the stage of papulation, constituting the so-called 
 raspberry excrescence, which will be further referred to hereafter ; it may 
 pass directly from the stage of vesiculation into that of incrustation, 
 without any such change in its liquid contents as can properly be said to 
 form a pustule ; desquamation may take the place of incrustation ; and, 
 after an evolution otherwise normal, there may be no formation of a scar, 
 simply because the destructive effect of the lesion has not extended 
 deeper than the epidermis. The constitutional symptoms are sometimes 
 severe, but they are always of very short duration. The disease is said 
 to have been communicated otherwise than by inoculation in the case of 
 some of the lower animals. Thus, Chauveau succeeded in producing 
 some of its phenomena in the horse by causing the virus to be inhaled in 
 the form of spray. It is doubtful, however, if it is possible to eliminate 
 all sources of fallacy in such experiments. Finally, a generalized erup- 
 tion is occasionally observed, although with great rarity. In stating these 
 exceptions no reference is intended to cases in which complications occur. 
 
 NATURE OF THE DISEASE. Many considerations warrant us in class- 
 ing cow-pox among the varioliform diseases chiefly its general resem- 
 blance to variola, and the fact that individuals who have been affected by 
 it are thereby more or less fully protected against small-pox. It has 
 been thought, indeed, that cow-pox was in reality but a modified form of 
 small-pox ; and this idea has been the basis of one of the theories that 
 have been held as to the origin of vaccinia. Before enumerating and 
 discussing those theories it will be well to mention that cow-pox is 
 spoken of as spontaneous, casual, or inoculated, according to its mode of 
 origin, known or assumed, in individual instances. 
 
 455
 
 456 VACCINIA. 
 
 Spontaneous or original cow-pox is the name commonly applied to the 
 disease as it is met with in the cow in instances in which its mode of ori- 
 gin is unknown. Strictly interpreted, this expression implies a belief 
 that the affection is capable of being developed in a cow independently 
 of contagion or infection u notion that seems to be held by many phy- 
 sicians, but not, so far as the writer is aware, by those whose study of 
 the subject has been such as to lend any considerable weight to their 
 opinions. Ordinarily, however, the term spontaneous cow-pox is em- 
 ployed simply as a convenient expression to denote the disease as it 
 occurs naturally in cows, without implying any belief or theory as to its 
 mode of origin. 
 
 Casual cow-pox is the term applied in cases that have been contracted 
 by accidental inoculation, whether in the cow or in man. It is manifest 
 that the so-called spontaneous cases are really casual, unless we accept the 
 doctrine that infection is not necessary to the development of the disease. 
 
 The term inoculated cow-pox implies that the affection has been pro- 
 duced by intentional inoculation. Here, again, we are confronted with 
 an illogical expression, for a disease that is inoculated accidentally is still 
 inoculated, as much as if it had been conveyed purposely. It may be 
 said, indeed, that the casual disease is due to some other form of infection 
 than inoculation, but for such an assertion there is not a particle of 
 proof. 
 
 Passing from this unsatisfactory nomenclature to a consideration of the 
 theories that have been held as to the nature of cow-pox, we are first 
 met with that of its being a disease sui generis, like small-pox, measles, 
 scarlet fever, and the like, and, like them, originating only by its own 
 specific contagion, not being capable of development by a modification of 
 any other contagion, however closely it may thus be counterfeited. This 
 seems the most rational theory of the nature of cow-pox, but it cannot 
 be demonstrated except by disproving all opposing theories; and that 
 has not yet been accomplished. 
 
 Another theory is, that cow-pox is really small-pox modified, as the 
 phrase runs, " by passing through the system of the cow." It has been 
 thought possible, indeed, to specify in what way the coVs system could 
 impress such decided changes upon the virulent disease small-pox as to 
 convert it into the mild aifection that we know as vaccinia ; in other 
 words, it has been imagined that the function of lactation accomplished 
 this remarkable result. This notion may have been due to the observation 
 that so-called spontaneous cow-pox is met with only in cows that are in milk. 
 The significance of this fact, however, is really nothing more than that 
 cows in milk are more exposed to accidental inoculation than other 
 bovine animals namely, at the hands of the milkers. The fact that in 
 such cases the lesions are almost always confined to the teats and the 
 udder, far from affording any ground for the notion that there is some 
 mysterious connection between cow-pox and the function of lactation, is 
 but another proof that the disease is the result of inoculation. The 
 lesions appear at the points of inoculation, the teats and the udder being 
 the parts handled by the milkers. Moreover, there is no difficulty in 
 inoculating young calves or adult bulls, and the lesions so produced do 
 not vary in a single particular from those observed in so-called spon- 
 taneous cases.
 
 NATURE OF THE DISEASE. 457 
 
 Men have been so carried away with this milk theory, however, as 
 even to believe that the virus of small-pox might be shorn of its dan- 
 gerous properties, so that it would produce only the vacciual lesion when 
 inoculated simply by mechanical mixture with milk. During the late 
 Civil War one of the Confederate Army surgeons actually put this notion 
 to the test of practice on quite a large scale, inoculating large numbers of 
 persons with a mixture of small-pox virus and milk, terming the prac- 
 tice mitigated inoculation. We can scarcely suppose that he did any- 
 thing else than variolate these persons, just as he would have done had 
 he used variolous lymph without the addition of milk. His experiments 
 show nothing new ; they merely furnish a recent confirmation of the 
 well-known fact, familiar to the old iuoculators, that inoculated small- 
 pox is sometimes exceedingly mild iu a series of cases. 
 
 This theory of the variolous origin of cow-pox, and of the practica- 
 bility of converting small-pox into cow-pox at will by "passing it 
 through the system of the cow," has taken deep root in the minds of 
 men, especially in Great Britain, where the late Mr. Ceely's experiments 
 and Mr. Badcock's experience seemed to give it some color, Some years 
 ago, however, the question was investigated most practically and thor- 
 oughly by a commission appointed for the purpose by one of the medical 
 societies of Lyons, Chauveau being the recorder. Their conclusion 
 was and their reasoning seems to the present writer incontrovertible 
 that small-pox and cow-pox were wholly distinct from each other under 
 all circumstances, and that it was impossible to convert the one into the 
 other. But the doctrines of the English investigators, reinforced as they 
 were by the ingenious arguments of the late Dr. Seaton, were not easily 
 to be overturned in their own country or in America ; consequently, the 
 practice of variolating cows has been resorted to from time to time for 
 the purpose of obtaining a stock of vacciual virus of unquestionable 
 authenticity the so-called variola vaccine. This practice is utterly falla- 
 cious, and it is also dangerous, since the disease so produced, however 
 mild it may seem to be, is nothing more nor less than small-pox, with 
 its infectiousness by effluvium and its liability to prove serious even 
 when carefully inoculated. 
 
 Quite recently the experimental investigation of the question has been 
 undertaken de novo by a well-known English veterinarian, Mr. Fleming ; 
 and, since his conclusions coincide with those of the Lyonnese commis- 
 sion, it is to be hoped that we have seen the last of this rough-and-ready 
 method of improvising a case of genuine cow-pox a method that, in the 
 light of our present knowledge, can only be characterized as downright 
 malpractice. 
 
 The third and last theory we have to consider is that which ascribes 
 the origin of cow-pox to infection from the horse. So far back as Jenner's 
 time it was conjectured that cow-pox was due to the accidental conveyance 
 of the virus of the grease (the eaux-aux-jambes of the French) by reason 
 of the cows being milked by persons who were also employed in the care 
 of horses affected with that disease. Grease is an eruptive disease of 
 horses' heels. Doubtless it has often been confounded with a mere 
 eczematous affection by those who have repeatedly failed in their persist- 
 ent attempts to inoculate cows with it, and, on the other hand, a localized 
 eruption of horse-pox may have been mistaken for it by those who have
 
 458 VACCINIA. 
 
 supposed themselves to have succeeded in producing cow-pox by inocu- 
 lating cows with the virus of grease, and have consequently given in their 
 adhesion to the grease theory of the origin of cow-pox. At all events, 
 so far as the writer is aware, that theory is not now held by any well- 
 informed writer. 
 
 Still regarding the horse as the originator of cow-pox, we must turn 
 our attention to horse-pox (equinia). Several years ago Depaul of 
 Paris took great pains to establish the fact that horse-pox (an affection 
 totally distinct from grease) was an eruptive febrile disease of horses, an 
 exauthem ; that the eruption was generalized, and, being for the most 
 part concealed by the hair, generally overlooked ; and that it was capable 
 of being conveyed by inoculation, the lesion being indistinguishable from 
 that of cow-pox. He believed himself to have demonstrated also that it 
 was the contagion of horse-pox that gave rise to cow-pox in the cow. 
 
 Depaul's investigations were very keen and his conclusions were exceed- 
 ingly plausible, but they cannot be called convincing, notwithstanding 
 the fact that Constantiu Paul succeeded for a time in popularizing 
 a stock of horse-pox virus as material for vaccination. At about the 
 same time the Beaugency case of cow-pox was discovered, and the per- 
 fectly satisfactory use that has been made of that stock niay have thrown 
 Depaul's theories and Paul's practice undeservedly into the back- 
 ground. 
 
 We can only say, in summing up, that the small-pox theory is utterly 
 untenable, that the horse-pox theory has not been disproved, and that the 
 theory that regards cow-pox as derived neither from small-pox nor from 
 horse-pox, but as a disease sui generis, although not proved, is the most 
 rational of all, and the most in keeping with known facts. 
 
 ETIOLOGY. Nearly everything that could be said under this head has 
 already been considered. It may be added that meteorological conditions 
 have been supposed to favor the prevalence of the disease among cows. 
 More precise observations are needed to enable us to determine whether 
 or not there is any truth in this supposition. It has been said that the 
 affection is most apt to prevail during warm and moist seasons. This is 
 contrary to what we might have imagined, as warmth and moisture are 
 quite destructive of the vaccinal virus. Under ordinary circumstances, 
 however, the contagium often proves wonderfully tenacious of life, and 
 the disease, once introduced among a herd of cows, is prone to linger for 
 months, or even years, attacking animals recently added to the stock and 
 young cows during their first lactation. As has already been stated, age, 
 sex, and parturition can be regarded as etiological factors only in so far 
 as they favor the occurrence of accidental inoculation. In the human 
 subject vaccinia occurs generally as the result of intentional inoculation, 
 as will be more fully referred to when we come to the consideration of 
 vaccination. Insusceptibility is occasionally met with, both in the cow 
 and in man, but it is very rare. Perhaps it may be explained in some 
 instances by the subject having really had the disease, or indeed small- 
 pox, either before or after birth, in so mild a form as not to have left the 
 characteristic marks. Certain it is that the lesion does not always leave 
 a permanent scar, especially in the cow. 
 
 GENERAL COURSE OF THE DISEASE. This is best studied in cases 
 that have followed intentional inoculation, for here we know the chrono-
 
 GENERAL COURSE OF THE DISEASE. 459 
 
 logical sequence of events. Depending somewhat upon the method of 
 inoculation, and perhaps also to some extent upon the state of the skin at 
 the site of the inoculation, or even upon a systemic condition (since some 
 vacciuators hail it as a harbinger of success), at the time of the operation 
 a ring-like erythema may be seen surrounding the inoculation. This is 
 exceedingly evanescent, being doubtless due to vaso-motor action, and is 
 not often witnessed. 
 
 Ordinarily, no effect whatever 'is observed until after the lapse of two 
 or three days, when a red papule is formed. This papule increases in 
 superficial area, but not in height, and gradually loses its redness. It 
 assumes a circular form, or, in the case of a compound pock (for that is 
 the proper name for the lesion), a configuration representing segments of 
 several circles, and as it increases in area it becomes more and more 
 raised at the border (the bourrelet of French writers), while the central 
 portion, which also increases in size pari passu with the peripheral 
 annular vesicle, does not become more elevated, but remains depressed, 
 giving the pock as a whole the peculiar shape termed umbilicatiou. Up 
 to the eighth or tenth day, inclusive, the marginal elevation contains a 
 limpid fluid termed lymph, and consequently presents a pearl-like lustre. 
 At this period a rather sudden increase takes place in the corpuscular 
 elements contained in the lymph, causing that liquid to become thick and 
 opaque, so that the elevated margin of the pock, which before had shown 
 the pearl-like lustre alluded to, now comes to look as if made of tallow. 
 
 At the same time what is known as the areola forms around the pook, 
 and constitutional symptoms show themselves. The areola is a circum- 
 scribed redness of the skin, perfectly circular in form and of five or six 
 times the diameter of the pock itself. It is sharply defined and of a 
 vivid red hue. Usually it is a mere hypersemia of the skin, but in some 
 instances, especially where the process of pock-formation is decidedly 
 pronounced, a few papillary elevations are to be seen in the immediate 
 neighborhood of the pock, and at that situation there may also be some 
 lividity. After a few hours' persistence in the form of a disc the areola 
 begins to disappear, the redness fading first at the central portion, so that 
 in its declining stage it assumes the shape of a ring which constantly 
 grows narrower and narrower at the expense of its inner portion, and 
 finally disappears altogether. In the cow the areola is only a faint line 
 immediately around the pock. 
 
 Constitutional symptoms are invariably present in cases that follow 
 the regular couse. The temperature rises one or two degrees Fahrenheit, 
 the appetite becomes impaired, and sleep is somewhat disturbed. In 
 many cases, mostly those of secondary inoculation, the symptoms are 
 more severe ; the fever runs higher, and may be accompanied with tran- 
 sient delirium ; nausea is experienced, perhaps with actual vomiting ; 
 and severe pain is felt in the head and along the spine, the latter being 
 most marked in the cervical region. These symptoms usually last but a 
 few hours, and they are apt to be accompanied by a modification of the 
 areola whereby it loses its disc-like outline and becomes diffused irregu- 
 larly, especially, if, as is usual, the inoculation has been done on the arm, 
 in a downward direction toward the elbow. 
 
 Along with these phenomena intense itching is often felt at the situa- 
 tion of the pock, being an aggravation of the pruritus that in a mild
 
 460 VACCINIA. 
 
 form accompanies the greater part of the whole course of the lesion. 
 Supposing the arm to have been inoculated, the lymphatic glands of the 
 axilla now become swollen and tender, but their suppuration is unusual, 
 and is to be regarded as a complication. 
 
 To go back to the pock : some time before the contents of the margi- 
 nal elevation become opaque the central portion is converted into a crust 
 of a brownish color, and finally, from the tenth to the fifteenth day, the 
 bourrelet itself, having ceased to increase in size, takes part in the pro- 
 cess of incrustation, the completed crust representing the form of the 
 pock, having a circular ridge at the border, at which part its color is not 
 so deep as at the centre. The crust usually falls oif between the fifteenth 
 and the thirty-fifth day. It is hard, translucent, and of a prune-juice 
 color ; thick at the centre and thin at the periphery ; smooth on its 
 attached surface and somewhat wrinkled on its outer aspect ; surmounted 
 at the centre by the epidermal debris produced by the operation of inoc- 
 ulation, mingled perhaps with more or less dried blood. 
 
 After the crust falls off a reddened surface is left of a cicatricial nature, 
 usually somewhat depressed below the level of the surrounding skin, and 
 frequently showing lesser pits, which latter appearance is termed foveola- 
 tion. Instead of these pits, radiated striae are frequently left. Gradu- 
 ally the scar loses its red color, and, like other scars, finally becomes paler 
 than the surrounding skin. It is usually permanent. 
 
 IRREGULARITIES ix THE COURSE OF THE DISEASE. Ever since cow- 
 pox first became the subject of medical study deviations from its typical 
 course have been noticed, and have been the theme of a good deal of 
 speculation. The older writers, indeed, bestowed no little attention upon 
 what they considered to be not irregular forms of vaccinia, but distinct 
 affections with which it was liable to be confounded. Their descriptions 
 of these diseases, which they termed spurious cow-pox, are, however, so 
 vague as to possess but little more than an historical interest. In regard 
 to affections met with casually in the cow, we can often determine their 
 nature only by test-inoculations, and even that criterion is not always 
 thoroughly convincing ; for, on one account or another, we may fail in 
 the attempt to propagate true cow-pox, and on the other hand, if we 
 admit that there is a radical difference between cow-pox and small-pox, it is 
 manifest, bearing in mind the errors into which experienced investigators 
 have fallen, that we may propagate small-pox through a long series of 
 experiments without once suspecting it to be anything but cow-pox. We 
 may, nevertheless, always determine, provided we succeed at all, whether 
 we are dealing with a disease that protects against vacciual and variolous 
 inoculation. 
 
 In the human subject we seldom meet with affections that counterfeit 
 vaccinia, although, if we take only the lesion into consideration, there 
 are certain contagious forms of herpes that may give rise to doubt, and 
 possibly the same may be true of impetigo contagiosa. 
 
 Turning, then, to the irregularities properly so called, we have first to 
 consider the absence of constitutional infection. This must not be con- 
 founded with the mere lack of obvious constitutional symptoms ; what 
 is meant by the expression is, that in certain instances the local lesion 
 may appear typical, and yet no such impression be made upon the sys- 
 tem as to render it proof against subsequent inoculation. Early in the
 
 IRREGULARITIES IN THE COURSE OF THE DISEASE.' 461 
 
 century the possibility of this lack of systemic infection was insisted 
 upon by Mr. Bryce of Edinburgh, who invoked it as an explanation of 
 the occasional failure of vaccinia to protect against small-pox. The prac- 
 tical question was, how to decide, in a given instance, whether general 
 infection had or had not taken place. In the opinion of many observers 
 and that notion has cropped out every now and then up to the present 
 day absence of the areola furnished at least presumptive evidence that 
 the constitution had eluded infection. But, whatever may be held theo- 
 retically, it must be conceded either that the general system very rarely 
 fails to feel the impress of the disease, or else that the criterion is falla- 
 cious. For in an experience of seventeen years the present writer has not 
 known of a single instance in which a vaccinal lesion that pursued a reg- 
 ular course in other respects has failed to be accompanied by the areola. 
 And certainly Mr. Bryce himself must have attached little if any import- 
 ance to it, for he took great pains to establish a means of determining 
 the presence or absence of constitutional infection the so-called Bryce's 
 test. This consists in repeating the inoculation at a certain period in the 
 evolution of the disease, the theory being that systemic infection does not 
 take place at once, but only after the lapse of a number of days from the 
 time of the inoculation, Up to that time a repetition of the inoculation 
 is possible, and, if systemic infection results from the first one, both 
 lesions will mature at the same time, the second one following an accel- 
 erated course, reaching its acme rapidly, although dwarfed in size. If, 
 on the other hand, the first inoculation failed to infect the constitution, 
 the second one will pursue its course in the usual manner. Moreover, at 
 a certain time, generally about the fifth day, a repetition of the inocula- 
 tion will fail altogether if the original insertion has really infected the 
 system. The present writer can testify that Mr. Bryce's statements are 
 correct ; he has applied the test in many cases, but in no instance has he 
 been led to the conclusion that constitutional infection had failed to take 
 place. He is inclined to think, therefore, that such failure is exceedingly 
 rare. 
 
 Passing over the multiplicity of irregularities in the lesion that were 
 described by the older observers, it seems that there are a few that are of 
 practical importance. In the first place, there is a variety of pock to 
 which it is not easy to give a definite name, but which is characterized 
 by a lack of decided elevation above the surrounding skin (a deficiency 
 for which it makes up in superficial area), by the early formation of a 
 thin, flimsy, straw-colored crust, and by the utter failure of the charac- 
 teristic firm brown crust of the typical variety to become developed. 
 This form of irregular pock has not been seen by the writer of late 
 years, but before animal vaccination came into general use he met with 
 it frequently, mostly in cachectic children. Notwithstanding its sprawly, 
 unsatisfactory appearance, it is undoubtedly genuine, for the- typical 
 lesion may be produced by inoculation with its contends. 
 
 Another irregularity of the pock is what is familiarly termed the rasp- 
 berry excrescence. A red elevation forms at the seat of inoculation, and 
 at first promises to follow the typical course, although it may be tardy in 
 making it appearance; but it never advances to full development. It 
 becomes indolent, and may last for several weeks, or even months, in the 
 form of a hard, flat nodule of a bright-red color, not unlike a small
 
 462 VACCINIA. 
 
 njevus. In many instances it has a succulent look, but no lymph can be 
 obtained on puncturing it. No areola appears at any time, and finally 
 the lesion slowly disappears, leaving no trace of its existence. It is 
 probably an abortive form of pock, in which only the papillary layer of 
 the skin takes part, without any exudation into the epidermis. It is 
 seldom, if ever, protective against small-pox, for it constitutes no bar to 
 a subsequent vaccination. This irregular pock has been observed from 
 time to time ever since the early days of vaccination, but for the past six 
 years it has been seen more frequently in New York than for many years 
 before. Now, however, it seems to be growing less common. The writer 
 is not aware of any satisfactory explanation of its occurrence. It is seen 
 in all sorts of subjects, and seems to follow the use of one variety of virus 
 as much as the employment of any other. 
 
 AVhat has been termed generalized vaccinia is another form of irregu- 
 larity. The expression is a vague one, covering as it does not only the 
 very rare cases of true eruptive vaccinia, in which a general eruption of 
 pocks takes place as a consequence of constitutional infection, playing the 
 part of an exanthem, but in addition those instances, not very uncommon, 
 in which pocks are formed here and there on the body, probably as the 
 result of the accidental transfer of the virus from the pock by scratching. 
 Under such favorable conditions the immediate transfer of lymph 
 from a pock in which the specific evolution is going on vigorously the 
 slightest penetration of the epidermis with the nails is enough to secure 
 self-inoculation. In view of this facility with which it may be effected, 
 we should be very careful not to jump hastily to the conclusion that in 
 any given case of generalized vaccinia the supplementary pocks are truly 
 eruptive ; as a matter of fact, the present writer has never seen an instance 
 in which he was convinced that such was the case. Where the pocks are 
 very numerous, especially in subjects with an irritable skin, much distress 
 may be caused by the itching and by the consequences of scratching, and 
 marked febrile reaction may accompany the processs ; so that, in view of 
 the great similarity of the lesions to those of the variolous eruption, 
 much doubt is sometimes entertained as to whether the disease is not 
 really small-pox. This question cannot always be definitely settled at 
 first, but the failure of the secondary fever of small-pox, together with 
 the fact that the disease does not spread by infection, will generally suffice 
 to decide it. 
 
 Concerning those cases of generalized vaccinia that are manifestly not 
 eruptive, it sometimes happens that the cutaneous receptivity is not 
 exhausted for several weeks, or even months. Such cases set Bryce's 
 test at defiance, in consequence, probably, of an idiosyncrasy. In some 
 of these instances the pocks appear in clusters of successive formation, 
 looking not unlike patches of zoster. Small supplementary pocks in 
 the immediate neighborhood of the original lesion are not at all uncom- 
 mon. 
 
 PATHOLOGICAL, AXATOMY. Avoiding the minute histological details 
 for which the prescribed length of this article gives no scope, but little is 
 to be added to what has already been said in the section on the clinical 
 features of the disease. The lesions of vaccinia are wholly cutaneous. 
 Confining ourselves to cases that follow a regular course, there is, 
 indeed, but one, the pock a term that seems preferable to vesicle and
 
 PATHOLOGICAL ANATOMY. 463 
 
 pustule, since the latter apply only during certain phases in the develop- 
 ment of the lesion. 
 
 A pock may be regarded as essentially a lesion of the epidermis, for it 
 is in that structure that its most striking features are developed, and in 
 some cases, although doubtless the papillary layer of the derma is con- 
 gested, there is no permanent alteration of tissue below the Malpighian 
 layer of the epidermis. These are the catarrhal pocks of Rindfleisch, 
 and it is in such cases, if in any, that no scar (even of temporary dura- 
 tion) results. The term catarrhal pock, however, is not vitiated by an 
 extension of the morbid process deep enough to produce a permanent 
 cicatrix, and it is probable that in most cases the catarrhal type predomi- 
 nates. By the term diphtheritic pock the same author refers to cases in 
 which the congestion of the papillary layer is so intense as to block the 
 supply of blood to the apices of the papillae, as a result of which they 
 become exsanguinated and necrosed, forming a white pultaceous layer 
 on the floor of the pock, which is undoubtedly what Ceely referred to 
 when he spoke of a false membrane. In some cases even the subcu- 
 taneous tissue undergoes necrosis, a sort of core being included in the 
 substance of the crust that ultimately forms. 
 
 Whichever of these forms of pock we take into consideration, always 
 excluding irregularities and complications, we find certain definite changes 
 in the epidermis. The dome of the pock is formed by the unbroken 
 transparent horny layer of the epidermis, unaffected by the morbid pro- 
 cess. The cavity of the pock is formed by the squamous cells of the 
 epidermis being forced out of their normal relations by an exudation of 
 lymph between them, some of them being tilted up edgewise while still 
 retaining their connection with the surrounding cells, thus accounting for 
 the multilocular structure of the pock ; for it is a fact that the circular 
 bourrelet consists not of one ring-like cavity, but of many separate 
 chambers. The result of this structure is, that the liquid contained 
 within the pock the lymph escapes only partly through a puncture 
 made in the wall of the vesicle. In order to evacuate the pock thor- 
 oughly it is necessary to make a great number of punctures or a circular 
 incision following the ring-like ridge of the bourrelet. 
 
 The lymph contained within the cells of the pock is a liquid which in 
 its gross physical properties differs but little from the lymph which 
 exudes from any traumatic surface shortly after .the injury has been 
 inflicted, as in the glazing process that takes place in wounds. Examined 
 microscopically, however, it is found to contain not only the fibrin, the 
 salts, the corpuscular elements, and the debris that ordinary tissue-juice 
 presents, but also certain minute spherical bodies termed microspheres, 
 microzymes, vaccinads, etc. that give it its characteristic infective quality 
 and justify the title of virus commonly applied to it. That these minute 
 bodies really constitute the virulent element of the lymph, or at least that 
 they are the vehicle of the contagium, is not a mere matter of conjecture, 
 but has been demonstrated abundantly, notably by Chauveau and Sander- 
 son's diffusion experiments. Inoculation with the supernatant liquid, 
 containing none of these bodies, always fails to convey the disease, but it 
 is not absolutely essential that they should be present in large proportion 
 in the lymph to render the latter virulent, for Chauveau found that lymph 
 diluted with thirty times its bulk of water was not without infective
 
 464 VACCINIA. 
 
 power. It scarcely need be said, however, that the greater the propor- 
 tion in which they are present, the greater is the probability that the 
 lymph will prove infective on inoculation. These bodies have been sup- 
 posed to be of a vegetable nature, and Hallier, Kohn, and others have 
 bestowed no little study upon their botanical characteristics. Under 
 favorable circumstances they retain their virulent properties for a long 
 time, especially if kept perfectly dry and not subjected to a high tempera- 
 ture. The present writer has met with success in the use of vacciual 
 virus seven years old. 
 
 The lymph differs somewhat in its gross appearances according as it is 
 produced in man or in the bovine animal. In the former it is clear and 
 limpid, and exudes freely in great drops when the pock is punctured in 
 its peripheral portion ; in the latter it is more straw-colored and more 
 viscid, exuding sluggishly, or even refusing to flow without the aid of 
 pressure. Moreover, the vaccinads seem endowed with different proper- 
 ties in the two cases : in man they have a tendency to remain equably 
 diffused through the liquid, while in the cow they tend to separate from 
 it and to be deposited upon any solid surface at hand. 
 
 The phenomenon termed umbilication, common to the vaccinal pock 
 and to that of variola, has given rise to some differences of opinion as to 
 the mechanism of its production. The term implies a depression at the 
 centre of the pock. This appearance is not invariable, but it is constant 
 enough to have met with general acceptance as a characteristic feature, 
 notwithstanding the undoubted fact that it is found in lesions that have 
 nothing whatever to do with any of the varioliform diseases. Not to 
 waste space in discussing the various theories that have found supporters, 
 it may be said that they have all been proved to be defective, save only 
 the simple explanation that as the process of evolution advances the centre 
 of the pock undergoes desiccation, whereby that portion of the tissue 
 involved is so glued and drawn together as to become incapable of the 
 swelling that is still going on in the growing peripheral portion of the 
 lesion. 
 
 The crust into which the pock ultimately becomes converted is not, as 
 is commonly supposed, mere dried lymph and nothing else ; it is dried 
 tissue enclosing concrete lymph. It generally includes also various sorts 
 of debris broken-down epithelium, blood-corpuscles, pus-corpuscles, and 
 even, in rare cases, a core of sphacelated tissue like that of a furuncle. 
 
 As has already been said, the cicatrix is to a certain extent peculiar in 
 that it is usually depressed and foveolated. Too much stress has been 
 laid upon these features, however, and the truth is that some traumatic 
 scars cannot be distinguished readily from that of vaccinia, while, on the 
 other hand, many a genuine pock leaves no permament trace behind it. 
 Indeed, in the cow it is the exception for a noteworthy scar to form. 
 ^ SEQUELJE AND COMPLICATIONS. The most important sequela of vac- 
 cinia is the fact that it protects the subject against small-pox, and on that 
 circumstance hinges the chief practical interest of the disease. This leads 
 us at once to the subject of vaccination, and therefore under that head we 
 shall pursue our consideration of this curious affection.
 
 SYNONYMS. HISTORY. 465 
 
 Vaccination. 
 
 SYNONYMS. "The new inoculation;" Fr. Vaccination ; Ger. Kuh- 
 pockenimpfung, Schutzpockenimpfung ; It. Vaccinazione ; Sp. Vacu- 
 nacion. 
 
 HISTORY. Before giving the history of vaccination itself (meaning 
 by that term the intentional inoculation of vaccinia for the purpose of 
 protecting the subject against small-pox), it may be well to devote a few 
 words to a practice that preceded it that of the intentional inoculation 
 of small-pox (or simply inoculation, latterly called variolation). In very 
 early times various Oriental peoples became aware of the fact that small- 
 pox might be very decidedly mitigated by inoculation. This was prac- 
 tised in various ways, all of which may be reduced to the process of 
 inserting small-pox virus into a solution of continuity. Lady Montagu, 
 the wife of an English ambassador to Turkey, brought the practice back 
 to England with her, where it soon made its way into popular favor, and 
 whence it spread rapidly over Europe and America. Thus contracted, 
 small-pox was shorn of a great part of its terrors ; the eruption was 
 usually trifling in amount, and in every way the disease was mild as a 
 rule. Still, the mortality was something worth considering, and, worse 
 than that, the inoculated disease was communicable by effluvium, so that 
 an inoculated person had to be secluded carefully for fear of spreading 
 the disease in the ordinary way. In all cases, too, careful medical treat- 
 ment was thought necessary. On the whole, then, while inoculation was 
 undoubtedly a boon, it was fraught with many grave perils. So great, 
 indeed, were these perils, and so thoroughly were they appreciated, that 
 the practice was interdicted by law in most civilized countries so soon as 
 vaccination had become established in popular favor. 
 
 In several European countries the common people at least those of 
 them who had much to do with dairies gradually became aware of the 
 existence of the disease termed cow-pox, and of the fact that those indi- 
 viduals who had accidentally contracted it were rendered proof against 
 the infection of small-pox. There is even fair testimony to show that 
 some of these people, particularly the English farmer, Benjamin Jesty, 
 relying on their observation to this eifect, employed intentional cow-pox 
 inoculation as a protective measure. These facts, however, do not detract 
 in the least from the credit that all Christendom has awarded to a man 
 who subjected the popular impression in question to the test of scientific 
 investigation, proved its truth, and demonstrated its value to the world. 
 That man was Edward Jenner, an English country physician. It \vas 
 in the last quarter of the eighteenth century that he entered upon his 
 course of inquiry, and on the eve of the present century he published his 
 demonstration to the world. It was not a discovery; it was not an 
 invention : it was more than either, " a matchless piece of induction," to 
 quote the words of Mr. John Simon. Filled as he must have been with 
 the consciousness of his great achievement, Jenner set this good example 
 to all investigators : that he did not make haste to convert the world ; he 
 first convinced himself. It may almost be said, indeed, that, like Minerva 
 from the head of Jove, the rational and perfected practice of vaccination 
 sprang complete from Jenner's hands. Doubt and ridicule he had to 
 encounter at first, and afterward envy and detraction ; but the force of 
 
 VOL. I. 30
 
 466 VACCINIA. 
 
 his facts and the symmetry of his deductions were such that the new 
 inoculation soon spread through the broad world, and has ever since 
 maintained its sway, save with a few fanatical scoffers. 
 
 That vaccination really does protect against small-pox observation has 
 taught the whole civilized world, if we leave out of account the few con- 
 scientious and intelligent doubters (made such, doubtless, quite as much 
 by the extravagant statements often put forth by those who from time to 
 time think it incumbent on them to defend vaccination, as by their own 
 misinterpretation of facts) who are to be found associated with the noisy 
 little body of actual opponents of the practice. One of the most inju- 
 rious statements ever made in the advocacy of vaccination is, that it 
 always protects if properly done. When one of these illogical defenders 
 of that proposition is confronted with an instance that disproves his 
 assertion, he falls back on the allegation that in that instance the vaccina- 
 tion was not properly done. The manifest absurdity of such an argu- 
 ment strikes the doubter most forcibly, and inclines him to say to him- 
 self, Falsus in uno, falsus in omne. Unbelief founded on this ground 
 would never have arisen if the plain truth had always been adhered to : 
 that the protection afforded by vaccination is not invariable, and that 
 very often it is not permanent. In the infancy of the practice these 
 facts were not known, but it is now many years since they became obvious 
 to every fair-minded observer. The misapprehension of facts lies chiefly 
 in the false deduction from the circumstance that the great majority of 
 cases of small-pox occur in persons who have been vaccinated. But the 
 explanation of this is very simple. Suppose that, of one hundred per- 
 sons vaccinated, twenty fail to be protected permanently ; that all persons 
 not vaccinated are unprotected ; and that throughout the civilized world 
 the proportion of vaccinated to unvaccinated persons is as ninety to ten. 
 Making no pretence of arithmetical accuracy, it may certainly be said 
 that all these suppositions are well within the truth. It follows from 
 them that in a community of ten thousand persons there will be nine 
 thousand who have been vaccinated, and one thousand who have not. 
 Of the former, eighteen hundred will have failed to secure lasting pro- 
 tection. Therefore in case of an epidemic there will probably be a pro- 
 portion of eighteen cases of small-pox in the vaccinated to ten in the 
 unvaccinated ; and yet this should not obscure the fact that of the nine 
 thousand vaccinated more than seven thousand were absolutely protected, 
 whereas of the one thousand not vaccinated not one could escape the dis- 
 ease if exposed to it. When we add the further observation that of the 
 eighteen hundred cases of small-pox among the vaccinated not more than 
 thirty or forty would probably prove fatal, while of the one thousand 
 cases in the unvaccinated about two hundred would end in death, we 
 have a striking demonstration of the efficiency of vaccination. As a 
 matter of fact, statistics show that the figures here given err rather in 
 allowing too little than in asserting too much in favor of vacciual 
 protection. 
 
 The question naturally arises, Why it is that vaccination protects some 
 
 persons and does not protect others ? reference being had, of course, to 
 
 permanent protection, for it is exceedingly rare for temporary immunity 
 
 to be attained if we exclude those instances in which the variolous 
 
 3tion has taken place before the operation is resorted to. This ques-
 
 HISTORY. 467 
 
 tion cannot be answered with any certainty, but various theories have 
 been brought forward, some of which call for notice. 
 
 In the first place, it has been thought that the revolution of the system 
 termed puberty was fraught with such a radical change as to do away 
 with the mild modification due to vaccination. While this theory has an 
 air of plausibility, it seems to lack proof and not to be upheld by anal- 
 ogy, for we do not find that children who have had scarlet fever, measles, 
 and the like often undergo those diseases a second time on arriving at the 
 age of puberty. 
 
 The only remaining theory that our limits will allow a consideration 
 of is that put forward by Marson of London, that the degree and dura- 
 tion of vaccinal protection are proportionate to the perfection of the vac- 
 cinal lesion and to the number of insertions made. In a large experience 
 with small-pox Marson found that the disease was more fatal among 
 those whose vaccinal scars were imperfect or few in number than among 
 those who bore evidence that several pocks had been produced and had 
 run a typical course. As to the influence of a perfect evolution of the 
 lesion, but little doubt can be entertained, for we have already seen that 
 in some instances its course is so different from what it should be that no 
 protection whatever seems to result. "When we come to consider the 
 number of the pocks as affecting the degree or the duration of protection, 
 however, an obvious source of fallacy arises in the fact that we cannot 
 always be sure that some of the scars on a person having a number of 
 them were not the products of a repetition of the operation several years 
 after the first that is to say, a revaccination, the efficiency of which in 
 restoring lost immunity is now well established. Nevertheless, as long as 
 the doubt remains the best course to pursue seems to be to act as if 
 Marson' s theory were in all respects correct, and vaccinate by multiple 
 insertions. 
 
 We have, then, no positive means of ascertaining who those persons 
 are that are likely to fail of lasting protection, or how long a time will 
 elapse before the cessation of their immunity will take place. The only 
 safety lies in revaccination. But after how many years should revacciua- 
 tion be resorted to ? It has been thought that this question might be 
 settled by noting at what age, or at what period after primary vaccina- 
 tion, large numbers of people became susceptible of revaccination. This 
 test, however, is not altogether trustworthy, for a renewed susceptibility 
 to vaccinia by inoculation does not necessarily imply that the liability to 
 take small-pox by effluvium has been regained. If it did, modified 
 small-pox (varioloid) would be far more common than it is, for it is cer- 
 tain that revaccination can be made to succeed in a very large proportion 
 of children long before they have reached the age of puberty. The 
 fact is, contrary to the notions of the last generation, that success in 
 revaccination is the rule, not the exception. Formerly it was not ex- 
 pected to succeed, and therefore no special pains were taken to ensure 
 success. 
 
 Definite rules cannot be laid down as to the time that should be suf- 
 fered to elapse before vaccination is repeated, but in the great majority of 
 instances safety may be attained by revaccination every five or six yearn, 
 and always in the presence of an epidemic, regardless of the lapse of 
 time ; also whenever one's mode of life is to undergo a noteworthy change,
 
 468 VACCINIA. 
 
 as in emigrating to a foreign country, on entering the military service, 
 
 and the like. 
 
 To sum up, then, vaccination almost invariably protects against small- 
 pox for the time being ; generally for a long term of years ; sometimes 
 for a lifetime. Often the protection is absolute ; as a rule, it is very 
 nearly so ; in rare instances it is trifling. In general^ terms, it_ may be 
 said that it is scarcely less protective than variolous infection itself for 
 death from a second attack of small-pox is by no means rare. Here the 
 question comes up : Is vaccination less protective, either in degree or in 
 duration of effect, than it was at the time of its adoption? Given a 
 typical vaccinia, we may unhesitatingly answer, No ; but do we now so 
 invariably produce the disease in all its essential features as was done in 
 Jenner's time ? Yes, provided we use proper virus and employ as much 
 care as was taken by the older physicians, who, trained to the practice of 
 variolation (the inoculation par excellence of bygone days), did their 
 work with a gusto now seldom witnessed. But there was a time, now 
 happily at an end, when it was not easy to obtain thoroughly good virus, 
 and when, therefore, the result was apt to vary materially from the 
 standard. This may be conceded without entering upon the vexed ques- 
 tion of the general deterioration of the Jennerian stock of vaccine. 
 
 Besides immunity from small-pox, there are one or two sequelae of 
 vaccinia that deserve mention before we proceed to consider what it is 
 better to class as complications. In the first .place, vaccination has been 
 supposed to confer temporary protection against whooping cough. The 
 writer is not aware, however, of any precise data going to prove either 
 the truth or the falsity of this supposition. 
 
 Secondly, by virtue probably of the inflammation that attends the 
 evolution of the vaccinal pock, vaccination practised in the immediate 
 neighborhood of 'a small navus often cures that blemish, and it has been 
 done for that purpose in many cases. It has no advantage over many 
 other measures, however, and there is the disadvantage that the nsevus 
 may so mask the pocic as to give rise to some doubt as to the satisfactory 
 character of the latter. The practice, therefore, is not to be urged. 
 
 COMPLICATIONS. These are local and systemic. Those of them that 
 are at all serious are rare, and can generally be traced to fortuitous cir- 
 cumstances. 
 
 ^ Inflammatory complications are usually due to undue traumatism at the 
 time of the inoculation, to injury of the pock, or to the previous existence of 
 a cutaneous disease or of some dyscrasia. Dermatitis is the most common. 
 It is usually a mere erythema, but in some instances lymphangeitis, 
 lymphadenitis, phlegmonous inflammation, with diffuse suppuration, may 
 result. From injury of the pock ulceration and gangrene may take 
 place, and septic absorption may follow in their train. These complications 
 are to be treated as if they had occurred from any other cause. Gene- 
 rally, the mere vaccination is not responsible for them, but in some 
 instances putrescent vaccine may be adduced as their source. In such 
 cases the complications, if they can still be called so, are apt to make 
 their appearance long before the pock matures, even within forty-eight 
 hours of the vaccination. Inflammatory complications supervening on the 
 full development of the pock may invariably be set down as due to some 
 cause not connected with the quality of the virus employed.
 
 COMPLICATIONS. 469 
 
 An undue amount of dermatitis is best treated with some mildly- 
 astringent and anodyne application. The following liniment is excellent 
 for the purpose : Jfc. Unguenti Stramonii |j Liquoris Plumbi Subacetatis 
 fgss ; Olei Lini f %iv. M. fiat linimentum. As a rule, it is best to avoid 
 poultices applied over the pock itself, for they soften the tender struc- 
 tures that make up its dome and render it prone to rupture, with all the 
 consequences that* may follow its conversion into an open sore. When 
 the latter accident has occurred, dusting powders will ordinarily suffice to 
 absorb the discharge, and thus prevent putrefaction either the ordinary 
 toilet powder or salicylized or carbolized powders, the basis of which 
 may be starch with a small proportion of the oxide of zinc. Besides the 
 antiseptics mentioned, iodoform, boric acid, etc. may be used to advan- 
 tage. Liquid applications are not usually so appropriate, but the writer 
 has known the proprietary preparation termed Listerine to answer 
 admirably. 
 
 Circumscribed collections of pus are to be treated as under other cir- 
 cumstances, and burrowing is to be guarded against. It is only in the 
 worst cases that constitutional treatment of any sort is demanded, and in 
 these it should be of a supporting nature. 
 
 Passing from the simple inflammatory complications to those of a 
 specific character, we will first mention erysipelas. Genuine erysipelas 
 following vaccination is quite rare, but when it does occur it is prone to 
 prove serious. The writer believes that it always depends on secondary 
 infection i. e. that the vaccinal wound becomes the nidus of an erysipe- 
 latous contagium already existing in the patient's surroundings, just as 
 any other traumatic surface might, and that the vaccinal virus has nothing 
 whatever to do with it. Admitting that improper virus is apt to give 
 rise to dangerous inflammatory complications, the latter are not really ery- 
 sipelatous, whatever guise they may put on. Erysipelas following vac- 
 cination calls for no other treatment than what is proper for traumatic 
 erysipelas under ordinary circumstances. 
 
 We now come to the subject of vaccinal syphilis. The question of the 
 possibility of conveying constitutional taints along with vaccinia was 
 raised long ago, but, partly relying on certain theoretical tenets, and partly 
 because of the rarity of well-ascertained facts to shake the blind confi- 
 dence felt in the utter harmlessness of vaccination, the profession fought 
 the suggestion without properly investigating it. In regard to syphilis, 
 the broad assertion was maintained that two infectious diseases could not 
 affect an individual at one and the same time : either syphilis would be 
 communicated alone or vaccinia alone ; moreover, it was affirmed that the 
 juices of a syphilitic person were not capable of giving rise to the disease 
 by inoculation unless they happened to proceed from a syphilitic lesion. 
 There was never sufficient basis for the former of these two doctrines, 
 and the latter received a rude shock when it was shown by Pallizzari and 
 the anonymous physician of the Palatinate that the blood of a syphilitic 
 subject was capable of conveying the taint. Meantime, certain horrible 
 outbreaks of syphilis were reported, chiefly in Italy, that could not 
 reasonably be imputed to the ordinary occasions of syphilitic infection. 
 Even these occurrences, however, failed to shake the general incredulity, 
 especially in Great Britain, where until quite recently men's orthodoxy 
 in medical matters w r as gauged by their obstinacy in refusing to investi-
 
 470 VACCINIA. 
 
 gate, far less believe, the slightest proposition unfavorable to vaccination, 
 and where, also, observations from beyond the limits of the empire were 
 looked upon as in all probability fallacious. 
 
 To a Frenchman, M. Viennois, we are indebted for the first systematic 
 and fair-minded study of the subject of vaccinal syphilis. This writer 
 demonstrated that the Rivalta cases and those of other like outbreaks 
 were certainly due to vaccination, but he concluded thatf they owed their 
 occurrence not necessarily to the use of lymph from syphilitic subjects, 
 but to the fact that that lymph contained blood. By this time it had 
 come to be recognized that syphilis was inoculable by the blood. But 
 even Vennois's masterly essay, and the facilis descensus it oifered to those 
 English authors who found themselves confronted with proof positive of 
 then- error, failed to make any noteworthy impression beyond the con- 
 cession that syphilis might possibly be communicable in vaccination, but 
 that, if it were, the catastrophe might easily be escaped by avoiding the 
 use of lymph contaminated with blood, and that, therefore, the danger 
 was practically no danger at all, for no one in England would think of 
 using bloody lymph ! In all this the English were slavishly followed 
 by our own countrymen. It is proper to add, however, that Ballard 
 of London did his best to present the matter in a proper light .to the 
 British profession, and that it is largely due to his labors and to those 
 of Jonathan Hutchiuson (the latter of whom supplemented Rlcord's 
 discovery that vaccine lymph is never free from blood with abundant 
 clinical evidence of the existence of vaccinal syphilis unavoidable by the 
 mere observance of Vieunois's safeguard) that we are now freed from the 
 clog of error in this matter. Nor was it the English alone that so long 
 baffled the recognition of the truth ; in the French Acad6mie de Medicine, 
 Jules Guerin and his adherents fought desperately against it. 
 
 At the present day we know that syphilis is liable to be communicated 
 in vaccination, and that, too, without regard to visible blood in the lymph 
 employed. There are two ways of avoiding it. One is, to use non- 
 humanized lymph, since the lower animals are insusceptible to syphilis. 1 
 This is simple. The other is, to select a human vaccinifer that is free 
 from syphilis. This is difficult. Too great reliance, however, should 
 not be placed upon the vaccinifer ; it is possible to convey syphilis even 
 in the use of bovine virus. Suppose two persons, A and B, are to be 
 vaccinated at one sitting, A being syphilitic. If A is vaccinated first, 
 and the same lancet, imperfectly cleansed, is used on B, it is plain that B 
 will be inoculated not only with vaccine lymph, but also with A's blood. 
 It is of the first importance, therefore, that this form of vaccinal inocu- 
 lation of syphilis should be carefully guarded against ; and that can be 
 accomplished most certainly by using a fresh instrument for each patient. 
 
 From a medico-legal point of view it is important to note that con- 
 stitutional syphilis may follow vaccination, and yet have nothing to do 
 with it. Suppose an infant to be born syphilitic, but with no visible 
 manifestations of the taint. Let that child be vaccinated, and let the 
 syphilitic dyscrasia afterward break forth. The ordinary inference would 
 be that the syphilis was due to the vaccination ; and in most instances this 
 view would certainly be urged by the syphilitic parent, since it would 
 
 1 Practically, this is certain, although there is some reason to believe that the disease 
 may be conveyed to monkeys.
 
 COMPLICATIONS. 471 
 
 free him from suspicion. It is always easy to disprove such an allega- 
 tion, however, for syphilis communicated in vaccination always shows 
 itself first in the form of a chancre at the site of the vaccination. 
 Therefore in any given case, unless this mode of onset can be proved, 
 the syphilis is manifestly not of vaccinal origin. Some observers, it is 
 true, are of the opinion that vaccination may evoke a pre-existing syph- 
 ilis, to use Lanoix's term i. e. that it may hasten the appearance of 
 of the characteristic manifestations, and even determine their localization 
 at the site of the vaccinal inoculation. But, even allowing the truth of 
 that proposition, in such a case the lesion would be constitutional, not 
 chancrous. 
 
 It is well, nevertheless, to take precautions against being placed on the 
 defensive in this way ; and it may commonly be avoided by declining to 
 vaccinate infants under three or four months old, since inherited syphilis 
 generally manifests itself by that time. This prudence on our own 
 behalf should not be carried so far, however, as to lead us to deny the 
 benefit of vaccination to very young infants whenever the prevalence of 
 small-pox is such that they are in obvious danger of exposure. 
 
 As regards its management, vaccinal syphilis does not differ from the 
 ordinary form of the aifection, and hence demands no other treatment 
 than what is proper for the disease contracted in the usual way. It 
 simply originates in an extragenital chancre. 
 
 Concerning the conveyance of other constitutional taints in vaccination 
 our knowledge is very limited. The present tendency of pathological 
 investigation is, however, to accord inoculability to many diseases that 
 formerly were not imagined to possess that quality, so that in regard to 
 other affections than syphilis it is prudent to use the utmost care in the 
 choice of lymph. There is one supposed safeguard that does not seem to 
 have the slightest title to be so regarded namely, the notion that a typ- 
 ical pock cannot be developed on a person affected with a specific cachexia. 
 There is no truth in the doctrine. Over and over again the writer has 
 seen perfect vaccine pocks on persons whom he knew to be syphilitic. 
 
 Cutaneous affections of a non-specific character are sometimes observed 
 to result from vaccination ; that is to say, they follow close upon its per- 
 formance, without any other known exciting cause. It may fairly be 
 supposed that in many instances they would have shown themselves even 
 if the vaccination had not been performed, for it is often the case that we 
 are unable to speak positively in regard to the exciting cause of an erup- 
 tion. Several years ago a striking case in point was related to the writer 
 by a well-known physician of this city, S. S. Purple, in whose prac- 
 tice it occurred. Purple had engaged to vaccinate a child on a cer- 
 tain day, but for some reason the vaccination was not done. In about a 
 week from the appointed day, however, erysipelas made its appearance, 
 beginning on the left arm at the usual site of vaccination, and pursued 
 its course to a fatal termination. To be sure, we are now speaking of 
 non-specific affections, but erysipelas illustrates the proposition perfectly, 
 notwithstanding its specific character. 
 
 Children with a tendency to eczema are prone to suffer an outbreak of 
 that disease as the result of vaccination. In Jenner's time, indeed, it was 
 considered not only that there was great risk of causing an aggravation 
 of any slight eczematous eruption by vaccination,, but that the mere
 
 472 VACCINIA. 
 
 existence of the eczema, even in the most trivial form, was likely to 
 interfere with the success of the vaccinal inoculation. This has been the 
 general feeling of the profession. Quite recently, however, many obser- 
 vations have been recorded tending to show that the old dread of vacci- 
 nating an eczematous child was not altogether warranted. The question 
 needs farther study, and, while it is probably best to postpone the opera- 
 tion under ordinary circumstances, nothing should induce us to withold 
 its protective influence where there is any manifest danger of actual 
 exposure to small-pox. 
 
 Although eczema is the most common of the cutaneous affections^ called 
 forth or aggravated by vaccination, there are various forms of skin dis- 
 ease, some of them difficult to classify, that occasionally result. _ They 
 are usually vesicular, pustular, or furuncular that is to say, irritative. 
 In the majority of instances it will be found either that the pock itself 
 has followed an irregular course, being whitish, diffuse, and ending in an 
 exaggerated although superficial incrustation, or that it has been subjected 
 to injury. Still, in some cases neither of these conditions is the precur- 
 sor of the skin affection. In many instances the latter can only be called 
 nondescript. There seems to be some occult connection between vaccina- 
 tion and the curious skin disease described by the late Tilbury Fox of 
 London under the name of impetigo contagiosa ; and, indeed, Piffard of 
 this city has found certain microphytes to be common to the crusting 
 period of vaccinia and that of contagious impetigo. What the relation 
 of the two affections is to each other, however, it is difficult to say. 
 
 Apart from impetigo coutagiosa, the cutaneous complications that 
 follow in the wake of vaccination possess no distinctive features, and 
 their management differs in no wise from that of the same manifestations 
 due to other causes. 
 
 THE TECHNICS OF VACCINATION. This aspect of our theme involves 
 a number of separate considerations. It will be convenient to give our 
 attention first to the matter of the choice of virus. The question arises 
 at once as to the selection between animal vaccine and the humanized 
 variety. In a broad sense the term animal vaccine includes 1. Virus 
 derived directly from a case of so-called spontaneous cow-pox. 2. 
 Variola vaccine i. e. the virus of an affection of the cow resulting 
 from variolation. 3. The virus of horse-pox (not strictly vacciual). 4. 
 Retro-vaccine i. e. the virus of an affection produced in the cow by the 
 inoculation of vaccinia from the human subject. 5. The virus of a 
 disease (true vaccinia) propagated through a series of bovine animals 
 from the so-called spontaneous cow-pox, being the virus now commonly 
 understood by the term, and the variety here referred to when it is not 
 stated to the contrary. 
 
 By humanized vaccine we understand that which is obtained from the 
 human subject, no matter how short or how long its descent from the 
 cow. As regards animal vaccine, we may practically exclude from con- 
 sideration all but the last variety mentioned, that being the one to which, 
 in the great majority of instances, the term is now restricted. This nar- 
 rows the question down to the choice between virus that has been prop- 
 agated through a number of bovine animals (practically, calves) from the 
 spontaneous disease in the cow, and that which, whatever its original 
 fource, lias already passed through the human system.
 
 THE TECHNICS OF VACCINATION. 473 
 
 The variety first mentioned, sometimes called primary vaccine, is gene- 
 rally spoken of by authors as not very trustworthy as regards its infec- 
 tive power (that is, not to be counted on to take), and as prone to give 
 rise to undue inflammatory complications when its use does prove success- 
 ful. These unpleasant qualities might be explained by the supposition 
 that primary vaccine is not apt to be at its best when it is now and then 
 obtained. Practically, however, it may be dismissed without further 
 consideration, for it is seldom to be had. 
 
 The second form variola-vaccine is manifestly improper to be used 
 whenever genuine vaccine is to be obtained, unless, indeed, we shut our 
 eyes to the accumulating evidence that variola-vaccine, so called, is not 
 vaccine at all. Furthermore, it is a question whether its use, as well as 
 all attempts to produce it, should not be forbidden by law. 
 
 The third variety, if such it may be called, it does not seem legitimate 
 to use in the present state of our knowledge, since it is not yet proved 
 satisfactorily that horse-pox possesses the full protective power of cow- 
 pox, or is free from objections that do not arise in connection with the 
 latter. 
 
 As to retro-vaccine, while the writer is unable to see any positive rea- 
 son against its use, neither can he see any reason why it should be supe- 
 rior to humanized vaccine, as such, save that during the period of its 
 bovine propagation it is not liable to become contaminated with the poison 
 of syphilis. The idea that an enfeebled stock of humanized vaccine can 
 have new life infused into it by passing through the system of the cow is 
 not reasonable prima facie, and there are no particular facts to support it. 
 By ensuring freedom from the da*nger of communicating syphilis retro- 
 vaccination doubtless served a good purpose at one time, but now, since 
 the remarkable and enduring excellence of the Beaugency stock is so 
 well established, there seems to be no excuse for a further resort to the 
 practice. 
 
 The last of our five forms of animal vaccine, that produced by the 
 continued propagation of spontaneous cow-pox through calves, is what is 
 now known as animal vaccine par excellence. Its advantages over the 
 other forms are so obvious that it alone should figure in any comparison 
 between animal and humanized vaccine. That being understood, what 
 are the relative merits of animal and humanized vaccine ? It should be 
 stated, in the first place, that bovine virus should be compared with virus 
 that has long been humanized, for lymph of but a few removes from the 
 bovine animal does not show any noteworthy differences from animal 
 vaccine itself. 
 
 In behalf of humanized virus it is maintained 1, that it is a more 
 trustworthy preventive of small-pox ; 2, that it is superior in its infective 
 property, so that it is surer to take ; 3, that it is more prompt in its action, 
 thereby affording more speedy protection to persons who have actually 
 been exposed to small-pox ; 4, that its virulent property is easier of pres- 
 ervation, wherefore it is more to be depended on when it is necessary to 
 keep it on hand for a long time or to transmit it to great distances ; 5, 
 that its use requires less skill, or, rather, less special knowledge of the 
 peculiarities of the animal virus ; 6, that it is less violent in its effects ; 7, 
 that it is less apt to give rise to irregular, and therefore more or less abor- 
 tive and non-protective, forms of pock.
 
 474 VACCINIA. 
 
 The first of these propositions, which asserts that humanized vaccine 
 confers greater protection against small-pox than the animal virus, was 
 warmly 'maintained by those who opposed animal vaccination on its first 
 introduction into this country ; but now the record of the past thirteen 
 years, during which period bovine virus has more and more borne the 
 brunt of the fight against small-pox, has disproved it in the judgment 
 of all competent and fair-minded observers. So far, indeed, as the facts 
 have been analyzed, they go to show that the reverse is the case that 
 bovine virus confers a more complete and a more lasting protection. 
 Direct observation on this point is strengthened by the collateral fact that 
 revaccination became at once astonishingly successful when the use of 
 animal vaccine first gained currency, whereas now it is again declining in 
 success ; the explanation of which latter circumstance is, that it is now 
 found difficult to revaccinate those whose primary vaccination was done 
 with bovine virus a striking indication of the permanence of the pro- 
 tection accomplished with the latter. 
 
 The second assertion that humanized virus succeeds more readily than 
 the bovine variety is still maintained by many, but, it may confidently 
 be said, by few if any whose experience with good animal vaccine has 
 been large. The truth is, that every large public vaccination service in 
 the country is now carried on almost solely with bovine virus, and that 
 results are thus achieved that were not dreamed of in former times. 
 Individual experience cannot weigh against this fact, but may be 
 explained, rather, by what modicum of truth there may be in the fifth 
 proposition, or by the assumption (surely a legitimate one, in view of the 
 number of irresponsible and ignorant purveyors of animal vaccine that 
 have thrust themselves before the profession since the advantages of the 
 practice were established by the labors of others) that those whose obser- 
 vation leads them to a conclusion at variance with that reached by the 
 great majority of trained observers have really been unfortunate in the 
 quality of the virus with which they have been supplied. Whatever 
 the explanation may be, however, there is nothing more certain than that 
 the use of animal vaccine, properly carried out, is daily furnishing results 
 that have never been excelled, if they have been equalled, in the employ- 
 ment of humanized virus on a like scale. 
 
 The third suggestion that the humanized virus acts the more promptly 
 of the two, and is therefore to be preferred for immediate protection is 
 plausible, since the areola (the alleged sign of systemic infection) forms 
 somewhat later around a pock produced by animal virus than around one 
 that is the result of vaccination with the humanized variety. The differ- 
 ence is one of a few hours only at the most, and it is not by any means 
 a general occurrence ; still, we may concede that in this respect the use 
 of humanized virus is to be preferred under certain circumstances. 
 ^ As to the fourth statement that humanized virus is more tenacious of its 
 infective property strictly speaking, there is not a particle of truth in 
 it. In the case of liquid lymph preserved in capillary tubes it has the 
 the semblance of truth, but, for reasons that will be more fully set forth 
 hereafter, that is because it is difficult to get the virulent portion of 
 bovine lymph out of the tube. In the form of dried lymph (the only 
 form that ought to be used) animal vaccine may be sent to all parts of 
 world, and may be kept any reasonable length of time and without
 
 THE TECHNICS OF VACCINATION. 475 
 
 special care, without undergoing sensible deterioration, if tested by one 
 who is familiar with its peculiarities and aware of the care that should 
 be taken in using it. Under ordinary circumstances there is no difficulty 
 about preserving animal vaccine with its energy practically unimpaired. 
 
 The statement that the use of humanized virus demands less special 
 knowledge than that of bovine virus is conceded at once. That special 
 knowledge is easily mastered, however, and no man fitted to practise 
 medicine will look upon its acquirement as a bugbear or a hardship. 
 
 The impression, almost universal thirteen years ago, that humanized 
 vaccine is less severe in its local and constitutional effects than the animal 
 virus has been eradicated from the minds of all but those who still follow 
 the teachings of the older writers rather than yield to what daily experi- 
 ence has been teaching during these thirteen years, or those who reason 
 from exceptional cases rather than from a general drift. The truth seems 
 to be this : with revaccinated adults animal vaccine acts somewhat more 
 severely than the humanized virus ; in infants, on the other hand, its action 
 is not so violent as that of the humanized variety. 
 
 Concerning the seventh and last claim put forward in behalf of human- 
 ized vaccine that it is less apt to give rise to irregular or spurious pocks 
 we may say that no form of irregularity has been observed by those who 
 have lately used the bovine virus that was not well known to the older 
 writers, who founded their observations wholly, or almost wholly, on the 
 use of the humanized virus ; nor is there any proof that such irregular- 
 ities are more common now than formerly. The truth seems to be, that 
 these irregular forms of pock seem to prevail at certain times, and not 
 at other times, regardless of the particular stock of virus used, other 
 things being equal. Why this should be so we do not know, but the fact 
 is beyond dispute. 
 
 To sum up, then, we can only say that in barely one particular that 
 of promptness of action can humanized virus justly be credited with 
 any superiority, while in every other essential respect it is inferior, so far 
 as any difference is to be observed. 
 
 What, on the other hand, are the points of superior excellence attaching 
 to bovine virus ? Setting aside certain extravagant assertions that have some- 
 times been made in its behalf, such as that it far exceeds the humanized virus 
 in its protective virtue (which may be true, but is not yet proved), they 
 may be put in general terms in the form of a denial of all the particular 
 claims that we have enumerated as having been put forth for its rival. 
 Such a denial, it has been seen, seems to the writer to be justified, save 
 in the one particular that perhaps we should accord to humanized virus 
 the merit of speedier action, and consequently greater certainty of pro- 
 tection, in cases of actual exposure to small-pox. 
 
 Besides these negative points in its favor, the foremost advantage of 
 animal vaccine is the guarantee it gives that, properly used, no syphilitic 
 contamination will result. On this point no argument is needed, for the 
 cow is insusceptible to syphilis. 
 
 A second consideration in its favor is, that it can always be had in large 
 quantities at short notice. The young practitioner of the present day can 
 scarcely appreciate the importance of this fact, but whoever remembers 
 the comparative helplessness in which, in past years, he has found him- 
 self in the face of a sudden outbreak of small-pox, not knowing which
 
 476 VACCINIA. 
 
 way to turn for an adequate supply of vaccine, will at once concede its 
 
 force. 
 
 On the whole, then, it must be said that bovine virus is entitled to the 
 preference as a rule, but that possibly it is well to resort to humanized 
 Ivmph of early removes under the special circumstances above referred to. 
 On no account should long-humanized vaccine be used so long as our 
 present stocks of animal virus maintain the excellence they have thus far 
 preserved, nor should humanized virus of any sort be preferred in the 
 general run of cases. 
 
 Passing now to a consideration of the various forms of vaccine, disre- 
 garding its source, there are practically these three : the crust, liquid 
 lymph preserved in capillary tubes, and dried lymph. 
 
 Until recently the crust, or scab, was much used in this country. Its 
 capability of being preserved unimpaired for a long time was a valid 
 excuse for this, especially in regions remote from the great channels of 
 communication, and it was in such districts that the use of the crust was 
 chiefly practised. That excuse scarcely exists now, for there are few phy- 
 sicians who cannot obtain a better form of vaccine within a very short 
 time. The -objections to the crust are two: 1. Most crusts are inert. 
 Especially is this true of bovine crusts, which are wellnigh worthless. It 
 must be confessed, however, that when once a crust has proved itself 
 active it may be trusted to retain its infective property for a very long 
 time. The writer has made successful use of crusts seven years old that 
 had made the voyage to Japan and back ; and they were bovine crusts 
 too. Still, the rule is, that crusts are untrustworthy. 2. Their use is 
 apt to be followed by undue inflammation, probably of septic origin, for 
 they almost invariably contain putrescent or readily putrescible elements. 
 It has even happened to the writer to cut open a crust that to all appear- 
 ance was typical and innocent, and to find in its interior a cavity occupied 
 by a pulpy, stinking slough. Manifestly, such material is unfit to be 
 introduced into the system of any human being. 
 
 In regard to liquid lymph in tubes, it is not much used in this country, 
 and its employment elsewhere is on the decline. At first thought, it 
 would seem to be the best form of all, but experience does not bear out 
 this view. In this form humanized lymph is vastly superior to animal 
 lymph, but with every possible care in charging and sealing the tubes it 
 is not uncommon to find their contents putrid. There are low vegetable 
 organisms that are supposed to prey on the vaccinad. If there is any 
 truth in this supposition, those organisms are certainly favored in their 
 destructive luxuriance by keeping the lymph liquid, thus furnishing them 
 with the best possible culture-fluid. Be this as it may, the fact is well 
 ascertained that tube-lymph does not keep well. It has been mentioned 
 already that bovine lymph stored in tubes is decidedly inferior to the 
 same form of humanized lymph. This was long ago recognized by propa- 
 gators of animal vaccine, but the cause remained a mystery until Warlo- 
 mont of Brussels suggested that it was due to one of the 'physical pecu- 
 liarities of animal lymph that, namely, as already hinted at, by virtue 
 f which its formed elements tend to attach themselves to any surface 
 presented to them, leaving the supernatant liquid a mere inert compound 
 of water, albumen, and salts ; so that in the case of tube-lymph the viru- 
 lent elements remain attached to the glass, and only the inert constituents
 
 THE TECHNICS OF VACCINATION. 477 
 
 are really used. This theory is exceedingly ingenious and plausible, but 
 the writer is not aware that it has been proved. He does know, how- 
 ever, that in some South American countries, where calf lymph in tubes 
 is used with success, the custom is to grind the tubes to powder, and inoc- 
 ulate with the resulting magma, glass and all. This practice is certainly 
 not. to be commended. 
 
 Dried lymph is the most efficient of all forms of vaccine, and, kept as 
 it ought to be, it retains its infective power long enough to answer all 
 ordinary requirements. The writer has used it three years old with suc- 
 cess. It may commonly be counted on for six weeks. One fact should 
 be borne in mind, however : the longer dried lymph has been kept the 
 more care is necessary in its use, for by long keeping it becomes very 
 hard, so that it is a work of patience to dissolve it off from the surface 
 on which it was deposited. Failure to accomplish its solution is the most 
 common cause of a lack of success in its employment. 
 
 The various forms of stored vaccine are esteemed by the writer in the 
 following order : 1, dried bovine lymph ; 2, dried humanized lymph ; 3, 
 humanized tube-lymph ; 4, humanized crusts ; 5, bovine tube-lymph ; 6, 
 bovine crusts. 
 
 The age and other circumstances under which it is best to vaccinate 
 children .constitute a point for practical consideration. It may first 
 be mentioned that pre-natal vaccination has been advocated by some 
 authors ; that is to say, the vaccinal infection of the fetus in utero by 
 vaccinating the mother during gestation. There seems to be respect- 
 able testimony going to show that the end may thus be accomplished, 
 but a weighty objection arises in the fact that this mediate vaccina- 
 tion of the foetus produces no physical sign of its success, so that doubt 
 must always be felt as to whether or not the procedure has been effica- 
 cious. Moreover, it is seldom indeed that a child needs protection before 
 its birth, provided we protect the mother, for it is well known that 
 vaccinia will overtake and destroy the variolous infection, even when 
 the latter has had two or three days' start. The practice has been chiefly 
 urged by Bellinger. It is not likely to come into general use. 
 
 There is no special objection to vaccinating an infant at any time after 
 birth, but usually it is well to defer the operation until the child is about 
 three months old, unless there is actual danger of exposure to small-pox. 
 Yet it is not well to postpone vaccination until the period of dentition, 
 for the combined irritation of the two disturbing elements may prove 
 decidedly uncomfortable if not serious. 
 
 Something is to be said as to the time of the year to be chosen. In 
 New York the bad custom prevails, especially among the poorer classes, 
 of having children vaccinated only in April, May, or June just the 
 part of the year in which erysipelas is most rife. The hot months 
 should not generally be chosen, for any source of irritation is apt to be 
 felt more severely by infants during the summer heat. However, no 
 circumstances should be looked upon as a positive bar to vaccination in 
 case of actual danger of exposure to small-pox, and in large towns chil- 
 dren should never be taken into public conveyances or carried into any 
 promiscuous assemblage until they have been protected by vaccination. 
 
 The next question is as to the part of the body that should be selected 
 for the inoculation. The region of the insertion of the left deltoid muscle
 
 478 VACCINIA. 
 
 is usually chosen the left rather than the right, because most nurses 
 habitually carry an infant on their own left arm, so that the child's left 
 arm is uppermost, and hence less exposed to injury. The region of the 
 deltoid insertion is comparatively free from the irritation of muscular 
 contraction, and it is easily accessible. If two insertions are made, it is 
 well to make one of them over the deltoid insertion and the other at a 
 point about an inch distant on the line of the posterior border of the 
 same muscle, for there the lymphatic connection with the axillary glands 
 is less free, so that adenitis is not so much to be feared. To avoid a scar 
 in a locality that may be exposed to view on certain occasions some 
 mothers prefer that their daughters should be vaccinated on the lower 
 limb. To this there is no special objection, further than that the lower 
 limb is rather more exposed to rough handling than the arm. If the 
 leg is chosen, the point of junction of the two heads of the gastrocne- 
 mius is an eligible situation. 
 
 The actual operation is performed in various ways. The old inocu- 
 lators generally made an incision through the whole thickness of the 
 skin, so that a pellet of subcutaneous fat rolled up into the little wound. 
 This is wholly unnecessary; furthermore, it is objectionable, for it 
 decidedly increases the risk of inflammatory complications. Still more 
 to be avoided are the methods by inserting a seton imbued with the virus 
 and by hypodermic injection or other like procedures. The best way is, 
 simply to remove the horny layer of the cuticle, so as to expose the suc- 
 culent portion of the epidermis. This surface is somewhat red, and from 
 it a slight exudation of lymph will be observed, but there need not be the 
 least flow of blood. By this procedure it is not uncommon to vaccinate a 
 sleeping child without waking it. It is not only admissible, but prefer- 
 able, not to wound the derma at all. Such an abrasion is easily made 
 with an ordinary lancet, which, contrary to the advice sometimes given, 
 should be very sharp ; out no cutting or scratching should be done with 
 it, only scraping with the convex part of its edge, precisely as in using 
 an ink-eraser. Scratching instruments (such as the rake-like vaccinator 
 often used or a row of needles set in a handle) are not easy to adapt to 
 varying degrees of plumpness of the arm, and are apt to make too deep 
 scratches, one at either side, while the skin between the two is scarcely 
 touched. Whatever instrument is chosen, it should not be used again 
 until it has been thoroughly cleansed made chemically clean which can 
 be Accomplished only by heating it or by wiping it off and then dipping 
 it into a strong disinfectant solution. 
 
 Some individuals are refractory to vaccination, but complete insus- 
 ceptibility is exceedingly rare. Various expedients have been resorted 
 to in rebellious cases, such as vesication with ammonia-water, maceration 
 of the skin for some hours with glycerine, and the like. The writer has 
 known these devices to succeed, but he has not seen the slightest advan- 
 tage m the plan recommended by Ceely, that of using a wound some 
 3urs old rather than one just made, although he has tried the experi- 
 ment many times. It is not necessary to make a large abrasion : one as 
 large as the little finger-nail is ample. 
 
 The next step is to apply the virus, and it should be so applied as to 
 mto contact with every part of the denuded surface. In what is 
 
 lown as arm-to-arm vaccination, or its equivalent, calf-to-arm vaccina-
 
 THE STORAGE AND PRESERVATION OF VACCINE VIRUS. 479 
 
 tiou (by all means the most successful method, although not often prac- 
 ticable in this country), the liquid lymph, fresh from the vaccinifer's pock, 
 is simply applied, when it will at once become diffused over the abraded 
 surface without any special pains being taken to accomplish that end. 
 
 If dried lymph is used, particular care should be taken to see that it is 
 actually dissolved and transferred from the substance on which it was 
 dried to the abraded surface. Failure to accomplish this is the cause of 
 almost all the lack of success that inexperienced vaccinators meet with. 
 The lymph should be moistened with water, or, if it is quite old, with 
 glycerine, before the abrasion is made, so that it may have time to dis- 
 solve. It should then be rubbed upon the abraded spot vigorously, and 
 at least for the space of a full minute. 
 
 In the use of tube-lymph no other precautions are necessary than in 
 arm-to-arm vaccination, but, simple as this method is, its results are 
 unsatisfactory. 
 
 Crusts should be reduced to a powder, and then made into a thin paste 
 with water or glycerine. A convenient way of powdering a crust is to 
 rub it on a file or between two files. The paste is to be well rubbed 
 upon the abrasion. The insertion of a solid piece of crust into a valvu- 
 lar incision is not to be recommended. 
 
 When the operation is finished it is well to keep the arm bare for 
 about five minutes, but not necessarily until the spot has become dry. 
 It is not well to apply any sort of plaster, but means should be taken to 
 prevent the underclothing from sticking to the abrasion. For this pur- 
 pose there is no objection to the shields that are furnished by the surgical 
 instrument-makers. Usually, however, nothing of the sort is necessary. 
 
 THE STORAGE AND PRESERVATION OF VACCINE VIRUS. Lymph 
 should usually be taken on the eighth day, inclusive never after the 
 ireola has formed. On the other hand, the writer's experience does not 
 lead him to coincide with those who state that the earliest lymph that can 
 be obtained is the most energetic. If it is to be dry-stored, the substance 
 to be coated with it (slips of quill, ivory, wood, whalebone, glass, and the 
 like) should be laid gently in the pool of lymph that exudes on punctur- 
 ing the pock, and allowed to dry, preferably without the aid of artificial 
 warmth. The layer of lymph should be plainly visible after it has dried. 
 A second coating is advisable, as it serves to preserve the first. 
 
 Capillary glass tubes are either cylindrical or furnished with a bulbous 
 expansion at the middle, the latter form being most commonly used. To 
 charge a tube make sure that both ends are open, and then submerge one 
 end in the pool of lymph. Capillary attraction will cause the tube to 
 fill, and the process may be facilitated materially by inclining the tube 
 toward a horizontal direction, so that the capillary attraction is not 
 opposed by that of gravitation. Care should be taken to keep the 
 applied end of the tube constantly submerged, or bubbles of air will 
 enter it. The sealing may be done with a blowpipe, by simply holding the 
 ends in a flame, or by means of sealing-wax or some similar substance. 
 The satisfactory charging of tubes demands some practice, but a little 
 patience will enable any intelligent person to succeed. 
 
 In regard to crusts, they should never be removed until the surface 
 beneath has become cicatrized and they have been partially detached by 
 the natural process. A crust torn off prematurely should never be used,
 
 480 VACCINA. 
 
 and the same may be said of secondary crusts i. e. those that form by 
 the desiccation of the discharge from the raw surface left when the primary 
 crust has been removed forcibly. 
 
 For the preservation of vaccine in these various forms tubes need only 
 be kept in a cool place. Dried lymph and crusts should be guarded 
 against dampness even more than against warmth. Their preservation 
 may be decidedly favored by over-drying, either in an exhausted receiver 
 or by keeping them in a closed vessel in the presence of sulphuric acid, 
 chloride of calcium, or some other substance having a strong affinity for 
 water. It is needless to say, however, that they should not come into 
 actual contact with any such agent. While this artificial desiccation tends 
 powerfully to preserve dried lymph, it makes it more difficult to use. 
 "\Vhen dried lymph or a crust is to be sent by mail or other conveyance, 
 it should be wrapped in some impermeably envelope, for which purpose 
 gutta-percha tissue is very convenient. Both these forms of virus should 
 be kept in a cool place. There is no objection to keeping them on ice, 
 provided they are well protected against moisture. 
 
 In conclusion, the writer wishes' to say that the limited space at his 
 command has compelled the assumption of a dogmatic rather than an 
 inductive form in the construction of this article. To the reader who 
 may wish to pursue the subject further and it will well repay thorough 
 study he would recommend the following bibliography : 
 
 Ballard : On Vaccination : its Value and Alleged Dangers, London, 
 1868. 
 
 Bousquet: Nouveau traite de la vaccine et des eruptions varioleuses, 
 Paris, 1848. 
 
 Bryce : Practical Observations on the Inoculation of Cow-pox, Edin- 
 burgh, 1809. 
 
 Ceely : Observations on the Variolce Vaccine, Worcester, 1840. 
 
 Chauveau et al. : Vaccine et Variok, Paris, 1865. 
 
 Depaul : Nouvettes recherches sur la veritable origine du virus raccin, 
 Paris, 1863 ; De Porigine reelle du virus vaccin, Paris, 1864 ; et al. : De 
 la syphilis vaccinak, Paris, 1865. 
 
 Hardaway : Essentials of Vaccination, Chicago, 1882. 
 
 Hering : Ueber Kuhpocken an Kuhen, Stuttgart, 1839. 
 
 Jenner: An Inquiry, etc., 2d ed., London, 1800. 
 
 Sacco: T)-attato di Vaccinazione, Milano, 1809. 
 
 Seaton : A Handbook of Vaccination, London, 1868. 
 
 Steinbrenner : Traite sur la vaccine, Paris, 1846.
 
 VARICELLA. 
 
 BY JAMES NEVINS HYDE, M. D. 
 
 VARICELLA is an acute disorder of infancy and childhood, in the 
 course of which appears a cutaneous exanthem of vesicular type, accom- 
 panied at times by systemic symptoms of moderate severity, termina- 
 ting in the course of from three days to a fortnight, after the forma- 
 tion of relatively few crusts upon the skin, with occasionally persistent 
 cicatrices. 
 
 SYNONYMS. Eng., Chicken-pox; Ger., Windblattern, Schafpocken ; 
 Fr., Varicelle ; Lot., Variola notha, seu spuria ; ItaL, Morviglione. 
 
 HISTORY. The literature of the disease which is now best recognized 
 under the title of varicella has been, in the history of medicine, wellnigh 
 inextricably confused with that of variola. In the latter part of jthe 
 seventeenth and the early part of the eighteenth century the distinction 
 between typical forms of the two disorders became apparent, and was 
 described by Willan and Harvey in England, and other writers in Ger- 
 many, France, Holland, and Belgium. Among those who have contrib- 
 uted to its literature may be named Hebra, Kaposi, Trousseau, Simon, 
 Thomas, Giintz, Henoch, Kassowitz, and Boeck. 
 
 ETIOLOGY. Varicella is essentially a disease of early life, occurring 
 almost exclusively in infants and young children. It is a contagious 
 disorder, and at times, especially in hospitals and asylums for children, 
 occurs in apparently epidemic forms. The question relating to the inoc- 
 ulability of the contents of its vesicular lesions is still open, positive and 
 negative results being recorded by different experiments. 
 
 SYMPTOMATOLOGY. The period of incubation of the disease cannot 
 be said to be definitely established. At times, without question, an entire 
 fortnight elapses between the dates of exposure and the evolution of the 
 disease, but both longer and shorter intervals have been recorded. 
 
 1 The writer has purposely avoided, in the brief space here devoted to the disease under 
 consideration, entering into a discussion of the question respecting the relation sustained 
 by varicella to variola. On one side are the views entertained by the Vienna school of 
 dermatologists, according to which there is but a single virus in these several forms of 
 disease the variolous poison. On the other are the opinions and the practice, largely 
 based upon the latter, of most English and American physicians, who deny the existence 
 of any relation between the pathological states recognized by them as occurring in two 
 entirely distinct affections. 
 
 My personal view may be briefly formulated as follows : Practically and clinically, it is 
 useful to regard these disorders as of a distinct nature. The arguments, however, in 
 favor of such absolute distinction are not irrefutable. There is probably in both forms 
 of disease but a single virus, that of variola ; but this, modified by evolution among gen- 
 erations of vaccinated children, has, in this process of natural cultivation or attenuation, 
 produced a malady of tender years whose attacks do not protect from variola and occur 
 irrespective of vaccination. 
 
 VOL. I. 31 481
 
 482 VARICELLA. 
 
 If there be a prodromal stage of the disease, certainly in the vast 
 majority of the little patients it cannot be recognized. During the last 
 month the writer has observed the evolution of the disease in twenty 
 children gathered together in the Chicago Home for the Friendless, no 
 one of whom was recognized as ailing before the eruption appeared. 
 Occasionally the disease is preceded by mild or even severe febrile symp- 
 toms, accidents sufficiently common in this class of patients. 
 
 The exanthem, commonly the first symptom of the disorder, occurs in 
 the form of reddish puncta, from which rapidly develop rosy-colored 
 maculations, and these become tensely distended, transparent or slightly 
 yellowish vesicles, of the average size of a split pea, though they are 
 ocasionally smaller or may enlarge to the dimensions of a bean or 
 small nut. The eruption appears first upon the upper segment of the 
 body, implicating the chest in front and behind, the neck, the scalp, par- 
 ticularly the extremities, and quite sparingly the face also, which may, 
 however, entirely escape. In cases where the eruption is profuse it may 
 be completely generalized, involving largely the trunk and extrem- 
 ities, the lesions, upon the back particularly, being as closely set 
 together as in discrete variola. In many, even the majority, of cases 
 the exanthem is much less profusely developed, not more than a dozen or 
 twenty vesicles springing from the surface. 
 
 The vesicles are superficial in situation, the firm papule which precedes 
 the variolous rash being altogether wanting. They are at first transpar- 
 ent, their contents plainly showing through their translucent roof-wall, 
 composed only of the stratum corneum of the epidermis. They are both 
 acuminate and globular, and occasionally rest upon a slightly hypenernic 
 integument. Umbilication rapidly occurs at the apex, and simultaneously 
 their contents become lactescent and gradually sero-purulent. Occasion- 
 ally vesicles are transformed into genuine, coffee-bean-sized, pustules. 
 Intermingled with these are often seen illy-developed and abortive 
 vesicles. 
 
 By the end of a period lasting from twelve hours to the second or 
 third day involution has usually begun, and the lesions, with and with- 
 out rupture more often the latter desiccate, and are thus transformed 
 into^ yellowish or yellowish and brown, circular, circumscribed crusts 
 resting upon an apparently unaltered integument. These crusts are often 
 so firmly attached that they do not fall spontaneously before the lapse of 
 from five to eight days. When this exfoliation is ended there are left 
 slightly hypersemic pigmented patches of corresponding size where the 
 crusts had rested. A destructive process occasionally results upon the 
 surface of the face at the base of such vesiculo-pustular lesions as have 
 formed there, in consequence of which a small depressed and superficial 
 cicatrix is left, which does not differ from that resulting from discrete 
 variola. These scars may be superficially seated and transitory in cha- 
 racter, or much deeper and persistent through life. 
 
 Throughout the course of the disease systemic symptoms may be alto- 
 gether wanting, or may occur in a mild, and much more rarely in a 
 severe, type. In some cases the temperature is increased by one or two 
 degrees upon the appearance of the exanthem, and often a febrile move- 
 ment of moderate grade may persist for forty-eight hours or somewhat 
 Defervescence, however, is always rapid and perfect. In very
 
 PATHOLOGY. DIAGNOSIS. 483 
 
 rare cases there is a subsequent successive new development of scanty 
 vesicles, whose appearance is heralded by mild exacerbations of fever. 
 
 Occasionally the vesicles may be recognized upon the mucous surfaces 
 of the lips, inside of the cheeks, tongue, palate, conjunctivae, and pro- 
 genital regions of both sexes. Still more rarely the glands of the throat 
 become slightly tumid and painful. 
 
 The complexus of symptoms, in the large majority of all these little 
 patients, is that which pertains to a disorder of distinctly mild type. 
 The eruptive lesions are scanty and productive of but trifling subjective 
 sensations. Occasionally they are picked or scratched, and thus become 
 the seat of either pain or pruritus. In the febrile stage the child is 
 noticeably fretful for a period of perhaps twenty-four hours. At the end 
 of that time older children are frequently observed engaged in their cus-r 
 tomary amusements in the nursery. 
 
 Severe types and complications of varicella are in general limited to 
 the little patients who are recognized as suffering from hospitalism. 
 Among these we see erysipelas, severe vaccinal eruptions, lesions of 
 inherited syphilis, and the sequelae of morebilli and scarlatina, which the 
 disease both precedes and follows. 
 
 PATHOLOGY. The anatomical structure of the lesions in varicella is 
 largely a matter of inference, since there has been but small opportunity 
 of studying the disorder as displayed in sections of the morbid integu- 
 ment. Manifestly, the exanthem is exudative in type, the serum in cir- 
 cumscribed areas lifting the superficial layer of the epidermis from the 
 deeper parts of the derm. Unquestionably, septa occur in typically 
 developed varicella chambers, similar to those seen in variola a patho- 
 logical fact which is the corner-stone of the doctrine relating to the unity 
 of the two disorders. The serum contained in these septa possesses an 
 alkaline reaction. The formation of a cicatrix is evidently due to the 
 intensity of the process in certain exceptional lesions, as a result of which 
 the papillae of the corium are superficially destroyed. These sequelae 
 are often due to the picking and scratching of the lesions. 
 
 DIAGNOSIS. Varicella is to be distinguished from eczema pustulosum 
 by its mild febrile symptoms, the discreteness of its pustular lesions, the 
 absence of itching; and of infiltration of the skin in patches, and its 
 tendency to symmetrical development. 
 
 From impetigo and the impetigo contagiosa of Fox of London it will 
 often be scarcely differentiated. Inasmuch as these disorders are fre- 
 quently recognized among children suffering from varicella or varicella 
 convalescence, it can scarcely be doubted that these diseases have been in 
 the past often confounded, and that in many cases it is practically impos- 
 sible to distinguish between them. Decided elevation of bodily tempera- 
 ture, umbilication of symmetrically-disposed lesions, and a rapid involu- 
 tion of the disease point to varicella. The two forms of impetigo occur 
 without fever, are usually scantily developed, and are much more apt to 
 be pustular in type, lacking, moreover, the halo of the varicella lesions. 
 The latter are also, on an average, smaller and more numerous. The 
 two forms of impetigo, finally, never display the generalized eruption of 
 severe varicella. The non-contagious variety of impetigo is much more 
 decidedly pustular in its lesions, and the latter spring from a deeper plane 
 of the epidermis.
 
 434 VARICELLA. 
 
 As to the eruptions due to vaccinia and vaccination, there can be but 
 little doubt that these also have been frequently confounded with vari- 
 cella. Efflorescences having origin in this way are very largely impetigi- 
 nous in type, and the conditions named above are then to be regarded as 
 distinctive differences, so far as any distinction can, under these circum- 
 stances, be recognized. Impetigo, impetigo contagiosa, and varicella are 
 all sufficiently common accidents after vaccination. No reliance can be 
 placed upon characteristics described as connected with a certain stuck-on 
 appearance of the crust regarded by Fox as characteristic of the crusts 
 in impetigo contagiosa. In all these vesiculo-pustular disorders of 
 childhood desiccating serum and sero-pus upon the surface result in 
 the formation of crusts which have a similar (so-called) stuck-on 
 appearance. 
 
 Variola and varioloid of infants and children are to be distinguished 
 from varicella by the evidence of origin from such contagious maladies ; 
 by the occurrence of prodromal symptoms ; by the greater rise in tem- 
 perature during the febrile stage ; by the typically papular stage of the 
 exauthem at its outset, and no less typically pustular stage before the 
 occurrence of desiccation ; by the confluence of lesions in confluent 
 cases; and by the much longer and evidently graver stadium of the 
 disease. Distinctions between mild varioloid and severe varcella in 
 infancy and childhood will always tax to the utmost the skill of the 
 diagnostician. The sooner it is generally understood that intermediate 
 forms occur which cannot be positively assigned to the one or to the 
 other category, the better it will be for both the profession and the laity. 
 The fact that in the one case there is generation of a variolous poison 
 capable of producing a contagious disease in adults, and in the other a 
 malady which is known to affect children only, renders the decision 
 important. Scattered papulo-vesicular and vesiculo-pustular lesions 
 appearing after a high fever, and pursuing a period of evolution longer 
 than forty-eight hours, should always awaken suspicion. Superficial 
 lesions, on the contrary, distinctly vesicular on the third day, or com- 
 mingled with minute, very superficial pustules, should be regarded as 
 characteristic of varicella. 
 
 The so-called varicella prurigo of Hutchison of London * includes 
 several of the disorders considered above under the titles impetigo, 
 impetigo ^ contagiosa, and the vaccine rashes. The irritable condition 
 of the skin resulting from several of the exanthemata leaves it prone to 
 the development of a long list of cutaneous lesions, some of them accom- 
 panied by pruritus in various grades, to each of which might be given, 
 according to the caprice of authors, a separate name. 
 
 PROGNOSIS. The prognosis of varicella, per se, is always favorable. 
 Only in the hospital cases, complicated by erysipelas and scarlatina con- 
 valescence, may grave results be anticipated. The milder attacks may 
 leave persistent relics of their career in the form of one or more depressed 
 and persistent cicatrices, which become less conspicuous as the patient 
 approaches adult years. 
 
 TREATMENT. Varicella is, in a large proportion of cases, successfully 
 
 ited by domestic management and the simpler remedies familiar, to 
 
 m charge of the nursery. Confinement for a brief time to the 
 
 1 Lect. on Win. Surg., Lond., 1878, p. 15 el seq.
 
 TREATMENT. 485 
 
 cradle or bed, and a proper regulation of the temperature of the room 
 and of the diet, are usually all that is required. Special remedies may 
 be indicated in isolated cases, but certainly none such are demanded by 
 the varicella. Efforts should be made to protect the face lesions from 
 the traumatism of picking and scratching, with a view to prevent 
 pitting. 
 
 Isolation of patients is not requisite, nor any process of disinfection 
 other than that which is incidental to a fresh supply of pure air. Vac- 
 cination should be practised alike in the case of children who have and 
 who have not suffered from the disease.
 
 SCARLET FEVER 
 
 BY J. LEWIS SMITH, M. D. 
 
 HISTORY. The terms scarlet fever and scarlatina are used synony- 
 mously to designate one of the most common and fatal of the eruptive 
 fevers. "Whether this malady occurred prior to the Christian era is 
 uncertain. It is believed by some that the plague of Athens, 430 years 
 before Christ, vividly described by Lucretius, and by Thucydides, who 
 was attacked by it, was scarlet fever of a peculiarly malignant type 
 (Richardson); but, as will be seen from the following extracts from 
 Thucydides, the plague differed in important particulars from scarlatina 
 of the present time : " Internally, the throat and the tongue were quickly 
 suffused with blood, and the breath became unnatural and fetid. There 
 followed sneezing and hoarseness ; in a short time the disorder, accompa- 
 nied by a violent cough, reached the chest The body externally 
 
 was not so very hot to the touch, nor yet pale : it was of a livid color, 
 inclining to red, and breaking out in pustules and ulcers." Loss of sight 
 and gangrene of the extremities were common results in those who recov- 
 ered, and adults appear to have been affected as frequently as children. 
 " The dead lay as they had died, one upon another, while others, hardly 
 alive, wallowed in the streets and crawled about every fountain craving 
 for water. The temples in which they lodged were full of the corpses 
 of those who died in them." Lucretius says of this plague, " If any one 
 for a time escaped death (as was possible, either by reason of the foul 
 ulcers breaking or by means of a black discharge from the intestines), 
 yet consumption and destruction awaited him at last ; or, as was often 
 the case, an excessive flux of corrupt blood, attended with violent pains 
 in the head, issued from the obstructed nostrils, and by this outlet the 
 whole strength and substance of the man passed away. He, moreover, 
 who had escaped this violent flux of foul blood was not certain wholly 
 to ^ recover, for still the disease was ready to pass into his nerves and 
 joints, and into the very genital organs of the body. And of those who 
 suffered thus, some, fearing the gates of death, continued to live, though 
 deprived by the steel of the virile part, and some, though without hands 
 and feet, and though they lost their eyes, yet persisted to remain in life, 
 so strong a dread of death had taken possession of them. Upon some, 
 too, came forgetfulness of all things, so that they knew not even them- 
 selves." 
 
 Gangrene of the extremities, loss of sight, a violent cough, loss of 
 memory, etc. are not symptoms of scarlet fever, so that in my opinion 
 
 486
 
 ETIOLOGY. 487 
 
 the plague of Athens, if correctly described by the historian, was a dif- 
 ferent malady. 
 
 Caspar Morris, in his essay on scarlet fever, states his belief that 
 Seneca, who lived in the first century of the Christian era, described 
 an epidemic of the malignant form of scarlatina in his portrayal of the 
 pestilence that visited Thebes during the half-mythical age of CEdipus, six 
 centuries before Christ. Seneca's description of the symptoms of this 
 plague is as follows : 
 
 Piger ignavos 
 
 Alligat artus languor, et segro 
 Rubor in vultu, maculteque caput 
 Sparsere leves ; turn vapor ipsam 
 O>rporis arcem flammeus urit 
 Multoque genus sanguine tendit 
 Oculique regent, et sacer ignis 
 Pascitur artus. Resonant aures, 
 Stillatque niger naris aducse 
 Cruor ; at venas rumpit hiantes. 
 
 Languor, redness of the face, light spots upon the head, distension of the 
 cheeks with blood, distortion of the eyes, a flushed appearance of the 
 limbs, tinnitus aurium, and a discharge of black blood from the nostrils, 
 certainly indicated a very malignant form of disease, but to believe that 
 it was identical with the scarlet fever of the present time requires con- 
 siderable credulity. From the fact that it devastated Thebes we infer 
 that it occurred largely among adults, differing, therefore, from the 
 modern scarlet fever, whose victims are chiefly children. The same 
 uncertainty hangs over epidemics during the first centuries of the 
 Christian era. 
 
 The first clear and undoubted portrayal of scarlet fever is found in 
 the medical literature of the sixteenth century. Sydenham and his con- 
 temporaries in the seventeenth century witnessed epidemics of it, studied 
 its nature more thoroughly, and consequently acquired a more accurate 
 knowledge of it than that possessed by their predecessors. It was in 
 this century that measles and scarlet fever were differentiated. During 
 the last two hundred years scarlatina has been the subject of monographs 
 too numerous to mention. It has long been regarded as one of the most 
 important maladies of childhood, on account of its frequency and the 
 great mortality that attends it, so that numerous cases and many epi- 
 demics are every year related in the medical journals. By this vast 
 accumulation of observations and the patient and thorough use of the 
 microscope our knowledge of scarlet fever has become full and accurate. 
 
 As with most of the infectious maladies, scarlet fever extended to the 
 Western World through European shipping. It was brought to North 
 America about the year 1735. Tardily it spread to South America, 
 where it appeared in 1829, and more recently it has been established in 
 Australia. It entered Iceland in 1827, and Greenland in 1847. 
 
 ETIOLOGY. The evidence is strong that scarlet fever does not originate 
 de novo that it does not spring from certain atmospheric or telluric con- 
 ditions, but is produced by a definite specific principle, since countries 
 have been free from it for ceni uries till it Avas imported by commerce. 
 That it appears in certain localities without any known exposure is attrib- 
 uted to the fact that the poison is so subtle and transmissible that it is
 
 488 SCARLET FEVER. 
 
 conveved long distances in articles of merchandise, even in small packages, 
 so tha't those who chance to open them or come in contact with them are 
 infected. It is believed that reading matter transmitted through the mails 
 has in many instances been the medium of infection. 
 
 The theory that the acute infectious maladies are caused by micro- 
 organisms, or, as they are now designated, microbes, commonly discarded 
 at first and believed to be chimerical, is rapidly gaining ground in the 
 profession, and appears to be fully established as regards certain of them. 
 These parasites, barely visible under high powers of the microscope, and 
 ascertained to be vegetable by their behavior under certain chemical agents, 
 exist in immense numbers in the blood, tissues, and secretions of patients 
 suffering from the infectious maladies, especially in the graver eases of 
 them ; and the microscope shows that these organisms vary in shape and 
 appearance, so as to admit of classification. 
 
 The germ theory has now become so important that it cannot be 
 ignored in a monograph relating to so important an infectious malady 
 as scarlet fever. The relation of microbes to the infectious diseases has 
 been made the subject of investigation by Pasteur, Toussaint, and others 
 in France, and by many in Germany, with most interesting results. The 
 belief held by many, and which seemed very plausible, was that the 
 microbes, instead of sustaining a causative relation to the maladies in 
 which they occur, were the result of these maladies that they sprang 
 into existence in consequence of the vitiated state of the blood and tissue?, 
 just as fungi appear on decaying substances or as the Oidium albicans 
 appears in certain morbid conditions of the buecal surface and secretions. 
 Obviously, in order to elucidate this matter and determine the relation of 
 these parasites to the diseases in which they occur, it was necessary to 
 experiment on animals, but, unfortunately, as a bar to successful experi- 
 mentation many of the most important infectious maladies which afflict 
 the human race, as typhus and typhoid fevers, the marsh levers, and 
 syphilis, do not occur in animals,' or they occur in a changed and miti- 
 gated form. Others, however, can be produced in their typical character 
 in animals, as diphtheria, and others still originate in animals and are 
 transmitted from them to man, as anthrax or splenic fever of the her- 
 bivora and hydrophobia. Very interesting and important results have 
 been produced by experimental researches with the microbes of certain 
 of these diseases, which, if applicable to the common and fatal infectious 
 maladies of an analogous nature in man, may yet result in immense bene- 
 fit in mitigating the virulence of those affections which are the scourge of 
 childhood and which sensibly diminish the increase of population. It 
 has l>een found possible to cultivate the microbes contained in the blood, 
 tames, ami secretions in certain of the infectious diseases, ami after a 
 series of cultivations, so that these organisms are far removed from the 
 animal substance which contained them, and with which they were so 
 intimately associated in the individual, they have been employed for 
 
 K-ulation with this important result, that the primary disease was 
 Tins seems to indicate beyond question the causative rela- 
 tion of these parasites to the diseases in which they occur. Experiments 
 with the result which I have stated have been made with the microbes of 
 lever, chicken cholera, murrain, and certain other maladies. 
 
 lasteur employs ;l s the media for cultivation (1st) urine neutralized
 
 ETIOLOGY. 489 
 
 by a few drops of potash solution ; (2d) a liquid prepared by boiling for 
 twenty or thirty minutes the yeast of beer in water, neutralizingfand 
 filtering ; and (3d) chicken tea, prepared by boiling equal parts of water 
 and the lean of muscles a quarter of an hour, filtering, and neutralizing. 
 A small drop of infected blood is placed in the liquid of cultivation, and 
 the microbes which it contains multiply so abundantly that the liquid 
 becomes turbid in a short time, and they are found in all parts of it, A 
 drop of this liquid is added to another portion of the medium, and this 
 also soon becomes turbid from the immense development of organisms 
 which have the same microscopic appearance and character as those in 
 the drop of blood. The process is repeated many times, until the 
 microbes are far removed from their original source" in the blood and 
 tissues, and a drop of the last cultivation, whether it be the fiftieth or 
 the hundredth, is inserted under the skin of a healthy animal selected 
 for the experiment If it be true, as stated by the experimenters, that 
 the original disease is thus reproduced with the microbes of at least three 
 or four distinct maladies, this age is distinguished by one of the most 
 important discoveries ever made in pathological studies. It remains to 
 ill -i ermine whether this great discovery is of general applicability to the 
 infectious diseases with which man is afflicted. If so, it is not improb- 
 able that we are on the eve of finding a method by which some at least 
 of these maladies may be prevented or mitigated, as small-pox has been 
 since the time of Jenuer. The result of experiments made by Pas- 
 teur with the microbes of that fatal malady of *he herbivora, known 
 under the various names of splenic fever, anthrax, wool-sorter's disease, 
 and charbon, encourages this belief. Originating among the herbivorous 
 animals, it has in many instances been contracted by individuals who 
 have rapidly perished. Many engaged in assorting alpaca and mohair 
 have lost their lives by it> some with all the symptoms of profound 
 blood-poisoning, without external lesions, and others with redness and 
 swelling at some point of infection where a sore or abrasion existed, but 
 with speedy blood-contamination. 
 
 The microbe of this malady, the Bacillus anthracis, occurs in the form 
 of straight filaments with little movement or only with oscillation, and 
 producing bright-shining spores. Now comes a very interesting and 
 important result of experimentation : Pasteur states if several days elapse 
 between the cultivations the virulence of the parasite diminishes, so that 
 he has been able to produce by inoculation with it a mild and never fetal 
 form of eharbon. which affords immunity in the animal from any subse- 
 quent attaek. This opinion was sustained by a trial experiment on six:} 
 sheep. Toussaint and Chaveau claim that they produce a similar attenu- 
 ation of the virus by detibrinating infected blood, heating it to 55 C. 
 (lol F.V and filtering it. These experiments awaken the hope that the 
 time will come when the acute infectious maladies in man, scarlet fever 
 among others, will be rendered less virulent. That one of them to wit, 
 small-pox has tor nearly a century been under our control certainly 
 encourages the belief that there is some way to mitigate others of the 
 same class which are equally fatal if not so loathsome, 
 
 AJ vet. observers do not agree in regard to the parasite which is sup- 
 posed to sustain a causative relation to scarlet fever. Klebs states that 
 it is highly probable that both measles and scarlet fever are produced by
 
 490 SCARLET FEVER. 
 
 micrococci, and he has sketched the design and described the development 
 of a microbe which he designates the Monas scarlatiuosum. 
 
 The London Medical Times and Gazette for Jan. 28, 1882, contains 
 an account of the supposed discovery of the scarlatinous microbe by 
 Ekluud of Stockholm, an authority in the microscopic examination of 
 parasites. He says that scarlet fever is rarely absent from the Swedish 
 capital and from the barracks and dwellings on the isle of Skeppsholni. 
 In the urine of scarlatinous patients he has constantly found a prodigious 
 number of discoid corpuscles, oval or round, their diameter being less 
 than y-^j- millimetre and from ^j to ^ that of a red blood-cell. They 
 are colorless or yellowish white, surrounded by a distinct cell-wall, each 
 containing a well-defined nucleus of a deeper hue. Sometimes one or more 
 microbi may be seen. They exhibit rotatory or oscillatory movements, 
 especially observed when a drop of water is added to the fluid. They 
 multiply, as he has frequently seen, by fission first in the microbes, 
 next in the nucleus, aud lastly in the cell- wall. He cannot say whether 
 they develop into a mycelium. At any rate, the development of fine 
 filaments seems to be exceptional. He has never seen them adhere in 
 moniliform chains nor massed as zooglsea. He considers them to be 
 veritable schizomycetes, and proposes the name Plox scindens. 
 
 Eklund asserts that he has found these same organisms in vast 
 numbers in the soil- and ground-water of the isle of Skeppsholni, in the 
 mud of the trenches dug for the water-mains, and in the greenish mould 
 upon the walls of the old baracks, where scarlet fever was most rife. He 
 states that scarlet fever has occurred in children after drinking milk 
 mixed with the ground-water of the island, and he observed a case which 
 followed immersion in one of the trenches of the island and the drying 
 of the clothes in a small room. In another instance scarlet fever broke 
 out in a block immediately after exposure of the ground-water by 
 excavations. 
 
 It is evident that the discovery of this microbe under such circum- 
 stances does not prove that it is the cause of the disease. This can only 
 be determined by inoculation, or by experiments which furnish the con- 
 ditions of scientific exactness. Although great progress has been made 
 in parasitology during the last decade, it is evident that several years of 
 observation and experimentation must elapse before it is clearly and 
 definitely ascertained whether or to what extent microbes cause scarlet 
 fever and the other exanthematic fevers with which it is classified. 
 
 Whether the specific principle of scarlet fever be a micro-organism or 
 a chemical substance, its mode of action and eifects have been ascertained 
 by clinical observations. Without doubt it commonly enters the system 
 by the breath, but it may .enter in the ingesta, and it infects the blood. 
 That it resides in the blood has been ascertained by inoculation with this 
 liquid, by which scarlet fever has been reproduced in its typical form. 
 From the blood it enters the tissues and secretions. Hence handkerchiefs 
 or linen containing the saliva or mucus of a patient, the epidermic scales 
 shed abundantly in the desquamative period, and probably also the 
 urinary and fecal evacuations, contain the poison, so as to be highly infec- 
 tious. Even the discharge of a scarlatinous otorrhcea is thought by some 
 to be contagious for a considerable time. 
 
 Scarlatina is communicable not only by direct exposure to a patient,
 
 ETIOLOGY. . 491 
 
 but also by exposure to objects which happen to be in his room during 
 his illness, and to which the poison becomes attached, such as clothing, 
 books, and toys ; small packages, even letters, it is believed, from cases 
 which have occurred, sometimes convey and disseminate the contagious 
 principle. 
 
 In England observations have been made which show that scarlatina 
 has been communicated by infected milk. The disease occurred in the 
 family of a milkman, and the milk, before it was distributed, remained 
 for a time in a kitchen which had been occupied by the patients. This 
 milk was taken by twelve families, and in six of these the disease 
 occurred almost simultaneously at a time when few cases were occurring 
 in the locality. There had been no direct exposure to the carrier of the 
 milk nor to members of the affected family (Taylor). In another 
 instance a woman and her son had scarlet fever while they were serving 
 milk to several families, and the disease appeared in all these families 
 except one, which consisted of old people (Bell). It is known that milk 
 absorbs volatile substances so as to be flavored by them, as is shown in 
 the experiment of placing it in an open vessel in a box with a pineapple ; 
 and it may in a similar manner become infected by the specific principle 
 of scarlet fever, or it may be infected by detached particles of epidermis ; 
 which is not improbable when one convalescing from scarlet fever is 
 allowed to milk the cows or prepare the milk for distribution. 
 
 The scarlatinous virus surpasses that of any other eruptive fever 
 except small-pox in its tenacious attachment to objects and its portability 
 to distant localities. Hence in the literature of the disease are the records 
 of many cases in which the poison was conveyed long distances, retaining 
 its virulence to the full extent and causing an outbreak of the malady in 
 the localities to which it was carried. In New York, so frequently has 
 scarlet fever as well as measles and diphtheria been contracted from the 
 persons or clothing of well children who come from infected houses, that 
 the Health Board now excludes from the public schools all children who 
 come from such houses, even though they live on separate floors from 
 those occupied by the sick. In one instance that came under my notice 
 a washerwoman whose child had scarlet fever communicated the disease to 
 an -infant in the household where she was employed, by placing her shawl 
 over the cradle in which it was lying. A physician of my acquaintance 
 went from a scarlet-fever patient to a family several streets distant, and 
 took one of their children upon his lap. After the usual incubative 
 period this child sickened with a fatal form of the malady, and the 
 remaining children of the household were in time affected. In New 
 York scarlet fever has seemed to me to be not infrequently communi- 
 cated through school-books, which, profusely illustrated by pictures and 
 rendered attractive to the young, are often allowed to lie upon the bed of 
 a scarlatinous patient and be handled by him during convalescence, or 
 even during the course of the fever if it be mild. The young librarian 
 of the circulating library of a Sunday-school, whose pupils came largely 
 from the tenement-houses, was occupied a considerable part of a day 
 in covering and arranging the books. After about the usual incubative 
 period of scarlet fever he sickened with the disease. His two sisters were 
 immediately removed to a rural township three hundred miles away, and 
 to an isolated house where scarlatina had never occurred. About one
 
 492 SCARLET FEVER. 
 
 mouth after his recovery, and after his room had been disinfected by 
 burning sulphur and his bed-clothes and linen had been thoroughly 
 washed, and all articles suspected to hold the poison had been either 
 disinfected or destroyed, the brother visited his sisters in the country. 
 Three weeks subsequently to his arrival one of these sisters sickened 
 with scarlet fever, and a week later the other also. It seems that the 
 exposure must have occurred several days after his arrival in the country 
 from some book or other infected article in his possession. About two 
 months elapsed after the last case ; the family had returned to the city, 
 the infected room in the country-house had been thoroughly fumigated 
 by burning sulphur from morning till evening, when a little girl from 
 an inland city remained a few days in this house, and probably often 
 entered the room where the young ladies had been sick. In a few days 
 she also sickened with a fatal form of scarlatina. Such histories and 
 experiences are not infrequent. They are common during epidemics of 
 scarlet fever. They indicate an extraordinary attachment of the scar- 
 latinous poison to objects, and show that it is not gaseous nor readily 
 volatilized. 
 
 A striking example of this fixity of the poison occurred in the prac- 
 tice of the late Kearney Rogers, formerly a prominent and much 
 esteemed surgeon of New York City. Six children in a family had 
 scarlet fever. Three and a half months subsequently another child, 
 living at a distance, was allowed to return home and occupy the apart- 
 ment in which the sickness had occurred. One week subsequently to the 
 date of the return this child sickened with the same malady. Elliot- 
 son states that a patient with scarlet fever was admitted into one of the 
 wards of St. Thomas's Hospital, and for two years subsequently young 
 persons who were admitted into the ward were apt to take the disease. 
 Richardson of London relates the following experiences of a family 
 whom he attended in a rural district : " At a short distance from one of 
 our villages there was situated on a slight eminence a small clump of 
 laborers' cottages, with the thatch peering down on the beds of the 
 sleepers. A man and his wife lived in one of these cottages with four 
 lovely children. The poison of scarlet fever entered the poor man's 
 door, and at once struck down one of the flock." The remaining chil- 
 dren were now removed some miles away, and after several weeks one 
 of them was allowed to return. Within twenty-four hours it also took 
 the disease, and quickly died. The walls of the cottage were now thor- 
 oughly cleaned and whitewashed, the floors scoured, and all the wearing 
 apparel either destroyed or washed. Four months elapsed after the last 
 sickness when one of the remaining children returned. " He reached his 
 father's cottage early in the morning ; he seemed dull the next day, and 
 at midnight I was sent for, to find him also the subject of scarlet 
 fever The disease again assumed the malignant type, and this child 
 Richardson believes that the contagium was attached to the 
 thatch, which could not be thoroughly disinfected. The fact of this 
 emarkable long-continued attachment of the poison to objects, indi- 
 cating by this fixity that it is a solid, is consonant with the theory that 
 it is an organism. 
 
 PERIOD. The duration of the incubative period varies 
 fterent cases. It is sometimes less than twenty-four hours, as in
 
 INCUBATIVE PERIOD. 
 
 493 
 
 the above case reported by Richardson ; in the following well-known 
 case, observed by Trousseau, it was one day. A girl arrived in Paris 
 from Pau, where there was no scarlet fever, and occupied the same 
 apartment with her sister, who was sick with this disease. Twenty-four 
 hours after her arrival she also w r as attacked with the same malady. 
 
 Russeberger attended a child who was exposed at noon to scarlet 
 fever, and took the disease on the following night. B. W. Richardson 
 (Clinical Essays, 1861, vol. i. p. 94) gives his own experience: He had 
 applied his ear to the chest of a patient suffering from scarlet fever, and 
 was conscious of a peculiar odor emitted from the patient. He was 
 immediately nauseated and chilly, and from that moment he dated the 
 beginning of an attack of scarlet fever. In the Transactions of the 
 Clinical Society of London, vol. xi. 1878, the late Charles Murchison 
 gives the statistics of 75 cases, showing the incubative period, as follows : 
 
 In 4 cases it was not more than 24 hours. 
 
 2 
 8 
 4 
 1 
 4 
 1 
 1 
 
 31 
 
 2 
 
 17 
 
 30 
 36 
 40 
 41 
 58 
 54 
 
 2 days. 
 f within (time not accu- 1 . , 
 \ rately ascertained) J * ' 
 
 the incubation did not exceed \\ days. 
 a K a 
 
 In three cases Murchison believes that the incubation was precisely fixed 
 at thirty-six hours, three days, and four and a half days. 
 
 Watson says that a man reached Devonshire on mid-day to see 
 his daughter, who had scarlet fever. Two days later he was also 
 attacked. Rehn saw a child who was attacked two days after its grand- 
 mother returned from a case of scarlet fever ; and Zengerle, a girl of ten 
 years, residing at Wangen, where there was no scarlet fever, who took 
 the disease two days after her mother had returned from visiting a family 
 affected with it. Loochner states that a boy aged four and a half years 
 was attacked one and a half days after admission into the infected wards 
 of a hospital. Armistead, in his annual report on the health of the 
 Newmarket rural district, states that three children, coming from a dif- 
 ferent part of the district, visited "Westley, and stayed next door to a 
 child who had scarlet fever six weeks previously, and who was allowed 
 to play with these children on the evening of Aug. 13th and morning 
 of the 14th. The family then returned home, and on the 18th, four 
 days after the exposure, all three children sickened with scarlet fever 
 (Brit Med. Jour., Sept. 30, 1882). 
 
 Ordinarily, therefore, the incubative period, though varying in different 
 cases, is within six days. Many cases, however, occur in which it seems 
 to be longer Thus in my practice scarlet fever appeared in a family on 
 April 26, 1882. The patient was immediately removed to the third floor 
 and the other children to the basement. All Communication between the 
 infected room and the basement was forbidden, but on May 8th, twelve 
 days after the separation, one of these children sickened w r ith the disease.
 
 494 SCARLET FEVER. 
 
 Many observers among whom may be mentioned Niemeyer and Cop- 
 landbelieve that the incubative period may be longer than one week, 
 but on account of the subtlety of the poison and the many modes of 
 transmission, it is possible that in the instances of an apparently long 
 incubative period there were other and unsuspected exposures. When 
 scarlet fever has been communicated by inoculation, as in the experiments 
 of Rostan and others, the incubative period has been about seven days, 
 but Gerhardt states that a man was attacked four days after an abscess 
 was opened by a knife used upon a scarlatinous patient. This variation 
 in the incubative period, which also occurs in some other infectious dis- 
 eases, as diphtheria, is probably due mostly to individual differences, 
 some being more susceptible than others ; but it may be due partly to 
 those obscure meteorological conditions which we designate the epidemic 
 influence. Probably, as a rule, when the disease is quickly developed 
 after exposure, the attack is more severe than when several days elapse. 
 
 CONTAGIOUSNESS. The area of the contagiousness of scarlet fever 
 is small. It apparently embraces only a few feet. Therefore, close 
 proximity is the necessary condition of its propagation. Hence many 
 who are exposed, particularly of those who are remotely exposed, do not 
 contract the disease. There is also an idiosyncrasy in some children, so 
 that they resist infection even when repeatedly and closely exposed. In 
 the New York Medical Record for March 23, 1878, C. E. Billington 
 states that of 90 children in 26 families who were exposed to scarlet 
 fever, 43 contracted the disease and 47 escaped ; whereas, as is well 
 known, comparatively few unprotected children escape pertussis, variola, 
 varicella, or measles if exposed to either of these diseases. By strict 
 isolation, therefore, the spread of scarlet fever is more easily prevented 
 than that of most other acute infectious maladies. In the New York 
 Foundling Asylum for a number of years children with scarlet fever 
 were isolated in a small room attached to one of the wards. The door 
 between the two rooms was closed, and not opened during the continu- 
 ance of the sickness. Entrance into the small room was through another 
 door, and a nurse was assigned to the scarlet-fever cases, with strict direc- 
 tions that she should not mingle with the other children. These simple 
 precautions were found sufficient in the various epidemics of scarlet fever 
 which occurred in the city to prevent the spread of the malady through 
 this institution; whereas, similar measures were much less effectual in 
 arresting the spread of measles and pertussis. Consequently, an outbreak 
 of scarlet fever in this institution was usually limited to a few cases, while 
 the extension of measles and pertussis was arrested with difficulty till a 
 more efficient quarantine was established. 
 
 VARIATIONS IN TYPE. The type of scarlet fever varies greatly in 
 different epidemics, and frequently also in cases which occur in the same 
 epidemic, even in the same family. One child may have scarlatina so 
 mildly that little treatment is required and convalescence soon begins, 
 while another has the malignant form, and soon succumbs, notwithstand- 
 ing the prompt employment of the most efficient and appropriate meas- 
 Ordmarily, however, if the first case in a family be very severe, 
 
 ^equent^cases will present a similar type; but there are notable excep- 
 
 This variation in type in different years and different epidemics is 
 
 probably not equalled in any other infectious malady. Consecutive epi-
 
 SURGICAL AND OBSTETRICAL SCARLATINA. 495 
 
 demies may present this variation, or the same type may continue for a 
 series of years, and then, from some unknown cause, change to one milder 
 or more severe. In England, during Sydenham's life, scarlet fever was 
 so mild that he regarded it as a trivial affection, requiring little attention, 
 like rotheln of the present time, but after the death of Sydenham, Mor- 
 ton and his contemporaries in London found, to their sorrow, that the 
 type of scarlet fever was very different from that described by Syden- 
 ham's pen. The late Graves of Dublin and his contemporaries treated 
 a mild type of scarlet fever with a very small percentage of deaths 
 much less than that during the preceding generation and they attributed 
 their success to their greater knowledge and more appropriate use of 
 remedies than their ancestors possessed and employed. By and by the 
 type changed, the mortality of former years was restored, and they dis- 
 covered that their previous success in saving life had been due not to 
 their skill, but to the mild form of the malady. A distinguished physi- 
 cian of New York treated more than fifty cases of scarlet fever in one of 
 the institutions without a single death. A few months afterward the 
 type of the malady changed, and his own son perished from it. 
 
 SURGICAL AND OBSTETRICAL SCARLATINA. After surgical opera- 
 tions, and sometimes in surgical cases not requiring operative measures, a 
 scarlatinous efflorescence occasionally appears upon the whole or nearly 
 the whole body, and remains for several days. The following were cases 
 of the kind alluded to. They occurred in Guy's Hospital, and were 
 published by H. G. Howse in Guy's Hospital Reports for 1879 : On 
 March 15, 1878, Jacobson performed osteotomy upon a child suffer- 
 ing from extreme rachitis. The operation was followed by a moderate 
 febrile movement (100 to 101), and after three days by the appearance 
 of an efflorescence, with sore throat and the strawberry tongue. The 
 osteotomy had been performed under carbolic acid spray and with all the 
 details of antiseptic surgery. The rash soon faded, the temperature fell, 
 and the child, temporarily separated from the other patients from the sus- 
 picion that the disease was scarlet fever, was brought back to the ward. 
 The subsequent history confirmed the diagnosis of scarlet fever, for the 
 skin desquamated, and on April 1st abundant albumen was found in the 
 urine. The case terminated favorably. Three months previously the 
 same operation had been performed on the other leg, w r ith no unfavorable 
 symptoms. On April 5th, three weeks after the osteotomy, a lipoma was 
 removed from another patient aged twenty-one years. The following day 
 the temperature rose to 101, and remained at that till April 8th, when 
 it suddenly increased to 103, and a rose-rash occurred over the body, 
 with sore throat. On April 9th, Howse excised the elbow-joint of a girl 
 of sixteen years having pulpy disease. On the 10th her temperature 
 began to increase, and on the llth reached 105.8. Toward evening a 
 roseoloid eruption appeared over her body, and she was isolated. On 
 April 12th, Dr. H. excised a fibroid bursa patellae from a woman of 
 twenty-nine years. On the following day her temperature was 99, but 
 on the 14th it rose to 100, and on the evening of the 15th she had rigors 
 and headache. On the morning of the 16th the temperature was 102.5, 
 and a roseoloid eruption occurred over the face and chest. The surgeons 
 now perceived that an epidemic of the so-called surgical scarlatina was 
 occurring, so as to justify the postponement of other operations.
 
 49G SCARLET FEVER. 
 
 In the same volume of Guy's Hospital Reports, James F. Gooclharl 
 gives the histories of nearly thirty cases of this disease occurring dur- 
 ing a series of years in the same hospital. The patients were chiefly 
 children, having the most diverse surgical ailments, among which may be 
 mentioned hip disease and abscess, genu valgum _ without operation, 
 necrosis of femur, hydrocele with explorative operation, a scald, a sinus 
 over the great trochanter, spinal disease with abscess, tenotomy for club- 
 foot, andvesical calculus with operation. The most common disease was 
 caries or necrosis with abscess. In cases operated on the intervals 
 between the operations and the occurrence of the efflorescence varied from 
 two days to more than two weeks. Goodhart, after a careful exami- 
 nation of these cases, came to the conclusion that they were for the most 
 part examples of true scarlet fever, especially as a considerable propor- 
 tion of them occurred in groups, and there was a known exposure of 
 some of the patients to children admitted into the hospital with the 
 sequelae of scarlet fever. 
 
 In the British Mcd. Jour, for Jan., 1879, George May, Jr., reported 
 a case of efflorescence in surgical practice which appears to have been 
 scarlatinous. A child was operated on for the radical cure of hernia 
 on Dec. 4th. Toward the close of the same day he became restless, 
 vomited, and his pulse on the following day rose to 136. Forty- 
 eight hours after the operation a rash appeared on the chest and arms, 
 the abdomen became tense and painful, and on the following day he died. 
 The poison, however, in this case may have been septic. 
 
 Hillier remarks (Diseases of Children) : " In the hospital for sick 
 children, of the children who contract scarlatina a very large proportion 
 have been the subjects of a surgical operation within a week before the 
 rash appears." Gee says (Reynolds's System of Medicine}: "It has 
 been doubted by some whether the scarlatiniform rash which sometimes 
 follows operations is really scarlatinal. The eruption appears from the 
 second to the sixth day after the operation, and in the cases which have 
 caused the doubt is very fugitive and the first and only symptom. Yet 
 that the disease really is scarlet fever would seem to be proved by the 
 following observations: first, that the disease occurs in epidemics; 
 secondly, that in a given epidemic a severe case occasionally relieves the 
 monotonous recurrence of the very mild form ; thirdly, that a precisely 
 similar scarlatinilla attacks in the same epidemic patients who have not 
 been subjected to operation and who have no open sore; and lastly, by 
 way of a veritable experimentum crucis, that, however freely these 
 patients are exposed to ordinary scarlet fever contagion afterward, they 
 do not contract that disease." Paget and other distinguished London 
 surgeons who have observed this complication of surgical cases, believe 
 that the patients have been previously exposed to the scarlatinous poison, 
 and that the surgical diseases or operations furnish favorable con- 
 
 tions for the occurrence of scarlet fever, so that the exposure, which 
 probably would have been without result in ordinary health, causes an 
 outbreak of the malady. 
 
 Those who have reported cases of this form of efflorescence have for 
 the most part neglected to state whether the patients had had scarlet 
 fever previously, knowledge of which would have aided in the diagnosis ; 
 but from an examination of the histories of cases, especially those pub-
 
 SURGICAL AND OBSTETRICAL SCARLATINA. 497 
 
 lished in the London journals in the last four or five years, there can, I 
 think, be little doubt that surgical maladies of a certain kind, especially 
 traumatism, do produce a state of system which predisposes to scarlet 
 fever, so that this class of patients are especially liable to contract it. 
 Therefore, in my opinion, a considerable proportion of reported cases 
 of surgical scarlatina are genuine, but in a considerable number, perhaps 
 an equal number of such cases, the histories and symptoms indicated a 
 septic rather than scarlatinous efflorescence, and in not a few instances, 
 when consultations have been held, opinions differed, some diagnosticating 
 scarlet fever, others septicaemia. In some of the cases I find it stated 
 that the fauces presented the normal appearance. Now, faucial redness is 
 so generally present in scarlet fever, antedating that of the skin and 
 coexisting with it, that its absence is strong evidence that the disease is 
 not scarlatinous. Moreover, when, as was true of certain of the reported 
 cases, the rash appeared irregularly upon the surface, and faded away in 
 two or three days with the abatement of the fever, and the conditions 
 for septic absorption were present, the efflorescence was probably septi- 
 csemic. 
 
 The following were apparently cases of septicaemia efflorescence : A 
 child aged five years (Brit. Med. Jour., Feb. 15, 1879) had inflammation 
 of the lymphatic glands in the groin, which suppurated. At the time 
 when the abscess was fully formed a rash appeared over the entire body. 
 It consisted of numerous red points, but was paler than that of ordinary 
 scarlet fever ; temperature never above 99; no sore throat nor -desqua- 
 matiou of cuticle. No child exposed to her took scarlet fever, and her 
 sickness could not be traced to infection. In the British Med. Jour., 
 Jan. 4, 1879, L. Braxton Hicks states that his son, attending school 
 at Reading, was seized with a severe attack of pyrexia, accompanied on 
 the second day by delirium and the occurrence of a rash like scarlet fever 
 over the entire surface. He had no decided redness of the fauces, though 
 it was perhaps slightly flushed. The right buttock was swollen from 
 inflammation, and a large, deep-seated abscess formed near the tuberosity 
 of the ischium. When the delirium abated the boy said that he was 
 standing the day before the fever began with his legs far apart, when a 
 schoolfellow stretched them farther by suddenly pulling on one of them. 
 The rash, which was nearly universal, lasted three days, and was not 
 followed by desquamation. No case of scarlet fever occurred in the 
 school before or afterward. In the same volume of the British Medical 
 Journal, Surgeon Frolliott of the East India Service relates the case of a 
 private, aged twenty-three years, and three years in India, who, when on 
 duty in the Punjab, was injured by the explosion of an Afghan powder- 
 magazine. The accident occurred Dec. 21, 1878. On Dec. 25th a bright 
 scarlet rash appeared upon the abdomen and spread over the entire body. 
 The following day the eruption was very vivid, like a boiled lobster, and 
 it lasted five days. The temperature, which in the beginning had been 
 101, abated to the normal after the rash appeared. No soreness of 
 throat nor redness of the buccal surface occurred, but the epidermis 
 desquamated even from the palms of the hands and soles of the feet. 
 Now, the febrile movement of scarlet fever does not cease while the 
 efflorescence is distinct. It does not even diminish when the eruption 
 appears, while in the above case it fell to the normal a common occur- 
 
 VOL. I. 32
 
 498 SCARLET FEVER. 
 
 rence in septioemia, even when the blood-poisoning is profound. More- 
 over, scarlet fever is so rare in India that Frolliott, after twelve years' 
 service, had only heard of one case among Europeans and natives. The 
 surgeons who consulted over the case of this private disagreed in opinion, 
 some regarding the disease as septicsemic, others as scarlatinous. But a 
 better knowledge of the clinical history of scarlet fever on the part of 
 these army surgeons would, I think, have removed all doubt as to 
 the diagnosis. 
 
 It is the opinion of some reputable surgeons that the exposure of 
 traumatic patients to the scarlatinous poison sometimes aggravates the 
 inflammation of wounds, causing them to assume an unhealthy appear- 
 ance even though no scarlatina be produced. The late Solly made 
 the remark, " Whenever a case of surgery in private practice takes on a 
 hio-hly phlegmonous appearance I am always sure to find break out, in 
 the inmates of the house, either erysipelas or scarlet fever " (British Med. 
 Jour., Feb. 15, 1879). We will see that the scarlatinous poison some- 
 times causes pharyngitis or nephritis without producing the general dis- 
 ease. In a similar manner it seems that it may aggravate open wounds, 
 intensifying the inflammation in them, while there is no efflorescence or 
 other symptom to show that scarlatina itself is present. The poison 
 appears to act entirely locally in such cases. 
 
 Paget, in his Clinical Lectures, says : " I think it not improbable 
 that in some cases results occurring with obscure symptoms within 
 two or three days after operations have been due to the scarlet-fever 
 poison, hindered in some way from its usual progress." Playfair, 
 in his remarks on the puerperal state, adds : " Mr. Spencer Wells in- 
 forms me that he has seen cases of surgical pyaemia which he had reason 
 to believe originated in the scarlatinal poison ; and his well-known suc- 
 cess as an ovariotomist is no doubt, in a great measure, to be attributed to 
 his extreme care in seeing that no one likely to come in contact with his 
 patients has been exposed to any such source of infection." Opinions 
 like these, held by such prominent members of the profession and sus- 
 tained by many observations, should certainly induce physicians to pre- 
 vent, so far as possible, any exposure of their surgical patients, especially 
 if they have any sores or wounds, whether by traumatism or the scalpel, 
 to the scarlatinal poison. 
 
 ^ OBSTETRICAL SCARLATIXA. Women during convalescence after child- 
 birth are very liable to contract scarlet fever. In the New York Infant 
 A.sylum, which has maternity wards, a woman was admitted from a 
 house in which scarlet fever was prevailing, and assigned to a cot next 
 that occupied by one of the waiting women, who was confined soon after- 
 ward. Her labor was favorable, but three days afterward she took 
 scarlet fever, and another lying-in-patient contracted it from her. The 
 sore throat and desquamation were characteristic. It has come to my 
 knowledge that a physician of New York, in whose family scarlet fever 
 was occurring, attended three women in succession in their confinement, 
 and all contracted scarlet fever, which presented the characteristic symp- 
 toms, and two of them died. Experienced and cautious physicians of 
 New York, aware of the danger, do not go directly from a scarlatinous 
 patient to an obstetrical case, but avoid the risk by intermediate visits to 
 other patients or by remaining for a time in the open air.
 
 OBSTETRICAL SCARLATINA. 499 
 
 Playfair, remarking on this subject, says : " There is good reason to 
 believe that the contagiura of zymotic diseases may produce a form of 
 disease indistinguishable from ordinary pueq>eral septicaemia, and pre- 
 senting none of the characteristic features of the specific complaint from 
 which the contagium was derived. This is admitted to be a fact by the 
 majority of our most eminent British obstetricians, although it does not 
 seem to be allowed by continental authorities, and it is strongly contro- 
 verted by some writers in this country. It is certainly difficult to recon- 
 cile this with the theory of septicaemia, and we are not in a position to 
 give a satisfactory explanation of it. I believe, however, that the evi- 
 dence in favor of the possibility of puerperal septicaemia originating in 
 this way is too strong to be assailable. The scarlatinal poison is that 
 regarding which the greatest number of observations has been made. 
 Numerous cases of this kind are to be found scattered through our 
 obstetric literature, but the largest number are to be met with in 
 a paper by Braxton Hicks. Out of 68 cases of puerperal disease 
 seen in consultation, no less than 37 were distinctly traceable to the scar- 
 latinal poison. Of these, 20 had the characteristic rash of the disease, 
 but the remaining 17, although the history clearly proved exposure to 
 the contagium of scarlet fever, showed none of its usual symptoms, and 
 were not to be distinguished from ordinary typical cases of the so-called 
 puerperal fever. On the theory that it is impossible for the specific con- 
 tagious diseases to be modified by the puerperal state, we have to admit 
 that one physician met with 17 cases of puerperal septicaemia in which, 
 by a mere coincidence, the contagion of scarlet fever had been traced, 
 and that the disease nevertheless originated from some other source 
 a hypothesis so improbable that its mere mention carries its own refu- 
 tation." 
 
 Parturition, like traumatism, furnishes in an eminent degree the con- 
 ditions in which septic poisoning occurs, and the efflorescence which often 
 accompanies septicaemia bears, as we have seen, a very close resemblance 
 to that of scarlet fever. Hence in many instances the same difficulty is 
 present in making a differential diagnosis between septic and scarlatinous 
 blood-poisoning in obstetrical cases which occurs in surgical practice. 
 But, according to my observations, an efflorescence occurring during 
 the week following parturition is in most instances septic. It is only in 
 exceptional cases that it is scarlatinous, and there is little danger that 
 the accoucheur, engaged in general practice and visiting scarlatinous 
 patients, will communicate scarlet fever through his person or clothing if 
 he exercise proper precautions. His short stay in the sick room and his 
 out-door exercise in visiting cases prevent infection of his person or dress. 
 But if, as Playfair believes, the scarlatinal poison sometimes produces in 
 parturient women a puerperal fever in which the characteristic scarlatinal 
 symptoms are lacking, and which, in the present state of our knowledge, 
 is not distinguishable from ordinary septic fever, certainly the scarlati- 
 nous virus sustains a much more frequent causative relation to childbed 
 fever than has been heretofore supposed. 
 
 Infants under the age of six months do not ordinarily contract 
 scarlet fever, although fully exposed, and those under four months 
 nearly possess immunity. Still, this disease has been observed in new- 
 born infants, contracted, apparently, through the placental circulation.
 
 500 
 
 SCAELET FEVER. 
 
 Tourtual states that a woman waited upon her own husband and child, 
 both of whom had scarlet fever, during the eighth and ninth months of 
 her pregnancy, till near her confinement. Though she had no symptoms 
 of scarlet fever, her infant had unusual redness of the skin and buccal 
 surface and difficulty of swallowing up to the fifth day. On the ninth 
 day desquamation began, and at a later stage the nails of the fingers and 
 toes separated. A case having a history in some respects similar is 
 related by Megnert, but the symptoms were anomalous for scarlet fever, 
 and the disease may have been ordinary septic fever. On the other hand, 
 in one instance in my practice a mother had scarlet fever, beginning about 
 the third day after her confinement, and although she suckled her infant 
 and it was constantly in bed with her, it had no symptoms of scarlet fever, 
 although it became affected immediately afterward by a severe form of 
 eczema, probably from the altered quality of the milk; and in two 
 instances observed by Murchison new-born infants remained healthy, 
 although their mothers suffered from scarlet fever. 
 
 After the age of six months the liability to scarlet fever increases till 
 the close of infancy, children between the ages of six mouths and one 
 year being less liable to contract the malady than daring the second year, 
 and those in the second year being less liable to it than those in the third 
 year. Murchison collected the statistics of deaths from scarlet fever in 
 England and Wales during a series of years ending with 1861. The 
 number of deaths aggregated 148,829, and the percentage of dcatlis at 
 different ages was as follows : 
 
 Deaths under 1 year, 6.7 per cent, 
 
 between 1 and 2 years, 14.09 
 
 2 3 ' 16.00 
 
 3 4 ' 15.13 
 
 4 5 ' 11.9 
 
 5 10 ' 25.9 
 
 10 
 15 
 25 
 
 15 
 25 
 35 
 
 5.8 
 2.6 
 0.8 
 
 over age of 35 years, 0.8 
 
 Among the deaths were ten cases above the age of eighty-five years, so 
 that scarlet fever, though especially a disease of childhood, may occur in 
 any decade of lift ; but old age, like early infancy, almost possesses 
 immunity from it. 
 
 I have preserved the records of the ages of 145 consecutive cases 
 occurring in private practice. If we add to these 58 cases observed by 
 Prof. Octerlony (Amer. Jour, of Med. Sci., July, 1882) we have the sta- 
 tistics of the ages of 203 cases, which are embraced in the following 
 
 Under 1 year, 3 
 
 From 1 to 2 years, 25 
 
 
 2 
 
 3 
 
 43 
 
 
 3 
 
 5 
 
 ' 57 
 
 
 5 
 
 10 
 
 1 53 
 
 
 10 
 
 15 
 
 1 13 
 
 
 15 
 
 20 
 
 ' 3 
 
 
 20 
 
 30 
 
 ' 4 
 
 
 30 
 
 40 
 
 ' 2 
 
 Total, ~203
 
 CLINICAL FACTS REGARDING SCARLET FEVER. 501 
 
 CLINICAL FACTS REGARDING SCARLET FEVER. As a rule, scarlet 
 fever occurs but once, one attack conferring immunity from the disease 
 for life ; but there are exceptions. In 1869, 1 attended a child with fatal 
 scarlet fever who three years previously, it was stated, had passed through 
 a first attack with all the characteristic symptoms. The following case 
 
 occurred in a family attended by the late Dr. Herzog : R , a boy of 
 
 six years, had scarlet fever in a mild form in January and February, 
 1875, followed by moderate desquamation. In July of the same year 
 he was kicked by a horse in the street, receiving a deep scalp-wound 
 which required three stitches. Three days afterward he had, to appear- 
 ance, a second attack of scarlet fever, attended by high febrile movement, 
 and followed also by desquamation. It was believed by Dr. H. to be a 
 genuine case, and was so treated. I am not able to state as regards the 
 presence of soreness of the throat, and doubt arises whether this second 
 attack may not have been septioemic. In April, 1876, a third attack 
 occurred, which I saw from the beginning. It was accompanied by all 
 the characteristic symptoms injection of the fauces, an efflorescence con- 
 tinuing the usual time, followed by desquamation and albumiuuria, the 
 latter continuing several weeks. Richardson states that three distinct 
 attacks occurred in his own person, and a student attending the lecture at 
 which this was mentioned informed the doctor that he also had had 
 scarlet fever three times. 
 
 Sometimes a second attack occurs so soon after the first that it has been 
 described as a relapse. The following was a case in point in the prac- 
 tice of Godneff (Heditz. Vestnik., No. iv., N. Y. Med. Rec., April 30, 
 1881) : A youth of seventeen years contracted scarlet fever while taking 
 care of a child. It began with a chill, and he had the usual efflorescence, 
 sore throat, and tumefaction of the cervical glands. An exudation 
 appeared upon his tonsils and uvula, and his temperature reached 104. 
 The urine contained a trace of albumen, the rash in due time faded, and 
 the epidermis exfoliated. On the fifteenth day, when he was about ready 
 to leave the hospital, he again had a chill, followed by fever. The tem- 
 perature reached 105.2, the rash reappeared over the entire surface 
 except the face, diphtheritic exudations occurred upon the fauces, and the 
 urine, the quantity of which was diminished, again became albuminous. 
 This second efflorescence faded on the twenty-fourth day, and on the 
 twenty-seventh exfoliation began. Hillier says : " I have seen a young 
 woman in the fever hospital suffering from a second attack of scarlatina, 
 the first attack having occurred five weeks previously. She had quite 
 recovered from her first illness, and was acting as nurse. In botli seizures 
 the rash, the sore throat, and other symptoms were characteristic. The 
 relapse or recurrence was less severe than the primary disease." Cases 
 of a fourth, or even of a greater number of attacks, have been reported. 
 The first seizure is sometimes milder, but in other instances is more 
 severe, than those which follow. 
 
 Exposure to the scarlatinous poison not infrequently produces pharyn- 
 gitis without the occurrence of scarlatina, and the inflammation is apt to 
 be severe, accompanied by pain in swallowing and marked febrile move- 
 ment. This phlegmasia is distinguished from scarlet fever by its shorter 
 duration and the absence of the efflorescence. It occurs in adults as well 
 as in children, and in those who have had, as well as in those who have not
 
 502 SCARLET FEVER. 
 
 had scarlatina. So far as I have observed, it is very seldom accompanied 
 or followed by any of the complications or sequelae so common in and 
 after scarlet fever. It cannot be distinguished from ordinary pharyngitis 
 except in the manner in which it occurs, and one attack does not pre- 
 clude another. The late George B. Wood made the remark that he 
 never attended a case of scarlet fever without suffering from sore throat. 
 The following were examples of this form of pharyngitis : On Jan. 17th, 
 1882, I was called to a boy of three years with severe scarlet fever, ush- 
 ered in by convulsions. On the following day his sister, aged seven and 
 three-fourths years, whom I had attended a year previously during a 
 severe attack of scarlatina, and who had been almost constantly with the 
 brother, became very ill, with a temperature of 103.5. Examination 
 revealed severe inflammation of the fauces, without pseudo-membrane 
 or any other exudation except muco-pus. On Jan. 19th an older 
 brother, nine years, whom I had attended in scarlet fever three years 
 previously, was affected in the same way, his temperature being 104 
 and his respiration guttural and noisy, especially during sleep, in conse- 
 quence of the great amount of faucial swelling. At times he was delir- 
 ious. The inflammation in both cases began to abate about the third 
 day, and had disappeared by the close of the week. That the contagium 
 of scarlet fever may be received into the system and cause pharyngitis, 
 while the patient has immunity from scarlet fever through a previous 
 attack, and that this inflammation may occur any number of times, as in 
 the case of Dr. Wood, are remarkable facts. 
 
 Now and then cases occur which appear to show that the scarlatinous 
 poison may affect the kidneys, producing nephritis, while there is no 
 other manifestation of its influence. Thus in my practice a lady of about 
 forty-five years constantly attended her son, sleeping by his side, during 
 an attack of scarlet fever. Her health had previously been good. When 
 the boy was convalescent, as her appetite failed and she was indisposed, a 
 careful examination revealed the fact that she had albuminuria, although 
 she had had no sore throat or other symptom of scarlet fever. After 
 several weeks of treatment her disease was removed, and she has 
 remained well since. In the British Med. Jour, for Nov. 29, 1879, it 
 is stated that in a family four girls were found to be suffering from 
 desquamative nephritis. One of them had recently had scarlet fever, 
 but the other three had presented no symptoms whatever of this disease. 
 Such cases, although probably rare, appear to show that, as the scarlat- 
 inous poison may produce inflammation of the fauces without the occur- 
 rence of scarlet fever, so it may cause nephritis without producing the 
 general disease, or apparently disturbing the functions, or changing the 
 state of other parts, except the kidneys. 
 
 SYMPTOMS. ORDINARY FORM. Scarlet fever usually begins abruptly, 
 so that the exact time of its commencement can be fixed. If any pre- 
 monitory symptoms occur, they are slight, so as scarcely to attract atten- 
 tion, as languor or the appeaYance of fatigue. A dusky aspect of the 
 surface may occasionally be observed during the few hours preceding the 
 attack. In some children the first symptom is chilliness, and occasion- 
 ally a distinct chill occurs. In the adult a chill is ordinarily the first 
 symptom. With or without the initial chilliness, febrile movement 
 occurs, of variable intensity according to the severity of the type, and
 
 SYMPTOMS. 603 
 
 accompanied by such symptoms as usually arise in a febrile state of 
 sy&tem, as cephalalgia, anorexia, and thirst. The pulse rises to 110, 120, 
 or more per minute, the temperature to 102, 103, or 104; the skin is 
 hot, face flushed, and the eyes bright. Even in cases that are not malig- 
 nant or grave, and that give indications of a favorable result, there is 
 often more or less stupor, with transient delirium and sudden starting or 
 twitching of the extremities, showing that the cerebro-spinal axis is 
 involved. 
 
 Vomiting is a common symptom in the beginning of scarlet fever, 
 occurring before the appearance of the efflorescence. It therefore has 
 diagnostic value when the nature of the case is still doubtful. In some 
 patients it is an initial symptom, but in others some hours have elapsed 
 when it occurs. I recorded its presence or absence in 214 patients, with 
 the following result: present in 162 patients, absent in 52. In severe 
 forms of the disease it is rarely absent, and if it do not occur it is probable 
 that the case will be mild, requiring little treatment and having a favor- 
 able termination. In epidemics of unusual mildness the number of cases 
 without vomiting may be in excess of those in which this symptom 
 occurs. It appears to be due to functional disturbance of the cerebro- 
 spinal system, and it may therefore be properly regarded as a nervous 
 symptom. In severe cases the vomiting is apt to be repeated, not only 
 on the first but on subsequent days, and we shall see that in cases of great 
 gravity, in which a fatal termination is not improbable, persistent vomit- 
 ing, by which the food and stimulants so urgently required are rejected, 
 interferes seriously with successful treatment. In a few cases embraced 
 in my statistics nausea without vomiting was recorded. The bowels in 
 ordinary scarlatina act regularly or are slightly constipated. Diarrhrea, 
 which so commonly accompanies the persistent vomiting in malignant 
 cases, if it occur in this form of the malady is slight and transient and 
 due to accidental causes. The food, if it be given in the liquid form and 
 cool, is usually taken readily, on account of the thirst, except when 
 deglutition is rendered painful by the pharyngitis. 
 
 The symptoms pertaining to the nervous system vary according to the 
 severity of the disease and the temperament of the patient. Many, 
 children during the progress of the common form of scarlet fever 
 present a dull or apathetic appearance. They lie much of the time 
 with their eyes closed ; others are more restless, and not a few, if the 
 fever be considerable, have occasional twitching of the limbs and more 
 or less headache. Eclampsia sometimes occurs on the first day, especially 
 in those predisposed to it, even when the siibsequent course of the dis- 
 ease is mild and favorable. This complication, very grave and usually 
 fatal when it occurs at a later stage, is in most instances, when it takes 
 place on the first day, readily controlled by proper remedies and with 
 little detriment to the patient. But if it be attended by high elevation 
 of temperature and marked drowsiness, approaching the comatose state, 
 it is very serious upon the first as well as upon subsequent days. Nervous 
 symptoms occurring in the beginning of scarlet fever, when it has the 
 ordinary favorable type, begin to abate in three or four days, but if they 
 supervene at a later date, and especially in the declining stage, they^ possess 
 more gravity, since they then not infrequently result from and indicate 
 renal complication.
 
 504 SCARLET FEVER. 
 
 Early in the disease, nearly as soon as the commencement of the fever, 
 the faucial and buccal surfaces become inflamed, as shown by redness, 
 swelling, and tenderness. The physician summoned in the beginning 
 of an attack will already, at his first visit, observe hyperaemia of the 
 fauces, with points of deeper injection than over the general faucial sur- 
 face, and soon the buccal surface also participates. The inflammation at 
 first produces preternatural dryness, and this is followed by a viscid 
 secretion. The papillae of the tongue enlarge and become prominent, 
 giving rise to the appearance known as strawberry tongue which is so 
 common in scarlet fever. This state of the buccal and faucial membrane 
 continues throughout the disease. A thin fur appears upon the tongue 
 on the first day, and it increases on the second and third days, after which 
 it is apt to be detached, exposing the surface of the organ, which has a 
 deep red hue, but in not a few patients the fur remains or is reproduced 
 as soon as shed. Except in the mildest cases the Sclmeiderian membrane 
 also participates in the inflammation as the disease advances, so that a 
 thin, irritating discharge, containing leucocytes or pus-cells, flows from 
 the nostrils. The skin is hot and dry, and cutaneous transpiration nearly 
 checked. The respiratory system is rarely involved in any notable man- 
 ner unless there be a complication. Many have no cough whatever, 
 while others have a slight cough, due to the fact that the inflammation, 
 of a catarrhal form, has extended from the fauces to the surface of the 
 glottis. Slight acceleration of respiration, corresponding with the degree 
 of fever, may also be observed. The kidneys commonly act regularly 
 and normally during the first days, any serious impairment of their 
 functions being rare before the close of the first week. 
 
 "When the symptoms described above have continued from six to 
 eighteen hours the efflorescence appears. It is first observed about the 
 ears, neck, and shoulders, in reddish patches fading into the normal hue. 
 These patches extend and unite, and in the course of a few hours the 
 trunk and upper extremities, and finally the legs, are covered. The 
 scarlatinous rash usually, when fully developed, resembles that produced 
 by external heat or the application of a sinapism. It has been likened 
 .to the appearance of a boiled lobster, but there are numerous minute 
 points of a deeper or duskier hue than the surface generally. In many 
 patients the rash appears, especially over the abdomen and lower extrem- 
 ities, as minute, thickly-set points, with the skin of normal appearance 
 between them. Henoch of Berlin says of scarlet fever: "In general, 
 the moderate grades of eruption prevail, the skin, when seen from a dis- 
 tance, presenting a diffuse, more or less scarlet redness, while on closer 
 inspection it is found that this redness is composed of innumerable red 
 points closely situated together, and separated from one another by very 
 small paler portions of skin. The dark-red points appear to correspond 
 to the hair-follicles." On passing the finger over the efflorescence no 
 distinct prominences are observed, but a sensation of roughness is 
 sometimes imparted from engorgement of the cutaneous papilla. The 
 rash disappears on pressure, but it immediately reappears when the 
 pressure is removed. Its slow return is evidence of sluggish circulation, 
 and it indicates a grave and dangerous form of the malady. The color 
 is then usually a dusky instead of a bright red. The efflorescence is 
 most marked in dependent part., as along the back, over the chest and
 
 SYMPTOMS. 505 
 
 abdomen, and in the flexures of the joints. Parts pressed upon by the 
 bed-clothes, which confine and intensify the heat, present a deeper color- 
 ation than other portions of the surface. Often, especially in mild cases, 
 the rash is absent from portions of the surface where it commonly 
 appears, while it presents a typical character elsewhere. Tardy and 
 incomplete establishment of the rash when the symptoms indicate an 
 attack of ordinary or more than ordinary severity is commonly due to 
 some perturbating cause, especially diarrhoea. In the London Lancet for 
 Aug. 16, 1879, cases are related of supposed scarlet fever without the 
 rash, cases in which pharyngitis and stomatitis with the strawberry 
 tongue occurred, without efflorescence upon the skin ; but it is to be 
 remembered, as stated above, that the inflammations which commonly 
 attend or follow scarlet fever, particularly the pharyngitis and nephritis, 
 not infrequently occur in those who have already had scarlatina, and 
 occur more than once from fresh exposure to scarlatina patients. These 
 inflammations, occurring under such circumstances, appear to be purely 
 local maladies, produced by the scarlatinous virus ; and it seems to me 
 a question whether, in the so-called scarlatina without efflorescence, the 
 inflammations which are present, and which undoubtedly have a scarlat- 
 inous origin, are not local in their nature, instead of being local mani- 
 festations of the constitutional disease. The burning and itching sensa- 
 tion produced by the rash increases the restlessness of the patient, and is 
 sometimes the most annoying of the symptoms. 
 
 The temperature in the common favorable forms of scarlet fever 
 usually varies from 101 in the mildest cases to 103 or 104 in those 
 more severe. If it attain 105 or over, the case is properly designated 
 grave or severe. The febrile movement commonly fluctuates but little 
 from day to day till the fourth or fifth day, when, if the case be favor- 
 able and no complication occur, it begins to decline. The temperature 
 is as high in the beginning of the attack as subsequently. 
 
 The symptoms pertaining to the digestive system during the initial 
 period of scarlet fever have been sufficiently described. The subsequent 
 symptoms referable to this system do not differ materially from those 
 present in the beginning, except the absence of vomiting. The lips are 
 dry and often cracked. The inflammation of the mouth and throat con- 
 tinues, with anorexia and thirst. With the decline of the disease the 
 appetite gradually returns, but it is not till the close of the second week 
 that it is fully restored. Great and continued disturbance of the digestive 
 apparatus, seriously interfering with the nutrition, pertains to the malig- 
 nant forms of scarlet fever. 
 
 The urine is high-colored, and in robust children during the first days 
 of scarlet fever it frequently deposits urates on cooling. Gee, who has 
 carefully investigated the state of the urine in scarlet fever, says that 
 the quantity of water is diminished and the urea is not necessarily 
 increased during the pyrexia ; that the chloride of sodium is diminished 
 till the fourth, fifth, or sixth day, and that the phosphoric acid is dimin- 
 ished during the climax of the pyrexia, though not during the first three 
 or four days. In one case he made a daily estimation of the amount of 
 uric acid, and found it greatly diminished on the second and third days, 
 normal on the fourth, and much increased on the fifth. He believes tnat 
 similar variations are common in the quantity of the products excreted
 
 506 SCARLET FEVER. 
 
 in the urine. Bile may also appear in the urine, coincident with a 
 yellow tinge of the conjunctiva. 1 
 
 The duration of scarlet fever varies in different cases. If the attack 
 be very mild, with little efflorescence, the febrile movement may decline 
 by the fourth or fifth day ; but if the disease be severe, little or no 
 amelioration of symptoms may occur before the twelfth or fourteenth 
 day, even when no complication has occurred to increase the tempera- 
 ture or cause aggravation of symptoms. Octerlony, who estimated the 
 duration of scarlet fever from the commencement of febrile symptoms to 
 " the disappearance of fever, with marked improvement in leading syrn- 
 torns," . . . . " found that the average duration of the disease in forty 
 cases was six and one-sixth days. The minimum duration in a very 
 slightly-marked case was three days : the maximum duration was four- 
 teen days." In general, prolongation of fever beyond the usual time is 
 due to some complication more frequently to unusually severe pharyn- 
 gitis, with accompanying cellulitis, than to any other cause. 
 
 The malady whose commencement was so abrupt declines gradually. 
 In ordinary cases, by the close of the first week or in the beginning of 
 the second the rash becomes less and less distinct, and finally disappears, 
 as do also the redness and swelling of the buccal and faucial surfaces. 
 The engorgement of the tonsils and of the papillae of the tongue sub- 
 sides, the appetite returns, the countenance brightens and becomes natural, 
 and the child, who during the height of the fever scarcely noticed objects 
 or noticed them with indifference or even repugnance, can be amused as 
 before his sickness. 
 
 Desquarnation succeeds. This begins at about the sixth day, and is not 
 completed till the tenth or twelfth day ; often not till the close of the 
 third or in the fourth week. The amount of desquamation corresponds 
 with the intensity and duration of the efflorescence, or rather of the der- 
 matitis which produces the efflorescence. If the efflorescence have been 
 slight and partial, it will be slight, perhaps scarcely appreciable, but if 
 the rash have been general, full, and protracted, exfoliation occurs upon 
 every part. It begins about the face and neck, and within a day or two 
 appears upon other parts. Where the skin is thin the epidermis as it is 
 detached presents a furfuracous appearance ; where it is thick, as upon the 
 palms of the hands or soles of the feet, it separates in layers of consider- 
 able thickness. 
 
 Such is a brief description of scarlet fever when it pursues its normal 
 course without any disturbing element, but there is no other disease in 
 which complications and sequelae so frequently occur. The liability to 
 them renders the prognosis in every case doubtful. They largely increase 
 the percentage of deaths. They occur both in mild and severe forms of 
 scarlatina. 
 
 The difference in type in different cases and epidemics has already been 
 alluded to. Scarlet fever is sometimes so mild, and its symptoms so slight, 
 that the diagnosis is necessarily uncertain. In the spring of 1 8fifi I was 
 called to an infant thirteen months old who had slight pharyngitis and 
 an indistinct rash over a part of the surface. In two days the eruption 
 had disappeared, and the health within a day or two later was apparently 
 fully restored. Diagnosis would have been doubtful except for sequelae 
 1 Article on scarlatina in Eeynolds's System of Medicine.
 
 GRAVE FORM. 507 
 
 which clearly indicated the scarlatinous nature of the attack. In another 
 instance two children passed through the entire course of scarlet fever 
 playing every day in the street. Although the intelligent grandmother 
 saw the rash upon them, its nature was not suspected, as it was mid- 
 summer and cases of prickly heat common, till nearly two weeks after- 
 ward, when one of the children had nephritis and anasarca ending fatally. 
 In cases so mild as these the heat of surface is but slightly increased, the 
 pulse but little accelerated, and the rash usually does not occupy so much 
 of the surface as in ordinary cases ; the appetite is not lost, though dimin- 
 ished, and the thirst is moderate. 
 
 Between scarlet fever so mild that it terminates in four or five days, 
 and that of the grave or malignant type presently to be described, all 
 grades of severity exist. Scarlet fever occurs in all forms from mild to 
 severe, but certain symptoms characterize grave or malignant cases 
 symptoms which are absent or much less prominent in ordinary scarlet 
 fever. Therefore the grouping of cases according to the type is proper, 
 and facilitates the studying of the disease. 
 
 GRAVE FORM (malignant scarlet fever). This form of the disease is 
 in some epidemics common, while in others it is rare. The symptoms 
 which characterize it are severe from the beginning, those of the nervous 
 system predominating at first, such as intense cephalalgia, restlessness or 
 stupor, sudden twitching of the muscles, and perhaps delirium, or even 
 convulsions. Many pass rapidly into coma and die within two or three 
 days, succumbing to the intensity of the scarlatinous poison while the 
 malady is still in its commencement. The rash is dusky. It disappears by 
 pressure, and returns slowly when the pressure is removed, showing extreme 
 sluggishness of the capillary circulation. Some patients are very drowsy, 
 lying in a semi-comatose state except when aroused, and if aroused are 
 very restless. Others are constantly restless. If placed in one position 
 on the bed, they throw themselves in another in a half-conscious or 
 unconscious state. They do not speak, or they mutter like those affected 
 by the graver forms of typhus, calling the names of playmates or talking 
 incoherently about things which interested them when well. The ther- 
 mometer placed in the axilla is found to rise above 103, which is a safe 
 average, to 105 or even 107, and the heat of the surface is pungent 
 except when the case approaches a fatal termination, when the extremities, 
 ears, and nose may be cool while the trunk and head are extremely hot. 
 The pulse from the first is rapid, ranging from 130 as the minimum in a 
 malignant case to a frequency which can scarcely be counted. A very 
 frequent pulse is nearly always feeble and compressible. Irritability of 
 the stomach is one of the most common symptoms in grave cases, so that 
 many patients immediately reject the nutriment and stimulants which are 
 so urgently required to sustain the vital powers. The vomiting, there- 
 fore, if frequent and severe, greatly increases the danger, and in not a few 
 instances this symptom is associated with diarrhoea, which also tends to 
 increase the prostration. 
 
 Severe and dangerous nervous symptoms, due to the intensity or 
 activity of the scarlatinous poison, occur chiefly within the first three or 
 four days. Grinding the teeth, sudden muscular twitching, delirium, 
 convulsions, and profound stupor occur for the most part within this 
 time. Afterward the danger is mainly from exhaustion, unless in the
 
 508 SCARLET FEVER. 
 
 second week or subsequently, when nervous symptoms may arise from 
 uraemia. 
 
 Those who survive the onset of malignant scarlet fever often have in 
 the course of a few days severe pharyngitis, with extension of the inflam- 
 mation to the lymphatic glands and connective tissue around the angle 
 of the jaw. These inflammations cause more or less external swelling. 
 The faucial turgesceuce around the entrance of the larynx, with the 
 accompanying secretion of viscid mucus or muco-pus, often causes noisy 
 respiration, and many at this stage of the attack breathe with the mouth 
 constantly open to facilitate the ingress of air. 
 
 Ordinarily, no discharge occurs at first from the nasal surface, but as 
 the disease continues, if the type remain severe, defluxion of thin muco- 
 pus takes place from the Schneiderian surface, which frequently excoriates 
 the cheek. The lips also are apt to be sore and swollen. 
 
 In malignant cases the disease is more protracted than when the type 
 is mild. Thus in a recent case in my practice the rash was still distinct 
 at the close of the second week, though the temperature had fallen from 
 105 to 102 and some desquamation had appeared. Long continuance 
 of the febrile movement is, however, ofteuer attributable to some inflam- 
 matory complication than to the primary disease. 
 
 In all epidemics of a severe type cases now and then occur in which 
 the poison is so intense, or it acts with such frightful energy, that death 
 occurs even within the first day. The patient is overpowered at the outset 
 of the disease by the virulence of the specific principle, perishing in coma, 
 preceded perhaps by convulsions. The autopsy in such cases reveals hyper- 
 semia of the brain and cranial sinuses, blood of a dark-red color, capillary 
 hemorrhages in various parts, a flabby heart, and perhaps some engorge- 
 ment of the spleen and kidneys. 
 
 Usually, malignant scarlet fever exhibits its severe type from the first, 
 but cases sometimes occur which seem mild and favorable for a few days, 
 when severe symptoms suddenly supervene. This change from a mild 
 to a dangerous disease is, however, most frequently, I think, due to some 
 complication. 
 
 IRREGULAR FORMS. Deviation from the normal type in scarlet fever 
 is usually due to some perturbating cause, which is often a pre-existing 
 or co-existing disease, or a disordered state of system through causes dis- 
 tinct from the scarlatinous disease. Thus, a little girl in my practice had 
 the symptoms of scarlet fever, such as febrile movement and inflamma- 
 tion of the buccal and faucial surfaces, nearly a week before the scarlat- 
 inous eruption appeared. During this time the patient had an intestinal 
 catarrh, with diarrhoea, which declined when the rash occurred. This 
 intestinal disease was the apparent cause of the irregularity in the malady. 
 If scarlatina occur during a severe attack of entero-colitis attended by 
 purging, the defluxion from the external surface may be such that no 
 efflorescence appears. Severe scarlet fever itself sometimes appears to 
 cause gastro-intestinal catarrh so as to produce an afflux of blood toward 
 the intestinal tract and away from the skin. Practitioners occasionally 
 meet cases like the following, which I recall to mind : In a family 
 where scarlatina was prevailing a little child early after the commence- 
 ment of symptoms which seemed to be plainly referable to this exan- 
 thern was seized with vomiting and purging, which continued till death
 
 IRREGULAR FORMS. 509 
 
 occurred on the third day. No efflorescence appeared upon the skin, but 
 the symptoms indicated the presence of severe intestinal catarrh, com- 
 plicating and masking scarlatina. We are aided in the diagnosis of such 
 cases by observing the faucial redness, and we may discover a faint 
 efflorescence upon parts of the surface, as about the groin or in the flex- 
 ures of the joints. In another instance an infant in the warm months 
 having protracted entero-colitis, the usual summer epidemic of the cities, 
 had the characteristic symptoms of scarlet fever, which was present in 
 the family, but the diarrhrea continued and no rash appeared. 
 
 In one who is much reduced by an antecedent disease, as phthisis, or 
 who has a disease, chronic or acute, which produces a decided afflux of 
 blood away from the surface and toward the interior of the body, the 
 eruption is commonly tardy in its appearance, indistinct, or wholly 
 absent. Thus, severe inflammations of internal organs not infrequently 
 render scarlet fever irregular. On the other hand, some maladies occur- 
 ring in connection with this exanthem do not change its symptoms, but 
 themselves undergo modification. Pertussis may be cited as an example, 
 the cough of which is sometimes modified by an intercurrcnt attack of 
 scarlet fever, the symptoms of the latter disease undergoing little change. 
 
 Scarlet fever may also be irregular without any apparent perturbating 
 cause. In 1867 I attended a young lady whose previous health had been 
 good, and whose brother was sick at the time with scarlet fever. She 
 had considerable febrile movement, with severe pharyngitis, and, though 
 her surface was repeatedly examined, no efflorescence was seen. Two weeks 
 subsequently she was affected with severe nephritis, anasarca, effusion 
 into at least one of the pleural cavities, oedema of the lungs, and probably 
 hydro-pericardium, the case ending fatally. Rilliet and Barthez state 
 that a second attack of scarlet fever is more apt to be irregular than the 
 first. Probably this opinion is correct, especially if only a short time 
 have elapsed between the two seizures. Still, as we have already stated, 
 both seizures may be typical, and the second more severe than the first. 
 
 It would be impossible to make a clear and positive diagnosis of cer- 
 tain cases of irregular scarlet fever, in which cerebral, pulmonary, or 
 gastro-intestiual symptoms predominate, were it not for the fact that they 
 occur in connection with other cases of scarlet fever or are followed by 
 sequela3 which evidently have a scarlatinous origin. 
 
 Occasionally, the eruption, if it be intense or if a certain condition of 
 system be present in the patient, is accompanied by more or less extrava- 
 sation of blood-corpuscles from the capillaries, so that the redness does 
 not entirely disappear on pressure, usually in points. In rare instances 
 certain of the exanthematic fevers present an extreme hemorrhagic cha- 
 racter, so as to be beyond the reach of remedies, and of necessity speedily 
 fatal. Hemorrhagic cases of this severe form are probably more common 
 in variola than in the other fevers, but I have met a notable case in what 
 was diagnosticated scarlatina. In June, 1881, a man in his thirty-second 
 year, whose previous health had not been good, though he had no defined 
 ailment and had been able to follow his occupation of harness-maker, 
 suddenly became very ill, with high febrile movement and faucial inflam- 
 mation, attended by marked prostration. After some hours an intense 
 eruption of a scarlatinous appearance covered nearly the entire surface, 
 and on the following day hemorrhages began to occur. The urine con-
 
 510 SCARLET FEVER. 
 
 tained a large proportion of blood ; each conjunctiva was raised by hem- 
 orrhages underneath (ecchymosis), so that its natural color was lost and 
 the eyelids closed with difficulty ; and blood flowed from the nostrils, 
 gums, and under the skin, forming hemorrhagic points and blotches. 
 One of the consulting physicians, perceiving the resemblance to hemor- 
 rhagic variola as described by Hebra, suspected that we had a case of 
 this formidable malady to deal with, but the time for the appearance of 
 the variolous eruption passed by without its occurrence. Death took 
 place on the fifth day. The temperature during the sickness was high, 
 though the record of it has been mislaid. Fortunately, such severe hem- 
 orrhagic cases, which are necessarily fatal, are rare. 
 
 COMPLICATIONS AND SEQUEL JE. Scarlet fever, if its type be severe, 
 is in itself dangerous to life. Many, as we have seen, perish from its 
 direct effects when it produces profound blood-poisoning. But, while the 
 ordinary epidemics of this malady are necessarily attended by a large 
 mortality from the virulence and depressing effect of the specific princi- 
 ple, unfortunately, of all the diseases of modern times, scarlatina ranks 
 first as regards the number aud gravity of its complications and sequela?, 
 so that nearly or quite as many perish from these as from the direct effect 
 of the poison. 
 
 Nervous accidents occur chiefly at two periods to wit, in the first days, 
 when they are due to the severity and malignancy of the malady and to the 
 impressible nervous temperament of the child, and in the declining stage, 
 or after the termination of the fever, when they occur from uraemia. If the 
 type be malignant, delirium, jactitation, profound stupor, and convulsions 
 frequently occur on the first and second days ; and they are symptoms 
 which properly excite the utmost alarm and demand all the resources of 
 our art, since they indicate a form of the disease which is apt to end in 
 speedy death. The eyes have a dull or wild expression, the conjunctiva 
 is suffused, the heat of surface pungent, the pulse rapid and compressible 
 or feeble, rising above 150, even to 200, per minute, and the temperature 
 is always elevated to a degree that involves danger, the thermometer not 
 infrequently indicating 105 or 106. But this severe form of scarlet 
 fever, attended by so great elevation of temperature, is much less dan- 
 gerous than in former times, even though it be complicated by delirium 
 aud convulsions, since we no longer hesitate to reduce bodily heat, when 
 excessive, by the free use of cold baths, and have discovered potent agents 
 in the bromides and chloral for controlling convulsions. Nevertheless, 
 not a few perish in the commencement of scarlet fever with predomi- 
 nating cerebral symptoms, as delirium or eclampsia, followed by coma, 
 under the best possible treatment. Sometimes the symptoms have closely 
 simulated those of acute meningitis, and if the rash have been delayed 
 and the sore throat is as yet slight, the physician may suspect that he is 
 dealing with this disease ; but autopsies in such cases show no inflamma- 
 tory lesions, but only congestion of the cerebral and menmgeal vessels. 
 
 As is stated in a preceding page, in every case of normal scarlet fever 
 inflammation of the faucial surface is present, as indicated by redness, 
 tenderness, and increased secretion of mucus or muco-pus. It precedes 
 the efflorescence on the skin, and is announced by pain in swallowing and 
 on pressure with the fingers behind and below the angles of the jaw. 
 In that form of scarlet fever which has been designated anginose the
 
 COMPLICATIONS AND SEQUELS. 511 
 
 pharyngitis is severe, and is a prominent element in the malady, the 
 uvula, the pillars of the fauces, and the faucial surface in general being 
 infiltrated and swollen. Nevertheless, this inflammation, with the accom- 
 panying tumefaction, is properly a part of the disease, rather than a 
 complication, if it abates with the subsidence of the scarlet fever or 
 begin to abate soon after, and if it produce but slight destructive change 
 in the tissues of the neck. The secretions from the fauces may be foul 
 and offensive ; even superficial ulcerations or gangrene may occur upon 
 the faucial surface, causing it to present a dark brown or jagged appearance, 
 and the tissues of the neck may be infiltrated to a certain extent, and we 
 designate the disease a form of scarlet fever under the title anginose. But 
 when this condition is greatly aggravated, so that there is extensive infil- 
 tration and swelling of the tissues of the neck, with an amount of ulcer- 
 ation or gangrene which in itself involves danger, continuing after the 
 primary disease abates, prolonging the fever and reducing the strength, it 
 is proper to regard the state of the throat as a complication. In addition 
 to the pharyngitis, which is severe as described above, the sides of the 
 neck around the angles of the jaw become swollen, hard, and tender. 
 The inflammation has been propagated to the deeper structures of the 
 neck. Poisonous substances, the result of decomposition or vitiated secre- 
 tions, traverse the lymphatic vessels from the faucial surface, and, being 
 intercepted in the lymphatic glands, cause adenitis, and the inflammation 
 extends from the glands to the adjacent connective tissue, which becomes 
 hard, tender, swollen, and infiltrated with inflammatory products. This 
 tumefaction sometimes begins by the second or third day, but it is usually 
 about the close of the first week or in the beginning of the second week 
 that it becomes so considerable as to constitute a source of danger and 
 anxiety. It is in most cases bilateral, though one side may begin to swell 
 before the other and remain larger throughout. 
 
 In severe cases of this complication the tumefaction extends from ear 
 to ear, filling up the space below and around the angles of the jaw and 
 under the chin. Not only is deglutition difficult, but it is difficult to 
 open the mouth sufficiently to inspect the fauces, and attempts to do so 
 cause much pain. The lymphatic glands, which lie in the inflamed area 
 and participate in the inflammation, are greatly enlarged by hyperplasia, 
 the round granular lymph-cells multiplying so abundantly that the glands 
 increase to many times their normal size. Most of the tumefaction is, 
 however, due to extension of the inflammation to the connective tissue of the 
 neck. The cellulitis, which resembles that occurring in other conditions, is 
 attended by distension of the capillaries, the abundant formation of young 
 round cells, and transudation of serum (Billroth). A moderate amount 
 of tumefaction may disappear by resolution, but if it be considerable it 
 seldom abates in this way, but by the tedious and exhausting process of 
 suppuration or gangrene. If the swelling at its most prominent point 
 present a reddish hue, all hope of producing resolution must be aban- 
 doned; it cannot be effected by any medicine or appliance within the 
 resources of our art. The abscess which forms is apt to be diffuse, so as 
 to involve danger of pyasmia, unless it be soon opened and properly 
 washed out. With the discharge of the pus the swelling gradually 
 softens and declines. In other cases gangrene results. The vessels in 
 the inflamed part are compressed by the inflammatory products, so that
 
 512 SCARLET FEVER. 
 
 they no longer convey the blood which is required for the purpose of 
 nutrition. It is a law of the economy that whenever the circulation 
 ceases, the tissues which receive their nutritive supply through the 
 obstructed vessels lose their vitality. Hence gangrene occurs in all 
 that portion of the swelling in which the circulation is arrested. The 
 skin over it peels off, the dead tissue underneath is brown or dark, and 
 soon, if life be prolonged, the slough begins to separate. The prognosis 
 as regards this complication depends largely on the size of the slough. 
 If it be large, death will probably result, since the strength of the system 
 is already reduced by the primary disease, and the reparative process will 
 necessarily be slow, while abundant suppuration tends to increase the 
 exhaustion. In some of the worst cases of cervical gangrene which I 
 have seen the slough has laid bare the muscles and vessels of the neck, 
 producing in one case a cavity or excavation sufficiently large to admit a 
 hen's egg. Often the slough extends under the skin, so that the deepest 
 recesses of the cavity are not visible, and occasionally in cases which 
 have ended fatally in my practice severe hemorrhage occurred from the 
 concealed vessels. If the ulcerative or gangrenous process extends so 
 deeply into the tissues of the neck that hemorrhages occur, death is the 
 common result ; but if the destructive action be of moderate extent and 
 other conditions favorable, we may expect recovery through cicatrization, 
 with perhaps some deformity by contraction of the cicatrix. 
 
 When the inflammation of the connective tissue of the neck is exten- 
 sive, involving both the lateral and anterior regions of the neck, the 
 patient is in a perilous state. The cellulitis, when extensive and accom- 
 panied by much swelling, may produce oedema of the glottis, may obstruct 
 respiration by compressing the air-passages or the laryngeal nerves, may 
 cause compression of the jugular veins, and thus give rise to dangerous 
 cerebral symptoms, or may lay bare and injure important muscles and 
 nerves, as we have seen. If the ulceration or gangrene be extensive, 
 and death do not occur by hemorrhage from arterial or venous twigs, 
 septic poisoning may occur, increasing still more the fatal nature of the 
 malady. 
 
 Some cases of this complication are melancholy in the extreme, as one 
 related by Cremen, in which ulceration of the pharynx occurred, allow- 
 ing the escape of food and preventing deglutition. In severe scarlatinous 
 pharyngitis the inflammation is apt to extend along the Eustachian tube, 
 causing its occlusion. This accident will be considered when we treat 
 of otitis media, another grave complication. It often also extends into 
 the nares, causing catarrh of the Schneiderian mucous membrane, witli 
 discharge of muco-pus from this surface. Not infrequently ulceration or 
 gangrene occurs in the faucial surface, producing more or less destruction 
 of tissue and forming excavations which connect with the throat, while 
 the cutaneous surface retains its integrity and is not even reddened. 
 The following case shows how grave the complication which we are now 
 considering sometimes is when the external surface of the neck is not 
 involved, and how the inflammation by extension outward from the 
 fauces may involve the middle ear. 
 
 Case 1. Annie K , aged two and a half years, an inmate of the New 
 
 York Foundling Asylum, was well, except an eczema of the scalp, until 
 the night of April 3, 1882, when she was attacked with vomiting and
 
 COMPLICATIONS AND SEQUELS. 513 
 
 diarrhoea. She was feverish and drowsy, and at 2 p. M. on the 4th the 
 scarlatinous efflorescence appeared \ipon her neck, body, and lower ex- 
 tremities; tongue coated; pharynx red; temperature (axillary) 103; 
 pulse 160. The symptoms and aspect indicated a grave form of the 
 malady, and the usual sustaining treatment was ordered. On April 5th 
 the temperature was 102, pulse 144, tongue less coated, eruption fading, 
 less stupor, no albumen in urine. April 6th, morning temperature 102, 
 pulse 160; passed a restless night; stools thin and too frequent; has 
 grayish patches in the throat : P. M. temperature 103|- , pulse 150. April 
 7th, the diarrhoea continues, and she has a copious muco-purulent dis- 
 charge from the nostrils; P. M. temperature 103f, pulse 160. April 
 10th, the temperature has continued at about 103; the patient is very 
 sick, with a constant foul-smelling discharge from the nostrils ; breath 
 very offensive ; temperature 103.5, pulse about 180. April 12th, general 
 appearance a little better, but the posterior surface of the fauces is com- 
 pletely covered by a thick pseudo-membrane ; had four loose stools last 
 night ; temperature and pulse the same as at last record ; a dark, offen- 
 sive, and jagged coating over the fauces, and a dark, foul discharge from 
 the nostrils, as before ; examination of the chest negative. April 14th, 
 is much prostrated ; temperature 104.5, pulse rapid and weak ; respira- 
 tion noisy, diminished resonance over lower two-thirds of left side of 
 chest ; ulcers upon the mouth and tongue ; fauces red and ulcerated. 
 April 17th, pulse 150, temperature 100.5; general appearance somewhat 
 better, but the diarrhoea continues, and patches of a diphtheritic cha- 
 racter have appeared upon the lips ; moist rales in left side of chest. The 
 symptoms continued nearly the same until April 23d, when she died. 
 A dull percussion sound and distinct bronchial respiration were observed 
 in the left scapular region during the last days of her life. 
 
 Autopsy nine hours after death by the curator, Dr. "W. P. Northrup : 
 Body well nourished ; the tissues have a jaundiced hue ; lips sore ; on 
 turning the head to one side pus runs from the left ear and dirty rnuco- 
 pus from the mouth. Brain normal ; on opening the petrous portion of 
 the left temporal bone the middle ear is found full of pus, which com- 
 municated freely with the external ear through a perforated membrana 
 tympani ; the Eustachian tube cannot be traced in the sloughy tissue, 
 and a passage filled with pus extends from the ear to the fauces ; 
 opposite the greater coruua of the hyoid bone are two deep ulcers, each 
 having about the diameter of a ten-cent piece, with sloughy and offensive 
 base and sides ; the left ulcer communicates by a ragged and wide sinus 
 with a dark and sloughy cavity of about four drachms capacity ; this 
 cavity is located in the neck under the angle of the jaw, apparently 
 occupying the site of a disintegrated gland, and it opens upon the 
 surface of the fauces. The surface of the larynx has a dusky, dirty 
 appearance, sprinkled with little cheesy-looking spots, and covered 
 by a dirty, foul-appearing liquid, as if some of the ichorous pus 
 had escaped into it from the neck ; about one and a half inches below 
 the vocal chords there is an unmistakable pseudo-membrane; below 
 this, near the bifurcation, the trachea has a bright-red color, as if a 
 pseudo-membrane had been peeled from it, leaving the surface raw. 
 The detachment of a pseudo-membrane from this part, if it did occur, 
 must have been ante-mortem, for the organ had been carefully handled 
 
 VOL. I. 33
 
 514 SCARLET FEVEE. 
 
 in making the autopsy. Between the apex of the left lung and the 
 median line the tissues of the neck, dissected upward, are found indu- 
 rated, yellow, and giving an offensive odor, showing that the cervical 
 cellulitis had extended downward farther than usual. The bronchial 
 glands have undergone hyperplasia, being enlarged and hard. The 
 right lung is normal; about one-half of the left lower lobe is 
 consolidated, and when cut is found to be gangrenous and offensive. 
 The liver is apparently somewhat enlarged; spleen normal in size; 
 gastric mucous membrane has a congested appearance and is covered 
 with mucus; meseuteric glands enlarged, pale, and firm; Foyer's 
 patches swollen and pale; at lower end of ileum some pigmentation 
 of these glands ; in large intestine the solitary glands are enlarged, and 
 a few of them pigmented ; kidneys pale, cortex thickened, and markings 
 indistinct. Microscopical Examination. In the pia mater perhaps a 
 little increase of cells; meninges of brain otherwise normal. The 
 trachea shows well-marked diphtheritic inflammation ; it contains a film 
 of pseudo-membrane; evidences of inflammation occur also upon the 
 laryngeal surface, though less marked than in the trachea. The solidified 
 portion of the lung exhibits the ordinary lesions of broncho-pneumonia, 
 with some interstitial change. In the kidneys we find parenchymatous 
 nephritis, with some cell-growth in the Malpighian bodies. 
 
 The above case has been related at length, not only because it shows 
 how severe and destructive the inflammation of the throat, extending 
 into the tissues of the neck, sometimes is, but because four other com- 
 plications or sequelae were also present to wit, otitis media, diphtheria, 
 nephritis, and pneumonia. We see from the above case how formidable 
 a disease scarlet fever sometimes is when attended by the inflammations 
 to which it so frequently gives rise, for a child older and stronger than 
 this, if thus affected, would necessarily have perished with the best possi- 
 ble treatment. 
 
 In localities where diphtheria is endemic, as in New York City 
 and Paris, scarlet fever is often complicated by a pseudo-membranous 
 inflammation of the fauces and air-passages. In severe cases of 
 scarlet fever the Schneiderian as well as the faucial surface is cov- 
 ered with it, so that it can be readily seen on inspecting the anterior 
 narcs. Occasionally, the pseudo-membrane appears upon the laryngeal 
 and tracheal surfaces, as in the case which I have related above and in 
 others presently to be related, causing dangerous embarrassment of respir- 
 ation. This complication sometimes begins almost at the commencement 
 of scarlet fever, but in most instances it does not occur before the third 
 or fourth day, and it sometimes does not appear till in the declining 
 stage of the fever. When it begins, it intensifies the febrile movement 
 and produces general aggravation of symptoms. 
 
 The common opinion is, that whenever a pseudo-membrane occurs 
 upon the inflamed mucous surface in scarlatina true diphtheria has super- 
 vened ; but there are those who hold that scarlet fever itself, when the 
 inflammations which attend it are severe, may give rise to pseudo-mem- 
 branes, so that what seems to be diphtheritic is but an element in the 
 primary disease. My convictions are strong that when pseudo-mem- 
 branes occur on any of the inflamed mucous surfaces in scarlet fever, true 
 diphtheria has, with few exceptions, supervened if the patient live in a
 
 COMPLICATIONS AND SEQUELAE. 
 
 515 
 
 locality where diphtheria is prevalent. That scarlet fever may occur in 
 an individual along with another acute infectious malady is shown 
 by abundant cases. It often occurs with varicella, and J. Herzog 
 relates the following case, in which measles and scarlet fever coex- 
 isted : l A boy aged eight years had measles, with the usual catarrhal 
 symptoms, and on the fourth day, as the temperature was returning 
 to the normal, it rose again suddenly, and the scarlatinal rash and 
 sore throat appeared. In due time these subsided, and desquamation 
 occurred. I have seen a similar case in consultation during the current 
 year, so that there is nothing improbable in the theory that scarlet fever 
 may coexist with other infectious maladies ; and it is admitted that diph- 
 theria, like erysipelas, may complicate the most diverse constitutional 
 diseases. Moreover, when a child with pertussis, measles, typhoid fever, 
 or tuberculosis suddenly develops a high fever with the occurrence of a 
 pseudo-membranous inflammation upon the fauces or air-passages, all 
 admit that diphtheria has supervened, since such inflammation is not an 
 element in any form or type of either of these diseases ; and I see no 
 reason in the nature of the disease why scarlet fever should not be equally 
 liable to this complication. 
 
 The elaborate treatise by Sanne* of Paris on diphtheria contains a 
 chapter entitled " Secondary Diphtheria." In it the author says, what 
 all who are familiar with diphtheria will agree to, that secondary diph- 
 theria does not differ in nature from the primary form, and that it 
 exhibits a tendency " to occupy the organs which are themselves the seat 
 of the more pronounced local determinations of the primitive malady. 
 .... Diphtheria is seen in the course or sequel of numerous diseases. 
 Some appear to have a special proclivity for engendering diphtheria; 
 these are specific maladies : measles, scarlet fever, pertussis." I have 
 tabulated as follows Sanne's statistics of secondary diphtheria : 
 
 Diphtheria complicating measles. 100 cases, 83 deaths, 15 cures, 2 doubtful, 
 
 scarlet fever, 43 " 22 " 17 " 4 " 
 pertussis, 20 " 12 " 6 " 2 
 
 " " typhoid fever, 8 " 8 " 
 
 tuberculosis, 19 ' 19 
 
 SannS's statistics relating to the seat of scarlatinous diphtheria are as 
 follows : 
 
 Fauces alone 
 
 with larynx 
 
 ' nasal fossa 
 
 ' larynx and nasal fossa 
 
 ' larynx and bronchi 
 
 ' nasal fossa and lips 
 
 ' lips and skin 
 unaffected, 
 
 Diphtheria generalized, 
 Larynx only affected, 
 Nasal fossa 
 
 The opinion of so good an observer as Sanne", that when in scarlet fever, 
 pseudo-membranous exudation appears upon the mucous surfaces which 
 are the seat of scarlatinous inflammation, diphtheria has supervened, and 
 not a croupous form of scarlatinous plilegmasia, carries with it great 
 1 Berl Em. Woch., 1882, No. 7. 
 
 attacked, 15 cases. 
 
 
 . 4 
 
 8. 
 
 
 
 4 
 
 
 
 1 
 
 
 
 1 
 
 
 
 1 
 
 
 3 
 
 
 o 
 
 
 2 
 
 
 1 
 
 <
 
 516 SCARLET FEVER. 
 
 weight. That it was diphtheria in four instances in my practice I had 
 sufficient proof, for this disease became dissociated from scarlet fever, 
 and extended to other members of these families as idiopathic dip- 
 htheria. 
 
 Nevertheless, one of the most difficult problems which we have to 
 deal with in certain cases is to distinguish diphtheritic from non-diph 
 theritic inflammation ; and I see no reason why the scarlatinous inflam- 
 mation when intense may not be sometimes membranous ; and those no 
 doubt err who ignore this, and consider every inflammation attended 
 by a pellicular exudation diphtheritic. We know that in some cases of 
 dysentery a fibrinous exudation occurs upon the surface of the colon ; that 
 in croupous pneumonia fibrin exudes into the bronchioles and alveoli of 
 the lungs ; and that physicians in localities where there is no diphtheria 
 meet, though at long intervals, cases which they designate croupous 
 pharyngitis and laryngitis ; and it seems to me that the intense inflam- 
 mation of anginose scarlatina probably sometimes produces the same 
 exudation. Moreover, it is very difficult to distinguish in the swollen 
 fauces between a membranous exudation and ulceration or superficial gan- 
 grene so common in malignant scarlet fever. The grayish-white surface, 
 jagged and foul, may be the one or the other, an exudation or a sphacelus, 
 and in certain instances it is impossible to discriminate between the two 
 conditions at the bedside. 
 
 Diphtheria complicating scarlet fever sometimes begins nearly simul- 
 taneously with the latter. Henoch states that exceptionally he has 
 observed suspicious patches upon the fauces before the appearance 
 of the scarlatinous eruption upon the skin ; and he adds : " I have 
 had repeated opportunities of observing this unusual beginning. In 
 such cases we must ask ourselves whether the first affection was really 
 connected with the second, or whether the former was a true primary 
 diphtheria, rapidly followed by scarlatina. This opinion is favored by 
 the fact that I have only observed such cases in the hospital, in which 
 infection with various forms of contagion can scarcely be avoided." 
 
 But usually it is not till the third or fourth day of scarlet fever that 
 this complication begins. The patient has been progressing favorably 
 with the scarlet fever, till on a certain day a marked aggravation of 
 symptoms occurs. A higher temperature, more pungent heat, and the 
 physiognomy of a more serious malady arc present. On inspecting the 
 fauces to discover the cause we observe a pellicle forming over the tonsils 
 and perhaps other portions of the faucial surface. Often the entire 
 aspect of the case changes by the occurrence of this complication, a mild 
 case of scarlet fever becoming grave and fatal in consequence. Thus in 
 a case which I saw with Dr. Hardy of New York the membranous 
 inflammation of diphtheria, commencing upon the fauces oil the third 
 day of scarlet fever, extended to the Schneiderian membrane, and thence 
 along the left lachrymal sac to the eyelids, producing redness and swell- 
 ing along the side of the nose and upon the cheek like that of erysipelas. 
 A thick diphtheritic pellicle occurred upon the under surface of each 
 eyelid on the left side, with great tumefaction of both lids, gangrene of 
 the cornea, and destruction of the eye. The case soon ended fatally. 
 
 The diphtheritic inflammation sometimes extends to the larynx and 
 trachea, producing hoarseness and more or less obstruction to respira-
 
 COMPLICATIONS AND SEQUELS. 517 
 
 tioii. A thin film or flakes of fibriuous exudation, rendering the respi- 
 ration noisy, developed on the laryugeal or tracheal surface, is, I think, 
 not infrequent in diphtheria complicating scarlet fever, but the rapid 
 development of a thick and firm pseudo-membrane, so as to imperil the 
 life of the patient from the stenosis in the air-passages, has been much 
 less frequent in my practice than it is in primary diphtheria and in 
 diphtheria complicating measles or pertussis. The following were cases 
 of this severe complication occurring in a recent epidemic in the New 
 York Foundling Asylum. In these cases the respiration was noisy, but 
 the obstruction to breathing seemed to be due to infiltration and swelling 
 around the aperture of the glottis, rather than to diphtheritic croup, 
 which the autopsies showed to be present. 
 
 Case 2. A child aged three and a half years, who previously had 
 symptoms of mild catarrhal croup, with moderate redness of the fauces, 
 sickened with scarlet fever on Oct. 1, 1882, the rash being profuse and 
 soon covering nearly the entire body. The axillary temperature was 
 103, pulse 140 ; slight stridor in breathing and some cough ; fauces 
 very red, but free from membrane. Oct. 2d, restless, sleeping but little ; 
 has vomited four times. Oct. 3d, temp. 103.5, pulse 120 ; fauces much 
 swollen ; still vomiting ; rash abundant. 4 P. M., temp. 104.3, pulse 
 128 ; tongue clean ; some discharge from nares ; urine not albuminous, 
 but its quantity diminished. Oct. 4th, aspect that of very severe sick- 
 ness ; profuse discharge from nostrils ; fauces of a deep red color, and a 
 diphtheritic pellicle over tonsils and uvula ; tumefaction along the sides 
 of the neck ; temp. 104, pulse 140 ; breathing moderately stridulous ; 
 urine is passed more freely than yesterday ; evening temp. 105. Oct. 
 6th, croupy symptoms more marked ; tonsils and uvula greatly swollen, 
 so that the fauces are almost occluded ; temp. 103.5 ; breathing difficult, 
 but apparently sufficient oxygen is received ; profuse nasal discharge, 
 and other symptoms as before. About 1.30 P. M. he was raised to take 
 some milk, and suddenly became asphyxiated. His face was dusky, his 
 eyes protruded, and he voided urine and feces. Dr. Swift, who attended 
 the child, and to whom I am indebted for this history, immediately per- 
 formed tracheotomy, which gave temporary relief by the expulsion of a 
 considerable quantity of pseudo-membrane through the opening. On 
 the following day the respiration again became obstructed at some point 
 below the cauula, so that it could not be removed ; the features grew 
 livid, and death occurred in convulsions twenty-six hours after the tra- 
 cheotomy. 
 
 The autopsy was made by Dr. "W. P. Northrup, curator of the asylum, 
 who found the pharynx covered by a membrane which was traced to 
 the posterior uares ; larynx, trachea, and bronchial tubes as far as the 
 third divisions also covered with membrane; portions of the tracheal 
 surface denuded, and the mucous membrane underneath of a bright red 
 color and smooth ; tonsils sloughy and fetid ; mucous membrane of 
 smaller bronchial tubes very red and covered with viscid mucus and pus ; 
 a portion of the left lung, extending from the root posteriorly to the sur- 
 face, gangrenous, discolored, and honeycombed ; two or three intensely 
 hypersemic spots, as large as a bean, in left lung ; right lung congested, 
 but not consolidated ; slight catarrh of stomach ; circumscribed areas of 
 congestion in intestines ; solitary glands of intestines swollen, and some
 
 518 SCARLET FEVER. 
 
 of them ulcerated ; spleen of normal size, rather pale ; liver congested 
 and somewhat enlarged. 
 
 Case 3. Katie, aged six and a third years, was returned to the asylum 
 on Nov. 18th. Three days later (Nov. 21st) she had sore throat, red- 
 dened fauces, coated tongue, and a faint rash upon the neck, chest, and 
 arms ; eyes injected ; temperature 102. In the afternoon temperature 
 103; eruption still faint. Nov. 22d, temperature 103.5; an eruption 
 on chest, abdomen, arms, and legs in patches. Evening, temperature 
 104; voice clear. Nov. 23d, temperature 103.5; tongue red; fauces 
 deeply reddened, but without any visible pseudo-membrane; eruption 
 of a scarlatinous appearance over the back and abdomen ; on the extrem- 
 ities dusky, livid patches. P. M., temperature 104; is slightly delirious ; 
 eruption abundant. Nov. 24th, temperature 103.5; eruption well out 
 on abdomen ; it is the same as yesterday upon the extremities, except 
 perhaps a little more dusky ; still no pseudo-membrane to be seen upon 
 the fauces ; is restless and delirious. P. M., during the day has been very 
 restless, suffering from dyspnoea; no croupy voice nor croupy cough, 
 though the dyspnoea continues, and a pseudo-membrane is now visible 
 over the tonsils and adjacent faucial surface ; eruption dusky ; skin cool ; 
 pulse very frequent and feeble. From this time she sank steadily, and 
 died at 11.30 P. M. During her sickness her urine seemed to be dimin- 
 ished, but it was not properly examined. 
 
 Autopsy Nov. 25th by Dr. "W. P. Northrup, curator : Points of red- 
 ness, apparently a hemorrhagic eruption, over the face, shoulders, and 
 parts of the trunk ; a few of the same on the extremities ; no pseudo- 
 membrane visible in nostrils or in buccal cavity ; brain not examined. 
 Naso-pharyux covered by a thick fibre-purulent membrane. Larynx 
 contains a well-marked pseudo-membrane, but not continuous. Trachea 
 covered by a pseudo-membrane, continuous over most of its surface, 
 but in places broken and flaky. Where it is detached the mucous 
 membrane is seen underneath, dusky and deeply injected. At the root 
 of the lungs the pseudo-membrane can be traced along the tubes about 
 an inch in all directions. Lungs cedematous, with deep congestion in 
 places, but apparently no pneumonia; about two drachms of clear, 
 straw-colored fluid in pericardium; a few stringy decolorized clots in 
 the cavities of the heart; left ventricle contracted. The heart-fibres, 
 carefully examined, microscopically, in the laboratory, are fouud to 
 be normal, not having undergone granular or fatty- degeneration. 
 Liver normal in size; pale-yellow areas upon the superior surface, 
 <iither from anaemia or fatty deposition. Kidneys of usual size, capsule 
 not adherent; pyramids congested; cortex pale; markings distinct. 
 Spleen enlarged about one-third ; consistence normal. Stomach and 
 intestines not examined. 
 
 Case 4-. Scarlet fever complicated by diphtheria, nephritis, and broncho- 
 pneumonia. (History by house physician, Dr. Swift.) Phoebe, aged three 
 and a quarter years, was delicate, biit in her usual health till Oct. 29, 1882, 
 when she became languid and vomited several times, and her tongue was 
 coated. Oct. 30th, occasional vomiting; fauces reddened; tongue coated. 
 Oct. 31st, remains languid; fauces deeply reddened; a faint scarlatinous 
 eruption over back, wrists, and feet; temperature 100.5. P. M., eruption 
 of scarlet fever well out over the surface; tongue cleaner. Nov. 1st,
 
 COMPLICATIONS AND SEQUELJE. 519 
 
 rash over entire body ; temperature 100.2. Nov. 2d, fauces deep-red ; 
 tonsils and uvula swollen ; diarrhoea and vomiting. Nov. 3d, tempera- 
 ture 102.5; the eruption, which has been bright red, is now more dusky. 
 Nov. 5th, temperature 104.5; dusky-red color of the eruption; skin 
 beginning to desquamate in places ; urine normal ; a discharge from 
 nostrils. Nov. 6th, temperature 103.5; eruption still present, but skin 
 of abdomen and back desquamating ; has otorrhcea on both sides ; fauces 
 deeply hypersemic, but no pseudo-membrane visible upon them. Nov. 
 7th, temperature 103; respiration and cough have a slight croupy cha- 
 racter; other symptoms as yesterday. Nov. 8th, temperature 101. A 
 careful inspection of the fauces shows that it contains no pseudo-mem- 
 brane ; nostrils discharging a dark-brownish liquid ; examination of 
 urine negative. Nov. llth, eruption, which appears to have been hem- 
 orrhaghic in points, is fading and the desquamation is less. Nov. 14th, 
 nostrils still discharging ; glands of neck swollen. Nov. 16th, temper- 
 ature 103; sp. gr. of urine 1010, no casts, nor albumen ; the chest 
 seems clear ; less discharge from nostrils ; fauces clean and but slightly 
 inflamed. Nov. 17th, 18th, temperature 103.5; vomits; lungs healthy, 
 but breathes with considerable effort, though without stridor ; urine 
 diminished ; its sp. gr. 1020, albuminous, contains blood-corpuscles and 
 granular casts. Nov. 19th, is very pallid ; temperature 104; very 
 restless ; vomits ; urine diminished ; bowels freely open. Nov. 20th, 
 respiration still embarrassed ; subcrepitant rales over the entire chest and 
 percussion resonance not clear ; temperature 102.5. Nov. 21st, physical 
 signs the same ; temperature 103.5; respiration 80. Nov. 22d, urgent 
 dyspnoea ; dulness on percussion over top of right lung and over lower 
 part of left lung ; is delirious ; no perspiration ; urine scanty ; bowels 
 freely open. From this date the dyspnoea became more urgent, and 
 death occurred at 4 P. M. on the 23d. 
 
 Autopsy by Dr. W. P. Northrup, curator: Body well nourished; 
 slight oedema of both legs ; swelling at angles of jaws, most marked 
 on left side. Vessels of brain moderately injected; otherwise appear- 
 ance normal. Cicatrizing ulcers on both sides of fauces; a diph- 
 theritic pseudo-membrane on septum of nose, larynx normal. Trachea, 
 upper half apparently normal ; a thin film of pseudo-membrane extends 
 from just above the bifurcation upward to nearly the middle of trachea. 
 About an ounce of fluid in each pleural cavity; on the right side 
 a few loose flakes of fibrin floating in the serum, and consolidation of 
 lung at apex ; collapse in one or two places. Left side, recent adhesions 
 over whole of posterior surface and base ; surface of lower lobe dark, and 
 when it is detached strings of fibrin adhere to it, and it is consolidated. 
 The cut surface shows marked oedema, injection, increase of mucus in 
 bronchi, and disseminated miliary tubercles in every part ; no tubercles 
 in the pleura, and none elsewhere in the body except in the left lung ; 
 tubercles in the lower lobe larger and more thickly grouped than in the 
 upper lobe. Decolorized clots in heart, extending from ventricles into 
 auricles of both sides. The capacity of the ventricles seems normal. 
 Liver and spleen, normal. Kidneys rather large ; capsules not adherent ; 
 superficial veins injected. The cut surface shows congested pyramids 
 and pale cortex ; markings indistinct and irregular ; about four ounces of 
 clear straw-colored fluid in abdominal cavity, and the solitary follicles of
 
 520 SCARLET FEVER. 
 
 large intestines show pigmentation ; two simple intussusceptions, each 
 three-fourths inch in length, in small intestines. 
 
 Coryza frequently commences at or about the time of the pharyn- 
 gitis. The inflammation of the Schneiderian membrane is continuous 
 posteriorly with that of the fauces, and is announced by redness and 
 swelling, inability to breathe freely through the nostrils, and an irri- 
 tating iehorous discharge. Simple coryza in itself involves little danger, 
 though it is an unpleasant complication, and in the nursing infant it may 
 interfere with sucking. Diphtheritic coryza, on the other hand, which 
 is frequently present when diphtheria complicates scarlet fever, involves 
 danger, since it is apt to cause ulcerations, hemorrhages, and septic 
 poisoning. "When the local symptoms are unusually severe and the dis- 
 charge abundant, it is probable that inflammation has in some cases 
 extended to the antrum of Highmore. 
 
 Inflammation of the middle ear is another unpleasant and not infre- 
 quent complication. It is attributed to extension of the catarrh from the 
 pharynx along the Eustachian tube to the tympanum. In a considerable 
 proportion of cases of otitis media this tube is occluded by the infiltration 
 and swelling of its mucous membrane, so that the muco-pus escapes with 
 difficulty or is retained. Hence severe earache, an increase of the febrile 
 movement, and outward bulging of the membrana tympani occur. Some- 
 times headache or other cerebral symptoms arise, probably from the fact 
 that the meningeal artery, which supplies the meninges, is connected by 
 anastomosing branches with the tympanum. In one of the cases related 
 above it will be recollected that the ulceration and abscess extended from 
 the fauces to the middle ear, the entire Eustachian tube having disappeared 
 in the ulcerative process. 
 
 Frequently, the otitis escapes detection, its symptoms being masked or 
 obscured by the general disease, until the membrana tympaui is perfo- 
 rated and otorrhcea begins ; but by careful examination the nature of the 
 complication can usually be ascertained before the ear is injured to this 
 extent, for a patient too young to speak will often press with the fingers 
 against the painful ear or lie with the ear pressed upon the pillow, evi- 
 dently having an increase of suffering if placed in any other position. 
 One old enough to speak and in proper mental condition makes known 
 the earache as soon as it occurs. 
 
 The mucous membrane of the tympanum, red and swollen from inflam- 
 mation, secretes muco-pus abundantly ; and this, pent up in the cavity, 
 must obtain an exit before relief occurs. It is well if this secretion 
 -pe, though with difficulty, down the Eustachian tube. The destruc- 
 tive action of the pus upon the delicate structure of the ear is often such 
 that, within a few days, irreparable harm is done and more or less deaf- 
 ness results. Relief can occur, if the Eustachian tube remain closed, only 
 by perforation of the membrane and the discharge of the secretions into 
 the external meatus. When this occurs the inflammation in the most 
 favorable Ceases gradually abates, the aperture in the drum closes, and 
 the integrity of the auditory apparatus is preserved. In severe cases the 
 mastoid cells participating in the inflammation become filled with rnuco- 
 pus and tender to the touch, and often the collateral oedema causes tume- 
 faction and narrowing of the external ear, which subside with the dis- 
 charge of pus from the tympanum.
 
 COMPLICATIONS AND SEQUELS. 521 
 
 Unfortunately, there is for many a more melancholy history a more 
 destructive inflammation, involving permanent impairment or total loss 
 of hearing. This is especially apt to occur in strumous and feeble chil- 
 dren. All grades of inflammation and destructive action occur in differ- 
 ent cases. The perforation in the drum-membrane may be large or the 
 membrane may be completely destroyed, and the detached ossicles escape 
 one by one into the external meatus, and in a few instances, fortunately 
 rare, this occurs in both ears, producing complete and permanent deaf- 
 ness. In my own practice this has never occurred, but I have met one 
 or two adults who were totally deaf from this cause. 
 
 The mucous membrane which lines the bony wall of the middle ear 
 has the function of the periosteum, and therefore, when inflamed and 
 subjected to pressure, is liable to ulcerate. As in other parts of the skel- 
 eton under similar conditions, superficial caries or necrosis of the under- 
 lying bone is apt to occur. The carious or necrotic process may extend 
 to the mastoid cells. An offensive otorrhoea, continuing for months or 
 years, indicates the persistence of this pathological state of the tympanum, 
 which is rendered so obstinate by the presence of dead bone. A mo- 
 ment's survey of the anatomical relations of the middle ear shows the 
 danger to which these patients are liable. A thin bony septum, per- 
 forated with blood-vessels and sometimes containing congenital apertures, 
 separates the tympanum from the cranial cavity above. Posteriorly lie 
 the mastoid cells, connected with the tympanum by one large and seve- 
 ral small apertures. Anteriorly is the commencement of the Eustachian 
 tube and in close proximity to the tympanum lies the carotid canal, and at 
 one point also the superior petrosal sinus. Virchow has shown how inflam- 
 mation extending from the ear in otitis media sometimes produces such 
 compression of the veins or sinuses by the swelling from the infiltration 
 and exudation that the circulation is arrested, and the fibrin contained in 
 the blood of these vessels is precipitated, forming thrombi, with the most 
 disastrous effect upon the individual. Pus may also burrow in the 
 interstices of the bone, causing great pain, or the pent-up secretions, hav- 
 ing no outlet for escape, may in time undergo caseous degeneration, pro- 
 ducing the conditions in which tuberculosis so often originates. 
 
 Death not infrequently occurs in chronic otitis media in another way. 
 The otorrhoea, after mouths or years, suddenly ceases, the child complains 
 of constant severe headache and is feverish, and the case ends in coma, 
 preceded perhaps by convulsions. Meningitis has occurred, produced by 
 extension of the inflammation through the thin bony septum which 
 divides the tympanum from the cranial cavity, and at the autopsy hyper- 
 aemia of the meninges, fibrin, pus, perhaps softening of the brain and an 
 abscess, are formed in the portion of the encephalon adjacent to the tym- 
 panum. Therefore, otitis media, though it often ends favorably, is in 
 many patients an obstinate, dangerous, and even fatal sequel of scarlet 
 fever. 
 
 The complication known as scarlatinous rheumatism is regarded by 
 some as a synovitis, but its symptoms, especially its shifting from 
 joint to joint, seem to ally it to the rheumatic affections. In some 
 epidemics it is common. It usually begins toward the close of the 
 first week or in the second week, and its common seat is in the ankle, 
 plialangeal, and wrist joints. It is attended by very little swelling in
 
 522 SCARLET FEVER. 
 
 most patients, though the joints are tender and painful on pressure. It 
 does nut seem to retard convalescence materially, though it produces suf- 
 fering and involves danger as regards the heart. It subsides in a few 
 davs with the ordinary treatment of acute rheumatism, and even without 
 special treatment, the chief danger being that, as in idiopathic rheuma- 
 tism, endocarditis may arise, with permanent crippling of the valves. 
 The following was a case of valvular disease having this origin. It 
 occurred in my practice. 
 
 Case 5. Freddy M., aged four years, sickened with scarlet fever 
 March 6, 1879. The usual vomiting occurred on the first day, 
 and the temperature was 104. The case progressed favorably till 
 March 14th, when he complained of pain in both wrists, both ankles, 
 and both knees. On March 17th the general condition was good, the 
 urine contained no albumen, and apparently few u rates, but he still had 
 pain in the joints of the upper and lower extremities and in the back ; 
 pulse 140, temp. 103 ; breathes with a slight moan ; urates in the urine, 
 but no albumen. A distinct mitral regurgitant murmur is now heard 
 for the first time. Under the use of salicylate of sodium the pain in the 
 joints soon ceased, but the mitral murmur is permanent. 
 
 The following prescription is for a child of five years : 
 Ij*. Ol. Gaultherise feiss ; 
 Sodii Salicylat. 5\\\ ; 
 Syrupi f'sii ; 
 
 Aquae fsiv. M. 
 
 S. Give one teaspoonful every four hours. 
 
 Of the serous inflammations occurring in scarlet fever, pericarditis has 
 been, according to Ililliet and Barthez, most frequently observed. In 
 this country it is probably more frequent than is usually supposed, but 
 it is less frequently detected than pleuritis, the symptoms of which are 
 more conspicuous. It is apt to occur in connection with endocarditis. 
 
 The following case, showing the liability to pericarditis and other 
 serous inflammation which exists in scarlet fever, occurred in my practice: 
 
 Case 6. C , girl a-^ed five years and ten months, sickened with se- 
 vere scarlet fever on April 4th. Was delirious; pulse 158; had vomiting 
 and constipation. April 10th, pulse varies from 124 to 153, no delirium ; 
 a considerable quantity of urates in the urine. April llth, has to-day, 
 for the first time, severe pain in the epigastrium, with tenderness and 
 moderate distension. Otherwise symptoms favorable, but severe ; pulse 
 140 ; respiration moderately accelerated, and vesicular in every part of 
 the chest. From this date the symptoms continued about the same till 
 April 14th, when the dyspnoea became more marked and the action of 
 the heart rapid and tumultuous. The epigastric pain, distension, anil 
 tenderness continued; the percussion sound was dull over the lower part 
 of the chest; the dyspnoea became rapidly worse, although the, pulse had 
 considerable volume; and at 5 P.M. death occurred. At the autopsy 
 about one ounce of turbid serum, with a soft deposit of fibrin, was 
 found in the pericardium. Each pleural cavity contained from six to 
 eight ounces of transparent serum, and both lungs were readily inflated, 
 except a little of the posterior portion of each lower lobe, which could 
 not be; no fibrinous exudation over the lungs. The liver extended 
 four inches below the margin of the ribs, and upon its convex
 
 COMPLICATIONS AND SEQUELS. 523 
 
 surface in the epigastrium, corresponding with the seat of the pain, was 
 a rough patch of fibrin about one and a half inches in diameter. The 
 bronchial mucous membrane was moderately injected, as was also that 
 of the colon, and the kidneys appeared hyperaemic. 
 
 Among the serous inflammations which complicate or follow scarlet 
 fever, pleuritis is one of the most important. It usually begins in 
 the desquamative stage, and is apt to be suppurative on account of the 
 feeble state of the patient when it commences. It has always, in my 
 practice, been tedious, as all empyemas are, and it does not differ in 
 its clinical history from the idiopathic disease. I have met cases of 
 scarlatinous empyema in which, from opposition of the family or for 
 other reasons, thoracentesis was not performed, and death occurred; 
 others in which this operation effected a cure, and one at least in which 
 the patient recovered by escape of pus through a bronchial tube. The 
 pleuritis is seldom latent, or so masked by the symptoms of the general 
 disease that it is apt to be overlooked. On the other hand, the cough, 
 embarrassment of respiration, and pain referred to the affected side 
 render diagnosis easy. 
 
 Dilatation of the heart is common in grave cases of scarlet fever, 
 such cases as are properly termed malignant. It is indicated by a 
 feeble and quick pulse. Acute infectious maladies, especially those 
 of a malignant type and accompanied by high febrile movement, are 
 very apt to cause pareuchymatous degenerations in organs, prominent 
 among which is granulo-fatty degeneration of the muscular fibres of the 
 heart. This weakens very much the contractile power of these fibres. 
 But early in malignant cases, probably before the muscular fibres are 
 damaged, the contractile power of the heart is feeble from impaired 
 innervation, the result of the general weakness. Hence this organ, 
 when weakened by structural change and insufficiently stimulated through 
 diminished innervation, may not fully empty itself during the systole, 
 and consequently it becomes dilated. Dilatation of the heart and imper- 
 fect contraction of the auricular and ventricular walls are apt to result in 
 the formation of clots in the cavities of the heart ; and this appears to be 
 the immediate cause of death in not a few instances. An ante-mortem 
 clot occurring in any of the cavities of the heart necessarily seriously 
 obstructs the circulation, unless it be of small size. Hence the dyspnoea, 
 which may occur perhaj>s suddenly, and the change of pulse to one of 
 marked feebleness and frequency. * Large, firm white clots are most fre- 
 quently found in the right cavities. They interlace with the chordae 
 teudiuese, lie even within the auriculo-ventricular opening, and send pro- 
 longations into the pulmonary artery and the cavae. Associated with the 
 white clots are dark, soft clots and fluid blood. The left cavities may be 
 contracted and empty, or they may contain dark, soft clots or white ante- 
 mortem clots. Clots in the 'left ventricle are sometimes prolonged into 
 the aorta as far as the brachio-cephalic branches, while those in the left 
 auricle may extend to the pulmonary veins. If dilatation of the heart 
 be so sreat that clots form in its cavities, speedy death is probable. 
 Sometimes a patient passes through scarlet fever and appears in a fair 
 way to recover, when he succumbs to some exhausting sequel distinct 
 from the heart, and at the autopsy the heart is found dilated and <* mtam ; 
 ing whitish clots, which are probably aute-mortem, and which hastened
 
 524 SCARLET FEVEE. 
 
 death by obstructing the circulation. Under such circumstances this 
 state of the heart is attributable in great measure to the complication 
 which lias weakened its contractile power. 
 
 The following was a case in point. It occurred in the New York 
 Foundling Asylum : 
 
 Case 7. R. A., aged three years, had scarlet fever, beginning March 23, 
 1882. The symptoms were favorable at first, but serious complications 
 and sequelae occurred, which were fatal. The record of April 18th reads : 
 " Appears well nourished, but is anaemic ; has otorrhoea ; no oedema ; 
 skin desquamating ; dulness on percussion over upper third of right side 
 of chest, anteriorly and posteriorly ; mucous rales and rude breathing over 
 same area ; fine rales posteriorly over lower part of left side of chest ; 
 pulse 100, respiration 68, temperature 101-f ." April 20th, is feeble and 
 takes nutriment with difficulty; tongue thickly coated; pulse 160, res- 
 piration 68, temperature 101f. April 26th, condition about the same 
 as at last record, but he is evidently weaker ; the lips are ulcerated and 
 fauces still swollen. May 2d, cannot speak distinctly ; a brownish, foul- 
 smell ing secretion lodges on the spoon used in depressing the tongue; 
 left side of face swollen. On the following night eight convulsions 
 occurred, attended by orthopuoea, and mucous rales in the chest from 
 pulmonary oedema. Diarrhoea supervened and the patient died about 
 midnight. Autopsy : Body moderately wasted and very white, several 
 dark-blue spots on scalp and face from hemorrhages underneath; lips 
 covered with dry crusts ; brain of normal appearance ; aperture of the 
 larynx narrowed at the chink by infiltration and swelling of the tissues; 
 surface of the vocal cords covered by a thin white film, apparently a 
 fibrinous exudation; tracheal surface hypersemic; about a drachm of 
 straw-colored fluid in each pleural cavity ; right lung wholly adherent 
 by recent exudation of fibrin ; left lung also largely adherent. A care- 
 ful examination showed the presence of broncho-pneumonia in each lung, 
 with considerable infiltration of the walls of the bronchi, and cylindrical 
 dilatation of many of them ; cavities of the heart dilated, so that this 
 organ appears much enlarged, and its shape approaches the globular ; its 
 apex is rounded or obtuse ; transverse diameter of the right ventricle, 
 when its walls were open and drawn apart, was three and one-quarter 
 inches ; that of the left ventricle three and a half inches. Similar meas- 
 urements of the heart of another child of about the same age, believed 
 to be normal, were about one inch less in each direction. All the cavi- 
 ties contain white firm clots along with soft dark clots. Liver of normal 
 size, pale ; the outer surface and all cut surfaces are studded with 
 nodules of the size of a pin's head, of a dull, opaque white color. These 
 white spots, examined microscopically by Professor Delafield, are found 
 to be neither tubercles nor gummy tumors, but to consist of polygonal 
 cells, lying in the meshes of the capillary plexus of veins, which are per- 
 fectly preserved. He has not observed a similar case. The walls of the 
 gall-bladder are one line or more in thickness, and the gall-duct is pervi- 
 ous. The microscope shows general hypertrophy of the gall-bladder and 
 hypertrophy of its papillae. The urine removed from the bladder was 
 found to contain albumen and hyaline casts, and a microscopic exami- 
 nation showed a small amount of parenchymatous inflammation. The 
 spleen was somewhat enlarged. Punctate congestion of small areas of
 
 COMPLICATIONS AND SEQUELAE. 525 
 
 gastric surface, no increase of mucus; mesenteric glands uniformly 
 enlarged ; jejunum, ileum, and colon exhibited a slightly increased vas- 
 cularity. The immediate cause of death appeared to be imperfect con- 
 traction of the heart and the formation of clots in its cavities, due, 
 apparently to the pleuro-pneumouia as much as, or more than, to the 
 primary disease, scarlatina. 1 
 
 There can be little doubt that nephritis in its milder form is much 
 more common than was formerly supposed. A few years since little 
 attention was given by a large proportion of physicians to the state 
 of the kidneys, and the urine was not examined till dropsy made its 
 appearance, which only occurs in the more severe forms of nephritis 
 and is a late symptom. It is now known that catarrh of the renal 
 tubes frequently occurs in a mild form early in scarlet fever, without 
 causing albuminuria, dropsy, or any notable symptom. It may pro- 
 duce a smoky color of the urine, and the appearance in it of granular 
 epithelial cells, with an increase of mucus, but no albumen. With care- 
 ful treatment and no exposure to cold, the renal catarrh abates with the 
 decline of the scarlet fever. It is scarcely severe enough to merit the 
 name desquamative, tubal, or parenchymatous nephritis, though it is a 
 mild form of the same pathological state. Steiner states, as the result of 
 many careful examinations of cases, that hypersemia of the kidneys was 
 always present in those who died early in scarlet fever, and that in a cer- 
 tain proportion of these cases catarrh of the renal tubules was present in 
 addition to the congestion. Even in some who died on the second or 
 third day he found cloudiness of the epithelium in the renal tubes, 
 although the urine had not indicated such a change. The opinion has 
 even been expressed that catarrh of the renal tubes is as. common in scarlet 
 fever as that of the bronchial tubes in measles; that is, that it is a 
 uniform element in the disease ; but this appears to be an exaggerated 
 statement, for others have failed to find any evidence of renal catarrh in 
 certain cases. 
 
 The nephritis which gives rise to symptoms, and therefore interests 
 the practitioner, commonly begins in the declining period of scarlet 
 fever or during the desquamative stage, and is in many instances plainly 
 attributable to exposure to cold or to currents of air. It originates cither 
 during this period, or, if it have previously existed as a mild renal 
 catarrh, it now becomes aggravated. Dropsy, which always attracts atten- 
 tion, does not occur till the nephritis has continued for some time. 
 
 Why nephritis, with the subsequent dropsy, so frequently occurs after 
 scarlet fever is not fully understood. Rilliet and Barthez attribute it to 
 disturbance of the function of the skin. The fact has long been observed 
 that the kidneys become aifected nearly if not quite as frequently after 
 mild as after severe cases. Indeed, the chief danger in mild cases, when 
 the patients are but a short time in bed and are soon allowed to go about, 
 is from the nephritis. Chilling the surface and checking cutaneous trans- 
 piration appear to be the immediate cause of this inflammation in a 
 considerable proportion of cases. Therefore, severe attacks of scarlet 
 fever with abundant rash and desquamation, which require the patient 
 to be kept in bed the proper time and in a warm room two or three 
 
 1 Dr. Goodhart (Guy's Hospital Reports, 1879) reports several interesting cases to con- 
 firm his opinion that acute dilatation of the heart is a not infrequent sequel of scarlatin- 
 ous nephritis, and is the cause of death in some apparently inexplicable cases.
 
 526 SCARLET FEVER. 
 
 weeks, appaar to be less frequently followed by this renal disease than 
 are milder eases which are more carelessly treated. 
 
 The most thorough and minute microscopic examination of the state 
 of the kidneys in scarlet fever which have come to my notice were 
 those by E. Klein, published in the Land. Path. S'oc. Trans., and illus- 
 trated by microscopic drawings. It appears from these examinations 
 that the changes in the kidneys are complex, among which we recognize 
 both those of parenchymatous or desquamative nephritis and interstitial 
 nephritis ; but we would infer that the interstitial nephritis is mild in 
 degree and quite subordinate, or else confined to portions of the organ, 
 from the fact that so many permanently and fully recover. The follow- 
 ing is a resume" of Klein's examinations in twenty-three cases : We con- 
 elnde from these microscopic researches that the anatomical changes of 
 both parenchymatous and interstitial nephritis are commonly present in 
 greater or less degree in cases of scarlet fever. If they are mild or con- 
 ftned to portions of the kidneys, no symptoms occur; but if they are 
 sufficient in extent or degree to impair the function of these organs, then 
 symptoms, as albuminuria, diminution of urine, etc., appear. 
 
 1. Parenchymatous Nephritis, Proliferation of Nuclei, Hyaline Degen- 
 eration of Arterioles, the Glomerulo-Nephritis of Klebs. Klein found 
 increase of nuclei (probably epithelial) upon the glomeruli and hyaline 
 degeneration of the intima of minute arteries, especially marked in the 
 afferent arterioles of the Malpighian bodies. The intima of these 
 vessels was in places so swollen as to resemble cylindrical or spindle- 
 shaped hyaline masses, and cause narrowing of the lumina of the vessels 
 in which this degeneration occurred. Klein observed in some specimens 
 so great hyaline degeneration of the capillaries of the Malpighian bodies 
 that circulation through them was obstructed. In the more advanced or 
 protracted cases this hyaline substance in the glomeruli began to assume a 
 fibrous appearance. Bowman's capsule was considerably thickened. This 
 hyaline degeneration of the Malpighian Ixxlies Klein discovered in the 
 earliest cases which fell under his observation. 
 
 Also in the earliest cases the multiplication or germination of the 
 nuclei of the muscular coat of the arterioles was observed, with a corre- 
 sponding increase in the thickness of the walls of these vessels. This 
 change in the muscular element was observed in the arterioles in different 
 parts of the kidney, but it was most conspicuous in arterioles at their point 
 of entrance into the Malpighian bodies ; and it was distinctly observed in 
 other arterioles, both in the cortex and in the base of the pyramids. 
 
 In the glandular portion of the kidneys other anatomical alterations 
 were observed, indicating parenchymatous nephritis. There were swelling 
 of the epithelial lining of the convoluted tubes ; multiplication of nuclei 
 of epithelial cells, especially in ascending tubules, which lay close to the 
 afferent arterioles of Malpighian corpuscles ; granular matter, and even 
 Mood, in the cavity of Bowman's capsule and in the convoluted tubes; 
 cloudy swelling and granular disintegration of epithelium in some 
 parts of the convoluted tubes; detachment of epithelium from the 
 membrane of larger ducts of the pyramids in some cases. These 
 parenchymatous changes are already known to the profession through 
 the ol>servations and writings of Dickinson, Fenwick, Johnson, John 
 Simon, and others.
 
 COMPLICATIONS AND SEQUELS. 527 
 
 Klein, in commenting on the hyaline degeneration which he observed, 
 states that Neelsen found the walls of the capillaries of the pia mater 
 thickened, highly refractive, and of a lardaceous appearance in certain 
 acute infectious maladies, as variola, typhoid fever, measles, and in 
 one case of scarlet fever. l Usually, only a small portion of the 
 capillaries were thus affected, most frequently at the point of divis- 
 ion into branch lets. In a few instances Neelseu observed degen- 
 eration of arteriolcs extending a considerable distance, with fusion 
 of the intima, media and adventitia, and chemical examination showed 
 that the substance produced by this degeneration had similar properties 
 to elastic tissue. Although the examinations by Xeelseu relate to the 
 pia mater, two of his observations are especially interesting first, that the 
 hyaline change affects chiefly vessels near their point of branching; and, 
 secondly, that the hyaline substance is of the nature of elastic tissue, for 
 in the kidney in scarlatinous nephritis the arterioles undergo the change 
 in question chiefly near their point of branching into the capillaries of 
 the glomerulus; and the intima being the part which undergoes the 
 hyaline change, it is probable, in the opinion of Klein, that the same 
 substance is produced by the degeneration in walls of the vessels of the 
 kidney which Neelsen observed in the pia mater, and therefore that it is 
 of the nature of elastic tissue. 
 
 This hyaline degeneration of the arterioles is also very marked in the 
 spleen in scarlet fever; and in studying the minute anatomy of the 
 intestines and spleen in typhoid fever Klein has found the same degener- 
 ation of the intima of the minute vessels. He believes that this hyaline 
 change and the proliferation of muscle-nuclei which thus occur at an 
 early period in scarlet fever in the renal vessels when the kidneys become 
 affected are due to an irritating cause acting similarly to that in typhoid 
 fever. 
 
 Klein calls attention to the interesting examinations of the scarlatinous 
 kidney made by Klebs, who attributed the diminished urination and the 
 ursemic poisoning in certain cases in which the kidneys do not exhibit 
 any marked change to the naked eye, to what he designates glomerulo- 
 nephritis. Klebs says : " In the post-mortem examination the kidneys 
 are found slightly or not at all enlarged, firm, .... the parenchyma 
 very hyperaemic. Only the glomeruli appear, on close inspection, pale 
 like small white dots. The urinary tubes are often not changed at all. 
 Occasionally the convoluted tubes are slightly cloudy. The microscopic 
 examination shows that there are neither interstitial changes nor prolifer- 
 ation of epithelium, the so-called renal catarrh generally supposed to be 
 present in these conditions on account of the absence of other perceptible 
 derangements ; and there seems, therefore, leaving out the glomeruli, the 
 congestion of the kidneys alone to remain to account for the symptoms 
 during life." But that mere congestion is insufficient to produce the 
 symptoms appears from the fact that it does not produce them under 
 other circumstances. Klebs finds, " on microscopic examination of the 
 glomerulus, the whole space of the capsule filled with small somewhat 
 angular nuclei, imbedded in a finely granular mass. The vessels of the 
 glomerulus are almost completely covered by nuclear masses." 
 
 Klein, commenting on these examinations by Klebs, states that in all 
 1 Archiv der Heilkunde, 1876.
 
 528 SCARLET FEVER. 
 
 early cases which he examined he observed great abundance of nuclei 
 of the glomeruli, but a condition like that described and figured by Klebs 1 
 he has seen in only a few glomeruli ; for a general state of these bodies, as 
 described by this observer, and such an excessive proliferation of the nuclei 
 that the blood-vessels are completely compressed, was not seen in one of 
 the twenty-three cases. Klein therefore questions whether the diminished 
 urination" and retention of urea in scarlet fever, when the kidneys do 
 not exhibit any conspicuous catarrhal or other change, is due, unless in 
 exceptional instances, to compression of the vessels of the glomeruli by 
 nuclear germination, but believes, rather, that the obstructed circulation, 
 and consequent diminished urinary excretion, is largely due to the 
 changed state of the arterioles. Klein adds that perhaps undue con- 
 traction of the arterioles, through stimulation by the blood-irritant, may 
 also be a factor in causing arrest of circulation in the Malpighian cor- 
 puscles. As regards cases that perished early, he found the parenchy- 
 matous change slight, so that a careful examination was required in order 
 to detect cloudy swelling and granular degeneration. 
 
 2. Interstitial Nephritis. A second set of changes Klein observed 
 in cases that died on about the ninth or tenth day. In such cases he 
 found changes due to interstitial, in addition to those produced by paren- 
 chymatous, nephritis. Round cells, lymphoid cells, or whatever else they 
 should be called, were seen in the connective tissue of the kidneys. In the 
 kidneys of those that died at the end of the first week after the com- 
 mencement of nephritis, infiltration with round cells was observed in the 
 connective tissue around the large vascular trunks. At a later stage this 
 infiltration had extended into the bases of the pyramids and into the 
 cortex. The gradual increase in extent and intensity of this infiltration 
 was so decided in the cases which Klein observed that he has no hesita- 
 tion in concluding that when interstitial nephritis occurs it begins about 
 the end of the first week, in the manner already stated to wit, as a 
 slight infiltration of the tissue around the large vascular trunks, and 
 gradually extends, so that portions of the cortex, and rarely portions of 
 the base of the pyramids, are changed into firm, pale, round-cell tissue, 
 in which the original tubes of the cortex become lost. 
 
 The infiltration of the cortex with round cells, beginning at the roots 
 of the interlobular vessels, spreads rapidly toward the capsule of the 
 kidney, and laterally among the convoluted tubes around the Malpighian 
 bodies In the course of this process considerable parts of the per- 
 ipheral cortex, occasionally of a more or less distinctly cuneiform shape, with 
 the base nearest the capsule of the kidney, become changed into whitish, 
 firm, bloodless, cellular masses, in which Malpighian corpuscles and 
 urinary tubes are only imperfectly recognized, being more or less degen- 
 erated. In some cases attended by this infiltration of the cortex Klein 
 observed a more or less dense reticulation of fibres, especially around the 
 interlobular arteries, containing in its meshes lymph-cells, chiefly uni- 
 nuclear. 
 
 In a child of five years that died after a sickness of thirteen days Klein 
 found evidence of intense interstitial inflammation, and also emboli, consist- 
 ing of fibrin with a few cells, in the arteries, both in those of large size 
 and in the arterioles, chiefly where they enter the Malpighian corpuscles. 
 1 Eandbuch der Paihol, p. 646, fig. 72.
 
 COMPLICATIONS AND SEQUEL JE. 529 
 
 He states that in the specimens which he examined the more intense the 
 degree of interstitial change, the greater was the enlargement of the 
 kidneys, and the more distinct also were the evidences of parenchymatous 
 nephritis in the urinary tubes, which either contained casts or were 
 in the process of destruction. By being crowded with inflammatory 
 product?, especially cells, the Ma'lpighian corpuscles were obliterated, 
 undergoing fibrous degeneration. A very curious fact observed was the 
 deposit of lime in the urinary tubes, first of the cortex, and then also of 
 the pyramids, at an early stage of scarlet fever, when the kidneys other- 
 wise showed only slight change. Several observers, as Biermer, Coats, 
 and Wagner, have each described a case of scarlet fever with interstitial 
 nephritis, which they consider unusual ; but Klein has apparently dem- 
 onstrated, as we have seen, by a large number of microscopic examina- 
 tions, that this form of nephritis is common after the ninth or tenth day. 
 
 Nephritis, in proportion to its extent and gravity, is accompanied by. 
 languor, febrile movement, thirst, loss of appetite and strength. At first 
 the patient experiences but slight pain in the head or elsewhere, and the 
 quantity of urine is not notably diminished ; but as the disease continues 
 urination becomes less frequent and the urine more scanty. Albuminuria 
 occurs, while the urea is only partially excreted, and therefore accumulates 
 in the blood. If the nephritis be so severe or protracted that this princi- 
 ple accumulates to a certain extent, grave symptoms occur, as headache, 
 vomiting, apathy or restlessness, and, more dangerous than all, eclampsia, 
 which is not unusual in these cases. Microscopic examination of the 
 urine shows the presence in this liquid of blood-corpuscles, granular epithe- 
 lial cells, and hyaline or granular casts, or both. The specific gravity 
 of the urine is diminished. But a large quantity of albumen in the 
 urine may render the specific gravity as high or higher than in health. 
 
 The altered state of the blood soon gives rise to transudation of serum, 
 first observed in most cases as an anasarca occurring in the feet and ankles. 
 The oedema, if not checked by treatment or through mildness of the dis- 
 ease, extends over the limbs, scrotum, and sometimes upon the trunk. It 
 is well if the dropsy remain limited to the subcutaneous connective tissue, 
 but, unfortunately, it is apt to occur, if the nephritis continue, in and 
 around the internal organs, producing, mentioned in the order of fre- 
 quency, pulmonary oedema, effusion into the pleural and peritoneal cavi- 
 ties, the pericardium, the encephalon, and lastly into the connective tissue 
 of the larynx, causing that very fatal complication, oedema of the glottis. 
 Although this is the common order in which dropsies occur, exceptions 
 are not infrequent. Even the anasarca may not be the first to appear, 
 although in the vast majority of cases it has the precedence. Thus, 
 Rilliet relates the case of a boy of five years who twenty days after the 
 occurrence of scarlet fever, and six hours after the appearance of bloody 
 and albuminous urine, had double hydrothorax, rapidly developed. As 
 long as the hydrothorax continued no anasarca was observed, but as it 
 declined anasarca appeared. Legendre cites a case in which oedema 
 of the lungs occurred without anasarca or other dropsy. Occasionally, 
 the anasarca and internal dropsies take place nearly simultaneously. The 
 nephritis and consequent serous effusions usually appear within three 
 weeks after scarlet fever ends, but cases occur in which the effusions are 
 first observed as late as the fourth and fifth weeks. The patient may be 
 
 VOL. I. 34
 
 530 SCARLET FEVEE. 
 
 considered to possess immunity from this sequel if he have reached the 
 close of the fifth week after the abatement of scarlet fever without its 
 occurrence. 
 
 The dropsy is usually acute, but it may assume the chronic form, since 
 the nephritis which causes it, happily curable in most instances, may, if 
 neglected, become chronic. Whether the dropsy in itself involve danger 
 depends in great part on its location. Anasarca and ascites may exist a 
 long time with little suffering or danger, but a small amount of serum in 
 certain other localities causes alarming symptoms and speedy death. 
 (Edema of the lungs, hydro-pericardium, oedema of the glottis, and intra- 
 cranial effusions are always dangerous, and the last two are sometimes 
 fatal within twenty-four to forty-eight hours. QEdema of the lungs has 
 been fatal within twelve hours from the occurrence of the first symptoms 
 of obstructed respiration. 
 
 Cerebral symptoms occurring during scarlatinous nephritis are probably 
 sometimes due to the irritating effect of the retained urea on the nervous 
 centre. In other cases the cause appears to be cerebral oedema or com- 
 pression of the brain by effusion of serum within the ventricles and upon 
 the surface of the brain. Headache, dull or severe, dilatation of the 
 pupils or their oscillation in the same degree of light, vomiting with little 
 apparent nausea, are common symptoms of scarlatinous nephritis when it 
 has continued a few days, and the excretion of urea is so diminished that 
 this substance begins to exert its poisonous effect on the system. Such 
 symptoms are apt to be followed by somnolence, threatening coma, or by 
 eclampsia, unless the patients are promptly and properly treated. In 
 some patients that die of scarlatinous nephritis, death occurring in con- 
 vulsions or coma, no appreciable lesions are observed within the cranium, 
 unless more or less congestion, the fatal ending being attributable to the 
 uraemia. In other instances we find an effusion of serum within the ven- 
 tricles or upon the surface of the brain. Although the symptoms in scar- 
 latinous nephritis and uraemia may appear very unfavorable, the progno- 
 sis is usually good under prompt and appropriate treatment. Thus severe 
 convulsions and a degree of somnolence that bordered on coma may abate, 
 and convalescence be fully established within a few days, and Rilliet and 
 Barthez announce ten recoveries in thirteen patients affected with convul- 
 sions due to this renal affection. 
 
 ANATOMICAL CHARACTERS. Scarlet fever being, as we have seen, a 
 constitutional febrile disease of an ataxic nature, and accompanied by 
 certain inflammations, necessarily affects the composition of the blood ; 
 but since this disease varies so greatly in type or severity, the state and 
 appearance of this liquid also vary. At the autopsies of the more 
 malignant cases we find the blood dark and fluid, with small, soft, and 
 dark clots in the heart and large vessels. In other cases the clots are 
 large, firm, and solid, as described in a preceding page. In malignant 
 cases that end fatally Rilliet and Barthez state that both the large and 
 small vessels of the cerebral meninges and the brain are found hyper- 
 semic, but in a variable degree. In those who die in coma, preceded by 
 delirium or convulsions, during the eruptive stage, the intracranial con- 
 gestion is usually marked, with perhaps some transudation of serum, but 
 without inflammatory lesions. The fibrin in scarlet fever remains in 
 about normal proportion, except as it is increased by inflammatory com-
 
 ANATOMICAL CHARACTERS. 531 
 
 plications. Andral found an increase in the proportion of blood-cor- 
 puscles from 127 to 136 parts in 1000. 
 
 The respiratory apparatus, except the Schneiderian membrane, is usually 
 normal when no complications exist. Samuel Fenwick 1 made post-mortem 
 examinations in sixteen cases of scarlet fever, and concludes from them that 
 inflammation of the mucous membrane of the stomach and intestines occurs 
 like that of the skin, followed by desquamation of the epithelial cells, like 
 that of the epidermis. I have had the opportunity of examining the 
 stomach and intestines of those who died of scarlet fever in the eruptive 
 stage, and have not found any unusual hypersemia of the gastro-intes- 
 tinal surface, except when gastro-intestinal inflammation, usually indi- 
 cated by diarrhoea, had occurred as a complication. 
 
 In some cases the abdominal organs exhibit changes which suggest a 
 resemblance to typhoid fever. The spleen is enlarged and somewhat 
 softened, and Peyer's patches and the solitary glands are thickened and 
 prominent, but less in degree than in typhoid fever. The mesenteric 
 glands also are in a state of hyperplasia. In other patients these parts 
 appear normal. 
 
 Klein made microscopic examination of the liver in eight cases, and 
 states that he found granular opaque swelling of liver-cells, and changes 
 in the internal and middle coats of certain arteries similar to those 
 observed in the kidneys, which have been described above. He also 
 found evidences of interstitial inflammation, as an increase of round 
 cells and connective tissue in the liver. He remarks also that he 
 observed hyaline degeneration of the intima of arteries in the spleen. 
 Rilliet and Barthez state that swelling and softening of the spleen are 
 exceptional in scarlet fever, but are sufficiently common to merit atten- 
 tion. In post-mortem examinations which I have witnessed nothing 
 noteworthy has appeared to the naked eye in the state of the liver, nor 
 ordinarily in that of the spleen. 
 
 The efflorescence, though one of the anatomical characters, has per- 
 haps been sufficiently described in the foregoing pages. It begins over 
 the neck, chest, and groins as numerous reddish points not larger than 
 a pin's head, closely crowded together, but with skin of normal color 
 between. It is estimated that the aggregate efflorescence and aggregate 
 normal skin over a given area are about equal. If the cutaneous circu- 
 lation be active and the febrile movement be considerable these spots 
 extend and coalesce, producing an efflorescence like erythema or like the 
 hue of a boiled lobster, to which it has been likened. The efflorescence, 
 less upon the face than upon the trunk, contrasts in this respect with 
 that of measles, in which the rash is full in the face, often causing some 
 swelling of the features. It is also less upon the palmar and plantar 
 surfaces than elsewhere. It scarcely causes any perceptible elevation 
 of the skin, but in certain localities, as upon the backs of the hands 
 and upon the fore-arms, it communicates the sensation of slight rough- 
 ness. The seat of the efflorescence is mainly in the superficial payers of 
 the skin, but it is said that it sometimes has occurred upon a cicatrix, as 
 that from a burn. In the robust and in favorable cases in which the 
 circulation is active the rash has a scarlet hue, and when the cutaneous 
 capillaries are emptied and the skin rendered pale by pressure with the 
 1 London Lancet, July 23, 1864.
 
 532 SCARLET FEVER. 
 
 fingers, the circulation immediately returns when the pressure is removed. 
 Inmalignant cases the color is not scarlet, but dusky red, and so sluggish 
 is the capillary circulation that the skin when pressed upon recovers the 
 blood very slowly. In grave cases also extravasation of blood in minute 
 points or transudation of its coloring matter is apt to occur in portions 
 of the surface, when of course decolorization is not fully produced by 
 pressure. In cases ending fatally, during the eruptive stage the efflores- 
 cence may entirely disappear in the cadaver, or it remains upon parts of 
 the surface, especially depending portions. Desquamation is attributable 
 to the exaggerated proliferation of the epidermis and the loosening of its 
 attachment by the inflammation. 
 
 DIAGNOSIS. In the commencement of scarlet fever, prior to the 
 eruption, no symptoms or appearances exist which enable us to make a 
 positive diagnosis. Positive statement in reference to the nature of the 
 attack should be deferred, for the credit of the physician. Still, if a 
 child with no appreciable local disease sufficient to cause the symptoms a 
 few days after exposure to scarlet fever, or during an epidemic of this 
 malady, be suddenly siezed with fever, the pulse rising to 110, 120, or 
 more, and the temperature to 102, 103, or 105, scarlatina should be 
 suspected. The diagnosis is rendered more certain at this early stage if 
 vomiting occur, and especially if the fauces be red, for hypersemia of the 
 fauces, due to commencing pharyngitis, is one of the earliest and most 
 constant of the local manifestations of scarlatina. 
 
 When the eruption has appeared the nature of the malady is in most 
 instances apparent. The punctate character of the eruption before it 
 becomes confluent, its occurrence within twenty-four hours after the fever 
 begins over almost the entire surface, but its absence or scantiness upon 
 the face, and especially around the mouth, serve to distinguish it from 
 other diseases. 
 
 Scarlet fever and measles were long considered identical by the pro- 
 fession, and, though the ordinary forms of these maladies can be readily 
 distinguished from each other, cases occur in which the differential diag- 
 nosis is attended by some difficulty. But there are differences in the 
 symptoms and course of the two diseases which aid in discriminating one 
 from the other. Measles begins with marked catarrhal symptoms, as if 
 from a severe cold. Mild conjunctivitis, causing weak and watery eyes, 
 coryza, and mild laryngo-bronchitis, with accompanying cough, precede 
 the eruption three or four days and continue during the eruptive stage. 
 The febrile movement in the prodromic stage of measles is remittent, the 
 evening temperature being two or three degrees higher than that in the 
 morning. Contrast this with the invasion of scarlet fever, in which the 
 only catarrh is that of the buccal and faucial surfaces, and there is con- 
 sequently little or no cough, and the febrile movement, ordinarily high 
 in the beginning, is nearly uniform in the different hours of the day. 
 The scarlatinous eruption appears, as we have seen, within twelve to 
 twenty- four hours about the neck and upper part of the chest, and 
 spreads over the body in a shorter time than that of measles, which 
 appears on the third day. The rash of measles begins to fade at the 
 close of the third or in the fourth day after its appearance, that of 
 scarlet fever not till from the sixth to the eighth day. In nearly all 
 cases of measles, even when the rash is confluent upon the face and a
 
 PROGNOSIS. 533 
 
 considerable part of the trunk, in consequence of the high febrile move- 
 ment and vigorous cutaneous circulation, we observe the characteristic 
 rubeolar eruption upon certain parts of the surface, as the extremities, 
 which, in connection with the history, renders diagnosis certain. 
 
 Erythema resembles the scarlatinous eruption, but its duration is com- 
 monly shorter. It is limited to a part of the surface, and it is accompa- 
 nied by much less febrile movement. The temperature in erythema does 
 not usually rise above 100, unless for a few hours, whereas in scarlet fever 
 it continues considerably above 100 for several days. The scarlatinous 
 efflorescence has also a brighter red or more scarlet hue than that of 
 erythema, except in the more malignant cases, in which the severity of 
 the symptoms renders the diagnosis clear. But an important aid in 
 differentiating the one from the other of these diseases is the fact that 
 in erythema there is, with few exceptions, no faucial inflammation, and 
 in the few instances in which it is present it is slight and transient, fading 
 within a day or two. 
 
 Scarlet fever is readily diagnosticated from diphtheria, although the 
 affinity is close between these two maladies. The early appearance of 
 the pseudo-membrane upon the fauces in diphtheria, its absence in scarlet 
 fever, and the absence of any appearance resembling it until the fever has 
 continued some days, and the characteristic efflorescence upon the skin in 
 scarlet fever, render diagnosis easy. If scarlet fever have continued 
 some days when first seen by the physician, the diphtheritic pseudo- 
 membrane may be present as a complication, or the fauces may present 
 an appearance like diphtheria from ulceration or sloughing and the 
 presence of foul and offensive secretions, which produce a dark-grayish 
 and fetid mass over the faucial surface. Under such circumstances the 
 character of the disease is ascertained by the history of the case, and 
 especially by the occurrence of the scarlatinous eruption. An erythema 
 t nmsient and limited to a part of the surface sometimes appears in the com- 
 mencement of diphtheria, and at a later period, as a result of the toxaemia, 
 points of a roseoloid appearance and irregular patches, often located upon 
 the extremities. Both kinds of rash can be readily diagnosticated from 
 that of scarlet fever, for the erythema, as has been stated, is transient and 
 partial, and does not exhibit minute points of deeper injection, while the 
 toxremic rash differs in form and aspect from that of scarlet fever, and 
 appears at a stage of the case when the scarlatinous efflorescence would 
 have laded or begun to fade. 
 
 The efflorescence of rothelu sometimes closely resembles that of scarlet 
 fever, though it is usually more like that of measles ; but it is ordinarily 
 accompanied by symptoms which are much milder than those of scarlet 
 fever, and it begins to abate as early as the third, and disappears on the 
 fourth, day. The eyes have a suffused appearance, the temperature may 
 reach 102 or 103, and the efflorescence may be as general over the body 
 as that of scarlet fever, but there is not the aspect of serious indisposition, 
 and the speedy abatement of the symptoms shows that the disease is not 
 scarlet fever. 
 
 PROGNOSIS. The prognosis depends on the form of scarlet fever, 
 whether mild or severe, the strength of the patient, and the presence or 
 absence of complications or sequela;. The type of this disease is some- 
 times so mild throughout an epidemic or during a series of years that
 
 534 
 
 SCARLET FEVER. 
 
 death seldom occurs, whatever the mode of treatment ; but afterward the 
 type changes, and the percentage of deaths increases and remains high 
 till another mitigation in the type occurs. 
 
 Sydenham in the middle of the seventeenth century stated that scarlet 
 fever, as he saw it in London, was so mild that it scarcely deserved the 
 name of disease : " Vix nomen morbi merebatur." Morton some years 
 later, and Huxham in the following century, had abundant reason to 
 regret the change of type, and now throughout Great Britain scarlet fever 
 is one of the most fatal and most dreaded of the diseases of childhood. 
 In Dublin during the present century, prior to 1834, scarlet fever was 
 uniformly mild, so that on one occasion of eighty patients in an institu- 
 tion all recovered. In 1834 the type of the disease totally changed and 
 epidemics of unusual virulence occurred. The type frequently changes 
 from mild to severe or severe to mild, not only in consecutive years, but 
 in consecutive months. A few years since a distinguished physician of 
 New York treated about fifty cases of scarlet fever in one of the institu- 
 tions without a single death, but a few months later the type of the 
 malady changed, and his own son was among those who perished from it. 
 The prevailing type of the disease should therefore be considered in giv- 
 ing the prognosis when in the commencement of a case we are asked the 
 probability as regards the termination. 
 
 Extensive statistics, including those collected by Murchison from 
 various sources, show that in different epidemics the mortality may 
 vary as much as from 3 per cent. (Eulenberg of Coblentz) to 19.3 per 
 cent, (cases seen by myself in New York City in 1881-82, many of 
 wJiich were complicated by diphtheria), or even to 34 per cent, (epidemic 
 in the Palatinate in 1868-89). The hospital statistics of Rilliet and 
 Barthez gave 46 deaths in 87 cases, or about 53 per cent. 
 
 Observations have thus far failed to establish any connection in the 
 atmospheric conditions of temperature or moisture and the type of scarlet 
 fever. Grave as well as mild epidemics have occurred in all climates and 
 seasons. 
 
 The mortality is nearly equal in the two sexes, but age bears a marked 
 influence on the percentage of deaths. Comparatively few contract scar- 
 let fever under the age of one year, and the period of its greatest mortal- 
 ity, since it is of its greatest frequency, is between the ages of one and 
 six years. The following are statistics bearing on the relation of the age 
 to the percentage of deaths : 
 
 Under 1 year. 
 
 Fleishman, Cases 
 
 Deaths 
 
 Kraus, 
 
 Voit, 
 
 Koset, 
 
 Cases........ 13 
 
 Deaths 4 
 
 Cases 
 
 Deaths 
 
 Cases 43 
 
 Deaths 16 
 
 From the close 
 of 1st till close 
 of 5th year. 
 
 204 
 
 1st to close of 
 6th year. 
 
 113 
 29 
 
 166 
 24 
 
 From 1st to close 
 of 5th year. 
 
 156 
 31 
 
 From the 5th to 
 the 12th year. 
 
 260 
 51 
 
 6th to 12th year. 
 
 106 
 10 
 
 7th to 16th year. 
 
 109 
 
 10 
 
 Over 5 years. 
 
 88 
 3 
 
 From the 12th 
 to 20th year. 
 
 40 
 2
 
 PROGNOSIS. 535 
 
 Under 5 years. 5th to 10th year. 10th to 15th year. Over 15 years. 
 
 Kusigger, Cases 101 126 47 27 
 
 Deaths 21 20 3 
 
 These statistics, which I believe correspond with the observations of 
 others, show that although few cases occur in the first year, the percentage 
 of deaths is large, and that a majority of the deaths occur under the age 
 of six years. After the sixth year the greater the age the less the propor- 
 tionate number of deaths. 
 
 Scarlet fever is liable to so many complications and sequelae that a phy- 
 sician should not predict a certain favorable termination in the beginning, 
 however mild and regular the symptoms may be. But a favorable result 
 may be expected if the attack be mild, the efflorescence appear at the 
 proper time and extend over the entire surface, the angina be moderate 
 and accompanied by little or no cellulitis or adenitis, with pulse under 
 140, temperature not above 103, and no marked nervous symptoms. 
 
 Whether the complications or sequelae be dangerous depends upon their 
 character. Rheumatism has never in my practice been dangerous, nor 
 has it materially retarded convalescence, except when it affected the 
 heart, causing pericarditis or endocarditis, when it involves great danger. 
 Nephritis, if it be moderate, attended by little albuminuria and serous 
 effusion, and by the occurrence of few renal casts in the urine, commonly 
 ends favorably under judicious treatment, as we have already stated; but 
 severe nephritis, with abundant albuminuria and casts and serous effu- 
 sions, soon gives rise to alarming symptoms, and is the cause of death in 
 a considerable number of instances. A similar remark is applicable to 
 the angina, which occurs in all grades of severity. If it be attended by 
 much cellulitis, with considerable ulceration or necrosis, the state is one 
 of danger, in consequence of the difficulty in administering sufficient 
 nutriment, of the diminished assimilation and of the loss of strength 
 from the prolonged inflammatory fever, the septic poisoning, and the 
 occasional hemorrhages. Complication by pharyiigeal or nasal diphthe- 
 ria, now so common where diphtheria is endemic, also greatly increases 
 the danger. 
 
 Many cases, even when their course is normal and without complica- 
 tions, involve danger, and some are necessarily fatal, from the direct effect 
 of the scarlatinous blood-poisoning. Such are grave or malignant forms 
 of the disease which the experienced eye recognizes at a glance. ^ Death 
 often occurs rapidly from the toxaemia. Such cases are characterized by 
 high temperature (105 or 106), rapid pulse, a dusky-red hue of the 
 surface from languid capillary circulation, pungent heat, frequent vomit- 
 ing, diarrhceal stools, a dry-brown tongue, and marked nervous symptoms, 
 such as delirium, great restlessness, or stupor. Not a few in this form of 
 scarlet fever take eclampsia, which is apt to be severe and repeated, and 
 to end in fatal coma. 
 
 Other inflammatory complications and sequelae, which have been 
 described in the preceding pages, retard convalescence and jeopardize the 
 life of the patient, such as empyema, endocarditis, pericarditis, and pueu- 
 monia. Otitis media is seldom immediately dangerous, although it^may 
 be painful and involve serious consequences, even a fatal meningitis, as 
 has been stated above, after months or years of otorrhoea. Anomalous 
 cases are believed to be, as a rule, more dangerous than such as are
 
 536 SCARLET FEVER. 
 
 attended by au early and full efflorescence and have the usual symp 
 toms. 
 
 TREATMENT. PROPHYLAXIS. Since the discovery by Jenuer of the 
 prophylactic power of vaccination as regards small-pox, the attention of 
 the profession has been frequently directed to the prevention of scarlet 
 fever. Belladonna has been employed for this purpose by a class of 
 practitioners who believe in the theory that an agent which produces 
 symptoms similar to those of a disease is antagonistic to that disease, and 
 therefore tends to prevent it, or, if it be present, to render it milder ; and 
 since this herb causes an efflorescence upon the skin and redness of the 
 fauces, it was selected as the proper preventive and remedial agent for 
 scarlet fever. Its use, however, for this purpose has been fruitless, and 
 it is now nearly or quite discarded. 
 
 It is probable, from a considerable number of observations, that scarlet 
 fever occasionally occurs in the domestic animals during epidemics of the 
 disease in children. It is stated that Spinola observed it in the horse ; 
 that Heim saw a dog that occupied the same bed with a scarlatinous 
 patient sicken with fever, which was followed by desquamation ; that 
 Letheby saw scarlatina in swine, and Kraus in young cattle. Prominent 
 veterinary surgeons, as Williams of Great Britain, admit the occurrence 
 of scarlatina in animals, and the hope has arisen that since small-pox is 
 modified in cattle so as to afford us the vaccine virus, perhaps scarlet fever 
 may also be modified by passing through one of the lower animals, so 
 that a milder and less fatal form of the disease might be produced in man 
 by inoculation from the animal. This theory, though it deserves investi- 
 gation, is far from being established. It has not yet, so far as I am 
 aware, been shown that scarlet fever is milder in any animal than in man, 
 nor, if we admit that it is modified in the animal, is it certain that the 
 disease could be returned to man in the modified form. In the N. Y. 
 Medical Record for March 24, 1883, some experiments are detailed by S. 
 W. Strickler of Orange, New Jersey. He cites the experiments of Gaze 
 and Feltz, who injected scarlatinal blood under the skin of sixty-six rab- 
 bits, and of these sixty-two died within eighteen hours to fourteen days, 
 which indicated a highly poisonous state of the blood employed, either 
 septic or scarlatinous, and certainly no mitigation of the virulence of the 
 scarlet fever. Strickler obtained from Williams of Edinburgh nasal 
 mucus from a horse supposed to have scarlatina, and with it inocu- 
 lated twelve children, all of whom had sores at the point of inoculation, 
 with redness of the skin around the sores, and in some instances swelling 
 of the adjacent lymphatic glands. It is stated that the children thus 
 inoculated did not contract scarlet fever subsequeutly when they were 
 exposed to scarlatina. Obviously, there is a serious objection to such 
 experiments upon children, so that they may not be repeated, but a move- 
 ment has been made in one of the New York medical societies look- 
 ing to the appointment of a competent committee to investigate them. 
 Some of the prominent veterinary surgeons of this city do not attach 
 much importance to the experiments thus far made, as they are in doubt 
 whether the virus employed was that of the genuine disease. 
 
 It is a matter of great interest and importance, and one not yet eluci- 
 dated, whether or to what extent disinfectant and antiseptic remedies 
 administered internally prevent the occurrence of the infectious maladies
 
 TEE A TMENT.PR OPHYLAXIS. 537 
 
 in those who have been exposed, and aid in curing those who are sick 
 with them. Sodium sulpho-carbolate, from which, by decomposition in 
 the system, carbolic acid is supposed to be set free, has been used for 
 this purpose. It is administered to adults in doses of ten to thirty 
 grains, and to children in doses proportionate to their age. Declat 
 has prepared a syrup of phenic (carbolic) acid as a preventive and cura- 
 tive agent in the infectious diseases. It is now employed by several of 
 the New York physicians, but thus far the statistics of its use are not 
 sufficient to determine its efficacy. It is a question whether the so-called 
 antiseptics can, on account of their toxic properties, be used with safety 
 in doses sufficiently large to be antidotal to the specific principle of any 
 of the infectious maladies. 
 
 It is not my intention to recommend in this treatise any remedial 
 agent that has not been fully tried and its efficacy determined; but 
 from observations made by myself in nearly twenty families in which 
 scarlet fever was prevailing, I am convinced that boracic acid (acidum 
 boricum), an antiseptic recently introduced into our Pharmacopoeia, 
 deserves trial as a preventive and antidote of scarlet fever as well as 
 diphtheria. The good result in my practice from the use of this agent, 
 which only extends over about six months, may be due to the present 
 type of scarlet fever, but I have been surprised at the favorable progress 
 of the cases which appeared very grave in the beginning, at the small 
 mortality, and at the large proportion of well children exposed to scarlat- 
 inous cases that escaped infection, to whom this medicine was regularly 
 administered. Boric (boracic) acid has been recently used by aurists with 
 remarkable success in suppurating and granulating otitis media, and by 
 occulists as an eye-wash. E. R. Squibbs says of it (Ephemeris, May, 
 1883) : "A solution saturated at ordinary temperatures contains between 
 
 4 and 5 per cent It is a very bland and soothing application, 
 
 whether applied in powder or solution, relieving irritation and reducing 
 
 suppuration It has been administered internally in large doses without 
 
 any disturbing effects." The preparation which I have employed is one 
 found in the shops, with the name listerine, prepared by a Western phar- 
 maceutical firm. It contains, according to the manufacturers, the "essen- 
 tial antiseptic constituents of thyme, eucalyptus, baptisia, gaultheria, and 
 mentha arvensis," and also two grains of benzo-boracic acid in each drachm. 
 The dose of listeriue which I have employed for an adult is one teaspoon- 
 ful, considerably diluted with cold water. A child of five years can 
 take ten to fifteen drops every two to four hours. I call the attention 
 of the profession to the use of boracic acid as an antidote to the scarlat- 
 inous poison, without sufficient experience to enable me to speak posi- 
 tively of its efficacy, but with the hope and expectation, from observing 
 its apparent effects in seventeen families afflicted with scarlet fever, that it 
 will be found a useful addition to our means of controlling this much- 
 dreaded and fatal malady. 
 
 In the present state of our knowledge the most reliable and certain 
 prophylaxis is the isolation of patient and nurses, and the thorough and 
 judicious employment of disinfectants upon their persons and in the 
 apartments. All furniture and articles not absolutely required should be 
 removed from the sick room, and no one should be allowed to enter it 
 except the medical attendant and nurses. Constant ventilation should be
 
 538 SCARLET FEVER. 
 
 insisted on by lowering the upper and raising the lower sash of the 
 window two or three inches in mild weather. Even in stormy weather 
 sufficient ventilation can be obtained in this way without exposing the 
 patient to currents of air, which should be avoided. 
 
 Since the exhalations from the body, the various excretions, and the 
 epidermic cells shed so abundantly in the desquamative period contain 
 the scarlatinous poison, measures should be employed to disinfect them, 
 in so far as the comfort and well-being of the patient will allow. Vessels 
 which receive the excretions should contain carbolic acid, chloride of lime 
 or other disinfectant, and they should be immediately emptied and 
 cleaned after use. By the frequent application of disinfecting washes 
 to the nostrils and fauces the secretions from these surfaces are to a 
 great extent deprived of their contagiousness. If otorrhoea occur, 
 boracic acid, so serviceable in its treatment, acts as a disinfectant, but 
 in addition the ear should be syringed with warm carbolized water, one 
 drachm of carbolic acid to the pint of water, and this should be continued 
 during convalescence, for cases occur which show that the discharge from 
 the ear is probably the vehicle by which the virus is communicated. 
 Even as late as the fourth week after the disappearance of the rash children 
 in scarlet fever experience relief from inunction of the surface, and if 
 carbolic acid be added to the substance which is employed for this purpose, 
 and the inunction be made twice daily over the entire surface, contamina- 
 tion of the air through the exfoliations and exhalations from the skin is 
 in great part prevented. The late William Budd of Bristol, England, 
 was in the habit of recommending inunction of the surface twice daily 
 with sweet oil, which answered the purpose of preventing dissemination 
 of epidermic particles through the air ; and we will presently see how 
 successful were his precautionary measures. 
 
 A convalescent child should not be allowed to mingle with other chil- 
 dren till three or four weeks have elapsed and desquamatiou has ceased ; 
 and all who are liable to take the malady should be excluded from the 
 room in which a case has occurred for a longer period, and until it has 
 been thoroughly disinfected by burning sulphur or other methods. 
 
 The New York Board of Health enforces the following excellent regu- 
 lations to prevent the spread of scarlet fever as well as other acute infec- 
 tious maladies : 
 
 " Care of Patients. The patient should be placed in a separate room, 
 and no person except the physician, nurse, or mother allowed to enter the 
 room or to touch the bedding or clothing used in the sick-room until they 
 have been thoroughly disinfected. 
 
 " Infected Articles. All clothing, bedding, or other articles not abso- 
 lutely necessary for the use of the patient should be removed from the 
 sick room. Articles used about the patients, such as sheets, pillow-cases, 
 blankets, or clothes, must not be removed from the sick room until they 
 have been disinfected by placing them in a tub with the following disin- 
 fecting fluid; eight ounces of sulphate of zinc, one ounce of carbolic 
 acid, three gallons of water. They should be soaked in this fluid for at 
 least an hour, and then placed in boiling water for washing. 
 
 "A piece of muslin one foot square should be dipped in the same solu- 
 tion and suspended in the sick room constantly, and the same should be 
 done in the hallway adjoining the sick room.
 
 HYGIENIC TREATMENT. THERAPEUTIC TREATMENT. 539 
 
 " All vessels used for receiving the discharges of patients should have 
 some of the same disinfecting fluid constantly therein, and immediate!} 
 after being used by the patient should be emptied and cleansed with boil- 
 ing water. Water-closets and privies should also be disinfected daily 
 with the same fluid or a solution of chloride of iron, one pound to a 
 gallon of water, adding one or two ounces of carbolic acid. 
 
 " All straw beds should be burned. 
 
 " It is advised not to use handkerchiefs about the patients, but rather 
 soft rags, for cleansing the nostrils and mouth, which should be immedi- 
 ately thereafter burned. 
 
 " The ceilings and side-walls of a sick-room after removal of the 
 patient should be thoroughly cleaned and lime-washed, and the wood- 
 work and floor thoroughly scrubbed with soap and water." 
 
 By such measures of prevention there can be no doubt that the number 
 of cases of scarlet fever would be greatly reduced. 
 
 Budd for years recommended similar precautions in the families 
 which he attended, and the following is his testimony in regard to the 
 result : " The success of this method in my own hands has been very 
 remarkable. For a period of nearly twenty years, during which I have 
 employed it in a very wide field, I have never known the disease to spread 
 beyond the sick-room in a single instance, and in very few instances 
 within it. Time after time I have treated this fever in houses crowded 
 from attic to basement with children and others, who have nevertheless 
 escaped infection. The two elements in the method are separation on 
 the one hand, and disinfection on the other." ' 
 
 HYGIENIC TREATMENT. The room occupied by a scarlatinous patient 
 should be commodious and sufficiently ventilated. Its temperature should 
 be uniform at about 70 during the course of the fever. When the fever 
 begins to abate and desquamation commences, a temperature of 72 to 75 
 is preferable, so that there is less danger that the surface may be chilled 
 during unguarded moments, as at night, when the body may be accident- 
 ally uncovered, since sudden cooling of the surface at this time may 
 cause nephritis or some other dangerous inflammation. Henoch does 
 not believe in the theory that the nephritis is commonly produced by 
 catching cold, but many observations show that those who are carefully 
 protected from vicissitudes of temperature, who remain during conva- 
 lescence in a warm room, and are protected by abundant clothing, more 
 frequently escape this complication than such as are under no restraint 
 of this kind and are carelessly exposed in times of changeable weather. 
 Nevertheless, it is true that a certain proportion suffer from nephritis 
 however judicious the after-treatment may be. The best hygienic man- 
 agement does not always prevent its occurrence. The patient should 
 not, therefore, leave the house until four weeks after the beginning of the 
 fever, and in inclement weather not till a longer time has elapsed. So 
 long as desquamation is going on and the skin has not regained its normal 
 function the patient should remain indoor, and when finally he is allowed 
 to leave the house he should be warmly clothed. 
 
 THERAPEUTIC TREATMENT. In order to treat scarlet fever success- 
 fully it is necessary to bear in mind that it is a self-limited disease, run- 
 ning for a certain time and through certain stages, and that it is not 
 1 British Medical Journal, Jan. 9, 1869.
 
 540 SCARLET FEVER. 
 
 abbreviated by any known treatment. Therapeutic measures can only 
 moderate its symptoms and render it milder. The seventy of the disease 
 is indicated by its symptoms, and the symptoms are to a certain extent 
 under our control. 
 
 MILD CASES. A patient with a temperature under 103, and with 
 only a moderate angina, does not require active treatment, but, however 
 light the disease, he should always be in bed and in a room of uniform 
 temperature, as stated above. Instances have come to my notice in the 
 poor families of New York in which scarlet fever was not diagnosticated, 
 and the patients were allowed to go about the house, and even in the open 
 air, in the eruptive stage, till some severe complication or an aggravation 
 of the type created alarm and medical advice was sought, when it 
 appeared that a grave and dangerous condition had, through carelessness 
 and ignorance, resulted from a mild and favorable form of the malady. 
 The physician, when summoned to a case however mild, should never fail 
 to take the temperature, note the pulse, inspect the fauces, and inquire in 
 reference to the fecal and urinary evacuations, that he may detect early 
 any unfavorable changes which may occur. 
 
 Since in all cases angina and more or less blood-deterioration are 
 present, the following prescription will be found useful in mild as well as 
 severe scarlet fever : 
 
 !fy. Potass. Chlorat. o\ i ; 
 Tr. Ferri Chloridi f^ii ; 
 Syrupi fsiv. M. 
 
 S. Half a teaspoonful every hour to two hours to a child of three years ; 
 a teaspoouful to a child of six years. 
 
 Small doses of this medicine frequently administered act beneficially 
 on the surface of the throat and tend to prevent the anaemia which is 
 so common after scarlet fever. If the medicine be given gradually 
 diluted with only a moderate amount of water, the effect is better 
 on the inflamed fauces. Potassium chlorate is known to be an irritant 
 to the kidneys in large doses, causing intense hypenemia of these organs, 
 with bloody urine or suppression of urine. The melancholy fate of 
 Fouutaine, who died from the effects of one ounce of this medicine, 
 is known to the profession. I have seen a similar instance in a 
 child. But doses of one to four grains, according to the age, can 
 be administered with safety to children, so that half a drachm to a 
 drachm and a half are taken in twenty-four hours. A quantity much 
 exceeding this amount involves risk. In mild cases it is not necessary to 
 treat the throat by topical measures, the above prescription producing 
 sufficient local effect, but camphorated oil may be used externally. I 
 ordinarily prescribe quinine in small doses for this form of scarlatina, as 
 in the following formula : 
 
 ty. Quiuise Sulphat. gr. xvi ; 
 
 Ext. Glycyrrhizse Bss ; 
 
 Syr. Pruni Virginianse f.$ii. M. 
 
 S. One teaspoonful every fourth hour to a child of three to five years, 
 the potassium chlorate and iron mixture being administered twice 
 between. 
 
 The treatment of scarlatina by antiseptic remedies will be considered 
 hereafter.
 
 ORDINARY CASES AND CASES OF SEVERE TYPE. 541 
 
 The itching and dry ness of the surface, which increase the discomfort 
 of the patient in mild as well as severe scarlatina, are relieved by fre- 
 quently anointing the whole body with vaseline, cold cream, or butter of 
 cocoa. Carbolic acid is an efficient remedy for pruritus, while it is also a 
 disinfectant. It may be used in the following formula : 
 3^. Acidi Carbolici 31 ; 
 
 Vaseline 5iv. M. 
 
 S. To be applied over the entire surface. 
 
 In New York leaf lard has long been employed as an unguent over 
 the entire surface in scarlet fever, and patients experience benefit from it. 
 Alcohol and water or vinegar and water are sometimes employed for the 
 same purpose. The linen should be changed every day and the bed 
 thoroughly aired. 
 
 ORDINARY CASES AND CASES OF SEVERE TYPE. A safe tempera- 
 ture in scarlet fever may be considered at or below 103. If it rise above 
 this, measures designed to abstract heat are very important more 
 important even in many cases than the medicinal agents which are com- 
 monly used to combat this disease. Since a high temperature retards 
 assimilation, promotes deleterious tissue-change, and causes rapid emacia- 
 tion and loss of strength, measures designed to reduce it are urgently 
 needed. " The production of heat depends chiefly on oxidation of the 
 constituents of the body" (Billroth). Therefore fever indicates an 
 increase of the oxidation and a molecular disintegration above the healthy 
 standard. Hence the augmentation of urea in the urine and the pro- 
 gressive emaciation and loss of weight which characterize the febrile state. 
 Fever also diminishes the secretions by which food is digested and 
 destroys the appetite, so that repair of the waste is insufficient. More- 
 over, a high temperature continuing for a time tends to produce degener- 
 ative changes, albuminous and fatty, in the tissues, the more rapidly the 
 higher the temperature, so that the functions of organs are seriously 
 impaired. Among the most dangerous of the tissue-changes is granulo- 
 fatty degeneration of the muscular fibres of the heart. In dogs and 
 rabbits that have perished from a high temperature artificially produced 
 by experimenters granular clouding of the elementary tissues has been 
 found after death. 1 A high temperature, therefore, in itself involves 
 danger, and if it occur in an ataxic disease like scarlet fever, and be 
 protracted, it greatly diminishes the chances of a favorable issue. 
 
 The temperature can be reduced without shock or injury to the child 
 by the judicious use of cold water externally. The cold-water treatment 
 is not necessary if the temperature be under 103, though useful if 
 judiciously employed by sponging when the temperature is at 102 or 
 103 ; but if it rise above 103 it is required, and the more urgently^the 
 higher the temperature. The external use of cold water as an antipy- 
 retic in the febrile diseases is now almost universally recommended by 
 physicians, but it still meets with opposition on the part of families, 
 especially in the treatment of the exanthematic fevers, and the directions 
 for its employment are therefore not apt to be fully carried out during 
 the absence of the medical attendant. The old theory that the fevers 
 require warmth and sweating has such a firm hold on the popular mind 
 that some years longer will be required for its removal. 
 
 1 See experiments by Mr. J. "VV. Legg, Lond. Path. Soc. Trans., vol. xxiv., and others.
 
 542 SCARLET FEVER. 
 
 The modes of applying cold water recommended by cautious and 
 experienced physicians are various. Von Ziemssen recommended that 
 the patient be "immersed in water at a temperature of 90, and cool 
 water be gradually added till the temperature fall to 77. In a few 
 minutes the patient is returned to his bed, his surface dried, and he is 
 covered by the proper bed-clothes, when his temperature will probably 
 be found reduced two or two and a half degrees. If the patient com- 
 plain of chillness or his pulse be feeble, he should be immediately removed 
 from the bath and stimulants administered, either whiskey or brandy, for 
 if the extremities remain cool and the capillary circulation sluggish, the 
 effect may be injurious, since some internal inflammation may arise to 
 complicate the fever. Under such circumstances increased alcoholic stim- 
 ulation is required. 
 
 The cold pack is also effectual for reducing the temperature. The 
 patient is placed upon a mattrass protected by oil-cloth, and is covered 
 by a sheet wrung out of water at a temperature of 70. This is covered 
 by one or two blankets. In half an hour he is returned to bed, and will 
 be found to have a temperature two or three degrees less than that before 
 the bath. Another method is to apply the sheet wrung out of water at 
 90, and then reduce the temperature by adding water at a lower degree 
 from a sprinkler. In most cases, however, I prefer to reduce the tem- 
 perature by the constant application to the head of an india-rubber bag 
 containing ice. The bag should be about one-third filled, so that it 
 should fit over the head like a cap. At the same time, as a potent means 
 of abstracting heat, at least when the temperature is at or above 104, a 
 similar application should be made by an elongated rubber bag lying over 
 the neck and extending from ear to ear. Cold applied over the great 
 vessels of the neck promptly abstracts heat from the blood, while it 
 diminishes the pharyngitis, adenitis, and cellulitis ; which is an import- 
 ant gain. At the same time, it is proper to sponge frequently the hands 
 and arms with cool water. If the temperature with this treatment be 
 not sufficiently reduced, one or two thicknesses of muslin frequently 
 wrung out of ice-water should be placed along the arms and upon either 
 side of the face. By such local measures, which are agreeable to the 
 patient and without any shock or perturbing effect on the system, we 
 can reduce the temperature two or three degrees. By adding alcohol or 
 one of the alcoholic compounds to the water the popular objection to the 
 use of cold is overcome. 
 
 Trousseau, in the treatment of sthenic cases attended by a high tem- 
 perature, was in the habit of placing the patient naked in a bath-tub and 
 directing three or four pailsful of water to be thrown over him in a 
 space of time varying from one quarter of a minute to one minute, after 
 which he was returned to bed and covered by the bed-clothes without 
 being dried. Reaction immediately occurred, often with more or less 
 perspiration. This treatment was repeated once or twice daily, according 
 to the gravity of the symptoms. Trousseau, alluding to this treatment, 
 says : " I have never administered it without deriving some benefit." 
 But the application of cold water in a manner that does not excite 
 or frighten the patient seems preferable. Henoch, having a large 
 experience^ gives the following advice in reference to the water treat- 
 ment : "If the fever continue high and the apparently malignant symp-
 
 ORDINARY CASES AND CASES OF SEVERE TYPE. 543 
 
 toms described above develop, the head should be covered with an 
 ice-bag, .... and the child placed in a lukewarm bath, not under 25 R. 
 (88.25 F.). I decidedly oppose cooler baths, because in scarlatina, which 
 presents a tendency to heart-failure, cold may produce an unexpected 
 rapid collapse more than in any other affection. But I strongly 
 recommend washing the entire body every three hours with a sponge 
 dipped in cool water and vinegar." 1 In grave cases with a high 
 temperature the application of cold should be sufficient to produce a 
 decided reduction of heat, otherwise the full benefit from its use is not 
 obtained. "With proper stimulation and proper precautions prostration 
 does not occur from the ice-bags to the head and neck and cool sponging 
 of other parts, so long as the temperature does not fall below 102 or 
 103. The danger alluded to by Heuoch can only occur from the use 
 of the pack or general bath, and the water treatment can be efficiently 
 carried out and the temperature sufficiently reduced without resorting 
 to these. Even Currie of Edinburgh, who first drew attention to the 
 benefit from the cold-water treatment of scarlet fever in an age when the 
 sweating treatment, and even the exclusion of cool and fresh air from the 
 apartment, were deemed necessary, recommended cold affusion only in 
 sthenic cases with full and strong pulse, and he mentions as a warning 
 two cases with quick and feeble pulse and cool extremities in which 
 death occurred immediately after the use of the water. 
 
 Sodium salicylate is in some instances a useful remedy for the reduc- 
 tion of heat in the infectious diseases. It seems to be more decidedly 
 antipyretic than quinine in the febrile and inflammatory diseases, though 
 somewhat depressing to the heart's action. James Couldrey writes 
 to the London Lancet (Dec., 1882, p. 1064) that he has derived great 
 benefit from its use in seven cases of scarlet fever. He administered it 
 every two hours till ringing in the ears was produced, and afterward 
 every four hours, prescribing one grain for each year in the age of the 
 patient. It is, in my opinion, a proper remedy when the pulse is full 
 and strong and the temperature is not sufficiently reduced by the cold- 
 water treatment. 
 
 Aconite and veratrum viride reduce fever, but they are too depressing 
 to be safely employed in grave scarlet fever, and their antipyretic effect is 
 less than that of water. The use of digitalis might be suggested by the 
 quick and feeble pulse in certain cases that are attended by high temper- 
 ature, but the judgment of the profession is for the most part against its 
 use in such cases. What Stille and Maisch state of its employment in 
 typhoid fever appears equally applicable to scarlet fever: "Even its 
 advocates have not shown that it abridges the disease or lessens ^ its 
 mortality, while it is abundantly demonstrated to impair the digestion, 
 reduce the strength, and even to occasion sudden death. The use of 
 digitalis in other forms of fever is equally unsatisfactory, and justifies 
 the judgment of Traube, that the true field of action for digitalis is not 
 fever." 
 
 Quinine is the medicine which above all others has been heretofore 
 most used, by almost common consent of the profession, to reduce the 
 temperature in malignant scarlet fever, but its use for this purpose is, 
 according to my observations, far from satisfactory. To obtain its anti- 
 
 l Diseases of Children.
 
 544 SCARLET FEVER. 
 
 pyretic action it must be administered in large doses, and if any of the 
 quinine salts in ordinary use be administered by the mouth in sufficient 
 quantity, they are apt to be vomited. To a child of five years five grains 
 should* be administered twice daily by the mouth, or ten grains of a 
 soluble salt, as the bisulphate, may be given per rectum, dissolved in a 
 little warm water. Administered per rectum, it is frequently not 
 retained unless held for a time by a napkin. A considerable proportion 
 of the malignant cases are attended by not only irritability of the 
 stomach, already alluded to, but by diarrhoea, so that quinine, if admin- 
 istered at all, should be employed hypodermically. The double salt of 
 quinia and urea answers for this purpose, as it is very soluble in water 
 and does not produce inflammation of the connective tissue. When the 
 antipyretic doses of quinine are discontinued, this agent may be pre- 
 scribed as a tonic in the doses recommended for the treatment of mild 
 scarlet fever. 
 
 In severe cases with frequent and rapid pulse, in which ante-mortem 
 heart-clots are apt to occur, the ammonium carbonate is often useful. It 
 should be dissolved in water and given in milk, in as large doses as five 
 grains every hour or second hour to a child of five years. It aids in 
 producing stronger contraction of the cardiac muscular fibres, and thus 
 diminishes the danger of the formation of thrombi. Ten-drop doses of 
 the aromatic spirits of ammonia may be employed instead of the car- 
 bonate, given in sweetened water. It is especially useful if the stomach 
 be irritable. 
 
 In severe cases attended by considerable angina and foul and offensive 
 secretions upon the faucial surface an antiseptic, as boracic acid in small 
 quantity, should be added to the potash and iron mixture recommended 
 above. If no drink be allowed for a few minutes after the dose, so as 
 not to wash it too soon from the fauces, the antiseptic effect is more cer- 
 tainly produced. Those old enough should be directed to hold the medi- 
 cine for a moment like a gargle in the throat before swallowing it. I 
 employ boracic acid by preference, as in the following formula : 
 fy. Acid. Boracic. 3ss ; 
 
 Potass. Chlorat. 3ii ; 
 Tr. Ferri Chloridi f sii ; 
 Glycerinse, 
 
 Syrupi da. f si ; 
 
 Aquae fsii. M. 
 
 S. Give one tablespoonful every two hours to a child of five years. 
 
 More minute directions will presently be given for the treatment of 
 the pharyngitis when we speak of the complications. 
 
 Alcohol, whether administered in one of the stronger wines, as sherry, 
 or in whisky or brandy, is a most useful remedy in scarlet fever, and is 
 indeed indispensable in all grave cases which are attended by feeble capil- 
 lary circulation and evidences of prostration. Milk is also the best 
 vehicle for this agent. The wine-whey or milk-punch should be given 
 every hour or second hour. In scarlet fever, as well as diphtheria, com- 
 paratively large doses are required, as a teaspoonful of the stimulant 
 every hour or second hour for a child of five years. 
 
 During convalescence the hygienic treatment already described is 
 important. Nutritious diet and a moderate amount of alcoholic stimu-
 
 TREATMENT OF COMPLICATIONS AND SEQUELS. 545 
 
 ix are required, while the patient is kept indoors and protected from 
 currents of air as long as desquamation is occurring. More or less 
 anaemia, is present in most convalescent patients, so that a mild tonic 
 containing iron will aid in restoring the health. Elixir of calisaya-bark 
 and iron ; preparations of beef, iron, and wine, or the following prescrip- 
 tion, will be found useful under such circumstances : 
 1$!. Ferri et Ammon. Citrat., 
 
 Ammon. Carbonat. da. gr.xxiv; 
 
 Syrupi f gi ; 
 
 Aquae fgii. M. 
 
 S. Dose, one or two teaspoonsful, according to the age, every third hour. 
 ANTISEPTIC TREATMENT. It is still to be determined whether or to 
 what extent antiseptics, administered internally, antagonize and control 
 the scarlatinous poison, and are therefore curative of scarlet fever. The 
 most important agent of this class, carbolic acid, can only be employed in 
 small doses, for a dose much exceeding a drop for a child, or even exceed- 
 ing a fractional part of a drop for a young child, might produce poisonous 
 symptoms. Carbolic acid is a cardiac and arterial sedative, and it appears 
 to reduce temperature. Intra-uterine injections of carbolized water in the 
 treatment of puerperal fever are known to reduce temperature, even when 
 there is no septic matter in the uterus to be disinfected and washed away, 
 as in a case related to me in which the fever proved to be due to measles. 
 It is not improbable that the antipyretic action in patients of this class who 
 have no septic substance within the uterus is due largely, if not mainly, 
 to the absorption of carbolic acid from the uterine surface and its sedative 
 action on the vascular system. Whether this agent, so highly extolled by 
 Declat, and to which I have alluded in a preceding page, can be safely 
 employed in doses large enough to be efficient and curative will be deter- 
 mined by future observations. The same remark is applicable to the 
 sulpliocarbolate of sodium, whose antiseptic action is supposed to be due, 
 as already stated, to the liberation of carbolic acid in the system. Since 
 boracic acid does not seem to have any deleterious action, this agent has 
 been administered to most of my scarlatinous patients during the last 
 year, in addition to the older and better known remedies, and with a very 
 small percentage of deaths. What may be the result in a more severe 
 type of the disease remains to be seen. 
 
 TREATMENT OF COMPLICATIONS AND SEQUELS. Local measures 
 designed to diminish or cure the pharyngitis are important in all 
 but the mildest cases. They are more especially required in the 
 anginose variety and in those not infrequent cases in which diphtheria 
 complicates scarlatina. Formerly it was necessary, in making applica- 
 tions to the fauces, to employ the brush or probang for those too young 
 to use the gargle, but hand-atomizers, as Eichardson's or Delano's, which 
 are now in common use, aiford a quick and easy method for making such 
 applications. Six or eight compressions of the bulb of a good atomizer 
 are sufficient to cover the fauces with the spray. Those hand-atomizers 
 in the shops which have slender metallic points are apt to prick the 
 buccal surface and cause bleeding if the child resist and toss the head. 
 To prevent this, I am in the habit of directing india-rubber tubing to be 
 drawn over the point in such a way as not to obstruct its action. The fol- 
 lowing will be found useful mixtures for the atomizer : For ordinary cases, 
 
 VOL. I. 35
 
 546 SCARLET FEVER. 
 
 ~Bp. Acidi Carbolici 3ss, vel. Acid. Boracic. gii ; 
 Potass. Chlorat. 3ii ; 
 Glycerinae f 511 ; 
 
 Aquae flvi. M. 
 
 If the surface of the throat be covered by foul secretions, 
 ~Bp. Acidi Carbolici 3ss ; 
 Potass. Chlorat. sii ; 
 Glycerinae f 3J ; 
 
 Aquae Calcis f 3vii. M. 
 Or else 
 
 !fy. Tine. Ferri Chloridi f |ss ; 
 Acidi Sulphurosi foii ; 
 Potass. Chlorat. oii ; 
 
 Glycerinae f si ; 
 
 Aquae q. s. ad. f svi. M. 
 
 If diphtheritic exudation complicate the scarlatinous angina, or the sur- 
 face of the throat in consequence of ulceration or necrosis present an 
 appearance like that in diphtheria when the exudation begins to soften, 
 being foul, jagged, of a dirty brown appearance from dead matter and 
 fetid secretions, the following should be prescribed for use in the 
 atomizer : 
 
 ]$!. Acidi Carbolici 31, vel. Acidi Boraci iii ; 
 Liq. Potassae f&i ; 
 Potass. Chlorat. 3ii ; 
 Glycerinae f |ii ; 
 
 Aquae Calcis f o"viii. M. 
 
 Liquor potassae, although a very efficient solvent of pseudo-membranes, is 
 too irritating for use in the atomizer unless largely diluted. One part to 
 eighty, as in the above mixture, will not be found too concentrated. The 
 following powder, used every third hour through the insufflator, is also 
 useful in cases of diphtheritic exudation : 
 
 Ify. Acidi Salicylici 3ii ; 
 
 Bismuth. Subnitrat. 3*ii. M. 
 
 To be used every third hour. It is the favorite remedy of some of the 
 prominent New York physicians in the local treatment of diphtheria. 
 
 The following mixture is also beneficial for local treatment when the 
 faucial surface is foul and offensive from the exudations and secretions. 
 It should be applied by a large camel's-hair pencil every three to six 
 hours : 
 
 fy. Acidi Carbolici gtt. x ; 
 
 Liq. Ferri Subsulphatis f 5'n 
 Glycerinse fi. M. 
 
 In all cases of scarlatinous pharyngitis sufficiently severe to require 
 special treatment, cool applications should be made over the neck from ear 
 to ear, as by two thicknesses of muslin frequently squeezed out of cold 
 water, or by the elongated india-rubber bag already recommended in our 
 remarks relating to methods to reduce temperature. 
 
 In the first days of scarlet fever the coryza is slight, and no dis- 
 charge from the nostrils occurs, so that no local treatment is required ; 
 but before the termination of the malady, in cases of ordinary gravity, a 
 nasal discharge usually supervenes, producing more or less redness and
 
 TREATMENT OF COMPLICATIONS AND SEQUELS. 547 
 
 excoriating the upper lip. Moreover, in localities where diphtheria 
 occurs, if this malady complicate scarlet fever, it is apt to affect the nos- 
 trils at the same time that the fauces are invaded. These conditions 
 require local treatment of the nares. It should be remembered that the 
 Schueiderian membrane is midway in sensitiveness, as it is in location, 
 between the conjunctival and buccal surfaces, and is readily irritated by 
 strong applications. Medicinal applications made to it must be much 
 milder than those which the fauces tolerate. They should always be applied 
 warm, and a teaspoonful of any mixture properly employed is sufficient 
 for each nostril at one sitting. The applications should usually be made 
 every two or four hours, according to the gravity of the case and the 
 amount of discharge. The best instrument for this purpose is a small 
 syringe of glass or brass with curved neck and bulbous tip. The child's 
 head should be thrown back and the piston depressed rapidly, so as to 
 thoroughly wash out the nasal cavity. The application can also be made 
 through an atomizer with a rounded tip or a tip covered by rubber tubing. 
 The following is a useful prescription : 
 
 fy. Acidi Carbolici 3ss; 
 Sodii Chloridi gii ; 
 Aqua? Oj. 
 
 The substitution of 2 or 3 drachms of boracic acid in place of the carbolic 
 acid makes a nicer preparation. If the diphtheritic pseudo-membrane 
 appear in the nares, the officinal lime-water, injected every hour or second 
 hour, is beneficial in consequence of its solvent action on pseudo-mem- 
 branes. 
 
 It is evident, from what has been stated above, that the condition 
 of the ear should be closely observed in and after scarlet fever. If the 
 patient have earache, considerable relief may be obtained in the com- 
 mencement by dropping a few drops of laudanum and sweet oil into 
 the ear and covering it by some hot application, either dry or moist, 
 which will retain the heat. A light bag containing common table-salt, 
 heated, or dry and hot chamomile flowers will also answer the purpose. 
 Water as hot as can be well tolerated dropped into the ear or allowed 
 to trickle from a fountain syringe, so as to fill the ear, is also very bene- 
 ficial in allaying the pain. If a few drops of laudanum be added it 
 is more useful. If the pain be not quickly relieved, a leech should be 
 applied at the base of the tragus. O. D. Pomeroy, an experienced 
 aurist of New York, says : " Leeching employed at the right time rarely 
 fails to subdue the pain and inflammation. The posterior face of the tra- 
 gus is ordinarily the best place for applying the leech, but it may be 
 applied in front of the ear or behind, wherever the tenderness on pressure 
 is greatest. In my opinion, paracentesis may frequently be rendered 
 unnecessary by the timely use of one or two leeches applied to the 
 nieatus." 
 
 If the otitis continue, as shown by pain in the ear, of which chil- 
 dren old enough to speak bitterly complain, and which causes those too 
 young to speak to press their fingers into or against their ears, this inflam- 
 mation should not be neglected, as it may involve serious consequences. 
 Multitudes of children have had permanent impairment or even loss of 
 hearing, with caries or necrosis of the walls of the middle ear and of the 
 mastoid cells, which might have been prevented by prompt and skilful
 
 548 SCARLET FEVER. 
 
 management of the ear in the early stage of the inflammation. If, there- 
 fore, the otitis continue without mitigation of pain after the alxwe 
 measures have been employed, paracentesis of the drumhead is probably 
 required. The following directions- for performing this operation, which 
 will be useful to country practitioners who may not be able to obtain 
 the assistance of a specialist, are from the pen of Pomeroy : " The fore- 
 head mirror should be worn, in order to leave the hands free to operate 
 by either artificial or day light. A good-sized speculum is introduced 
 into the meatus. Then an ordinary broad needle, about one line in diam- 
 eter, with a shank of about two inches, such as oculists use for punctur- 
 ing the cornea, should be held between the thumb and fingers, lightly 
 pressed, so as not to dull delicate tactile sensibility. The part being well 
 under light, the most bulging portion of the membrane should be lightly 
 and quickly punctured with a very slight amount of force. The poste- 
 rior and superior portion of the membrane is most likely to bulge. The 
 chordae tympani nerve ordinarily lies too high up to be wounded. The 
 ossicles are avoided by selecting a posterior portion of the membrane. 
 After puncture the ear should be inflated by an ear-bag whose nozzle is 
 inserted into a nostril, both nostrils being closed, so as to force the fluid 
 from the tympanum. The puncture may need to be repeated at intervals 
 of a day or two, provided that the pain and bulging return." 
 
 Albert H. Buck of New York, in a highly instructive paper read 
 before the International Medical Congress in 1876, writes as follows of 
 paracentesis of the membrana tympani in scarlatinous otitis : " In this 
 one slight operation, which in itself is neither dangerous nor very pain- 
 ful, lies the power to prevent the whole train of disagreeable and danger- 
 ous symptoms." Buck relates an instructive example : The age of 
 the patient was three years, and the earache had been complained of only 
 about twenty-four hours. " Toward morning," says he, " I was sent for, 
 
 as the pain had become constant An examination with the 
 
 speculum and reflected light showed an cedematous and bulging mem- 
 brana tympaui (posterior half), the neighboring parts being very red, 
 though as yet but little swollen. In the most prominent portion of the 
 membrane I made an incision scarcely three millimetres (one-tenth inch) 
 in length, and involving simply the different layers of the membrana 
 tympani. This was almost immediately followed by a watery discharge 
 (without the aid of inflation), which ran down over the child's cheek. At 
 the end of three or four minutes the child had ceased crying, and in less 
 than a quarter of an hour she was fast asleep. At first, the discharge 
 was very abundant and mainly watery in character, but it steadily dimin- 
 ished in quantity and became thicker, till finally, on the fourth day, it 
 ceased altogether. On the tenth day the most careful examination of the 
 ear could not detect any trace of either the inflammation or the artificial 
 opening." The ear had probably been saved from nlceration of the drum 
 membrane, long-continued suppurative otitis, and perhaps from perma- 
 nent impairment of hearing. 
 
 When an opening has been made in the membrana tympani either by 
 incision or ulceration, it is advisable in some instances to inflate the tym- 
 panum by Politzer's method, which has been alluded to above. The 
 nozzle of an india-rubber bag, with a flexible tube attached, is introduced 
 into the nostril on the affected side, and both nostrils are compressed
 
 TREATMENT OF COMPLICATIONS AND SEQUELS 549 
 
 against it. The patient fills his mouth with water, which he swallows at 
 a given signal, as after the words one, two, three, spoken by the operator. 
 During the act of swallowing, which opens the Eustachian tube, the 
 rubber bag is forcibly compressed, which forces the air along the tube 
 into the middle car and facilitates the escape of the pent-up secretions in 
 the tympanic cavity. 
 
 If the otitis have continued unchecked by treatment until the secre- 
 tions within it, after days and nights of suffering, have escaped by ulcer- 
 tion through the drumhead, the opportunity for prompt and certain cure 
 is passed. Still, the patient under these circumstances may quickly 
 recover, or there may be the other alternative described above, in which 
 the ear is badly damaged and chronic inflammation established in the 
 walls of the tympanum, giving rise to an offensive otorrhoea. In this 
 state of the ear internal remedies are indicated, such as surgeons employ 
 in suppurative inflammations of bone occurring in other parts of the 
 system. Cod-liver oil and iodide of iron are required, especially by 
 patients of struinous diathesis, the object being to promote a more 
 healthy state of system, so as to prevent extension of the inflamma- 
 tion and facilitate the healing process. Carbolized solutions, as the fol- 
 lowing, syringed warm into the ear in which otorrhcea is occurring, are 
 useful in promoting cleanliness and increasing the comfort of the patient : 
 ty. Acidi Carbolici 3ss ; 
 
 Glycerinae f 3*ii ; 
 
 Aquae fsiv. M. 
 
 But recently a much more effectual curative agent for local treatment lias 
 been discovered in boracic acid, by the use of which the discharge more 
 quickly diminishes and the condition of the ear more certainly and 
 rapidly improves than by the use of the carboli/ed mixtures. When 
 the inflammation is recent and the ear sensitive and painful, the follow- 
 ing prescription should be used : 
 
 ~Bf. Acidi Boracici oiiss; 
 
 Morphise Sulphat. gr. i ; 
 Glyceriuse, 
 
 Aquae da. f oi. M. 
 
 S. Drop one to three drops into the ear three times daily. 
 
 If the acute stage of the otitis have passed, with fever and pain, and 
 no tenderness be present on pressure, the following prescription, which 
 causes too much pain in the acute stage, will be found useful to check the 
 inflammation and otorrhcea and restore a healthy state to the granulating 
 surface: 
 
 ~fy. Acidi Boracici siiss ; 
 
 Alcohol. 
 
 Aquae cia. f si. 
 
 S. Drop one to three drops into the ear three times daily. ^ 
 
 The beneficial effects observed from the use of boracic acid in aural sur- 
 gery have given it nearly the same position as a curative agent to diseases 
 of the ear which atropine holds to diseases of the eye. Recently, aurists 
 are employing finely-triturated powder of boracic acid dusted into the 
 ear. The patient lies Upon the side with the affected ear uppermost. 
 The ear is thoroughly cleaned by syringing with tepid water, and by 
 means of a little scoop made of stiff paper or pasteboard or the segment
 
 550 SCARLET FEVER. 
 
 of quill as much of the powder is introduced into the ear as would cover 
 a five-cent silver piece. By working the ear it descends to the drum- 
 head. I can bear witness to its efficacy in the otorrhrea of children when 
 it is used in this manner three times daily. 
 
 The following astringent has also been employed with good results for 
 the otorrhcea resulting from scarlet fever as well as from other causes : 
 1^. Zinci Sulphatis, 
 
 Aluminis da. gr. v ; 
 
 AquaB f 3i. M. 
 
 A few drops of this should be dropped into the ear, or, if the ear be sen- 
 sitive and painful, five drops should be added to a teaspoonful of warm 
 water and dropped or syringed into the ear. 
 
 But in recent times aurists have discovered a remedy superior to the 
 above in iodoform, the action of which is safe and efficient for protracted 
 otorrhoea with granulations, and it is superseding to a great extent the 
 agents heretofore used in the treatment of this disease. The ear should 
 first be thoroughly cleaned by syringing with warm water and dried, and 
 iodoform, to which a little balsam of Peru is added to cover the dis- 
 agreeable odor, should be pressed down to the bottom of the auditory 
 canal by any convenient instrument. It is anodyne, astringent, and dis- 
 infectant, and should be employed in a dry state in considerable quantity. 
 
 The sequelpe of otitis media, such as granulations sprouting out from 
 the drumhead, some of which may be of large size and are known as 
 polypi, may require treatment by the aurist. A polypus may sometimes 
 be removal by the forceps or better by the snare. Polypi not large and 
 favorably located can sometimes be cured by an astringent powder, as 
 iodoform, sulphate of zinc, or alum, or by applying the liquid subsul- 
 phate of iron. The otitis externa produced by the irritating discharge 
 which flows from the middle ear soon disappears when the flow ceases. 
 
 The renal affection, which, as we have seen, so often commences 
 in the declining period of scarlet fever or during convalescence in 
 mild as well as severe cases, is frequently more dangerous than the 
 primary disease. It largely increases the percentage of deaths. A 
 clear appreciation of its therapeutic requirements is important, since by 
 judicious treatment many recover who would inevitably be sacrificed 
 by improper measures. The family should be informed that the danger 
 from scarlet fever does not cease with the decline of the eruption, and 
 that the kidneys may become seriously aifected by too early exposure of 
 the patient to currents of air or sudden changes of temperature, by which 
 cutaneous transpiration is checked. He should therefore be kept indoors 
 in a comfortable and uniform temperature three or four weeks after the 
 termination of the fever, until desquamation has entirely ceased and the 
 new epidcrm is sufficiently thick and firm to protect the surface. 
 During the changeable temperature of the autumnal, winter, and spring 
 months even longer confinement at home may be advisable. 
 
 The nephritis and consequent albuminuria antedate by some days the 
 occurrence of dropsy, and a physician should never discharge a scarlatin- 
 ous patient without one or more examinations of his urine. When his 
 visits cease the nurse should be instructed to make the examinations by 
 heat and nitric acid during the ensuing month, and if any evidence, how- 
 ever alight, appear that the kidneys are involved, he should be notified,
 
 TREATMENT OF COMPLICATIONS AND SEQUELM 551 
 
 in order that appropriate treatment may be immediately commenced. 
 Early and correct treatment of the nephritis is attended by much better 
 results than delayed treatment, and many more patients are doubtless now 
 saved than in former times, when little attention was given to the state 
 of the kidneys until dropsy or other prominent symptoms appeared. I 
 have found no mother or nurse so ignorant that she could not properly 
 employ the test of nitric acid and heat, and, if she be solicitous for the 
 welfare of the child, she will not hesitate to carry out the directions and 
 immediately notify the physician if the tests employed produce the least 
 cloudiness or turbidity of the urine. 
 
 The patient as soon as nephritis commences, as shown by the state of 
 the urine, should be put to bed in a room'of warm and equable tempera- 
 ture (72 to 75 F.). His diet should be liquid, consisting of milk, fari- 
 naceous food, and a moderate quantity of animal broths. He may drink 
 liquids freely, especially water not too cool, to which spiritus aetheris nitrosi 
 is added. If he be prostrated by the primary disease, alcoholic stimulants 
 should be allowed. 
 
 The indications are to relieve the hyperaemic kidneys by diaphoresis 
 and purgation. To produce the former the patient should be immersed 
 in a warm bath at about the temperature of the body (98 to 100), in 
 which, if he be quiet and comfortable, he should remain from fifteen to 
 twenty minutes, but if restless and frightened by the water a less time, 
 after which he should be placed in a warm bed and well covered by 
 blankets. If perspiration result, the bath has been useful, and it may be 
 employed in grave cases two or three times daily. If perspiration do not 
 result, it may be produced by surrounding the body either by hot dry or 
 moist air. Hot dry air may be produced by burning alcohol in a thin 
 layer upon a plate under a chair upon which the patient sits while he is 
 surrounded by a blanket, or he may be covered in bed and the hot air 
 introduced under the bed-clothes. In New York a convenient apparatus 
 is used for this purpose, consisting of a small sheet-iron pipe enclosed in 
 a small box of the same material. The box is in the form of a trunk, 
 with a handle for convenience in carrying, and the lower end of the pipe, 
 which extends nearly to the floor, contains an alcohol lamp. Hot moist 
 air may be produced by placing against the patient bottles of hot water 
 surrounded by towels wrung out of water. The steam arising from them 
 and enveloping the body and limbs produces a prompt sudorific effect. 
 There is in use in this city, in the treatment of these and similar cases 
 requiring diaphoresis, a convenient apparatus for generating steam. It 
 consists of a cylinder pierced with holes for the admission of air and con- 
 taining a spirit lamp, over which is a pan or pail holding a little water. 
 The patient, nearly naked, is placed in a chair with the apparatus 
 underneath, and is covered by a blanket, so that the steam surrounds the 
 body. This gives rise to free perspiration, which continues after the 
 patient is placed in bed. This treatment should be repeated one or more 
 times daily, according to the gravity of the case. 
 
 The sudorific effect of the treatment by external warmth described 
 above should be aided by employing diaphoretics. Those which have 
 been most used are the acetates of ammonium and potassium, the bitar- 
 trate and citrate of potassium, and spiritus aetheris nitrosi. If employed 
 when the surface is cool, they act rather as diuretics than diaphoretics.
 
 552 SCARLET FEVER. 
 
 These agents, being simple in their action and without deleterious effects, 
 may be given frequently and in large proportionate doses for the age. 
 
 But lately a diaphoretic which far surpasses these in efficiency has been 
 discovered in pilocarpine, the active principle of jaborandi. Being soluble 
 in water and tasteless, it is easily administered, and is retained when, on 
 account of the ursemic poisoning present in scarlatinous nephritis, the 
 stomach is irritable and other medicines, as digitalis, are rejected. Ether 
 may be employed with it, or the amount of alcoholic stimulant may be 
 increased at the time of its exhibition in order to guard against any 
 depressing effect. To a child of two years one-fortieth to one-twentieth 
 of a grain may be given every six hours by the mouth. It may also be 
 employed hypodermically, as one-twentieth of a grain to a child of five 
 years. It has both a diaphoretic and diuretic action, while it stimulates 
 both the salivary and mucous secretions. According to one observer, an 
 adult when fully under the influence of pilocarpiue secretes from one pint 
 to one quart of saliva within two hours, and Leyden reports a case of 
 diphtheritic nephritis in which the quantity of urine rose from half a pint 
 to five pints daily. But its most prompt and certain action is upon the 
 sweat-glands. Hirschfelder speaks of its beneficial action in relieving 
 various forms of dropsy, and adds: "In one morbid condition of the 
 kidney, however, jaboraudi is the remedy par excellence, and that is the 
 
 acute parenchymatous nephritis which frequently follows scarlatina 
 
 This disease heals spontaneously if the danger that threatens life from 
 reduction of the urine and from the effusions of fluid into the cavities of 
 the body be averted. In this disease jaborandi works wonders." I have 
 also found it an invaluable agent when the older remedies failed and 
 death seemed imminent. The following cases, in which the beneficial 
 action of this agent was apparent, occurred in my practice : 
 
 Case 8. G , male, aged five years and six months, sickened with 
 
 scarlet fever on June 2, 1882. It began with vomiting, and was attended 
 by a degree of febrile movement which indicated an attack of rather 
 more than the average gravity. The fauces at one time exhibited 
 a slight exudation like that of diphtheria. In the declining stage of 
 the malady rheumatic pain and tenderness occurred in the wrist and fin- 
 ger-joints, but not in those of the lower extremities. The case, however, 
 progressed favorably, and during the convalescence my attendance ceased. 
 On June 24th my attention was again called to the child, when the urine 
 was found to be scanty and very albuminous. External measures, such 
 as are described in the foregoing pages, were employed, and the infusion 
 of digitalis with potassium acetate ordered to be given every three hours, 
 but this medicine was for the most part vomited. The bowels were kept 
 open by jalap and the potassium bitartrate. The urine, however, con- 
 tinued scanty, and on June 28th severe convulsions occurred. At this 
 time the quantity of urine was only f'sij in twenty-four hours. The 
 pulse in the convulsions was quick and feeble, the skin very hot, and the 
 axillary temperature 103. The eclampsia continued one hour, and were 
 controlled by large and repeated doses of bromide of potassium, aided b^ 
 clysters of five grains of hydrate of chloral in water. Muriate of pilo- 
 earpine -\vas now directed to be given in doses of one-thirty-second of a 
 grain every three hours, dissolved in cold water. This agent was not 
 vomited, and it must have been given by the parents in their fright and
 
 TREATMENT OF COMPLICATIONS AND SEQUEL J. 553 
 
 anxiety in larger or more frequent doses than were directed, for on July 
 1st the bottle containing one grain was empty. Free diaphoresis resulted 
 from the pilocarpine, and the quantity of urine was increased. The 
 mother stated that the child had taken only two doses, or one-sixteenth 
 of a grain, of pilocarpiue when the diuretic effect was apparent and free 
 diaphoresis also occurred. She also stated subsequently that the quantity 
 of urine was larger when the pilocarpine was administered every third 
 hour than when given at a longer interval. A flaxseed poultice on which 
 mustard was dusted was also applied over the kidneys. On June 29th 
 the pulse was 96, temperature 100.5 ; occasional convulsive attacks 
 occurred, which were readily controlled by euemata of hydrate of 
 chloral. On June 30th the symptoms were all better ; uo more attacks 
 of eclampsia had occurred, and the urine Avas more abundant and less 
 albuminous. The mother remarked that the new medicine (pilocarpine) 
 had settled the stomach and increased the urine. The patient continued 
 to improve, and on July 4th the record states: "Now takes the pilocar- 
 piue, gr. -gJg-, every six hours; passes urine freely since yesterday; has not 
 vomited since he began to take the pilocarpiue; pulse 106, axillary tem- 
 perature 99 ; is playful and takes milk freely, nearly three quarts in 
 twenty-four hours, with some farinaceous food. Digitalis with potas- 
 sium acetate is also given in occasional doses." July 6th, pulse 92, tem- 
 perature 99; perspires much, and urine nearly normal in quantity and 
 character. 
 
 Case 9, Mary S , aged five years, on Dec. 22, 1882, presented 
 
 the symptoms of severe nephritis. Her brother had scarlet fever two 
 weeks previously, and she had sore throat at about the same time, but 
 without efflorescence ; pulse 98, temperature 98.5; her urine highly 
 albuminous, and reduced to f |iv in twenty-four hours ; bowels consti- 
 pated. Ordered a single dose of 
 
 1^. Hydrarg. Chlor. Mitis gr. iii ; 
 
 Resin. Podophylli gr. fa M. 
 
 The muriate of pilocarpine was also ordered, gr. ^ but the patient 
 vomited soon after taking it. Another dose was retained, and was 
 followed by considerable perspiration. Dec. 23d, had one stool from 
 the powder of yesterday. Has taken five doses of pilocarpine, but 
 vomited after three of them. The last dose was administered at 10 
 P. M., and the mother says she "sweat fearfully" during the night. The 
 patient was kept warm in bed; stimulating poultices of mustard and 
 fiaxseed, one to sixteen, were constantly in use over the kidneys, and the 
 pilocarpine was administered three or four times a day. The record for 
 Dec. 26 states : " Took the pilocarpiue four times since yesterday morn- 
 ing, and each dose is followed by perspiration lasting from one to one 
 and a half hours ; quantity of urine, from f 5vj to f sviij daily ; vomited 
 twice yesterday, not to-day ; pulse 104, temperature 97.75; complains 
 of frontal headache; bowels regular; has considerable salivation. The 
 patient is warm in bed, and the flaxseed and mustard poultice over the 
 kidneys is continued. Dec. 28th, specific gravity of urine 1019 ; urine 
 still quite albuminous, and containing blood-corpuscles and granular casts, 
 also crystals of oxalate of lime. Dec. 30th, takes gr.^ pilocarpine 
 twice daily, and occasional doses of infusion of digitalis; urine more 
 abundant ; its specific gravity 1014, slightly albuminous, and containing
 
 554 SCARLET FEVER. 
 
 very few granular casts and blood-corpuscles ; has lost its smoky appear- 
 ance ; reaction alkaline ; perspiration slight ; patient convalescent. 
 
 In another instance, a child of five years, from three to four weeks after 
 scarlet fever was noticed to have anasarca of the face and extremities, 
 with scanty and albuminous urine. Oue-thirty-second of a grain of 
 muriate of pilocarpiue was administered every six hours without the 
 desired sudorific effect. It was then administered every four hours, with 
 an increase of perspiration and urination, so that the nephritic symptoms 
 were relieved and the patient apparently out of danger within three or 
 four days. 
 
 In a fourth patient, a girl of three years, having scarlatinous nephritis, 
 with symptoms very similar to those in the last case, the administration 
 of one-twentieth grain doses of pilocarpine in conjunction with the hot- 
 air bath, was followed by increased perspiration and urination, and pro- 
 gressive and rather rapid convalescence. This child had been taking 
 bichloride of mercury in one-fiftieth grain doses, prescribed by a homceo- 
 pathic physician, without appreciable benefit. It had been for the most 
 part vomited. 
 
 Given, as in the above cases, in moderate doses and with sufficient 
 interval, pilocarpine has never in my practice had any deleterious effect, 
 and I regard it as a very important addition to the remedies for the 
 relief of scarlatinous nephritis. It is apparently the most useful and 
 important diaphoretic for this disease which we possess. 
 
 Cathartics, especially those of a hydragogue nature, are also very 
 beneficial. Their action is more certain than that of most diaphoretics 
 and diuretics, and their employment is imperatively required in severe or 
 dangerous cases in which it is necessary to remove as soon as possible the 
 serum or urea which endangers life. Young children or those with 
 delicate stomach, and those much enfeebled by the primary disease, may 
 take magnesia, either the citrate or the calcined. A good cathartic for 
 ordinary cases is a mixture of jalap and potassium bitartrate, the pulvis 
 jalapae compositus, consisting of one part of jalap and two of cream of 
 tartar. Ten grains of the mixture may be given to a child of five years, 
 and repeated according to circumstances. Its effect is increased by dis- 
 solving a teaspoonful of potassium bitartrate in a gobletful of water, and 
 allowing the patient to drink from it. The following is a good cathartic 
 in some instances, especially if the stomach be irritable, so that the more 
 bulky and nauseating cathartics are rejected. Care should be taken to 
 obtain a good article, as some of the podophyllin of the shops Ls not 
 reliable : 
 
 I$*. Resinse Podophylli gr. j ; 
 Sacchari 9j. M. 
 
 Ft. in chart. No. v.-x. 
 S. Give one powder, and repeat according to circumstances. 
 
 In the treatment of one of the cases reported above it will be recol- 
 lected that the mild chloride of mercury mite was given with the podo- 
 phyllin, with a good result. 
 
 After the use of laxative agents the kidneys, being less congested on 
 account of the diversion that has occurred, often begin to excrete urine 
 more freely. But if the patient be anremic or enfeebled and the symp- 
 toms are not urgent, it is frequently better to avoid active catharsis, which
 
 TREATMENT OF COMPLICATIONS AND SEQUELAE. 555 
 
 more or less reduces the strength, and employ remedies of a sustaining 
 character, as in the following case, which occurred in my practice : A 
 little boy, pallid and scrofulous, began to have anasarca after scarlet fever, 
 chiefly in the scrotum, accompanied by a moderate degree of ascites. The 
 urine, which was passed in nearly the normal quantity, contained albu- 
 men, but not in large amount. This patient gradually and fully recov- 
 ered, with no treatment except the use of an oil-silk jacket over the 
 kidneys and abdomen to promote diaphoresis, and the use of iron. Such 
 a patient, treated by the powerful eliminatives which we employ for the 
 more urgent and robust cases, would probably have been injured rather 
 than benefited. No treatment can therefore be recommended in a trea- 
 tise on scarlatinous nephritis which will be strictly applicable for all cases. 
 Variations are demanded according to the state of the patient and the 
 form and gravity of the disease. 
 
 Diuretics which do not stimulate the kidneys are proper at an early 
 as well as late period of the renal malady, and digitalis is the one usually 
 prescribed. I do not hesitate to order it from the first day in combina- 
 tion with the acetate of potassium. One teaspoonful of the infusion may 
 be given every third hour to a child of five years. The following formula 
 is for one of this age in good general condition : 
 1^. Potass Acetatis ESS ; 
 
 Infus. Digitalis fsvi. M. 
 
 The following formulae are recommended by Meigs and Pepper : 
 ^*. Potass. Bitart. 31 ; 
 
 Spt. Junip. Comp. f^ii ; 
 Spt. JEther. Nitros. f 31 j 
 Tr. Digitalis, ^xv; 
 
 Syrupi fv ; 
 
 Aquae fgii. M. 
 
 Dose one teaspoonful every two hours to a child of two to four years. 
 1^. Potass. Acetat. 31 ; 
 Tr. Digitalis 
 Syr. Scillae, 
 Syr. Zingib. 
 Aquae q. s. ad fsiii. M. 
 
 Dose, a teaspoonful every two or three hours to children two or three 
 years old. 
 
 Local treatment is important. L. Thomas, Romberg, and others recom- 
 mend the application of leeches, three or more, over the kidneys. 
 Thomas says : " In many cases the abstraction of blood causes immediate 
 and permanent relief; the fever and the pain in the region of the kidneys 
 cease, the secretion of urine becomes augmented, the albuminuria lessens 
 from day to day, and the moderate degree of dropsy that has been 
 developed disappears." It is only in the more robust children, who have 
 been but little reduced by the primary disease, that leeching ^ is, in my 
 opinion, admissible. In the majority of cases instead of depletion a poul- 
 tice slightly irritating, so as to cause redness of the skin, should be 
 applied over the kidneys, or for older children, not likely to be frightened 
 by the process, the dry' cups may be applied daily. In subacute cases, not 
 attended by any alarming symptoms, sufficient redness may be produced 
 by one of the irritating plasters which the shops contain, constantly worn.
 
 556 SCARLET FEVER. 
 
 Eclampsia, described in the preceding pages, is produced, as we 
 have seen, during the course of scarlet fever by the irritating effect 
 of the scarlatinous poison upon the nervous centres, but, occurring 
 after the decline of scarlet fever, it is ordinarily produced by the 
 retained urea. The same remedies are required to control the convul- 
 sive movements as when they occur under other circumstances. The 
 bromide of potassium should be immediately administered in large and 
 frequent doses whenever eclamptic symptoms arise. During eclampsia a 
 child of three years should take five grains of this agent every five to tcu 
 minutes till the attack ceases, and then at longer intervals. The hydrate 
 of chloral is a more powerful agent, and if the eclampsia be not quickly 
 controlled, I commonly employ it per rectum, dissolved in one or two 
 teaspoonsfuls of water. For a child of three to -five years five grains 
 should be thrown into the rectum by a small glass or gutta-percha syringe, 
 and retained by pressure. Properly administered and retained, it rarely 
 fails to control the eclampsia within ten or fifteen minutes. Subsequently, 
 occasional doses of the bromide should be given to prevent the occurrence 
 of eclampsia while the measures described above are being employed to 
 relieve the uraemic condition. 
 
 Rheumatism, endocarditis, and pericarditis, arising as complications 
 or sequela?, require the treatment which is appropriate when they occur 
 under other circumstances, but the remedies should not be depressing, as 
 the system is already enfeebled by the primary disease. The rheumatism, 
 if mild, usually abates in a few days without medication, and the affected 
 joints require only some soothing lotion and support by a bandage. The 
 following liniment may be applied upon muslin and covered by cotton 
 wadding : 
 
 ty. Acid. Carbolici f^i ; 
 Tine. Belladonna f si ; 
 Ol. Camphorati f 3ii ; 
 
 If the rheumatism be severe and affect several joints, the sodium salicy- 
 late should be prescribed, as in the idiopathic disease, with an occasional 
 opiate to procure rest. 
 
 Endocarditis and pericarditis require rest in the horizontal position, 
 avoidance of all excitement, the use of the tincture or infusion of digi- 
 talis or of the fluid extract of convalaria to procure a slow and steady 
 action of the heart. Three drops of the tincture of digitalis or five 
 minims of the fluid extract of convalaria may be given every four hours 
 to a child of five years. The same external measures should be employed 
 as in acute pleuritis. I prefer the application of a thin poultice of flax- 
 seed containing one-sixteenth part of mustard and covered with oiled silk. 
 The cardiac inflammations, as well as rheumatism, require opiates in suf- 
 ficient doses to procure rest and sleep. 
 
 Pleuritis, which we have stated is apt to be suppurative, demands the 
 same treatment as the idiopathic disease when it occurs in cachectic 
 patients.
 
 RUBEOLA. 1 
 
 BY W. A. HARDAWAY, M. D. 
 
 SYNONYMS. Rubeola, Morbilli, Measles, Maseru, Flecken, Rougeole. 
 
 DEFINITION. Measles is an acute infectious disease involving the skin 
 and mucous membranes, characterized by successive stages and a maculo- 
 papular eruption, which terminates in a fine branny desquamation. In 
 normal cases it runs a definite course, which from the date of invasion to 
 the end of desquamation occupies about fourteen days. It is highly con- 
 tagious, and occurs, as a rule, but once in the same person. 
 
 HISTORY. The word rubeola is probably of Spanish origin and was 
 formerly written rubiola or rubiolo. The designation morbilli is the 
 diminutive of the Italian il morbo, the plague. Although it is doubtful, 
 as claimed by Willan, that the Greek and Roman physicians were 
 acquainted with measles, there is no question that Rhazes was one of the 
 first to describe the affection correctly. Rubeola is said to have been dis- 
 tinguished from variola by the Arabians in the twelfth century ; but, 
 nevertheless, as late as the middle of the seventeenth century we find 
 Sennertus discussing the question "why the disease in some constitutions 
 assumed the form of small-pox, and in others that of measles ;" and in a 
 posthumous work of Diemerbroeck, published in 1687, it is asserted that 
 small-pox and measles are only different degrees of the same affection. 2 
 According to Mayr, the merit of having shown measles to be a distinct 
 malady from scarlatina must be ascribed to Forestus and Sydenham. It 
 is not clear, however, that the two diseases were accurately differentiated 
 till the close of the last century, and notably by Withering in 1792. 
 
 ETIOLOGY. The exact nature of the measles contagium has never 
 been satisfactorily established, although we are in possession of numerous 
 researches in that direction, which, however, are to a great extent contra- 
 dictory. A brief examination of these . various observations will not 
 prove uninteresting. Hallier found in the blood and sputa numbers of 
 free cocci, which fructified upon various substrata, but was invariably the 
 same fungus mucor mucedo verus, Fres. In 1862, Salisbury 3 published 
 
 1 In the preparation of this article the ' writer has consulted the following works : 
 Thomas, in Ziemssen's Cyclop. Pract. Med., vol. ii., N. Y., 1875, Am. edit. ; Bohn, in 
 Gerhardfs Handbuch der Kinderkrankh., Zweiter Band, Tubingen, 1877 ; Squire, in 
 Quain's Diet. Med., N. Y., 1883; Ringer, in Reynolds's Syxlem Med., vol. i., Phila., 1879; 
 Meigs and Pepper, Dis. of Children, Phila., 1882 ; J. Lewis Smith, Dis. of Children, 
 Phila., 1882 ; Hebra, Dis. of Skin, London. 1866 ; Vogel, Dis. of Children, N. Y., 1871 
 Niemeyer, Handbook of Pract. Med., N. Y., 1869 ; Trousseau, Clinical Med., Phila., 1871. 
 Other references will be found in the foot-notes to the text. 
 
 2 Cyclop. Pracl. Med., London, 1834, p. 625. 
 * Am. Jour. Med. Sci., July and Oct., 1862. 
 
 657
 
 558 RUBEOLA. 
 
 his observations on the relation of the straw fungus to measles. He 
 recorded instances of inoculation with this organism that resulted, accord- 
 ing to him, in the production of a modified form of rubeola, and, more- 
 over, was protective against further attacks of the same disease. In 
 an exhaustive paper bearing on this question H. C. Wood 1 quotes 
 certain experimental inoculations made by William Pepper, which 
 showed conclusively that measles was not propagated in this way, and 
 that where any symptoms were developed they were not those of true 
 measles, nor did they protect the subjects from unquestioned measles. 
 Salisbury also claimed that measles had occurred in camps where 
 damp and mouldy straw had been employed for bedding. J. J. Wood- 
 ward in his work on Camp Diseases points out that camp measles pre- 
 vailed almost exclusively in regiments from the rural districts, while 
 men enlisted in towns and cities were more or less completely exempt. 
 The explanation was, that those from the country had hitherto escaped 
 the disease, while townspeople had suffered from it at some previous time 
 a condition of affairs inconsistent with the theory of the straw fungus. 
 Coxe and Felz found numerous bacteria in the blood of measles patients, 
 especially in regions where the eruption was most pronounced. The 
 nasal mucus also contained similar germs. Inoculation of the blood 
 from the subjects of measles upon rabbits did not produce an analogous 
 affection (Thomas). Klebs 2 obtained micrococci from the trachea and 
 from blood taken from the hearts of infant cadavers. "In the latter, 
 collected in flattened capillary tubes, there developed balls of micrococci ; 
 in the trachea both micrococci and bacteria were present in large quanti- 
 ties. Under observation, pale, finely-granular micrococcus balls developed 
 and changed very quickly to bacteria, which moved about very actively. 
 These sought the periphery, about J mm. distant from the centre of 
 development, and formed a zone, comparable with a hedge or fence that 
 is composed of rods. From this were formed new masses of micrococci, 
 but further no regular process of arrangement or development could be 
 observed." 
 
 Braidwood and Vacher, 3 as the result of a number of experiments, 
 believed that they had sufficient evidence for concluding that the most 
 active mode of the transmission of measles was through the breath, and 
 accordingly instituted a series of experiments by carefully examining the 
 breath of children in the acute stage of the disease. 4 With this object in 
 view they coated over with glycerine the inside of several clean glass 
 tubes of a diameter of a half to three-quarters of an inch. As soon as 
 the nature of the eruption was manifest the patient was required to 
 breathe through one or more of the tubes, and so on each day till the 
 eruption had faded. Upon examination of the glycerine with an one- 
 eighth objective every specimen showed numerous sparkling bodies, some- 
 thing like those found in vaccine, but larger. Some Avcre spherical ; others 
 were elongated, with sharpened ends. They were most abundant during 
 the first and second days of the eruption. Healthy children and patients 
 suffering from typhoid and scarlet fevers were made to imitate these 
 
 1 Ibid., Oct., 1868, p. 333. 
 
 a Wilrzbr. Vrrh., N. F., v., 1874, quoted by Forchheimer in Supplement to Ziemsxen's 
 Cyclopedia, W. T., 1881, p. 102. Brit. Med. Jour., Jan. 21, 1882. 
 
 4 Several years ago Ransnme of Manchester obtained particles from the breath of 
 two persons suffering from measles (Squire).
 
 ETIOLOGY. 559 
 
 experiments, but no such bodies were to be seen in their specimens. 
 They conclude from these observations that the small spherical elements 
 discovered in the breath are perhaps the active agents in the propagation 
 of measles. Upon post-mortem of patients who had died of rubeola 
 these germs were found in the lungs and liver, and, particularly, close to 
 the walls of the capillaries. They believe that the "lungs are the 
 favorite breeding-ground of the contagium." 
 
 That inoculation of morbillous blood may convey the disease was first 
 demonstrated by Home in 1757, which experiments were verified by 
 Speranza in 1822 and by Katona in 1842. The inoculations of the 
 latter are especially noteworthy, as they numbered more than a thou- 
 sand. No person inoculated by him died, and only 7 per cent, of the 
 inoculations failed. On the other hand, inoculations made by Mayr 
 gave negative results. It is stated that Monro and Locke communicated 
 measles by inoculating with the tears and saliva. Attempts of the same 
 kind were fruitlessly made in Philadelphia in 1801, although the blood, 
 the tears, the nasal and bronchial mucus, and the exfoliated lamellae of 
 the epidermis were successively employed in the trials. 1 
 
 Mayr has shown that the nasal mucus is capable upon inoculation of 
 propagating the disease. He performed the experiment upon two healthy 
 children living at a distance from each other, at a time when the disease 
 had ceased to be epidemic. Some nasal mucus taken from the patient 
 during the stadium flavitionis, and kept fluid in a glass tube, was the 
 same day placed upon the mucous membrane of each of these children. 
 In one of them the first symptom of sneezing occurred after eight days, 
 in the other at the expiration of nine days. Febrile symptoms set in 
 two days later. In each child the rash appeared on the thirteenth day 
 after infection. The inoculated disease was mild and regular in its 
 course. 
 
 While it is perhaps true that the contagion of measles is not so tena- 
 cious as that of small-pox and scarlatina, it is a matter of observation 
 that susceptible persons are liable to contract the disease, even if not 
 directly exposed to its influence. There is incontestable evidence that it 
 is conveyed by fomites a fact well worth bearing in mind. 
 
 It is but just to say that so excellent an observer as Mayr taught that 
 measles could not be conveyed by clothes, linen, etc. unless transferred 
 immediately from one individual to another. Panum, however, showed 
 that contagion could be carried many miles by an unaffected third person 
 without losing its activity. Aitkcn 2 has also pointed out the fact that 
 children's clothes sent home in boxes from schools where the disease has 
 raged communicated the disease, and that susceptible children who had 
 slept in the same beds, in the same rooms, after they had been occupied 
 by persons suffering from measles, have taken the malady. Squire 
 observes that the contagium of measles, except in the catarrhal stage, is 
 not far diffusible in the air, but clings to surfaces, and may be thus 
 carried from place to place; on the other hand, children have been 
 brought, while in full eruption, into a house among others, and nursed 
 in a room apart, without any extension of the disease to the most sus- 
 ceptible. 
 
 1 Kayer, Diseases of the Skin, Phila., 1845. 
 * Science and Prac.l. of Med., Phila., 1868.
 
 560 RUBEOLA. 
 
 Various circumstances render it probable that measles is most readily 
 propagated during the stage of efflorescence ; but that it is also highly 
 infectious during the prodromal period is now universally acknowledged. 
 
 According to Niemeyer, the probability of infection during the prodro- 
 mal stage is supported by the wonderful spread of measles through 
 schools; for, while the strictest surveillance is established over children 
 with any suspicious eruptions, and those known to have had the disease 
 are not allowed to return till long past the stage of desquamation, no heed 
 is paid to those exhibiting the premonitory cough and coryza. There is 
 no reason for believing that measles can be propagated during the period 
 of incubation ; on the other hand, there is no satisfactory argument for the 
 denial of its infectiousness in the desquamative stage. Although Pauum 
 is inclined to doubt its contagiousness at this time and his observations 
 are worthy of the greatest confidence other good authorities diifer from 
 him materially, and extend the stage of personal infection to a period of 
 from three weeks (Squire) to forty days (Hillairet). 
 
 Reasoning from analogy, we would naturally expect that the period of 
 incubation in measles suffered a certain amount of variation; the result 
 of numerous observations confirms this expectation. It is manifestly a 
 difficult matter in densely populated communities to establish with accu- 
 racy the date of a given infection, but from a study of more or less care- 
 fully noted cases it will be found that the period of incubation may vary 
 from three to thirty days. For the vast majority of cases the average 
 time between the reception of the measles poison and the appearance of 
 the characteristic eruption will be about from thirteen to fourteen days. 
 Panum, under exceptionally favorable surroundings, found it more fre- 
 quently fourteen than thirteen days. Therefore, deducting the three or 
 four days occupied by the invasion stage, we shall find that the real incu- 
 bation period is from nine to ten days from the date of exposure. Mayr's 
 two cases of inoculation with nasal mucus showed no departure from this 
 rule, but in the inoculations made by Katona with blood the prodromic 
 symptoms made their appearance in seven days, the cutaneous lesions devel- 
 oping two, and at the most three, days afterward. 
 
 Minor epidemics of measles are said to occur every three to five years, 
 more extensive and severe ones every seven or eight years. In the centres 
 of population measles may be said to be endemic; in isolated regions the 
 visitations of the disease may be widely separated. Measles is a less severe 
 disease in warm than in cold climates, and, as a rule, we also find the 
 affection more common and more intense in the fall, winter, and spring 
 than in the summer months. 1 Epidemics of measles are usually short, 
 and it is thought that there is a definite relation between the severity of 
 their onset and their duration, this being in general short in proportion as 
 the given epidemic was at first severe (Mayr). Intestinal complications 
 are more frequent in summer, and involvements of the respiratory organs 
 more common in winter. The varying aspects of different epidemics 
 
 1 Aitken (op. cit., p. 295) declares that the mortality returns from England and Wales 
 show that the influence of season is most trifling. Occasionally it has been found that the 
 deaths in summer exceeded those in winter, hut we believe that the statement made above 
 is, in the main, correct. For instance, Parson's figures for Berlin for the years 1863-67, 
 inclusive, are: spring, 11.9 per cent.; summer, 13.3; autumn, 33.4; winter, 41.4. Voit's 
 statistics in an average of thirty years at the Children's Clinic at Wiirzburg establish the 
 same general principles (ThomasX
 
 ETIOLOGY. 561 
 
 sthenic, asthenic, etc. depend on changes in the weather, season of the 
 year, the presence of complications, and other agencies not very clearly 
 understood. Epidemics of whooping cough may precede, accompany, or 
 follow in the wake of measles, and it has therefore been suggested that it 
 stands in some peculiarly close connection with the latter ; but, aside from 
 this often-observed coincidence, we are not justified in our present state 
 of knowledge in assuming any definite relation of cause and effect between 
 the two diseases. 
 
 There would seem to be neither geographical nor racial bar to the 
 propagation of measles, for it has been observed in all countries and 
 among all peoples. As in the case of other zymotic diseases, a tolerance 
 is established for measles in countries where the disease is more or less 
 constantly prevalent ; but where the affection becomes epidemic for the 
 first time, or reappears after many years, it rages with terrific violence. 
 This fact was particularly exemplified in the epidemic in the Faroe Islands, 
 and more especially in the recent (1877) visitation of the Fiji Islands, 
 where one-fourth of the population succumbed in a comparatively short 
 time. 
 
 It is quite probable, as asserted by Mayr, that children affected with 
 scrofulous complaints, as well as those who are the subjects of diseases 
 of the respiratory organs pertussis, bronchitis, or tuberculosis are emi- 
 nently susceptible of measles ; but his statement that sufferers from epi- 
 lepsy, chorea, and paralysis exhibit an unusual power of resistance cannot 
 be accepted without reservation. Acute diseases often appear to delay 
 the outbreak of measles, so that the latter does not appear till convales- 
 cence from the former (Thomas). The development of vaccinia is occa- 
 sionally interfered with by an attack of rubeola ; on the other hand, the 
 two diseases may be seen running their courses together. 1 The emphatic 
 statement made by Hebra, that measles is never seen to occupy a patient 
 simultaneously with another acute exanthem, has not been confirmed by 
 other observers. My own experience furnishes several examples. 
 Measles may also occur during the course of other acute or chronic mala- 
 dies. From a study of the literature of measles complicating pregnancy 
 and parturition Underbill 2 finds it to be quite uncommon, due probably 
 to the fact that most adults are insusceptible of further attacks ; but when 
 it does occur in pregnancy he regards it as a very serious and frequently 
 fatal complication. Underhill believes measles to be most fatal when it 
 supervenes soon after delivery, while those who are confined during the 
 course of the malady stand a better chance of recovering from it. That 
 puerperal women are not always unfavorably affected by measles is well 
 shown in two remarkable cases reported by Nelson 3 of St. Louis and 
 Chantier 4 of Geneva, in which the mothers were safely delivered, though 
 suffering from measles contracted at the end of their pregnancies. 
 
 All ages are susceptible to the measles poison, and the apparent exemp- 
 tion enjoyed by adults is due to the fact that most grown-up people have* 
 already suffered the disease in childhood ; but in Panum's epidemic, men- 
 tioned above, it was discovered that nearly all who had not had measlet) 
 
 1 Hardaway, Essentials of Vaccination, p. 60. 
 
 2 Obstel. Jour. Great Britain and Ireland, July, 1880. 
 
 3 St. Louis Courier of Med., Sept., 1879. 
 * Annales de Gynecologic, May, 1879. 
 
 VOL. I. 36
 
 562 
 
 RUBEOLA. 
 
 elsewhere, or were not old enough to have been exposed at the last visita- 
 tion, sixty-five years before, acquired the affection regardless of age. It 
 is quite probable, however, that the law of decrease of susceptibility with 
 age holds good for measles as well as for variola, etc., but to a less degree. 
 It will therefore be seen that measles is not essentially a disease of child- 
 hood. Although there is no special limit to the susceptibility of rubeola 
 at one extreme of life, it would seem to be quite well established that it 
 is much modified at the other namely, that infants under six months 
 are rarely attacked. This latter fact is conceded by individual expe- 
 rience, by the records of epidemics, and by the testimony of most 
 observers. 1 
 
 Under one year 
 
 England. 
 
 London. 
 
 Males. 
 
 Females. 
 
 Males. 
 
 Females. 
 
 3022 
 6086 
 3178 
 1730 
 . 980 
 
 2530 
 5825 
 3255 
 1851 
 1028 
 
 3571 
 
 8630 
 4683 
 2594 
 1358 
 
 2987 
 8050 
 4757 
 2620 
 1466 
 
 
 Two " " three" 
 
 Three" " four " 
 
 Four " " five " 
 
 Five and under ten years 
 
 255 
 29 
 9 
 
 7 
 5 
 3 
 
 278 
 38 
 13 
 9 
 8 
 5 
 
 301 
 24 
 9 
 5 
 5 
 2 
 
 316 
 32 
 
 11 
 7 
 7 
 3 
 
 Ten fifteen years 
 
 Fifteen " twenty " 
 
 Twenty " twenty-five years 
 
 Twentv-five and under thirty-five years 
 
 Thirty-five " forty-five " 
 
 
 Even sucklings do not enjoy a complete immunity from measles. 
 Steiner 2 states that he has met with it in children only four or five weeks 
 old. Monti has recorded ten cases of rubeola in children under two 
 months of age. A case is reported by Kunze where a mother in the stage 
 of efflorescence gave birth to a child, which contracted the disease five days 
 afterward. Quite a number of cases of congenital measles have been put 
 on record from time to time ; but Thomas, after a careful investigation, 
 says that he has been able to discover but six authentic accounts of such 
 occurrences. 3 That children born to mothers suffering at the time of par- 
 turition from measles may yet escape it themselves is proven by the 
 cases of Nelson and Gautier mentioned above. Whether a pregnant 
 woman attacked by measles transmits the disease to the foetus in utero, 
 thereby securing immunity from it in after life, is a question difficult of 
 decision, especially as we have not yet been able to decide this same 
 inquiry, with infinitely better opportunities, for vaccinia. 4 
 
 There is no good reason to believe that sex is of much importance in 
 establishing a predisposition to measles, although the statement has been 
 ^repeatedly made that males are more frequently attacked than females. 
 
 1 On the other hand, as quoted by Forchheimer (loe. cit.}, H. C. Fox publishes 
 some tables which show that for England and London a much larger number of young 
 children are attacked by measles than other statistics would lead us to believe: 
 
 2 Compendium of Children's .Diseases, N. Y., 1875, p. 396. 
 
 3 1 believe that, under certain circumstances, the erythema papulatum of the new-born 
 is often mistaken for measles. 
 
 4 See experiments of Burckhardt, Rickett, Gart, and others, quoted in Hardaway's 
 Essentials of Vaccination, p. 38.
 
 SYMPTOMS AND COURSE. 563 
 
 Fox's statistics show a slight preponderance in favor of the male sex ; but 
 a careful examination of accessible statistics proves, as would be expected, 
 that this degree of susceptibility varies at different times in obedience to 
 circumstances not readily understood. 
 
 By the older writers (Willan, Rosenstein, Fuchs) it was very dogmati- 
 cally asserted that one attack of measles completely extinguished all future 
 susceptibility to the disease. Of late years this dogma has met with 
 much opposition, and numerous observations have been recorded which, 
 if entirely trustworthy, would lead us to believe that rubeola may occur 
 not only twice, but several times, in the same individual. While from 
 analogy and actual experience we are quite sure that the recurrence of 
 measles is not so uncommon an event as it was once held to be, a closer 
 examination of the question in all its bearings clearly confirms us in the 
 belief that subsequent attacks are much more infrequent than is now 
 thought to be the case by many, and that other diseases, more or less 
 resembling true measles, are largely responsible for errors of diagnosis in 
 this regard. Panum found that all the old people who had measles dur- 
 ing the epidemic on the Faroe Islands in 1781 escaped it in 1846. Both 
 Rosenstein and Willan declared that they had never witnessed an instance 
 of the true recurrence of measles. Among other facts, it may be stated 
 in this connection that Woodward (loc. cit.) has shown that during our 
 late war, while members of regiments recruited from the rural districts, 
 who had never before had measles, largely took it when exposed to its 
 influence, regiments from the cities, who had presumably acquired the dis- 
 ease in childhood, remained almost entirely exempt. 1 Other arguments of 
 a similar sort could be readily adduced. There is no question that mis- 
 takes in diagnosis have occurred from confounding rotheln, roseola, etc., 
 which closely simulate measles, with that disease. Those particularly 
 engaged in the treatment of cutaneous affections could multiply instances 
 of such errors. It is quite significant that for certain analogous infectious 
 diseases e. g. variola and scarlatina the same frequency of recurrence is 
 not claimed, although as a matter of fact they do occur. The explanation 
 would seem to lie in the fact that neither small-pox nor scarlet fever is so 
 closely counterfeited by other skin affections, notably by rotheln, as is 
 measles. But it would be entirely contrary to analogy and indubitable 
 experience to go to the extreme of the older writers and absolutely deny 
 the possibility of second, and even third, attacks of rubeola. The fre- 
 quency of such cases is, however, as Henoch 2 truly states, much over- 
 estimated. 
 
 Occupying quite a different position from the measles induced by 
 reinfection from without are the so-called relapses of rubeola. These 
 relapses, which may occur in from two to four weeks after the original 
 invasion, are analogous to the similar occurrences in scarlatina and 
 typhoid fever. I am cognizant of but a single case of this sort, but 
 Steiner and other accurate observers record a number of such instances. 
 
 SYMPTOMS AND COURSE. It is generally stated that the stage of incu- 
 bation exhibits no symptoms whatever ; but it is undoubtedly true that 
 the patient will sometimes appear dull and listless, and, on occasion, even 
 give evidence of some slight and ephemeral elevations of temperature. 
 
 1 These observations of Woodward were made without any reference to the question at 
 issue. * Lectures on Diseases of Children, N. Y., 1882, p. 282.
 
 564 RUBEOLA. 
 
 As a rule, however, this period is devoid of any marked indication of 
 the presence of the measles poison in the system. 1 
 
 The prodromal stage is usually ushered in by symptoms of general 
 malaise, fretfulness, more or less frontal headache, shiverings, nausea, 
 loss of appetite, excited sleep, and sometimes delirium. Vomiting is not 
 so common in measles as in scarlatina, and may occur at any time pre- 
 vious to the appearance of the rash. The tongue is apt to be coated, 
 although it may remain clean ; the taste is bad, and pressure over the 
 stomach and bowels occasionally elicits considerable pain ; an aching pain 
 over the sternum is also noted. As a general thing, at this time patients 
 are drowsy and inclined to sleep much. Meigs and Pepper found this a 
 very constant symptom, which they state is in no way alarming unless 
 associated with other more serious symptoms of local or general dis- 
 turbance. Constipation is present in some cases, or the bowels may be 
 relaxed or remain in their natural state. 
 
 The prodromal fever of measles follows a peculiar course, it is 
 remarkably remittent in character, and is rarely of such intensity as to 
 threaten life, as is often the case in scarlet fever. The temperature will 
 rise on the first day to 102-104 F., and the height of the fever at this 
 time will measurably foreshadow the character of the subsequent course. 
 On the second day of the prodromal stage the fever suffers a marked 
 remission, or may even entirely disappear, to again rise in the evening. 
 Smith has observed two exacerbations in the day. Again, in some 
 instances, after the high initiatory fever, the temperature may remain 
 normal till just before the rash comes out (Bohn). It is this peculiar 
 behavior of the fever, together with the fact that the child may regain its 
 usual vivacity in the fever-free intervals, which so often misleads the 
 physician into the diagnosis of malarial poisoning. 
 
 The most pronounced feature of this stage of the disease is, beyond all 
 others, the catarrhal affection of the mucous membranes. The mucous 
 membranes of the eyes, nose, mouth, and air-passages are all more or less 
 involved, and the patient suffers in varying degrees from photophobia, 
 coryza, hoarseness, cough, and pain in swallowing. Sneezing is frequent 
 and annoying, and slight epistaxis is not uncommon. The cough usually 
 appears on the first day, simultaneously with the fever. It is not very 
 troublesome at first, but by the fourth day it becomes more frequent, 
 assuming a hoarse, barking, paroxysmal character. Expectoration is 
 scanty, and auscultation reveals a harsh vesicular murmur or else sibilant 
 rales. Alarming but not dangerous attacks of false croup may come on 
 during the night. Many observers have called attention to the red spots 
 (papules) in the oral cavity, which make their appearance during the 
 period of invasion. According to Bohn, usually on the second or third 
 day from the beginning of the fever there appear upon the slightly 
 hypersemic mucous membrane of the soft palate, palatal arch, and uvula 
 small or large, dark, red spots that spread to the mucous membrane of 
 the cheeks, and sometimes to the hard palate, lips, and gums. Soon they 
 become more defined, and are to be distinguished by shape and coloring 
 
 1 Some writers describe a much more marked train of symptoms as prevailing at this 
 time than seems warranted by general experience, and Rehn has gone so far as to declare 
 that the prodromal period, as usually understood, properly commences in the stage of 
 incubation. Bohn is inclined to a similar view. The prodromic stage of authors is, then, 
 to be looked upon as the " period of the mucous membrane exanthem."
 
 SYMPTOMS AND COURSE. 565 
 
 from the membrane upon which they are situated. According to the 
 same authority, they also afford an index to the intensity and extent of 
 the coming cutaneous eruption. It is also stated that if the latter par- 
 takes of a hemorrhagic character, the spots on the mucous membrane 
 may also become livid. This same punctate reddening has been demon- 
 strated in the epiglottis, larynx, and trachea (Gerhardt), and upon the 
 bronchi and small intestines of children who had died during this 
 stage of the eruption. It is also to be noted on the conjunctive. 
 It has been assumed that this period of this disease is not to be 
 looked upon as the stadium prodromorum, but as the period of the 
 " exauthem of the mucous membrane." This view of the.pathology of 
 measles seems to me most reasonable ; but in whatever way we may look 
 upon the question, the practical importance of this precutaneous eruptive 
 stage is to be insisted upon for diagnostic purposes, just as is the analo- 
 gous eruption upon the mucous membrane in small-pox. 
 
 In ordinary cases of measles we do not find such profound reaction of 
 the nervous system as in scarlatina. I believe that convulsions in the 
 prodromal stage are much more common than available statistics would 
 have us believe ; at least, this is my own experience. Meigs and Pepper 
 met with convulsions but five times in 314 cases at the beginning of the 
 eruption, while Eilliet and Barthez observed but one convulsion in 167 
 cases. Thomas says that convulsions are almost always absent. On the 
 other hand, Trousseau and Bohii expressly declare that they are very 
 common, the former stating that they occur with greater frequency than 
 in scarlatina. I consider that convulsive seizures occurring in connection 
 with marked catarrhal affection of the mucous membranes are very 
 important aids in forecasting a probable attack of rubeola. Fortunately, 
 convulsions at this stage are not very serious unless repeated or injudi- 
 ciously treated. 
 
 The duration of the period of invasion in regular cases is from three 
 to five days, with an average of about four, but in perfectly uncompli- 
 cated attacks this period may be extended to six or eight days, or even 
 longer. But that the duration of this stage may be much shorter than 
 the average is not sufficiently insisted upon by writers. Ringer, 1 for 
 instance, says that he had an opportunity of testing the earliest appear- 
 ance of the rash in an epidemic of measles in a large public school for 
 boys under twelve. In every case during the epidemic the rash appeared 
 on the first day, the cases being severe, though of short duration, the 
 temperature rising to 103 and to 104 F. In some instances the rash 
 preceded (?) the fever. Thus, several of the boys feeling poorly, their 
 temperature was carefully taken night and morning under the tongue, 
 and in several cases the rash appeared in the morning about the face and 
 collar-bone, while the temperature remained normal, and did not rise till 
 the evening, when it ran up to 101-103 F., and even higher. These 
 cases certainly resemble rothcln more than measles. In two cases, which 
 I observed under very favorable conditions, the eruption commenced to 
 appear on the morning of the second day, and more or less similar 
 experiences are recorded by others. 
 
 The skin eruption, which appears, as a rule, on the third, fourth, or 
 fifth day of the attack, is ushered in with an increase in the general and 
 1 Handbook of Therapeutics, 6th ed., London, 1868 note to p. 26.
 
 566 RUBEOLA. 
 
 local symptoms of the disease. It is particularly to be remarked that the 
 fever does not subside at this time, as is the case in variola. The erup- 
 tion appears first upon the face, about the cheeks and forehead, then on 
 the chin and neck, and thence gradually overspreads the trunk, and 
 finally reaches the extremities. When the eruption is intense no part of 
 the body is free from it, the rash being found upon the palms and soles 
 and upon the hairy scalp. The cutaneous lesions proper consist at first 
 of hypersemic spots of about a line in diameter, which gradually increase 
 in size, until at their full development they may attain a diameter of 
 from one-twentieth to a quarter of an inch. In the beginning they bear 
 a very close .resemblance to the sub-papular lesions of small-pox. The 
 maculo-papules, when fully developed, are slightly elevated above the 
 level of the skin, the elevation, however, being more appreciable to touch 
 than sight, have a smooth velvety feel, and are so arranged as to enclose 
 areas of healthy skin. In the individual spots we may frequently 
 observe one or several minute, darker-colored papules, due to follicular 
 congestion, which when more intense constitutes the morbilli papulari 
 presently to be described. The macula are, as a rule, roundish, or they 
 may be moon-shaped, or their borders may present an indented or notched 
 appearance. Where the capillary circulation is active on the cheeks, for 
 example or upon parts subjected to pressure, the eruption may become 
 confluent; that is to say, the usually pale intervening skin becomes 
 injected or the papules coalesce, and in this way produce a uniform red- 
 ness over large single tracts of skin. This scarlatinoid rash, however, 
 never occupies the whole surface of the body, but only limited regions, 
 and in other situations may be detected the characteristic discrete papules 
 of rubeola ; the color is not uniform, but is broken here and there by the 
 darker streaks and spots of the measly eruption. The rash, which dis- 
 appears upon pressure to return when the pressure is removed, is of a 
 more or less rosy red, with a tendency in some to deep red, and has occa- 
 sionally a purplish hue. According to Mayr and Hebra, it is of the pre- 
 cise color which is obtained by adding a little yellow or brown to a red 
 pigment. 
 
 According, to the researches of Thomas, Squire, and Wunderlich, as 
 abstracted by Seguin, the fever of the eruptive period is divided into a 
 moderately febrile stage and the fastigium or acme. The moderately 
 febrile stage averages thirty-six to thirty-eight hours, and is made up of 
 one or two exacerbations of 100.4 to i02.2 F., but not quite so high 
 as the initial fever. If there are two exacerbations, the second one is 
 the higher ; the intervening remissions are not so low as those of the 
 prodromal stage, yet even now the norm may be noted on a single occa- 
 sion. ^ The fastigium commences early in the day or in the evening ; if 
 the rise should occur in the morning, the evening temperature rises still 
 higher, with or without a slight remission the following morning, and 
 the next evening attains the maximum. If the acme begins in the even- 
 ing, the remission on the next morning is either absent or very slight. 
 The greatest height of the fever in normal cases corresponds to the 
 greatest intensity and development of the eruption. This rule is not 
 invariable, however, for sometimes the fever is higher soon after the 
 eruption appears, and has fallen when the exanthem has reached its 
 highest point. The whole fastigium lasts from one and a half to two
 
 SYMPTOMS AND COURSE. 567 
 
 and a half days, so that the complete eruptive fever occupies from three 
 to four and one-half days. 1 The pulse in general preserves a propor- 
 tionate correspondence to the temperature, and never attains the great 
 frequency to be observed in scarlatina. 
 
 The general symptoms, with the exception of the fever, do not greatly 
 differ from those common to the prodromal stage. The skin is hot and more 
 or less swollen, particularly about the face ; there are anorexia, photopho- 
 bia, lachrymation, and sometimes epistaxis ; the cough continues, and is 
 generally frequent and harassing, and attended with little or no expecto- 
 ration ; the voice is hoarse. The tongue is coated, principally in the 
 middle, through which the swollen papillae protrude, while the tip and 
 sides are red. The blotchy redness of the oral cavity is visible for some 
 days, and finally becomes indistinguishable from the surrounding conges- 
 tion. The tonsils sometimes become considerably enlarged, though sup- 
 puration must be rare. Enlargement of the glands behind the jaw and 
 in the neck and groin are to be observed. At the outset of the eruption 
 a profuse diarrhoea supervenes in most cases a symptom which Trous- 
 seau rightly insists to be an essential feature of measles. This occur- 
 rence is interpreted by some writers as an evidence of the implication of 
 the mucous membranes in the specific exanthem of the disease. This 
 flux, which is sometimes accompanied by a little blood and tenesmus, 
 rarely continues long, and may be succeeded by a degree of constipation. 
 The respiration is generally somewhat accelerated, mostly in correspond- 
 ence to the amount of fever present. Some degree of deafness is not 
 uncommon, owing to the extension of inflammation along the Eustachian 
 tubes. The urine is scanty and high colored ; there is sometimes scald- 
 ing in urination and vesical tenesmus, and at the acme of the fever traces 
 of albumen may be detected. 
 
 The eruption, in fact, generally occupies the skin an average of four 
 days, and, although this period may be shortened materially, it is less apt 
 to be lengthened. The duration of the eruption at its maximum of 
 development over the whole surface is about half a day, more or less, 
 and, as a rule, corresponds with the greatest elevation of the temperature. 
 The retrocession of the rash takes place in the order of its appearance 
 viz. first from the face, then from the trunk and upper parts of the 
 extremities, and last from about the feet and hands, where, indeed, it 
 may remain vivid, or even progress for a short time longer, after the 
 eruption has begun to subside in other situations. Sometimes _ the almost 
 faded spots will be temporarily renewed by an abnormal rise in the tem- 
 perature. 
 
 With the decline of the eruption the other symptoms begin to subside. 
 The cough loses its hacking, paroxysmal character, and becomes less and 
 less frequent, and gradually disappears. The voice regains its normal 
 tone, the tongue loses its fur, cleaning up in patches, and expectoration, 
 which was absent or scanty and viscid in the beginning, increases and is 
 free, the masses coughed up being coin-shaped and floating _ in a clear 
 watery mucus a symptom much dwelt upon by the older writers. The 
 behavior of the temperature at this period the stage of decline is quite 
 
 1 According to Kinger, the highest temperature reached in normal cases is 103 F. 
 Thomas places it as high as 104 F., but states that it may go up to 105 F. without the 
 intervention of any complication.
 
 568 RUBEOLA. 
 
 characteristic. The fall usually begins at night, and generally the next 
 morning it has reached the norm or else fallen below it. On the other 
 hand, the descent may be less precipitate, and the fall continues less rapidly 
 all through the day ; or there may be a slight rise again in the evening, 
 the norm being reached the following morning. The termination by lysis 
 that is, slight elevations in the evening for several days is much rarer, 
 and 'while it may occur in perfectly regular cases, it should put the medi- 
 cal attendant on his guard against complications. 
 
 The comparatively normal course of measles portrayed in the preceding 
 paragraphs does not always occur, but, on the contrary, the disease may 
 depart from the more usual type in one or more particulars, either in espe- 
 cial stages of its progress or in the greater or less intensity of the malady 
 as a whole. 
 
 In addition to those cases of measles where the eruptive and catarrhal 
 symptoms are so slight as to almost escape observation, except for the 
 existence of other cases in the same house or family, there are to be recog- 
 nized two other trivial varieties of the disease namely, measles without 
 the catarrh, and measles without the rash. 
 
 That the eruption of measles should occur upon the skin without impli- 
 cation of the mucous membranes seems to be much more doubtful than 
 that the catarrh should appear without the eruption. It is quite probable, 
 at any rate, that many so-called cases of rubeola sine catarrho are merely 
 instances of rotheln, which we know may occur without any reference to 
 an existing epidemic of measles. But that this form of measles does exist 
 is admitted by trustworthy observers, although its diagnosis under any 
 circumstances must be a matter of great difficulty. Measles without the 
 eruption (rubeola sine eruptione) is more readily recognized, especially and 
 only, however, when a susceptible person is exposed, and as a result 
 acquires the characteristic catarrhal symptoms. Since in recent years 
 more attention has been paid to the eruption on the mucous membranes, it 
 may be that its discovery in these situations may lend positive assistance 
 to the diagnosis in such cases. It is hard to understand how this variety 
 of measles, which presents no inflammatory changes in the skin, should 
 be followed by desquamation ; yet this observation has been made. The 
 assertion that these anomalous forms of the affection afford no protection 
 against subsequent attacks seems to be founded in error, and is undoubt- 
 edly due to the confusion existing between measles and rotheln or other 
 exanthems. 
 
 Continental writers, especially, describe a form of measles called by 
 them inflammatory or synochal. It is simply an exaggeration of the 
 symptoms, particularly those appertaining to the mucous membranes, 
 found in ordinary measles (morbilli vulgaris). The prodromal stage is 
 much more violent, the nervous symptoms more threatening, the implica- 
 tion of the mucous membranes more pronounced and persistent, the febrile 
 movement is of a higher inflammatory character, and the eruption, which 
 instantly covers the whole body (Yogel), is made up of dark-red or pur- 
 plish spots which fade slowly. It is this form of measles, according to 
 Niemeyer, ^ which is chiefly attended by croupous instead of catarrhal 
 laryngitis, in which the inflammation of the air-passages often extends to 
 the alveoli of the lungs, and in which the gastric and intestinal coats are 
 often affected with catarrh.
 
 SYMPTOMS AND COURSE. 569 
 
 Let the contagion of measles be a grade more virulent, or perhaps the 
 resisting power of the patient more feeble, and the case will assume the 
 features of the septic, typhous, or hemorrhagic variety (rubeola uigra). 
 It is said that the hemorrhagic measles is most apt to occur in epidemics ; 
 certain it is that the dreaded black measles of former times is very infre- 
 quent now-a-days, due, no doubt, to a more rational treatment and a 
 better hygiene. Isolated cases, however, are occasionally encountered. 
 As a rule, from the beginning all the symptoms evidence an overwhelm- 
 ing of the system by the virulence of the poison a condition of things 
 much more common in scarlatina. The pulse becomes weak, thready, 
 and frequent ; the temperature lacks the typical remittent character of 
 normal measles ; there is unusual prostration ; and the nervous centres 
 are profoundly concerned, as shown by delirium, convulsions, and coma. 
 The eruption lags, and finally makes its appearance in an imperfect or 
 irregular manner. The spots are of a livid hue, interspersed with larger 
 or smaller ecchymoses. Hemorrhages from the mucous cavities take 
 place, and the patient dies in convulsions or sinks into fatal coma. It 
 has been said that the grave constitutional symptoms do not generally 
 make their appearance till the eruptive stage, but I know from experi- 
 ence that the patient may be overwhelmed quite early, as in purpura 
 variolosa. 
 
 Too much stress should not be laid on these different types of the 
 disease, whether mild or grave, since they depend upon a common cause, 
 however much modified in one way or another ; but they may be allowed 
 to stand for the sake of clinical convenience. 
 
 Measles may also present certain irregularities in its various stages 
 without necessarily departing from the otherwise benign character of the 
 disease. 
 
 As stated elsewhere, it is believed by some writers that a greater part 
 of the period of incubation is occupied by symptoms which already indi- 
 cate the activity of the measles poison in the system, and that, therefore, 
 this stadium in reality lasts but a few days. This opinion does not seem 
 to be generally accepted ; at any rate, I think we are quite safe in saying 
 that in the majority of cases no departure from the usual latency is 
 observed. The deviations in the stage of invasion have been considered 
 above, and mostly concern its duration and the character of the tempera- 
 ture. Evanescent rashes, which have nothing in common with the spe- 
 cific exanthem, are sometimes observed at this period. The eruption of 
 measles may present certain peculiarities. First, as to localization. 
 Instead of coming out on the face first, it may primarily develop on 
 other parts of the body, provoked into existence, as it were, by local 
 exciting causes ; thus, where ointments or plasters have been applied or 
 upon a part subjected to constant pressure. It may affect only one-half 
 of the body, or entirely spare paralyzed extremities (Mayr). In some 
 instances the papules are so sparse, indistinct, and short-lived as to be 
 scarcely appreciable. 
 
 Second, as to the physical characters of the eruption. Hebra and Mayr 
 recognize the following modifications : 
 
 Morbilli tavis. The efflorescence is smooth and flat, and the individ- 
 ual lesions are separated from each other by normal integument. Thie 
 is the common form of measles.
 
 570 RUBEOLA. 
 
 Morbilli papulosi. The papules are dark red and more elevated, are 
 about the size of hempseeds, and situated at the mouths of tiie hair-fol- 
 licles. 
 
 Morbilli vesiculosi. In this variety the mouths of the hair-follicles 
 are tilled with fluid and produce delicate transparent vesicles. 
 
 Morbilli confluentes. The maculae are here so crowded together that 
 no healthy skin intervenes. 
 
 Morbilli hsemorrhagici. The efflorescence consists of macula? or pap- 
 ulae of a dark-red color, due to extravasations of blood, and do not fade 
 on pressure. It is well to mention in this connection the fact, particu- 
 larly noted by Meigs and Pepper in this country, that hemorrhages into 
 the skin may occur in cases which otherwise run a benign course. They 
 are best seen after the eruption has faded. In some cases the efflores- 
 cence of measles may remain visible for a week or ten days. 
 
 As heretofore observed, there may be a relapse of the measles eruption 
 after some weeks, accompanied by fever. It is said that the spots appear 
 on parts of the skin hitherto normal (Thomas). So far as I know, Hebra 
 was one of the first to point out the fact that the so-called stri king-in of 
 the eruption was the result, and not the cause, of some complication in 
 the disease ; for, as this author states, before the rash fades or disappears 
 the internal disease is always present. It is well known, for instance, 
 that syphilitic eruptions will sometimes disappear upon the supervention 
 of some acute intercurrent affection, such as pneumonia, acute rheuma- 
 tism, etc.; but no one will suppose for a moment that the retrocession of 
 the syphilides was the cause of these affections. 1 The pathological expla- 
 nation seems obvious. 
 
 COMPLICATIONS. The complications of measles consist, as a rule, in 
 the exaggerated morbid action of organs or parts that are essentially 
 implicated in the disease ; therefore we are most apt to encounter such 
 affections as laryngitis, bronchitis, pneumonia, etc. Inflammation of 
 serous membranes, on the other hand, are rare ; thus, pleurisy is infre- 
 quent unless in connection with a lobar pneumonia. 
 
 The exact causes of the complications are not always obvious, but in 
 many instances can be traced to the previous bad health of the patient, 
 to the influence of insanitation, or, finally, to certain ill-understood fea- 
 tures attendant upon some epidemics. 
 
 Simple bleeding from the nose, not associated with the hemorrhagic 
 diathesis, is not an uncommon accompaniment of the prodromal stage, 
 and is rarely a dangerous symptom rather the contrary. It may also 
 arise after the development of the rash, and occasionally proves a compli- 
 cation of serious import. 
 
 The aural complications, unlike those in scarlatina, are generally not 
 .sufficiently prominent at first to attract attention. The symptoms, par- 
 ticularly pain and deafness, are apt to be masked. Purulent processes 
 and consequent perforation may occur during the eruption, but are more 
 frequent at the stage of desquamation (Spencer). 2 
 
 Various disorders of the skin have been observed during the course of 
 measles viz. miliary vesicles, and even pustules, as already described ; 
 herpes facialis, zoster femoralis (Thomas), and erythematous rashes, which 
 
 1 See Bumstead and Taylor on Venereal Disease*, 4th edit., p. 513. 
 
 2 Oral communication.
 
 COMPLICATIONS. 571 
 
 may precede, accompany, or, it is said, follow the eruption. Of consider- 
 ably more importance is the pemphigoid eruption mentioned by several 
 observers. In Henoch's 1 case, a girl of four years, the usual remission 
 of the fever on the evening of the second day was absent, and from the 
 third day there appeared over nearly the whole surface blebs filled with a 
 limpid fluid, which varied in size from a hazel-nut to a thaler, and even 
 larger. The cheeks and the backs of the hands were each covered with 
 a single bleb. The exanthem was of a hemorrhagic character, and the 
 intervening skin was red and the face swollen. The bullse appeared not 
 only where the eruption existed, but also on parts of the body free from 
 it. The fever remained at the same height till the fifth day, when, upon 
 the cessation of the bullous eruption, it fell to 100 F. A. M., and 101 F. 
 p. M. The child died on the eighth day of a pneumonia which developed 
 between the sixth and seventh days. Other cases have been reported by 
 Steiner, Kliippel, and Loschner. Henoch rejects the theory that the 
 bullse are the result of the morbillous dermatitis, but thinks that they 
 are merely instances of the coincidence of a contagious pemphigus. 
 
 The severe aifections of the eye described by continental writers blen- 
 norrhoaa, keratitis, iritis, etc. are certainly very rare in this country as 
 complications of measles. Various so-called strumous disorders of this 
 organ, as will be seen hereafter, not uncommonly, however, come under 
 the care of the ophthalmologist as sequelae of the disease. 
 
 The tonsils and the mucous membrane of the pharynx may become 
 severely inflamed. The tonsils are sometimes very much enlarged, but 
 suppuration, if it occur, is certainly rare. Slight ulceration of the gums 
 close to the teeth is occasionally noted, also aphthous ulcerations on the 
 lips, tongue, and gums (Ringer). 
 
 Some degree of laryngitis is an accompaniment of all cases of measles. 
 It has already been stated that catarrhal or false croup is frequently 
 observed during the stage of invasion. Inflammation of the larynx may 
 be present in all grades of severity. Rilliet and Barthez found ulcera- 
 tions and erosions, especially of the vocal cords, upon post-mortem exam- 
 ination of a large proportion of measles subjects ; and Gerhardt, both 
 during life and by autopsy, has verified these observations. Loeri 2 states 
 that inflammatory changes are more marked in the larynx and trachea 
 than in the pharynx. According to his examinations, hemorrhages or 
 ecchymoses seldom occur, but more frequently superficial or even deep 
 catarrhal ulcers, especially on the anterior aspect of the posterior wall of 
 the larynx at the apices of the cartilages of Santorini, or on the posterior 
 portion of the vocal cords. The physical condition of these parts readily 
 accounts for the frequent and harassing cough and attacks of spasmodic 
 laryngitis which are such frequent complications of the invasion and 
 
 1*7? f i 
 
 eruptive stages of measles. 
 
 There may be an extension of the tracheo-bronchitis to the finer bron- 
 chial tubes, thus producing capillary bronchitis (suffocative catarrh). It 
 is apt to prove fatal to very young children. It occurs more generally 
 during or after the eruption. 
 
 Pneumonia is one of the most frequent and, directly and indirectly, 
 most dangerous complications of measles. Catarrhal pneumonia (bron- 
 cho-pneumonia) is, for obvious reasons, more common than the lobar or 
 
 1 Berl. klin. Woch., No. 13, 1882. * Jahrbf. Kinderhdlk, xix. B., 1 H.
 
 572 RUBEOLA. 
 
 croupous variety. Pneumonia may develop at almost any stage of 
 measles, but experience does not confirm the statement occasionally made 
 that it is most frequent in the initial stage. Most observers will agree as 
 to its greater frequency just at the end of the eruption or during the 
 desquamative period. The occurrence of epileptoid convulsions, or an 
 untoward increase of the fever, or an unexplained continuance of the 
 same, should direct the attention of the attendant to the chest, if his anx- 
 iety have not already been aroused by a change in the character of the 
 respiration or other symptoms. It may be mistaken for meningitis 
 (Squire). In estimating the prognosis it should be remembered that 
 croupous and catarrhal pneumonias run quite different courses. The 
 influence of inflammation of the lungs upon the rash is quite decided. 
 If an intense pneumonia should develop in the initial stage, the eruption 
 will be pale and sparse, or else absent ; if the eruption is already out at 
 the time of the attack, it may become temporarily more vivid, to rapidly 
 fade later. 1 
 
 Chadbourne 2 has the merit of calling attention to the occurrence of 
 heart-clot and subsequent pulmonary oedema as a fatal complication of 
 measles. In a number of autopsies he found that in each case the heart 
 contained clear gelatinous clots of a very firm consistence, which in most 
 instances extended to the pulmonary arteries, and in some to the extent 
 of one and one-fourth inches. In the series of cases observed by him 
 pneumonic consolidation was mostly absent, and there was very little 
 evidence of collapse, but the lungs were exceedingly osdematous. But 
 Keating has also found heart-clot to be the cause of death in some cases, 
 and believes, as the result of his investigations, that the presence of large 
 numbers of micrococci in the blood and in the white blood-corpuscles is 
 responsible for this condition. 3 
 
 There is a strong tendency in measles to intestinal catarrh. As already 
 stated, a quite sharp diarrhoea is not uncommon at the beginning of the 
 eruptive stage ; but, unless it should prove "^ery profuse and long-con- 
 tinued, it is not to be looked upon as of very serious import, especially 
 if the other general symptoms of the disease are following a normal 
 course. In other instances the bowel affection may be much more severe, 
 giving rise to tenesmus, bloody stools, and the other phenomena of colitis. 
 In weakly children the early diarrhoea may persist in spite of treatment 
 for many days ; indeed, under the influence of high temperatures it may 
 take on a true choleraic character. Diarrhoea is a very frequent and grave 
 complication of the broncho-pneumonia of measles. 
 
 Acute miliary tuberculosis as an immediate concomitant of measles is 
 rare. According to Thomas, the disease at times immediately follows 
 the exanthem, and reaches a fatal issue in a few days or weeks. The 
 tubercles are more particularly to be found in the lungs and in the 
 membranes of the brain. 
 
 Among the more common disturbances of the nervous system convul- 
 sions play an important rdle. The epileptoid seizures of the prodromal 
 stage generally terminate favorably, but in some cases of a malignant 
 character the onset of the disease may be ushered in with fatal convul- 
 
 1 A scanty rash by no means indicates an unfavorable course of the disease ; this symp- 
 tom is only serious when evidently due to some complication. 
 1 Am. Jour. Obstet., Oct., 1880. * Pkila. Med. Times, Aug. 12, 1882.
 
 SEQUELS. 
 
 sions. Convulsions in the later stages are apt to have a lethal termina- 
 tion, as they usually occur in connection with some grave complication, 
 particularly of the thoracic organs. 
 
 Diphtheria is an exceedingly grave complication of measles, although 
 not necessarily a fatal one. It is of less frequent occurrence than in 
 scarlatina. It may attack any of the usual oral, nasal, or laryngeal 
 regions, sometimes extending into the bronchi, but suffers no modi- 
 fications in its symptoms and course from the primary disease. It 
 may also rarely involve other parts e. g. genitals, eyelids, etc. There is 
 reason to believe that it is most prone to attack those cases in which the 
 mucous membranes have undergone the greatest inflammatory alterations. 1 
 
 Many other complications of measles have been recorded in literature 
 (see Thomas, op. cit.*) ; but it is no doubt true/as observed by Bohn, that 
 very few of them have a real essential connection with that affection, and 
 might as readily be associated with any other malady, especially in already 
 vitiated constitutions. In the above sketch the endeavor has been made 
 to indicate those disorders which from the nature of measles would seem 
 to have a more or less close and definite relationship to it. It is certain 
 that the more serious complications and sequelae of measles are compara- 
 tively infrequent in private practice in America, although common enough 
 in continental Europe, and to a certain extent in the children's asylum? 
 and foundling hospitals in this country. 
 
 SEQUELAE. It is a difficult matter to dissociate the complications and 
 sequelae of measles. Properly speaking, the sequelae are to be looked 
 upon as the complications which have continued in existence after the 
 subsidence of the exanthem ; but it is also customary to include under 
 this head certain affections that are the result of the derangement of the 
 system by the morbillous process. 
 
 As would be expected, among the most frequent sequelae of measles 
 are those diseases which have their seat in the mucous membranes. Thus, 
 we may observe various grades of inflammation and ulceration of the 
 larynx, trachea, and bronchial tubes. According to Loeri, follicular 
 ulcers of the larynx always give a bad prognosis, for these cases usually 
 succumb to tuberculosis. It is not uncommon to observe a bronchial 
 catarrh, apparently simple in nature, which persists with frequent exacer- 
 bations for many mouths. The very frequent broncho-pneumonia, which 
 occurs as a complication, always remains as a sequel, or it may develop 
 after the morbillous process has come to an end. In favorable cases 
 recovery may take place in two or three weeks, or, preceded by hectic and 
 progressive emaciation, the disease may prove fatal after a number of 
 months. But even here it is not impossible for affected persons to 
 recover. 
 
 Chronic pulmonary tuberculosis is one of the most formidable and fre- 
 quent sequelae of measles. It is a not uncommon occurrence that, with 
 the exception of some trivial bronchitis, a patient may apparently recover 
 his health completely, and only after a lapse of time slight daily eleva- 
 tions of temperature, accompanied by loss of appetite and emaciation, 
 
 1 Loeri (loe. cit.) says that diphtheria may appear at any stage of measles, and com- 
 mences generally in the larynx, and sometimes in the trachea simultaneously ; seldom 
 in the pharynx, as in primary diphtheria or in that complicating other diseases than 
 measles.
 
 574 RUBEOLA. 
 
 first give warning of the impending danger. This form of phthisis may 
 follow either croupous or catarrhal pneumonia. Granular meningitis or 
 general miliary tuberculosis also frequently follows in the wake of 
 measles, connected in many cases with foci of caseous degeneration in the 
 involved lymphatic glands or unabsorbed pneumonic exudation. 
 
 Various gangrenous affections, particularly of the oral cavity (noma) 
 and genitals, but also of the skin, subcutaneous connective tissue, car- 
 tilages of the nose, ear, etc., are often to be observed after an attack of 
 measles. Cancrum oris is to be especially noted. 
 
 Albuminuria is not an essential sequel of measles, although it may 
 occasionally occur as the result of great exposure and neglect. 
 
 A large group of chronic affections may follow in the track of measles, 
 either in the form of sequelae to the complications which arise during the 
 course of the disease or in the nature of secondary accidents. Some few, 
 perhaps, are more common after measles than after any other complaint, 
 but the majority are such as might arise in weakly children subsequent 
 to any specific disturbance of the health. In addition to those already 
 mentioned we may especially designate chronic intestinal disease, together 
 with ulceratious and strictures of the bowel ; chronic coryza, in varying 
 degrees of obstinacy and severity ; chronic ophthalmia, under which title 
 may be included ciliary blepharitis, granulations, trachoma, phlyctenular 
 conjunctivitis, ulcers of the cornea, etc. (Michel 1 ); aural affections in the 
 form of chronic suppurative inflammation, and, more rarely, chronic 
 catarrh of the middle ear (Spencer) ; certain cutaneous diseases, more 
 especially in my experience furunculosis and pustular eczema; chronic 
 bone and joint disorders (strumous), which, according to Gibney, 2 may 
 not only be evoked in the already hereditarily predisposed, but also 
 induced when the diathesis has not heretofore existed ; and, lastly, 
 various derangements of the nervous system. 
 
 In Thomas's valuable and freely-quoted monograph on measles (pp. tit.) 
 it is stated that secondary measles can exert various influences upon the 
 primary disturbance. In most instances when measles attacks a person 
 already the subject of some other disease, particulaily when the latter 
 belongs to the common complications of the former, it usually is 
 aggravated. This is a matter of common experience ; but this author 
 further declares and supports his assertion with numerous references 
 that, on the other hand, should measles appear during the existence of a 
 disease to which it does not usually give rise, it may favorably influence 
 the course of the latter. In spite of the cases quoted in support of this 
 view, such results would appear to be contrary to pathological laws. 3 
 
 1 Oral communication. 
 
 2 See valuable statistical article in N. Y. Med. Record, June 3, 1882. 
 
 3 Thus, while Thomas seems to be without personal experience in the matter, he quotes 
 without dissent a number of observations in support of his assertion viz. : Behrend saw 
 a chronic eczema of the scal|i permanently disappear after measles ; Rilliet found that a 
 chronic coxitis improved noticeably after measles; various chronic skin symptoms, and 
 also chorea, epilepsy, incontinence of urine, mania, worms, dropsy, joint diseases, ophthal- 
 mia, gonorrhoea, etc.. have been known to recover under the same influence. Gibney (loc. 
 cit.) in his valuable paper states that he can readily believe that, occasionally, any acute 
 disease, occurring in the course of a chronic one, will prove beneficial to tlie other, but 
 that he is far from considering this to be anything more than an exception to a very 
 general rule to the contrary. Chronic joint disease, he continues, is especially a disease 
 of exacerbations, and any one not familiar with their natural history may interpret the 
 post hoc as a propter hoc. Gibney has collected 24 cases of chronic bone disease in chil-
 
 DR P. S. O'REILLY & STAFF 
 
 MORBID ANATOMY. DIAGNOSIS. 575 
 
 MORBID ANATOMY. The normal rash of measles is not to be observed 
 on the dead body, and the only lesions of the skin to be noted are those 
 resulting from extravasation of blood into that tissue. Examination of 
 the skin removed during life from a patient with measles reveals the fol- 
 lowing anatomical changes, according to Morris. 1 In the earliest stages 
 are found usually slight hypersemia around the orifice of a sebaceous folli- 
 cle, with slight swelling from effusion of plasma. Occasionally swelling 
 alone is present, and more rarely hypersemia only. Round the small 
 hypersernic papule thus developed often pierced by a hair a roseolar 
 patch, due to congestion of the papillary body, soon makes its appearance. 
 Slight exudation of plasma, with a few corpuscles, usually follows, and 
 produces elevation of the papule itself. As most of the deaths in measles 
 are due to the presence of some complication, the post-mortem changes 
 will be found to correspond to the lesions produced by these diseases, prin- 
 cipally affections of the respiratory organs and intestinal tract. 
 
 DIAGNOSIS. As a rule, the diagnosis of measles offers no great diffi- 
 culties, especially if a correct clinical picture of the disease has been 
 thoroughly impressed upon the mind. The salient points may be thus 
 summarized : A period of incubation of about fourteen days i. e. from 
 the date of infection to the commencement of the eruption ; a prodromic 
 stage of about four days, ushered in with fever and marked implication 
 of the mucous tract, notably cough, coryza, epistaxis, and photophobia ; 
 in this stage may also be noted the punctated redness of the conjunctivas 
 and of the palatal mucous membrane, which is to be regarded as a diag- 
 nostic sign of great value and importance ; finally, there appears at the 
 conclusion of the stage of invasion, simultaneously with increase of the 
 febrile movement, a characteristic eruption upon the cutaneous surface, 
 this eruption coming out first upon the face, and composed of large 
 maculo-papules of brownish -red color, arranged in a crescentic form with 
 tracts of normal integument intervening. Of all the symptoms of 
 measles, the catarrh of the mucous membranes is undoubtedly the most 
 pathognomonic. In the colored races, where the recognition of the skin 
 lesion is often a matter of difficulty, this combination of symptoms should 
 be borne in mind. 2 
 
 dren, 21 of whom were under ten years of age and all under thirteen. On analysis lie 
 found that 12 of these came out of the intercurrent disease in a worse condition, 11 were 
 unaffected, and 1 only seemed a little better. In my personal experience I have invari- 
 ably seen the eczemas of children made worse by measles. I have no wish to dispute the 
 trustworthiness of the statistics quoted by Thomas; indeed, I regard them as mostly 
 thoroughly reliable instances of exceptions to a general pathological law ; but I wish it 
 to be clearly understood that they are such, and that measles is not a disease to be slightly 
 regarded as to its effects upon the system. 
 
 1 Skin Diseases. Phila., 1880, p. 57. 
 
 5 Corre (La MZre et V Enfant dans les races humaines, Paris, 18S2) states that measles and 
 scarlatina exist in all climates and among all races ; however, they are less frequent in 
 warm than in cold climates. This relative rarity may be only apparent, and has_ only 
 been established by reason of the difficulty of recognizing exanthems among dark-skinned 
 peoples. In the negro the eruption (of measles) often escapes observation, but the 
 general symptoms, the angina, coryza, and bronchitis, and the special coloration of 
 the bucco-pharyngeal membranes, permit the establishment of the diagnosis. The 
 skin appears more tense, and the face especially is puffed and glossy ; in passing the 
 hand over the different regions of the body slight elevations are felt a difference in the 
 level of the skin exists in the affected and unaffected portions. On examining the sur- 
 face of the body obliquely at a well-pronounced angle of incidence, these elevations can 
 be perceived by the eye. Desquamation, which is very manifest in the negro, also con- 
 firms the diagnosis ; this desquamation is formed of epidermic debris; it gives rise to a
 
 576 EUSEOLA. 
 
 In the way of conjectural diagnosis, the presence of an epidemic of 
 measles in the community should be taken into account. Although 
 measles possesses features so characteristic and pronounced, there are a 
 number of other diseases with which it may be confounded, especially in 
 its earlier stages. 
 
 There is no other disease which presents so close a resemblance to 
 measles as does rothelu, and it must be confessed that under certain cir- 
 cumstances the question of diagnosis is a perplexing one. In rotheln the 
 appearance of the eruption is often the first symptom of the affection, 
 whereas in measles there is a prodromic period, having a peculiar remit- 
 tent type of fever, which continues for three or four days. According to 
 Liveing, the short duration of the febrile attack before the eruption 
 appears is one of the most constant and distinctive features wherein 
 rotheln differs from ordinary measles. In some instances, in rotheln the 
 premonitory fever is not at all appreciable. The catarrhal involvement 
 of the mucous membranes is not nearly so marked as in measles, while 
 the very frequent sore throat bears more resemblance to the angina of 
 scarlet fever. In many instances, although by no means constantly, the 
 eruption of rdtheln first appears on the chest, and not on the face, as is 
 the rule in measles. It is quite evident that the eruptive spots of rotheln 
 have presented different physical features in different epidemics ; but, as 
 a general thing, it may be said that they are smaller than those in measles, 
 of a paler color, and, according to Thomas, not so angular, less indented, 
 and not so often provided with processes, therefore less apt to assume the 
 crescentic arrangement so often seen in measles. 1 The incubation period 
 is longer in r5theln than in measles. 
 
 In scarlet fever the incubation stage is shorter than in measles, and the 
 constitutional symptoms are apt to be more pronounced ; the temperature 
 is higher, the pulse more rapid, and vomiting more frequent. The stage 
 of invasion in scarlatina is but twenty-four hours ; in measles, seventy-two. 
 There is absence of the characteristic catarrh of measles, and the pres- 
 ence of severe sore throat, strawberry tongue, and swelling of the lym- 
 phatics at the angle of the jaws. In measles the rash begins on the face ; 
 in scarlatina, on the neck and chest. In measles the eruption con- 
 sists of large papules arranged somewhat crescentically, with intervening 
 normal skin, followed by bran-like desquamation ; in scarlatina the rash 
 is made up of large patches formed of minute red spots on a bright red, 
 hypersemic base, and is followed by desquamation in large lamellae. In 
 measles the rash is brightest on exposed parts ; in scarlatina, most vivid 
 on covered regions. The sequelae of the two diseases are quite different. 
 
 There is no great difference in the duration of the invasion stages of 
 variola and rubeola ; but in the former disease we have the marked 
 lumbar and sacral pains and vomiting, while in the latter the catarrhal 
 symptoms and photophobia are pathognomonic. "When the eruption of 
 
 white dust, which is well defined against the black skin. The skin itself seems to have 
 lost its gloss ; it is completely dry, and no longer gives the abundant and odoriferous 
 secretion characteristic of the subjects of that race. 
 
 1 According to Curtman (St. Louis Courier Hfed., June, 1882), the eruption of rotheln 
 consists, when not confluent, of single papules, each separated by a distinct small red 
 areola. Not infrequently the papules are large, and sometimes a few pass into vesicles 
 or pustules. In measles (he papules are very small, mostly confluent, from four to six 
 landing on a single areola, which is larger than that of rotheln.
 
 PROGNOSIS. 577 
 
 small-pox appears there is subsidence of fever ; in measles, an exacerba- 
 tion. A point of great importance in the diagnosis of variola is found 
 in an examination of the mouth and pharynx, for in these situations on 
 the fourth day we will often find the vesicles fully developed, while on 
 the skin they are still in the stage of papulation. When measles assumes 
 the papular form (morbilli papulosi, rongeole bouttoueuse), it is often con- 
 founded with the papular stage of small-pox. I have seen a number of 
 such mistakes made. Attention to the general symptoms of the two dis- 
 eases, however, and particularly an examination of the mucous mem- 
 branes, will generally clear up any doubt. At any rate, the question will 
 generally settle itself in the next twenty-four hours, for if it be variola 
 the papules will have undergone their specific development and the rube- 
 olous elevations will have become more decidedly macular. 
 
 Typhus sometimes offers a certain resemblance to measles. According 
 to Buchanan, 1 the eruption of typhus is occasionally, though not com- 
 monly, a good deal like that of measles, and appears about the same time 
 after invasion. Coryza, when present and distinct, points to measles. 
 The eruption of typhus is of a smaller pattern, discrete, and not raised ; 
 that of measles, often coalescent, crescent ic, and elevated. Subcuticular 
 mottling is present in typhus, and absent in measles. The "palatal mucous 
 membrane should ajways be examined in suspected measles. 
 
 As I have never been able to convince myself of the existence of an 
 independent disease called roseola, I am at a loss to give the points of 
 differential diagnosis ; on the other hand, the various forms of sympto- 
 matic erythema, occurring either as the result of numerous slight derange- 
 ments of the system, or in connection with grave constitutional disease, 
 should be carefully considered. In the first group of cases the absence 
 of premonitory symptoms, catarrh, etc., and the presence of the smooth, 
 rose-colored macules, mostly on the trunk, and in the latter the existence 
 of symptoms belonging to the primary disease, should prove of assist- 
 ance. The erythema papulatum of new-born children I have seen mis- 
 taken for measles, but the fact that rubeola is exceedingly rare in suck- 
 lings, and the absence of fever and catarrhal disturbances, are sufficient 
 grounds for a differential diagnosis. 
 
 The erythematous syphilide (roseola syphilitica), particularly when 
 accompanied by fever, may bear some resemblance to the rash of measles ; 
 but the history of the case, the circumscribed, indolent character of the 
 syphilide, in many instances sparing the face, the absence of pathogno- 
 monic catarrhal symptoms of measles, and the coexistence of other fea- 
 tures of syphilis, are quite distinctive. 
 
 PROGNOSIS. The prognosis of normal uncomplicated measles is very 
 favorable. Thus, of 257 cases observed by Meigs and Pepper (op. cit.}, 
 all terminated favorably. But in coming to any conclusion in regard to 
 prognosis a number of different factors must be taken into consideration. 
 Among the more important are the hygienic surroundings of the patient, 
 the age, the nature of the complications, whether the measles be primary or 
 secondary, and the character of the epidemic. In the first place, rubeola 
 in foundling hospitals and among the poorer classes in large cities gives a 
 larger ratio of deaths than among the well-to-do members of the com- 
 munity. For instance, Bartels has shown that catarrhal pneumonia, one 
 
 1 Art. "Typhus" in Reynolds' s System Med., Am. ed,, p. 262. 
 VOL. I. 37
 
 578 RUBEOLA. 
 
 of the most frequent causes of mortality in this disease, is particularly 
 prone to occur among those dwelling in crowded, poorly-ventilated 
 houses. Then, again, the asylums and hospitals for children are peopled 
 in many instances with the victims of depraved constitutions, who readily 
 succumb to iutercurrent maladies. 
 
 Leaving out of consideration sucklings under six months of age, in 
 whom measles is rare and said to be slight, most deaths from the disease 
 occur among very young children, from their greater liability to compli- 
 cations. According to Beddoes, 1 the mortality from measles is, beyond 
 all comparison, greatest in the second year of life, and by the tenth has 
 become quite trifling. An examination of the statistics bearing on this 
 question coincides with this general statement ; but Fox's tables, already 
 quoted, would show that more infants under one year of age die of 
 measles than has hitherto been supposed. The susceptibility to measles 
 decreases with years, perhaps on account of the fact that most adults 
 have already contracted the disease ; but when it does attack the unpro- 
 tected adult it may prove fatal. This statement is borne out by the 
 large death-rate in the so-called camp measles of our late war. 2 The 
 ravages of measles in virgin communities have been referred to in pre- 
 ceding pages. The general temper of the epidemic must also be con- 
 sidered, since it is well recognized that the essential character of epidemics 
 differs much as to severity. 
 
 Such complications as diphtheria, catarrhal pneumonia, diarrhoaa, con- 
 vulsions, etc. necessarily affect the .prognosis of measles most seriously. 
 More patients die of measles in the second than in the first week of the 
 disease. The careful studies of temperature made by Thomas, Bohn, and 
 others show that an unusually high and increasing fever in the prodromal 
 stage is of ill omen, particularly on the second and third days, and a 
 fever heat measuring over 105 F. at any stage should be considered as 
 very unfavorable. 3 Particularly to be feared is continuation of the fever 
 after the subsidence of the eruption, or a sudden elevation after the nor- 
 mal curve has been reached. In fact, it is a safe rule to look upon all 
 anomalies of the curve with suspicion. Secondary measles, or measles 
 grafted upon some serious existing affection, is particularly fatal. 
 
 TREATMENT. There is no remedy which will destroy the suscepti- 
 bility to measles. The future may develop some form of vaccination 
 against rubeola, for, certainly, the hopes held out by the inoculation of 
 measles upon the healthy subject have not been realized, as this proced- 
 ure merely reproduces the original complaint, without any diminution in 
 its intensity, and does not lessen the probability of complications (Mayr). 
 The matter of carrying out a practical and efficient quarantine in measles 
 is one of unusual difficulty, for the reason that the disease is capable of 
 active propagation at a time the prodromal stage when it is not yet 
 sufficiently characteristic for positive diagnosis. But, as measles is by 
 no means as trivial a disease as would seem to be the common impression, 
 I hold it as a well-established principle of preventive medicine that a 
 
 1 Art. "Mortality" in Q'/mn's Dictionary Med., p. 1002. 
 
 2 In the general field hospital at Chattanooga the death-rate was 22.4 in 100 cases. In 
 General Hospital No. 1, at Nashville, it was 19.6 in 100, or nearly 1 in 5. Many died 01 
 became permanently disabled from the sequelae (Bartholow). 
 
 8 In adolescence a body heat of 107 F. has been safely passed during the decline of 
 measles with no marked complication (Squire).
 
 TREATMENT. 579 
 
 strict isolation should be enforced whenever, from the nature of the case, 
 it is at all possible ; certainly, very young children and those suffering 
 from or showing a tendency to other diseases should be jealously shielded 
 from exposure. 
 
 The usual precautions as to disinfection and purification of the room, 
 bedding, and utensils used by patients should be observed, as in other 
 infectious diseases. Squire is of opinion that there is danger of personal 
 infection for perhaps a month, and Hillairet that isolation for forty days 
 should be enjoined. It is quite certain that inunction lessens the danger 
 of infection, and Kaposi 1 is authority for the statement that a warm bath 
 administered after the completion of desquamation, or about fourteen 
 days from the beginning of the attack, will effectually prevent conta- 
 giousness. 
 
 The apartment occupied by a patient suffering from measles should be 
 kept at a uniform temperature of from 66 to 70 F., and free ventila- 
 tion, at the same time avoiding draughts, should be enforced. The room 
 should be kept moderately dark. The bed-clothing should be light, yet 
 sufficiently warm, and the old notion of keeping the patient in a profuse 
 sweat the better to bring out the eruption should be discouraged. The 
 diet should be bland and nutritious, and may preferably consist of milk, 
 gruel, tapioca, and such like substances. As convalescence progresses 
 there may be a gradual return to more substantial food. The patient may 
 be allowed cool water in moderation, as it is cruel and useless, and even 
 harmful, to restrict one suffering with fever to warm or sweetened drink. 
 The patient should be confined to his room until convalescence has been 
 fully established, and should not be allowed to leave the house, both on 
 his own account and that of others, until the usual health has been 
 regained. Any of the lingering results of the disease, such as bronchitis, 
 otorrhcea, conjunctivitis, etc., should receive prompt attention; iron and 
 cod-liver oil should be prescribed for the weakly and strumous, and 
 regular hours of sleep, careful diet, and appropriate bathing and exercise 
 should be advised. It may be said, without exaggeration, that neglect 
 of the after-care of measles patients is, in some instances, more to be 
 deprecated than a similar neglect in the actual treatment of the disease 
 itself. 
 
 Since we are powerless to cut short an attack of measles by any reme- 
 dial agents at present known to therapeutics, the intervention of the 
 physician is limited to assisting the cases through to a safe termination. 
 Quite a number of cases, as seen in private practice, require no special 
 medicinal treatment, or at most one that is merely symptomatic. The 
 value of the so-called specific treatment, such as by carbonate of ammo- 
 nium, etc., has not been verified by experience. 
 
 In ordinary uncomplicated attacks, if the temperature should run high, 
 in addition to the general rules as to diet and hygiene referred to before 
 it will usually be found advisable to put the patient on some diaphoretic 
 mixture, to which may be added a mild opiate. I know of nothing bet- 
 ter than the formula found in the work of Meigs and Pepper on the 
 Diseases of Children: 
 
 Tfy. Potass. Citrat. si; 
 
 Spt. JEtheris Nit. f^ii; 
 1 Pathologic u. Therapie der Hautkrankh., Wien, 1880.
 
 580 RUBEOLA. 
 
 Tr. Opii Deodorat. njjsii vel xxiv; 
 Syrupi feii ; 
 
 Aquse foii- M. 
 
 S. A teaspoonful every two or three hours for a child of five years of age. 
 
 Aconite in small doses has been well spoken of in this connection, but 
 I have no personal experience in its use. Bromide of potassium, together 
 with a few drops of syrup of ipecac., dissolved in syrup of wild cherry, 
 acts pleasantly both on the cough and the nervous system. 
 
 The inunction of fatty substances, as originally proposed by Schone- 
 mann, and recently urged by Milton, 1 is an excellent routine practice, and 
 in addition to adding very much to the patient's comfort, has, perhaps, 
 the merit of lessening somewhat the danger of infection to others. For 
 this purpose one may use leaf lard, cold cream, or vaseline, to each ounce 
 of which it is well to add a few minims of carbolic acid. 
 
 Stimulants are rarely needed in uncomplicated measles, but Squire very 
 wisely calls attention to the great value of wine in the depression follow- 
 ing upon the crisis. 
 
 In spite of some excellent authority to the contrary, I cannot see that any 
 benefit is to be derived from using severe measures to bring out an erup- 
 tion that has undergone retrocession. As stated in another part of this 
 article, the so-called striking-in of the rash is the result of the superven- 
 tion of some complication, and not the cause of it ; therefore, a rational 
 course of action would be to ascertain the nature of the complicating 
 trouble, and to endeavor to correct it, which, at the same time, would be 
 the very best means of restoring the normal course of the disease. 
 
 Quinia is of great value in controlling the excessively high temperature 
 which is sometimes observed either in connection with, or independent of, 
 complications. If the quinia should prove ineffectual or else be rejected 
 by the patient, the physician should not hesitate to abstract heat by cold 
 water in the shape of the wet pack or the general bath. I think the lat- 
 ter method is to be preferred. It is but to employ the gradually cooled 
 bath of Ziemssen, perhaps, commencing at 90 F. and going to 80 
 or 70 F. The condition of the patient, as ascertained by the ther- 
 mometer and also the state of the pulse, must be the guide as to the dura- 
 tion and repetition of the baths. In Germany excellent results are 
 claimed for the treatment of hyperpyrexia in measles by the cold pack, 
 even when the excessive temperature is due to such a complication as 
 broncho-pneumonia. 
 
 There is little hope from therapeutical interference in malignant forms 
 of measles, but the medical attendant should endeavor to reduce tempera- 
 ture and support the strength by free stimulation and nourishing food. 
 
 It will now be advisable, at the risk of some repetition, to call attention 
 to the treatment of some of the more prominent disturbances and compli- 
 cations of measles. 
 
 Epistaxis, if severe, should be checked by cold applications and astrin- 
 gents. Plugging will rarely be found necessary. Trousseau recommends 
 the injection of water as hot as can be borne. Ergotine by the mouth or 
 hypodermically will sometimes prove highly valuable. 
 
 The lids should be anointed with vaseline or cold cream to prevent their 
 sticking together, and it is well to occasionally evert them to see that no 
 
 1 Archives of Dermatology.
 
 TREATMENT. 581 
 
 serious mischief has happened to the eye. If the conjunctivitis is intense, 
 the discharges should be removed and cold compresses applied. 
 
 Since aural complications are due to extension of inflammation from the 
 oral and nasal cavities, Spencer urges the importance of early and sys- 
 tematic treatment of these parts. He advises astriugeni applications 
 (Monsell's solution 1 to 4 of glycerine) to the pharyngeal mucous mem- 
 brane. Ointments of boracic acid, zinc, or iodoform are likewise useful 
 when introduced through the nostril. Earache will require warm opiated 
 poultices and inflation. Otorrhcea is best treated after the dry method. 
 
 For sickness of the stomach a spice poultice may be applied and small 
 bits of ice given to suck. If constipation exist, a little oil or syrup of 
 rhubarb or some stewed prunes, or an enema, may be ordered. Active 
 purgation should be withheld. 
 
 The early diarrhoea need give little concern, as it usually soon ceases ; but 
 if it should persist, recourse must be had to more energetic measures, 
 such as the use of opium by mouth or enema, given cautiously in the case 
 of children, vegetable and metallic astringents, and the application of hot 
 poultices to the abdomen. The diet should be carefully guarded. 
 
 The cough, even in mild cases, generally requires some slight pallia- 
 tive, such as syrup of ipecac., and an occasional small dose of Dover's 
 powder. Loeri very properly advises against the use of irritating expec- 
 torants. I think it advisable to keep the chest well smeared with cam- 
 phorated oil, over which should be worn an oil-silk jacket. These simple 
 measures, perhaps, diminish the tendency to thoracic complications. The 
 sometimes violent paroxysms of false croup are very satisfactorily man- 
 aged, after the manner of Graves, by gently pressing a sponge, soaked in 
 very hot water, under the chin and over the front of the neck. When 
 the dyspnoea is alarming, emetics, and the general warm bath should be 
 brought into requisition. 
 
 Convulsions in the early stage require little treatment other than the 
 warm bath and appropriate doses of the bromide of potassium ; occurring 
 later, they are very fatal under any treatment, as they generally super- 
 vene in connection with some of the grave complications of the disease. 
 Chloral, preferably by enema, and chloroform may be tried. The man- 
 agement of the severe bronchitis and pneumonia of measles requires great 
 care and circumspection on the part of the physician. The application 
 of a well-made flaxseed poultice, which should be neither too heavy nor 
 too hot, is to be regarded as invaluable. To the flaxseed may be added 
 a small quantity of mustard. Over the whole is to be placed an oil-silk 
 jacket. Alcoholic stimulants, nourishing, easily-digested food, and expec- 
 torants containing carbonate of ammonium are to be recommended. 
 
 For the treatment of the other complications and sequelae of measles 
 the reader is referred to the appropriate sections of this work.
 
 ROTHELK 1 
 
 BY W. A. HAKDAWAY, M. D. 
 
 SYNONYMS. Rubeola, Rubella, Roseola, Epidemic Roseola, German 
 Measles, French Measles, Hybrid Measles, False Measles, Rubeola Mor- 
 billosse et Scarlatinosse. 
 
 DEFINITION. Rotheln is an acute infectious disease, presenting an 
 eruption of reddish macules upon the skin, accompanied by mild catar- 
 rhal symptoms, and usually producing but slight disturbance of the gen- 
 eral system. It is self-protective, and occurs but once in the same indi- 
 vidual. It has no relationship to measles or scarlatina. 
 
 HISTORY. A rapid glance at the interesting historical evolution of 
 rotheln to a specific position among the acute infectious diseases is all that 
 our space will allow. Some writers have attempted to show that this 
 affection was known to the Arabian physicians ; but since it is only in 
 comparatively recent times that the contagious epidemic exanthemata in 
 general have been thoroughly differentiated, it is quite likely that the 
 modern conception of it was not held by them nor by other medical men 
 till many centuries later. Indeed, in our day, physicians are yet to be 
 found, though the number is rapidly diminishing, who refuse to recognize 
 in rotheln a distinctive specific malady. Certain German observers in 
 the middle of the last century (De Bergen, 1752; Orlow, 1758) favored 
 the idea of specificity, but these views were soon disputed. In the years 
 following a number of other physicians announced their belief in the 
 specific nature of rotheln, while, on the other hand, various noted author- 
 ities still insisted upon its connection with scarlet fever or measles. In 
 1815, Maton, an English physician, most unequivocally declared that 
 he had observed cases of an eruptive disorder which resembled neither 
 measles, scarlatina, nor roseola, and which was worthy of a new designa- 
 tion. 2 In the second and third decades of this century Hildebrand, and 
 afterward the celebrated Schonlein, taught that rotheln was a hybrid of 
 measles and scarlatina, although at this time Wagner (1834) advocated 
 the essential independence of rotheln. There is no doubt that under the 
 name of rubeola sine catarrho Willan, Bateman, and later writers 
 described what we now call rotheln, for they stated that this variety of 
 measles was not self-protective. Space will not allow of a detailed men- 
 tion of the various writers who, during the first half of this century, 
 
 1 In the preparation of this article the author has consulted the following authorities : 
 Emminghaus, in Gerhardfs Handb. cler Ktnderkrankh., Zweiter Band, 1877 ; Thomas, in 
 Ziemsseii's Cyclop. Pract. Med., vol. iii., Am. ed., 1875; Squire, in Quain's Did. Med., 
 1883. References to current literature will be found in foot-notes to the text. 
 
 2 Squire, Trans. Internat. Me.d. Congress, London, 1881. 
 
 582
 
 ETIOLOGY. 583 
 
 have contended for or against the autonomy of rotheln. It will be well 
 to state, however, that Hebra, from the standpoint of the dermatologist, 
 very properly regards the manifold roseolas of Willan as in many 
 instances merely symptomatic erythymata, or else as irregular forms 
 of measles or scarlatina; but he also fails to recognize the distinctive 
 features of rotheln. Even so recent a writer as Niemeyer declares that 
 roseola arising from infection consists in a modification of measles or scarlet 
 fever. It is only in the last twenty years that our present exact ideas of 
 rotheln have obtained. For example, while Trousseau 1 asserts that 
 rubeola (rotheln) is a perfectly distinct nosological species, he speaks of 
 the rash as appearing and disappearing alternately for some days, of its 
 frequent recurrence in the same individual, etc. American physicians 
 were almost entirely ignorant of rotheln till within the last ten years, 
 when they were made acquainted with it through the medium of a care- 
 ful paper on the subject from the pen of J. Lewis Smith of New York. 2 
 Before this time, however, cases had been described by Homans, Sr., 
 of Boston (1845), and in 1&53 and 1871 by Clotting. Very few 
 authorities now dispute the distinctive specific nature of rotheln ; which 
 statement is borne out by the fact that at the last meeting of the Inter- 
 national Medical Congress, held at London in 1881, there were but two 
 dissentients to this view in the section before which it was discussed. 3 
 
 ETIOLOGY. The contagium of rotheln is unknown, but that the 
 disease is contagious has been fully demonstrated by numerous observa- 
 tions of epidemics and sporadic cases. From my own experience I should 
 judge that unprotected persons are not so susceptible of it as is known to 
 be the case under similar conditions in measles ; 4 yet cases are recorded 
 which would prove that the contagion may be conveyed through a third 
 person and for some distance. It is probable that the vehicles of con- 
 tagion are the same as in measles. At what period of its course the 
 disease is most capable of transmission has not been satisfactorily deter- 
 mined. Squire is of the opinion, however, that the disease is con- 
 tagious before the appearance of the rash, and may continue so for some 
 days or for two or three weeks. RStheln may be called a disease of child- 
 hood for the same reason that the other contagious exanthemata are 
 namely, that the majority of adults have already been attacked. From 
 an examination of available statistics I am inclined to regard the ages 
 between five and fifteen the years of school attendance as the period 
 of life most susceptible of the influence of rotheln, although, of course, 
 no time of life is entirely exempt. The non-susceptibility of sucklings, 
 as in measles, holds true as a rule, although I am in a position to supply 
 exceptions to this from my own experience, as well as from that of others. 
 Sex seems to be without influence in determining liability to the disease. 
 
 The period of incubation is not very definitely settled, and, indeed, 
 
 1 Clinical Medicine, vol. ii. 2 Archives nf Dermatology, Oct., 1874. 
 
 3 See especially Kassowitz's paper, "Die Wirkliclie Stellung der sogenannten Kubeola, 
 etc., Trans. Internal. Med. Cong., 1881. 
 
 * In this regard it resembles scarlatina more than measles, for I have a number ot times 
 seen the disease introduced into families, where it would attack one or two of a number 
 equally exposed. J. L. Smith regards it as feebly contagious, and quotes Chadbourne s 
 experience to the same effect. Liveing declares that rotheln is more distinctly 
 epidemic in Great Britain than either measles or scarlet fever, although probably less 
 contagious.
 
 584 R6THELN. 
 
 owing to the generally trivial character of the affection, evidence on this 
 pointTis difficult to obtain. Taken as a whole, it is probably longer than 
 is observed in measles. According to J. Lewis Smith, in the epidemic 
 observed by him the incubation period varied from seven, or less than 
 seven, to twenty-one days ; Emminghaus places it at from two to three 
 weeks; Thomas, from two and a half to three weeks; Squire, mostly a 
 fortnight, the extreme being twenty-one days ; Cheadle, from eleven to 
 twelve days. 
 
 There is nowhere recorded a trustworthy instance of a second attack 
 of rotheln, although from analogy such an event is to be expected. As 
 in measles, true recurrences of rotheln that is, the result of a fresh 
 infection are not to be confounded with relapses. I have never wit- 
 nessed a relapse, but cases of such a nature have been recorded by other 
 observers (Lindwurm, Emminghaus, Kortlin, Kingsley). 
 
 Rotheln is a disease sui generis, and is in no way related to either 
 measles or scarlatina ; that is to say, it is not an irregular form of either 
 of these nor a hybrid of them, nor has it ever been observed to propa- 
 gate anything but itself. That it is not connected with any of the symp- 
 tomatic skin eruptions the so-called roseolse is proved by its con- 
 tagiousness and epidemic character. I quite agree with other observers 
 in declaring that rotheln has very little clinical resemblance to scarlatina, 
 and that, on the other hand, in the greatest number of cases the points 
 of likeness are with measles. In the section on diagnosis the differential 
 points between rotheln, measles, and scarlatina will be considered ; there- 
 fore in this place it will only be necessary to call attention to certain 
 general facts. Thus, aside from the marked divergence in clinical symp- 
 toms incubation, invasion, fever, eruption, complications, and sequelae 
 we are at once met by the positive fact that epidemics of rotheln, while 
 always presenting identical features, prevail without regard to the exist- 
 ence of similar epidemics of measles and scarlatina following or preced- 
 ing them and that attacks of rotheln offer no bar to the reception of their 
 contagions, or vice versa. Literature is so full of examples of this state- 
 ment that it need scarcely be dwelt upon. By way of illustration, how- 
 ever, the accurate observations of J. Lewis Smith may be quoted in this 
 connection. Of 48 cases recorded by him prior to May 1st in the New 
 York epidemic of 1874, 19 had had measles. Rotheln in the N. Y. Found- 
 ling Hospital in 1873-74 followed an epidemic of measles. During the 
 epidemic of 1880-81 the same fact was observed namely, that a previous 
 attack of measles, as well as scarlatina, afforded no protection from rotheln. 
 I could multiply such examples from my own experience. A single inter- 
 esting instance may be noted here. A physician asked the writer to 
 examine his child, suffering, as he thought, from measles. A careful 
 investigation revealed a typical rotheln. A number of weeks later an 
 older child got measles, from which the rotheln patient acquired a 
 characteristic attack of the same. In the following year both children 
 were taken with scarlet fever. 
 
 The only escape for those who would deny the autonomy of rotheln is 
 in the bold assertion that both measles and scarlatina more frequently 
 recur in the same individual than universal experience and observation 
 will allow ; and this leaves them in the dilemma of determining to which 
 group rotheln must be relegated. The hypothesis of the hybrid nature
 
 SYMPTOMS AND COURSE. 585 
 
 of rotheln cannot be accepted by the pathologist nor the clinician, if for 
 no other reason than that no one has ever seen rotheln generate anything 
 but rotheln, and in no case give rise to either scarlatina or measles. 
 
 SYMPTOMS AND COURSE. As already stated, the probable average 
 duration of the incubation period in rotheln is about fourteen days, vary- 
 ing, however, within the limits of from six to twenty-one days. In this 
 respect rotheln resembles scarlatina more than measles, the period of 
 latency in the latter observing considerable uniformity. No deviations 
 from the general health are to be noted in the incubation stage. 
 
 In most cases prodromal symptoms are entirely absent, the presence of 
 the eruption being the first thing to show the existence of rotheln in the 
 system. On the other hand, in a certain proportion of cases there will 
 be present for a half day, or even longer, the general symptoms of 
 malaise, such as slight nausea, some sore throat, pain in the limbs, stiff- 
 ness of the neck, etc. Vomiting is generally absent. J. L. Smith 
 records one case of convulsions in the stage of invasion, and I have notes 
 of a single case in which the prodromal stage was initiated by mild 
 delirium and fever, the latter anticipating the eruption for two days and 
 a half, and disappearing when the rash came out. As Thomas well 
 observes, however, such cases are anomalous, and indicate either abnormal 
 sensibility on the part of the patient or are due to a secondary rotheln. 
 
 Most observers (Emminghaus, Thomas, Smith, Squire) describe the 
 rash as coming out in the order usual in measles namely, first upon the 
 face, scalp, and neck, then the trunk and arms, and finally the legs. 
 Others (Liveing, Morris) have stated that the rash first appears upon the 
 back and chest. In many cases in my own experience this has seemed to 
 be true. It is quite probable that the situation of the exanthem in 
 rotheln, as in measles and scarlatina, may present various irregularities ; 
 but I am inclined to believe that a careful investigation will in most 
 instances show that the normal course of the eruption is as first stated. 
 Now, a marked characteristic of the rash of rotheln is that, unlike that 
 of measles, there is no period, however short, in which its maximum is 
 simultaneous over the whole body ; on the contrary, the eruption will 
 have reached its full development upon the face, and will be almost or 
 quite faded again, before the exanthem, for example, will have blossomed 
 upon the trunk, and especially upon the lower extremities. The duration 
 of the eruption upon individual parts of the body is probably from a few 
 hours to half a day at most (Thomas). A consideration of these facts 
 explains, according to Emminghaus, how different observers have described 
 the eruption as having its seat upon this or that region of the body ; in 
 other words, it is probable that in a certain proportion of the cases in 
 which the rash was supposed to have begun on the chest it had already 
 run its course upon the face. The eruption usually continues altogether 
 about four days, sometimes disappearing sooner, and sometimes being 
 visible, especially as a fine mottling, for some days longer. So far as the 
 individual lesions of the eruption are concerned, there is no question that 
 they present, within a certain range, varying aspects ; and this clinical 
 fact has been taken advantage of by the opponents of the idea of speci- 
 ficity in order to make it appear that the disease is not sui generis, inas- 
 much as it lacks uniformity of expression. Such an argument wants 
 force when we consider that in making up a given diagnosis we lay stress
 
 586 ROTHELN. 
 
 not upon special, but upon the ensemble of, symptoms. For example, no 
 one would deny to measles an independent position because the eruption, 
 as is well known, may assume this or that form (morbilli Isevis, m. papu- 
 losi, etc.) j on the contrary, we recognize a particular case or series of 
 cases to be measles from a due appreciation of all the symptoms present. 
 So it is to be expected that while the cutaneous lesions will present a cer- 
 tain similarity of feature, as they do, there will also exist minor differ- 
 ences in detail. 
 
 In the greatest number of cases in my own experience the exanthem 
 is composed of ill-defined, roundish, punctate macules, without special 
 grouping. These are usually discrete, but in certain situations they may 
 coalesce. The color is of a pale rosy red, quite difficult to describe, but 
 less purplish than in measles, and not so livid a red as in scarlatina. I 
 have occasionally observed large irregular spots not unlike those of 
 measles. 1 
 
 Thomas distinguishes three types of eruption one with large spots, 
 which is rare ; one with medium-sized spots ; and one with small spots. 
 Emminghaus describes a discrete and a more confluent variety. I have 
 observed one case where the maculae on the back had undergone a vesicu- 
 lar transformation. Others have mentioned this occurrence. Itching of 
 the skin is marked in some cases, and a fine desquaniatiou is observed 
 after the rash, but by no means invariably. 
 
 The mucous membranes are implicated to a slight degree in rotheln, but 
 the amount of involvement varies considerably. In some cases that I 
 have observed the catarrh of the mucous membranes has been barely 
 appreciable. As a rule, however, the eyes are somewhat suffused, and 
 there is slight lachrymation and photophobia. Sneezing may be noted, 
 but there is little discharge from the nose. Sore throat is not uncommon, 
 perhaps the most constant feature, and, according to Liveing, is apt to 
 persist after the subsidence of the rash. The fauces are injected, and the 
 tonsils are red and swollen, but with no evidence of ulceration. J. Lewis 
 Smith and others state that the buccal mucous membrane shows a more or 
 less diffuse patchy and spotted redness. The tongue may be, and usually 
 is, covered by a white fur, through which protrude a few enlarged red 
 papillae. There may be slight cough. Loeri 2 describes the mucous 
 membranes of the pharynx, larynx, and trachea as presenting a spotted 
 or uniform hypersemia. There is no marked participation of the intes- 
 tines in the catarrh. Some few writers have noted a transient albumi- 
 nuria, but it is safe to say that such cases are entirely anomalous, if not, 
 indeed, in some instances, examples of mistaken diagnosis. 
 
 A very constant feature is the swelling of the lymphatic glands of the 
 neck, especially those back of the sterno-mastoid ; the swellings may 
 come on before the rash appears. In all the cases that have fallen under 
 my notice this symptom has not been absent in a single instance. Less 
 constantly, and it would seem in proportion to the development of the 
 rash, engorgement of the glands may be noted elsewhere. 
 
 1 According to Emminghaus (op. cit., p. 345), the eruption generally forms roseolas of 
 pin-head, lentil, or small bean size. They are mostly round, sometimes oval, and bordered 
 by well-defined or by blurred edges. The intervening skin is not always unchanged, for 
 here and there we find upon it small dilated blood-vessels, and from the spots processes 
 extend with a certain regularity to other spots in 'such a way as to give the skin a marbled 
 appearance. 2 Jahrb.f. Kinderk., xix. Bd., 1 Heft.
 
 COMPLICATIONS AND SEQUEL^. DIAGNOSIS. 587 
 
 There is but slight disturbance of the temperature in rotheln, and when 
 it does occur it is usually limited to the first few hours of the eruption. 
 This has been the rule in my observation, and certainly holds good for 
 the majority of cases. In a minority, varying degrees of fever may be 
 present ; thus, the temperature may reach 102 F. or 103 F., and then 
 rapidly sink by the second day of the disease, or, having fallen a degree, 
 it may continue at this point till the subsidence of the rash, or, it is said, 
 may retain its initial height till the end of the disease. During the 
 following week Squire states that the temperature may be readily dis- 
 turbed either elevated by exertion or depressed by fatigue or chill. 
 A relapse or recrudescence of the rash may be looked for at this time. 1 
 
 COMPLICATIONS AND SEQUELAE. In the vast majority of cases neither 
 complications nor sequelae have been observed in connection with rotheln. 
 J. Lewis Smith has recorded instances of diphtheritic inflammation as a 
 complication, which, however, as he justly remarks, may, when prevalent, 
 attack any inflamed surface. Pneumonia and bronchitis have been occa- 
 sionally reported as complicating or following rotheln. Liveing and 
 Duckworth mention albuminuria, but, so far as I know, they are alone in 
 this experience. I have known otorrhrea and ciliary blepharitis to occur 
 as sequelse. It would not be a matter of surprise that in weakly children 
 various chronic ailments should be set up by rotheln, as by any other dis- 
 turbance of the general health. 
 
 DIAGNOSIS. There is no other disease which so much resembles rotheln 
 as measles. Especially is this true of atypical cases occurring sporadi- 
 cally. In rotheln the whole course of the disease is much milder than in 
 measles, the incubation is longer as a rule, and the fact of a previous 
 attack of rubeola is of much importance, since we know that recurrences 
 are very rare. In measles there is a prodromic period, having a charac- 
 teristic temperature curve, and presenting pathognomonic catarrhal symp- 
 toms, which precedes the eruption for three or four days ; in rotheln the 
 appearance of the rash is often the first sign of the aifection. The sore 
 throat of rotheln resembles that seen in scarlatina more than the angina 
 of measles, and the general catarrhal implication of the mucous mem- 
 branes, so marked a feature of measles, is either absent in rotheln or exists 
 to a very trivial extent. Measles is essentially a febrile disease, having a 
 peculiar type of fever ; rotheln may run its whole course without appre- 
 ciable rise of temperature. As will be seen in the preceding pages, the 
 development and progress of the exanthem of measles differs materially 
 from that witnessed in rotheln. In measles the lesions are larger, more 
 vivid, more angular and indented, more frequently provided with pro- 
 cesses, and therefore more apt to assume the crescentic arrangement, than 
 in rotheln. Finally, it must be urged that the tout ensemble of the case 
 should be taken into consideration, and not some special feature of the 
 skin eruption. 
 
 The incubation period of scarlet fever is much shorter than in rotheln, 
 and all of the constitutional symptoms are, as a rule, infinitely graver. 
 In scarlatina there is a febrile invasion stage of twenty-four hours ; in 
 rotheln, if fever is present at all, it is most generally simultaneous with 
 
 ^headle (Trans. Internal, Med. Congress, London, 1881) has reported an epidemic of 
 rotheln of a very severe type, all the 'sy m P toma of tlie disease as ordinarily recognized 
 being very much exaggerated.
 
 588 RfJTHELN. 
 
 the rash, and rapidly disappears, while in the former it persists for a num- 
 ber of days longer. Vomiting is common in scarlet fever, rare in rotheln. 
 In scarlet fever the lymphatic glands are notably involved at the angles 
 of the jaw, in rothelu at the sides and back of the neck. Sore throat is 
 a feature common to both scarlet fever and rotheln, but it is very much 
 less marked in the latter. Thomas l says that in scarlatina only the pos- 
 terior parts, the uvula, the arches of the palate and their vicinity are affected, 
 while in rothelu the anterior parts are also affected, and both in much the 
 same degree. In scarlet fever the rash, which mostly begins on the neck 
 and chest, is made up of large patches formed of minute red spots on a 
 bright-red hypersemic base; in rothelu the eruption is composed of round- 
 ish pea-sized macules, with normal integument intervening. In cases of 
 doubt for example, when the rash of rothelu consists of very small spots 
 which have become confluent the further development and persistence of 
 the scarlatinal efflorescence, the temperature, the pulse, the angina, and 
 the character of the desquamation must be taken into consideration. The 
 complications and sequelae are very different in the two diseases. 
 
 The symptomatic eruptions of the skin which pass under the name of 
 roseola bear no resemblance to rotheln. They usually occur as the result 
 of some trivial derangement of the system or in the course of some 
 primary affection. They are not contagious, the lymphatic glands and 
 the mucous membranes are not involved, and the rash is quite different in 
 character. 
 
 PROGNOSIS. The prognosis of simple uncomplicated rotheln is invari- 
 ably good. Complications arising in delicate children necessarily affect 
 the prognosis, as would any other disturbance of the general health. 
 
 TREATMENT. Simple cases of rothelu require no treatment, as the 
 patients are rarely sick enough to be confined to bed. Graver forms of the 
 disease must be met by such measures as are indicated by the symptoms 
 present. The after-management must be conducted on general principles 
 having reference to the previous and present condition of the person 
 attacked. 
 
 1 Article " Scarlatina," ov. cit.
 
 MALARIAL FEVERS. 
 
 BY SAMUEL M. BEMISS, M. D. 
 
 IN the medical nomenclature of this country the term malaria ia 
 synonymous with swamp or ague poison. 
 
 Malarial affections, therefore, comprise all those diseases or morbid 
 manifestations which the swamp poison produces in the human organism. 
 
 This article is not designed to notice in a systematic manner any of 
 these disorders which are not properly classifiable under the head of 
 malarial fevers. It will, however, be necessary to make such references 
 to the pathology of chronic malarial toxaemia as may serve to explain the 
 influence this condition exerts in occasioning departures from type in the 
 febrile attacks. 
 
 When a poison generated outside the human system obtains admission 
 to it, and produces deleterious effects, three questions naturally arise : 
 What is the essential character and natural history of this noxious agent? 
 How does it obtain access to the human system ? What is its mode of 
 action when received? 
 
 In reference to the first of these questions, it must be admitted that the 
 substantive essentiality of the malarial poison remains as yet undemon- 
 strated. It is true, however, that the attempts at an objective study of 
 this poison by means of the microscope and the cultivating retort point 
 to the conclusion that it is an organism. 
 
 Its subjective or analogical study affords quite incontestable evidence in 
 support of this conclusion. The leading features in the natural history 
 of malaria are closely coincident with those of certain known organisms. 
 It requires for its production suitable conditions of moisture, temperature, 
 and a properly circumstanced breeding-place. Within' certain bounds 
 these conditions are requisite to the life and perpetuity of all organisms. 
 
 Again, when all the above-enumerated conditions correspond apparently 
 in the most favorable degree, their continuous concurrence for a lapse of 
 time is necessary before the poison manifests its presence. It is not 
 improbable that this period of development may differ in different 
 climates, but in this country we assume it to be about thirty days. If 
 these facts related to some noxious organism visible to the eye, no doubt 
 would be entertained that the presence of its germs in the places where it 
 appeared was the indispensable condition. It would then follow that the 
 concurrence of suitable meteorologic and telluric conditions with sufficient 
 time for its growth and maturity were merely accessories to its perfect 
 development. According to this theory, the coincidence of five circum- 
 stances is necessary before malaria can be fully matured viz.: Its own 
 
 589
 
 590 MALARIAL FEVERS. 
 
 specific germ ; suitable soil or pabulum ; suitable moisture ; suitable tem- 
 perature ; sufficient time for its growth and development. 
 
 Certain physical qualities which pertain to the malarial poison can also 
 be profitably made points of subjective study. These are very closely 
 connected with the answer to the second question, or " How the malarial 
 poison obtains access to the human system." ^ They will ^ therefore ^ be 
 briefly noticed in relation to the instrumentality of each in conveying 
 malaria into the system. 
 
 The first to be mentioned is ponderability, which the following facts 
 prove that malaria possesses : 
 
 Those different atmospheric states which affect the range of diffusion 
 of known air-borne yet ponderable subtauces exert similar influences upon 
 the malarial poison. 
 
 Altitude illustrates the ponderability of malaria by powerfully retard- 
 ing its diffusion. 
 
 High readings of the barometer favor its aerial dissemination. 
 
 Fogs, smoke, dust, or floating particles presumably more buoyant than 
 this poison may exert greater or less influence in overcoming the obstacle 
 which ponderability attaches to malaria as an air-borne agent. 
 
 Currents of air passing continuously and steadily in one direction over 
 the breeding-places of malaria increase the limits and intensity of toxic 
 range. 
 
 The atmosphere is undoubtedly the medium by means of which 
 malarial poison is most frequently brought into the human system. 
 Liability to intoxication is increased in direct ratio to the proximity of 
 points of exposure to places of development; to similarity of level; to 
 situation in the line of prevailing winds which have traversed the breed- 
 ing-ground ; and, lastly, to the extent and fertility of the locality of pro- 
 duction. 
 
 Whether malaria passes through the respiratory apparatus directly into 
 the circulation, or is lodged upon the fauces and absorbed through some 
 other surface, is not clearly ascertainable. It is certainly not deprived of 
 its noxious qualities by stomach digestion, and therefore, sometimes at 
 least, may reach the blood through the alimentary canal. 
 
 Malaria is miscible with water. It is capable of being carried by cur- 
 rents of water through distances and periods of time altogether undeter- 
 mined, without losing either its toxic effects or, perhaps, the faculty of 
 reproduction. It is more than likely that this means of conveyance has 
 effected its distribution to continents and islands too widely separated to 
 justify a belief that it was wind- wafted. No observations need be ad- 
 duced to establish the water-borne habit of the malarial poison, or the 
 positive liability to its toxic effects when received into the stomach 
 through this medium. These facts have been well understood from the 
 time of Hippocrates. 
 
 The matter of communicability of malaria by means of drinking water 
 should not be dismissed without some allusion to the great probability 
 that other fluids or solids are open to a similar charge. There is a wide- 
 spread popular prejudice, especially notable in the southern part of the 
 United States, that drinking milk occasions attacks of the endemic fevers. 
 It is the usual custom to pour the evening supply of milk into broad 
 uncovered pans, and allow it to remain exposed in the open air for con-
 
 MORBID EFFECTS AND PHENOMENA, ETC. 591 
 
 sumption at the morning meal. This viscid fluid, so tenacious of ordi- 
 nary air-borne particles, may well be suspected of entangling sufficient 
 quantities of swamp poison to produce sickness if exposed where it is rife 
 during a whole night. 
 
 A similar popular prejudice exists in regard to the muscadine grape, 
 which flourishes best in swampy localities. The rough skin of this fruit, 
 frequently covered with its own juice, offers favorable conditions for the 
 adhesion of air-borne particles. 
 
 The malarial poison is not reproduced within the human system. This 
 proposition is undeniable, since no intensification of the poison is pro- 
 duced by any degree of crowding of the sick which can be practised ; 
 neither do any conditions of contact with the sick ever impart malarial 
 affections. 
 
 Malarial poison is specific. This allegation is sufficiently established 
 by its specific effects on the human economy. There is no other agent 
 known which is capable of originating morbid phenomena characterized 
 by such marked diurnal periodicity. 
 
 It is not interchangeable with other specific poisons. This statement 
 may be rested upon all fairly collected clinical observations. 
 
 There are no facts which justify the belief that malaria is capable 
 of becoming mixed in the atmosphere, or outside the system, with any 
 other specific morbific germ, so as to produce a third something which 
 may give rise to compound forms of disease. 
 
 The answer to the second question which is best supported is, that the 
 malarial poison is brought into the system principally by breathing an 
 atmosphere impregnated with this miasm. 
 
 It is also ingested by being held in suspension in fluids used as drink 
 or food ; perhaps also by eating certain fruits or vegetables in their 
 natural state whose external surfaces afford favorable conditions for its 
 lodgment. 
 
 MORBID EFFECTS AND PHENOMENA WHICH FOLLOW ITS INTRO- 
 DUCTION INTO THE HUMAN SYSTEM. The discussion of the morbid 
 process established by the malarial poison involves some difficult prob- 
 lems. A period of incubation must be admitted to follow the inception 
 of the ague germs. But this period has no definitely marked limits. 
 Perhaps it is a shifting one, according to the quantity or quality of the 
 poison received, or the sudden or gradual manner in which it is received, 
 or the state of receptivity of the system. 
 
 Certain facts seem to indicate very clearly that malarial poison is very 
 slowly removed from a system which has been brought under its influence. 
 These evidences of long systemic residence of the poison are principally 
 displayed in those attacks which occur after long periods of removal from 
 any surrounding where intoxication was possible. Vernal attacks may 
 be classed in the same connection. In many instances the subjects of 
 these long-delayed attacks have never suffered a paroxysmal seizure, and 
 yet when some accidental derangement of health occurs, as from a fit of 
 indigestion or a sudden wetting, they fall sick with one or another form 
 of malarial fever. 
 
 It does not appear to me that we are justified in assuming that such 
 attacks as I refer to are to be ascribed to secondary changes produced in 
 either the fluids or solids of the system by the malarial poison. In so
 
 592 MALARIAL FEVERS. 
 
 far as the clinical phenomena are worth anything in demonstrating the 
 presence and agency of the specific malarial poison in these deferred 
 attacks, they are precisely similar to those observed in paroxysms arising 
 after a few hours' or a few days' exposure to marsh miasm. 
 
 But we find further proofs of the long-continued and silent manner in 
 which malaria exerts its pathological influences in those enlargements of 
 the spleen which occur without specific attacks of sickness. The altera- 
 tions of nutrition in this organ are so characteristic of malaria that they 
 can scarcely be supposed to depend upon those chances which determine 
 the nature of secondary blood-impurities. 
 
 Intermittent Fever Simple Forms. 
 
 The clinical phenomena of intermittent fevers afford strong support to 
 the opinion that this type of malarial attacks illustrates more strongly 
 than any other the primary influence of the poison upon the human sys- 
 tem. Fits of ague often occur very shortly after exposure in infected 
 localities, and the persons thus suddenly attacked may present little or no 
 evidence of cachexia before or after the paroxysm. Indeed, they fre- 
 quently resume their ordinary avocations after the paroxysms, apparently 
 as well as if they had not occurred. 
 
 It is therefore my opinion that the pathology of an intermittent fever 
 does not necessarily involve an hypothesis that the attacks are the results 
 of certain changes which the poison undergoes after its inception, nor, on 
 the other hand, that certain perversions of systemic chemistry are required 
 to inaugurate the paroxysms. 
 
 In accordance with these conclusions, it seems likely that the phenom- 
 ena of intermittent malarial fever result from the primary effects of its 
 specific poison exerted directly upon the fluids and solids of the system, 
 and disturbing their functions, and especially the nerve-function. 
 
 Those malarial attacks which ensue almost immediately after exposure 
 are principally manifested in persons exposed at points of unusually abun- 
 dant evolution. The rule of malarial attacks in temperate latitudes is, 
 that they require repeated exposure to infection for their production. 
 The long residence of the poison in the system may render additional 
 doses possible, until a point of saturation is reached which occasions par- 
 oxysmal explosions. In these cases the period of incubation is reckoned 
 from the first date of exposure, thus forming the most striking contrast 
 with the incubative periods of the cases occurring almost immediately 
 after exposure. 
 
 Whether the quiescent period after exposure to malaria be long or short, 
 attacks are seldom abrupt in their announcement. The symptoms which 
 usually precede pronounced attacks consist, for the most part, in some 
 derangement of the functions presided over by the organic nervous sys- 
 tem. Derangement of digestion, vitiated taste, coating of the tongue, 
 loaded urine, and sallow skin are ordinarily found among the prodromic 
 symptoms. Next in succession come feelings of malaise, hot and cold 
 flushes, and those neuralgias which precede and attend malarial paroxysms. 
 
 The symptoms of an ordinary or typical malarial paroxysm are so 
 characteristic, as to be generally readily interpreted. Creeping, chilly,
 
 INTERMITTENT FEVER SIMPLE FORMS. 593 
 
 sensations over the surface, especially along the spine, yawning, livid 
 coloration beneath the finger-nails, retreat of blood from superficial capil- 
 laries, and that consequent papillary elevation which is commonly called 
 goose-skin, comprise the earliest symptoms. Then decided shiverings 
 with chattering of _the teeth come on, and the patient asks for blankets to 
 be heaped upon him and hot applications to be made, even though the 
 atmospheric temperature may be decidedly elevated. 
 
 Nausea and vomiting are frequent symptoms, no doubt due to the fact 
 that the portal system of blood-vessels is so often the seat of congestion 
 during a chill. No intelligent practitioner can watch a patient during the 
 cold stage of a malarial paroxysm without realizing how important the 
 attendant congestion is as a pathological state. It should first be consid- 
 ered that every chill necessarily implies a condition of congestion in some 
 part of the system. The blood driven from the surface and extrem- 
 ities must be accounted for elsewhere ; and the amount of blood which 
 is lost from one part of the circulatory tree must correspond with that 
 accumulated elsewhere. But in treating of the pernicious forms of mala- 
 rial fevers this question will again receive notice. 
 
 In our present state of knowledge we are no more able to explain those 
 perversions of the normal action of the physical forces of the system 
 which occasion the phenomena of a chill than we are to explain how the 
 altered circulation in the first steps of an inflammation is brought about. 
 The theory which Cullen adopted is quite as explanatory and consistent 
 as any which has been promulgated since his time. According to this, a 
 state of spasm of the arterioles and capillaries causes the chill, while the 
 fever is merely the rebound of functions held in abeyance during the 
 chill. 
 
 After a variable length of time there occurs a change in these symp- 
 toms : the patient begins to remove the blankets which covered him ; the 
 face shows signs of returning circulation ; the veins of the whole surface 
 gradually fill again, apparently beyond their normal state. But the 
 reaction goes far beyond any normal physiological state. The face 
 becomes flushed and the eyes injected, and the patient complains of head- 
 ache, thirst, dryness and heat of the surface ; he will not permit any cov- 
 ering, and constantly shifts his place in the bed in the hope that some 
 new position may afford him more comfort. Nausea and vomiting are 
 commonly present. If the fever runs high, delirium is apt to occur. 
 The thermometer seldom shows a temperature above 105, but I have 
 seen 106.5 recorded in the axilla in the hot stage of a paroxysm of 
 simple intermittent fever. 
 
 The duration of the hot stage is different in different cases. Accord- 
 ing to Aitken, the mean duration is three to eight hours. 
 
 There is a very old and quite well-supported opinion, that the cold 
 stage is shorter in the quotidian than in the tertian type, and also that 
 the hot stage is longer in the former than in the latter. It may certainly 
 be affirmed that in individual cases of either type there is no fixed rela- 
 tion between the duration of the chill and that of the hot stage. 
 
 The decline of the hot stage begins by the appearance of a gentle 
 perspiration, limited at first to the forehead, face, and neck. This 
 gradually extends itself over the surface and increases in quantity until 
 the whole body is bathed in a profuse sweat. During this period the 
 
 VOL. I. 38
 
 594 MALARIAL FEVERS. 
 
 patient's symptoms, both subjective and objective, undergo wonderful 
 mitigation, and, although this stage is usually short, it often happens that 
 by the time it is concluded a restoration to ordinary health seems to have 
 occurred. 
 
 The sweating stage terminates a malarial paroxysm. The intermission 
 now begins, and lasts until the inauguration of another paroxysm. The 
 intermission is longer or shorter accordingly, first, as the paroxysm occu- 
 pies less or more time ; and, second, as the interval may affect it. The 
 interval is that period of time which reaches from the beginning of one 
 paroxysm to the beginning of another. It therefore furnishes the basis 
 of classification of simple intermittents into the following forms : quoti- 
 dian, tertian, and quartan. 
 
 Statistics gathered from a great many sources and relating to many 
 countries and climates indicate that quotidian intermittents are more 
 common than tertian. It may then be assumed that the natural type 
 of intermittents is that form characterized by diurnal paroxysms. It 
 must be remarked, however, that if any natural law does exist establish- 
 ing the quotidian as the typical form of intermittent fevers, it is very 
 often set aside by unknown influences. In certain epidemics the tertian 
 cases preponderate, and under all circumstances convertibility may be wit- 
 nessed between the various forms. 
 
 It is probable that the statistics gathered by the medical staff of the 
 United States Army during the late Civil War afford the most valuable 
 data which we possess touching these points, in so far as they relate to 
 this country. During three years of the war 724,284 cases of intermit- 
 tent fever were recorded, tabulated as follows : 
 
 Quotidian, 370,401 cases, 388 deaths equivalent to 1047 + deaths per 
 1,000,000 cases. 
 
 Tertian, 318,704 cases, 324 deaths equivalent to 1007 -f- deaths per 
 1,000,000 cases. 
 
 Quartan, 35,179 cases, 79 deaths equivalent to 2245+ deaths per 
 1,000,000 cases. 
 
 It has been remarked by several writers that quartan attacks have a 
 smaller ratio in the Southern States than in other parts of the Union. 
 My observations on this point have not been sufficiently well recorded to 
 make them especially authoritative, but they support such a conclusion. 
 
 The morbid anatomy of malarial fevers is more properly discussed in 
 treating of the graver forms, since the paroxysms of simple intermittent 
 do not often occasion death. 
 
 TREATMENT. This must necessarily vary with the stage of the par- 
 oxysm and condition of the patient at the time of the first visit. 
 
 Let us suppose this to be the incipiency of the paroxysm, or the early 
 part of the cold stage. However little the danger to life from the parox- 
 ysm of a simple intermittent attack, the practitioner should not forget 
 that whatever danger does exist is to be ascribed to damages suffered dur- 
 ing or in consequence of the chill. There are few exceptions to this rule, 
 and those will be noticed presently. With this fact in view the prac- 
 titioner's duties are much simplified. He should first endeavor to remove 
 any complications present which tend to aggravate the cold stage. If 
 the chill has come on after a full meal or after eating indigestible food, 
 the stomach should be promptly emptied ; otherwise the cold stage will
 
 INTERMITTENT FEVER SIMPLE FORMS. 595 
 
 be prolonged aud rendered more violent. Large draughts of warm water 
 will frequently produce sufficient emesis. If this should fail, ipecacuanha 
 may be added. The warm infusion of eupatorium perfoliatuni answers well 
 as an emetic, producing also a laxative effect. But it is disgusting to the 
 palate, and sometimes prolongs its action beyond desired results. The 
 effect of an emetic in abridging a chill by revulsive action are uncertain, and 
 I avoid resorting to them for this purpose alone in simple intermittents. 
 
 The patient's subjective complaints of suffering should receive a due 
 degree of attention. Additional blankets and warm applications should 
 be allowed when solicited. I always discourage hot or heating drinks, 
 except for the purpose just mentioned. I especially oppose alcoholic 
 stimulants, because they seldom do any good in mitigating the chill, 
 oftener aggravating the patient's symptoms during the hot stage, particu- 
 larly the headache and vomiting, and sometimes directly occasioning per- 
 plexing perturbations. For example, I have seen convulsions speedily 
 follow a strong brandy toddy given to shorten a chill. 
 
 While the removal of complications is imperatively indicated, it is 
 also important to use promptly those means which are designed to 
 modify and shorten the chill. It is a remarkable fact that all the 
 agents found to be useful for this purpose are such as directly influ- 
 ence nervous function. Opium in some form enters into all prescrip- 
 tions which I have found efficient in modifying a chill. It is quite 
 efficacious when given alone, but I think its therapeutic energy and cer- 
 tainty are increased by the addition of other agents of the same class. I 
 have often exhibited twenty to thirty drops of chloroform with an equal 
 quantity of laudanum with excellent results. The tincture of opium may 
 be combined with aromatic spirit of ammonia, or with bromide of potas- 
 sium, or with chloral hydrate. In combination with either of the latter 
 medicines it may be given by rectal injection. If the stomach is intol- 
 erant, or by preference because of facility of dosage and quickness of 
 effect, the opiate may be given hypodermically. For this purpose one- 
 sixth to one-quarter of a grain of morphia may be given, together with 
 one-sixtieth to one-fortieth of a grain of atropia. It is rarely necessary to 
 repeat the dose whichever form may be adopted. 
 
 After much experience in these methods of mitigating and abridging 
 the chills of intermittent fever, I feel entitled to say that, whether the 
 objects be achieved or not, no injurious consequences ensue. 
 
 The conditions of the circulatory and digestive organs are not favor- 
 able for the introduction of quinia or of any preliminary purgative which 
 may be supposed to be necessary, and I therefore delay their exhibition. 
 It may be excepted, however, that sometimes a very obstinately irritable 
 stomach or exceedingly vitiated state of the fluids can be appropriately 
 met by gr. x to xx of calomel. 
 
 The hot stage of a simple intermittent seldom calls for medical interfer- 
 ence on account of excessive temperature. If the headache is very violent or 
 the vomiting troublesome, a subcutaneous dose of morphia will bring speedy 
 relief. The existence of high temperature does not centra-indicate its use, 
 
 I am in the habit of giving opium in the following combinations : 
 !$5. Morphise Acet. gr. ss ; 
 
 Liq. Ammon. Acet. f 3iv. M. 
 8. Two tablespoonfuls every second hour.
 
 596 MALARIAL FEVERS. 
 
 Or, occasionally, the following : 
 
 ]$!. Sodii Bicarb. gr. xx. 
 
 Morphiae Sulph. gr. i ; 
 
 Aquae Lauro-Cerasi, 
 Aquae Menth. Pip. da. f^iv. M. 
 S. Teaspoon ful pro re nata. 
 
 I do not limit the use of opiates in the hot stage to old and infirm 
 subjects, as Dickson suggests, but give them in all cases where vomit- 
 ing, headache, or other neuralgias are excessive, or where unusual rest- 
 lessness and jactitation are present. 
 
 The propriety of giving purgatives as a preliminary measure of treat- 
 ment during the hot stage must be determined by symptoms connected 
 with individual cases. In the majority of cases falling under my care 
 purgatives are avoided. When regarded necessary, gentle purgation is 
 solicited by administering bitartrate of potassium in lemonade or by com- 
 bining mild mercurial doses with antiperiodics when these latter are 
 resorted to during the fever. In some cases a very furred tongue, sallow 
 skin, and costive bowels indicate more active purgatives, which may be 
 exhibited during the febrile stage. 
 
 The most important question which relates to medication during the 
 hot stage is in respect to the administration of antiperiodics. It may be 
 safely stated that practitioners of this country were the first to adopt this 
 method of procedure in malarial fevers. Here it has been well demon- 
 strated that a competent dose of quinia, given during any part of the 
 hot stage, is so often followed by the defervescence of the fever that it 
 would be illogical to attribute the change to any other cause. Sometimes 
 the remedy fails in producing this result; then excessive physiological 
 disturbances may follow, and perhaps some general aggravation of the 
 patient's symptoms. 
 
 There are four different circumstances, each of which, in my opinion, 
 calls for the exhibition of quinia during the hot stage, whether the fever 
 has reached its maximum point or not : 
 
 First. If the period which has elapsed since the beginning of the 
 paroxysm is so considerable that further delay might prevent sufficient 
 cinchonism to intercept the next accession. 
 
 Second. When the fever is so excessive that quinia should be given 
 as an antipyretic. 
 
 Third. When apprehensions exist that the fever will occasion some 
 complication or accident. 
 
 Fourth. When the tongue is clean and the state of the system is 
 favorable to absorption. 
 
 The hot stage is not usually favorable to absorption, and consequently 
 the economical use of quinia must not be attempted. It should be 
 given in doses varying from ten to twenty grains, preferably in solu- 
 tion. I may remark that I have seldom failed in getting good results 
 from the powder or pills if lemonade or some fluid facile of absorption 
 be given at the same time. The mixtures previously formulated answer 
 this purpose very well, and at the same time mitigate the disagreeable 
 physiological effects of the quinia. 
 
 Allusion has been made to certain symptoms occasionally connected
 
 INTERMITTENT FEVERSIMPLE FORMS. 597 
 
 with the hot stage which involve danger. Convulsions are among the 
 most important of these. They occur most often among children, but 
 occasionally with adults. They should be met by chloroform, cold to the 
 head, hypodermic injection of morphia, and cupping or leeching if the 
 face is flushed, the eyes injected, and the carotids pulsating forcibly. 
 
 The sweating stage may be classed with the intermission in respect to 
 medication. No time should be lost in securing cinchonism. From the 
 moment the sweating stage announces itself the fluids of the system begin 
 to resume their normal physiological functions. Absorption from the 
 intestinal surfaces is again restored, and remedies may be administered 
 with confidence in their effects. 
 
 The question is now no longer whether antiperiodics should be 
 administered, but how they shall be given. Many practitioners prefer 
 exhibiting them in one large dose ; others think it better to give them in 
 repeated small doses. I have usually adopted the latter method. Begin- 
 ning with the sweating stage, I give three grains of quinia every hour 
 or two hours, until eighteen grains have been taken. This would occupy 
 periods of five to ten hours to complete the doses, ordinarily quite a suffi- 
 cient length of time to obtain cinchonism before the advent of another 
 paroxysm. If the physician elects to give his antiperiodic in one or two 
 large doses, he should not trust to so small an amount as eighteen grains. 
 Allowance must be made for the loss incident to the probable over-taxa- 
 tion of the power to dissolve and receive a large amount into the circula- 
 tion. 
 
 Purgation should not be induced to a sufficient degree to hurry the 
 quinia off before absorption takes place. Some practitioners favor the 
 employment of adjuvants to the quinia. Very few of these have 
 appeared to me to be of service except opium. A very convenient 
 formula is a solution of quinia in peppermint-water by addition of 
 dilute sulphuric acid, in such proportions that fej of the solution shall 
 represent five grains of quinia and seven and a half drops of laudanum. 
 
 But, however we may boast of the efficacy of cinchona as the anceps 
 remedium for malarial diseases, we are forced to admit that it is not cer- 
 tainly an immediate cure, and very commonly fails in producing a per- 
 manent curative effect. If we could in all cases discern and ^remove the 
 impediments to its immediate or temporarily curative action, its claims to 
 be regarded as a practical specific would be undeniable. It is probable 
 that these impediments generally rest upon the fact that either the 
 remedy does not gain admission to the circulation or that some complica- 
 tion exists not within the range of its therapeutic action. 
 
 The failure of cinchona to cure a malarial attack in such a permanent 
 manner that it shall not be liable to return is probably owing to the 
 incompetent action of the drug because of its transitory stay ^ in the 
 system as compared with that of the malarial poison. Some objections 
 apply to this theory, because when the succession of intermittent attacks 
 is broken by quinia and it is continuously administered^ afterward, the 
 paroxysms occasionally recur in spite of its presence in the system. 
 These objections may be answered by pleading that under these circum- 
 stances secondary blood-poisons precipitate the attacks, and cinchona 
 should not be expected to cure these conditions. 
 
 The best methods of practice I know of to prevent a recurrence of
 
 598 MALARIAL FEVERS. 
 
 intermittent fever after having interrupted the succession of attacks are, 
 fust, to continue the cinchona for at least forty-eight hours, giving at 
 lea.-i three three-grain doses a day. After this no medicine need be 
 given except such as may be required to correct chronic to\;eniic states 
 of the system or to act as blood-restoratives until such time as prodromes 
 of another paroxysm may exhibit themselves. At the instant when 
 these manifest themselves ten to fifteen grains of <iuinia in solution 
 should be taken. In order that no loss of time should occur in applying 
 this method, I always advise patients to keep a solution of quinia 
 within immediate reach. The following prescription has sometimes 
 appeared to effect a permanent exemption from recurrence of paroxysms: 
 1$. Ferri Redacti gr. xl ; 
 
 Acid. Arseniosi gr. j ; 
 
 Quinise Sulph. gr. xl ; 
 
 Ol. Pip. Nigr. gtt.x. M. 
 
 Ft. pil. No. xx. 
 S. One pill three times daily. 
 
 It seems sometimes to occur that intermittent attacks so impress the 
 nervous system that they become, like epilepsy, more liable to recur 
 because of an established habit. I have known chills to occur when the 
 ears were ringing with quinia. Strychnia fails to arrest them ; arsenic 
 has more value, but frequently fails. Pure nitric acid, properly diluted, 
 in doses of six to ten drops, given every four to six hours without regard 
 to the stage of the paroxysm, succeeds more often than any medication I 
 have ever resorted to. 
 
 Before dismissing the subject of the treatment of simple intermittent 
 lever it may be proper to mention that I have made trials of cure by 
 carbolic acid, administered by mouth and subcutaneously, and also of 
 the sulphites, with no results worthy of recommendation. 
 
 Remittent Fever. 
 
 The difference in definition between the words remittent and intermit- 
 tent expresses the clinical distinction between these two forms of fever in 
 a very satisfactory manner. 
 
 Remittent fever exhibits oscillations of temperature regulated as to 
 hours of recurrence by laws similar to those which govern the periodic 
 returns of intermittent fever ; but there is no complete defervescence of 
 the fever. While the lowest angles of the fever curve approximate the 
 normal body heat more or less closely, they never decline to a standard 
 of apyrexia. 
 
 That remittent fever is a malarial disease, produced by a cause identical 
 with that which produces intermittent fever, is well proven by the follow- 
 ing facts : 
 
 First. Cases occur in close relation with cases of intermittent fever in 
 populations similarly exposed to malaria, and at the same periods of the 
 
 year. 
 
 Second. The two forms of disease are readily convertible, the one with 
 the other. 
 
 In non-tropical countries remittent fever cannot be regarded as the
 
 RXMfTTEXT FEVER. 699 
 
 natural tyjx^ of malarial lovers. At least, it may lx> afiirmod that the 
 proportion of cases which begin as remittent attacks is so small that 
 we are warranted in looking upon them as departures from type. In 
 the United States army during the years 18l>M>t>, inclusive, there 
 occurred 280,400 cases of remittent fever. The fatal eases were 8853, 
 being a mortality-rate of 13,450 per 1,000,000 eases. By comparing 
 these statistics with those of intermittent fever recorded in a previous 
 section it will be found that remittent fever is more than twelve times 
 as fatal to life as the simple intermittent forms. 
 
 If we accept this view of the pathology of remittent fever, it is of 
 interest to the sanitarian or practitioner to endeavor to arrive at the 
 causes which occasion these departures from type. Some of these are 
 undoubtedly extraneous to the system, and relate wholly to circum- 
 stances affecting the malarial poison as a disease-producing agent. In- 
 creased quantity of malaria is well understood to enlarge the ratio of 
 remittent cases. There is also strong presumptive evidence supporting 
 the hypothesis that different annual crops of malaria vary in respect to 
 the noxious qualities of this agent. The same presumption relates to all 
 crops produced in certain localities as contrasted with others. Other 
 causes which determine remittent rather than intermittent attacks are 
 personal to patients. They may be classed as follows: 
 
 First. Unusual personal receptivity or impressibility to malaria may 
 exist, either because of some constitutional idiosyncrasy or of some state 
 the system at the time of exposure. 
 
 Second. Want of timely medical treatment or of proper medical treat- 
 ment may convert intermittents into remittents. 
 
 Third. The rapid occurrence of secondary blood infectious, extraordi- 
 nary in character or amount, may cause the fever to be continuous. 
 
 Fourth. The existence of complications, inflammatory in their nature, 
 may change intermittent into remittent attacks. 
 
 However various or complex the causes may be which operate to con- 
 vert intermittent attacks into remittent forms of fever, each one must be 
 supposed to act by disturbing the functions of those centres which preside 
 over the normal physiological and chemical changes of the system. 
 
 SYMPTOMS AND DIAGNOSIS. Attacks of remittent fever are, as a rule, 
 more abrupt in their advent than intermittents. When prodromic symp- 
 toms exist, they are similar to those which precede ordinary cases of ague. 
 
 The chill is seldom attended by such violent symptoms as the cold 
 stage of intermittents. The duration of the cold stage is also more brief. 
 In a small proportion of cases severe vomiting with large bilious ejections 
 complicate the cold stage. The chill is quickly followed by the hot stage. 
 
 The mildest cases of remittent fever are not readily distinguishable 
 from the intermittent forms. In these cases the temperature curve -s arc 
 marked by sharp angles and long tracings between the lowest and highest 
 records. As cases become more decided in diagnosis, and consequently 
 represent higher degrees of departure from the intermittent tvpe, the 
 angles of temperature curves become more obtuse and exhibit a more or 
 less high average range. The accompanying temperature diagram (l<\g. 
 23) shows the thermometric record of an unusually protracted and grave 
 case. The patient was a near relative of my colleague, Prof. Logan, a 
 leading practitioner of New Orleans, and the clinical records may be
 
 600
 
 REMITTENT FEVER. 601 
 
 accepted as altogether accurate. It is somewhat to be regretted that 
 the records of temperature were not begun at an earlier period, but the 
 gravity of the case was not manifest until the continued type of fever was 
 found to exist. The latter part of the diagram illustrates the lapse of the 
 remittent fever into an intermittent. This is so commonly a mode of cure 
 that the practitioner watches with solicitude for increasing oscillations of 
 temperature to announce mitigations of severity in his gravest cases. 
 
 The differential diagnosis of intermittent and remittent fevers may be 
 looked upon as practically unimportant. All cases so near the border- 
 line as to make differential diagnosis a question should receive identical 
 treatment. 
 
 There are, however, two other very grave forms of fever which are 
 liable to give trouble in differentiation from remittent fever. These are 
 typhoid and yellow fevers. The sanitary protection of communities 
 exposed to cases of the latter, and also the practical treatment of the 
 sick, call for early and correct differentiation. 
 
 But it is only in the early stages of the pathological processes of these 
 affections that difficulties of diagnosis are liable to obtain. The facial 
 expression of patients suffering with remittent is sufficiently characteristic 
 to afford some diagnostic inferences. During the pyrexia the face is 
 flushed and the eyes injected, but the redness is more vivid and the 
 countenance more animated than in either typhoid or yellow fever. 
 It would not be inaccurate to say that, however great may be the 
 flushing or other alterations of the countenance in remittent fever, the 
 natural facial expression is better preserved than in either of the fevers 
 under comparison with it. Sallowness of the skin is an early and almost 
 constant event in remittent fever. It comes on as a secondary manifesta- 
 tion, and appears in a large ratio of cases to bear some relation to the high 
 temperature preceding its occurrence. The icteric hue is seldom intense, 
 indeed very infrequently equalling the orange-yellow of jaundice result- 
 ing from obstruction. There is an exception to this statement in those 
 cases in which remittent fever attacks a person already jaundiced. I have 
 seen many cases in which the jaundice preceded the remittent fever, and 
 became more strongly marked after its incursion, particularly in those 
 persons who had remained for some time in a malarial region and suffered 
 repeated attacks. In all cases of remittent fever it seems reasonable to 
 ascribe the more or less jaundiced state to one or both of two factors, 
 viz. the accumulation of excrementitious material and bile constituents 
 in the blood from primary derangement of its chemistry ; and that exces- 
 sive activity of the liver which the malarial poison appears to induce. 
 Whether the latter mentioned factor results from some action of malaria 
 directly affecting the nutritive processes of the liver, as it does those of 
 the spleen, or whether the altered blood-currents during the paroxysms 
 cause this supposed hypersecretion of bile, we certainly know that to 
 malaria only can we ascribe those fevers which are marked by such pecu- 
 liar symptoms of biliousness or superabundance of bile as to justify the 
 prefix bilious fever or bilious remittent fever. 
 
 The state of the alimentary tract may properly receive notice after these 
 remarks. In the early stages of remittent fever the tongue may be 
 moist and large, and covered with a white or lead-colored or yellowish 
 coat. The edges may be indented with imprints of the teeth. This is
 
 602 MALARIAL FEVERS. 
 
 Osborne's malarial tongue, and its appearance is worth something in 
 diagnosis. 
 
 Later in the progress of remittent fever the tongue may become dry, 
 brown, cracked, and difficult of protrusion, but seldom showing the 
 tremulousness of a typhoid-fever tongue, and differing also from the 
 yellow-fever tongue in the fact that in this disease the appearance of the 
 tongue is usually indifferent as a symptom, except that in advanced stages 
 it is liable to be smeared with blood. 
 
 The stomach is irritable from the very beginning of an attack, and the 
 acts of emesis are generally in striking contrast with those of typhoid or 
 yellow fever, both in respect to their violence and to the relative amount 
 of bile they eject. 
 
 The bowels are ordinarily costive, and when moved by purgatives the 
 stools contrast strongly with those of typhoid or yellow fever by pre- 
 senting evidences of the bile-coloring principles which attend all excretions 
 in malarial fever, and are found in the urine, the perspiration, and occa- 
 sionally the sputa. 
 
 Some unusually violent cases of malarial fever, which may become 
 remittent, are inaugurated with convulsions, profuse diarrhoea, and coma. 
 
 Before closing the remarks concerning the digestive organs in remit- 
 tent fever I should mention that in the long array of cases I have 
 treated I cannot recall one solitary instance of black vomit. It is, 
 however, true that I have observed hemorrhage from the bowels in quite 
 a number of cases. These occurred late in protracted 'cases, and were 
 sometimes the cause of death. Whether it be merely a coincidence I am 
 unable to say, but it is true that the majority of these cases have been 
 in young females just after the establishment of the catameuia. 
 
 Hemorrhage from the nose is frequent in remittent fever, but I have 
 never seen a case with general tendency to hemorrhage. 
 
 The pulse in remittent fever differs from that of the typhoid or 
 yellow fevers by being more synochal in character, firmer, and more 
 resisting to pressure. The longer the duration of the case the less is this 
 characteristic discernible. 
 
 The nervous system shows less ataxia. Delirium may occur in any 
 stage of the disease, but differs from the delirium of typhoid and yellow 
 fevers in showing a lessened degree of perversion of the reasoning facul- 
 ties. The neuralgias have nothing special. 
 
 The urine is acid, high-colored, and scanty. I have never found much 
 albumen in the urine of a case of remittent fever, unless there was some 
 other cause to account for its presence. A small amount may be detected 
 during excessive fever. Blood is a rare constituent. 
 
 Mild cases of remittent fever should terminate in recovery in from five 
 to seven days. Fatal attacks usually end from the fifth to the tenth day. 
 Many cases pursue a course which lasts from twenty to forty days. Under 
 proper treatment the usual termination is in recovery, either directly or 
 by conversion into the intermittent type. 
 
 POST-MORTEM APPEARANCES. When death occurs in remittent fever 
 the post-mortem changes generally consist of those which are principally 
 due to chronic malarial toxaemia and those ascribable to the acute attack. 
 
 Under the former division are permanent enlargements of the spleen 
 and liver, and pigmentary matter in the blood and deposited in various
 
 REMITTENT FEVER. 603 
 
 organs. Under the latter are to be classed hyperaemic or even inflamma- 
 tory states of the stomach and intestines, and those degenerative changes 
 which are the consequence of continuous hyperpyrexia. The post-mortem 
 changes which are so uniformly found as to be most often appealed to in 
 the establishment of diagnoses are enlargements of the liver and spleen. 
 These may be due in part to hyperplasia and in part to blood-engorge- 
 ment. The brown or slate color of an enlarged liver is strongly diag- 
 nostic of malarial affections. It contrasts strongly with the yellow and 
 natural-sized liver of yellow fever and with the negative liver of typhoid 
 fever. 
 
 The skin is generally yellow, sometimes quite intensely icteric, but 
 seldom showing the ecchymotic extravasations of yellow fever. In 
 remittent fever we never find the cadaver oozing blood from the nose 
 and the mouth, nor are the stomach or intestines ever found to contain 
 black vomit. 
 
 TREATMENT. The indications of treatment in remittent fevers diifer 
 from those of intermittents in two leading essentials. 
 
 First. It is a far graver form of fever, and calls for more promptitude 
 and energy in treatment for its successful management. 
 
 Second. The important pathological condition to be combated is the 
 hyperpyrexia, and not the cold stage, as in intermittents. 
 
 But even with a clear realization of the practical importance of these 
 facts in governing the treatment of remittents, the practitioner must still 
 exercise care and self-control, lest he shall unconsciously adopt the doc- 
 trine that inflammatory lesions must be present to occasion such violent 
 pyrexia as often exists. The physician who comes directly from a case 
 of pneumonia or rheumatic fever and finds a patient suffering from remit- 
 tent fever, with temperature higher and pulse more bounding than those 
 of the patient he has just left, is pardonable for finding it difficult to 
 realize that these furious symptoms are not also associated with inflamma- 
 tion. 
 
 Attempts to cure remittent fevers by an exclusively antiphlogistic treat- 
 ment either result fatally or induce long periods of confinement and suf- 
 fering before recovery is reached. The great indication is to secure cin- 
 chonism as promptly and completely as possible. Nothing should divert 
 our attention from this object. The condition of the patient as it 
 respects fever, delirium, or state of the tongue, should form no bar to the 
 administration of quinia. There are no practitioners who have had 
 much experience in treating these grave forms of malarial fever after this 
 method who are not able to recall the numerous instances of most aston- 
 ishing and gratifying amelioration of symptoms as soon as saturation 
 with quinia was brought about. The dry tongue becomes moist, the skin 
 is bathed in gentle perspiration, the delirium ceases, and the patient sinks 
 into a quiet sleep. 
 
 The amount of quinia necessary to produce cinchonism must be esti- 
 mated for each particular case according to the measure of its severity or 
 to states of the system more or less favorable to its absorption. It 
 must be borne in mind, however, that questions concerning the patient's 
 safety are paramount to those of economy. In the mildest cases I never 
 trust to a smaller amount than from twenty to thirty grains. . In violent 
 attacks I have administered scruple doses every fourth hour until a suf-
 
 604 MALARIAL FEVERS. 
 
 ficient test had been made of its capability to arrest or modify the febrile 
 paroxysm. I have never met with any of those exaggerated physio- 
 logical effects which some observers teach us to fear from the exhibition 
 of cinchona preparations during fever. Certainly, I can declare that no 
 permanent deafness or other lasting lesion of nerve-function has ever 
 occurred under my observation. I must also add that I know of no 
 reasons why remissions afford more favorable conditions for the adminis- 
 tration of quinia, beyond the fact that the system is in a better state for 
 its absorption and assimilation. The quinia is preferably given in solu- 
 tion, but may be exhibited in the form of pills, or in powder suspended 
 in black coffee, or in the thick mucilage of the slippery elm. 
 
 The considerations of treatment which are naturally connected with 
 those just advocated relate to measures which it may be proper to 
 associate with the quinia. The answers to the two following questions 
 comprise all that is necessary to be said on this point viz.: 
 
 Are conditions of the system present which may interfere with the spe- 
 cific treatment by quinia, and which are not, in themselves, curable by it? 
 
 Are any medicines to be given as succedanea to the specific remedy for 
 the purpose of rendering its action more sure or prompt ? 
 
 In regard to the first inquiry, it must be admitted that in quite a large 
 proportion of cases of remittent fever specific treatment fails to cure. I 
 suppose that may be a reasonable proposition which holds that in the 
 majority of these cases the presence of secondary blood- impurities annuls 
 the ordinary specific effects of cinchona. These nmst be gotten rid of by 
 depurative medicines. The intestinal canal, the skin, and the kidneys are 
 the emunctories through which elimination must be effected. It is there- 
 fore proper for the physician to endeavor to recognize cases where such 
 impurities exist, and to so modify his treatment as to remove them. The 
 indications for depurative treatment are jaundiced skin and eyes, furred 
 tongue, costive bowels, and scanty, loaded urine. These are more or less 
 positively expressed symptoms in a large majority of cases. It is there- 
 fore proper that in this large majority of cases of remittent fever depura- 
 tive treatment should be conjoined with the specific treatment. In my 
 opinion, no drugs meet this indication so well as mercurials and saline 
 purges and diuretics. Calomel or blue mass may be given either simul- 
 taneously with the quinia or in alternate doses. 
 
 There are three very important rules to be observed in regard to 
 cathartics : They should never be carried to such an extent that 
 absorption of the quinine is interrupted. They should not be given in 
 such large or repeated doses as to produce prolonged irritation, or it may 
 be even inflammation, of the alimentary canal. Purgatives should be 
 used for their depurative effects, and never as antiphologistics. 
 
 Opium exercises excellent effects in preventing local irritation or hyper- 
 catharsis, and in relieving derangements of nerve-function and insomnia. 
 It is preferably given in small doses, combined either with purgatives or 
 with the quinia. 
 
 I have found bitartrate of potassium the most grateful and efficient 
 saline for depurative action. I have generally given it in lemonade in 
 such amounts as to secure a gentle aperient and diuretic effect. I hold 
 strongly to a conviction that all drugs as soluble as this faciltate the 
 absorption of those less soluble as, for example, of quinia.
 
 PERNICIOUS MALARIAL FEVER. 605 
 
 If the first efforts to break the febrile paroxysms fail, it is better to dis- 
 continue the quinia and place the patient under symptomatic treatment, 
 and await conditions of the system more favorable for its repetition. Of 
 course the high temperature is generally the symptom requiring most care 
 and attention. 
 
 Vomiting is one of the troublesome symptoms of remittent fever. As 
 internal medication minute doses of morphia, dry upon the tongue or 
 in solution in cherry-laurel water, or in combination with eight or ten 
 drops of chloroform, are generally efficacious. Swallowing pellets of ice 
 or frequently taking iced effervescing mixtures are good measures of 
 treatment. Occasionally, a mild emetic, such as warm chamomile infu- 
 sion, or warm water alone, will arrest the vomiting temporarily. It is 
 doubtful, however, whether this relief is secured by the ejection of any 
 offending matter from the stomach. It is more than probable that the 
 forced dilatation of the stomach has arrested the spasms, for filling this 
 viscus with cold drinks to repletion will often effect the same result. 
 
 Of all applications to the epigastrium, a cold wet towel occasionally 
 sprinkled with chloroform is the best. 
 
 A tympanitic or tender abdomen requires stupes wrung from warm 
 water. They may be dashed with turpentine at first, and afterward 
 consist of warm water with whiskey. I have occasionally given two 
 or three doses of turpentine emulsion with benefit, but from much obser- 
 vation I am forced to protest against the turpentine treatment, as it is 
 called, which is to give twenty drops of turpentine every two to four 
 hours as a curative agent. 
 
 Hemorrhage from the bowels must be met by haemostatic treatment 
 preferably, in my experience, by the use of five grains of gallic acid in 
 half an ounce of camphor-water every two hours, of morphia subcutane- 
 ously, and of cold cloths over the bowels. As in all diseases liable to 
 cause death from exhaustion, careful attention must be paid to the nutri- 
 ment, and stimulants must be administered as required. 
 
 Pernicious Malarial Fever. 
 
 Certain departures from the ordinary types of malarial fever are 
 termed pernicious, because of their great tendency to inflict more than 
 usual systemic damage and danger to life upon those who suffer such 
 attacks. The word pernicious is used in its common English sense of 
 being hurtful or injurious. 
 
 It is entirely unnecessary to enter upon a discussion respecting the pro- 
 priety of employing this adjective to designate a class of cases of disease 
 which are primarily due to the same poison which produces simple inter- 
 mittent attacks. The extreme hurtfulness and danger of the attacks to 
 be described in this section, and the awful suddenness with which they 
 often occasion death, form striking contrasts with the more typical forms 
 of malarial fever, and appear fully to justify the use of the qualifying 
 adjective pernicious. 
 
 While all these various departures from type to be grouped under the 
 term pernicious possess the quality ascribed to them, they nevertheless 
 differ so widely in their modes of inflicting injury that it seems desirable 
 to arrange them under distinct sub-classifications.
 
 606 MALARIAL FEVERS. 
 
 Some cases of pernicious malarial fever preserve the periodicity of 
 simple attacks sufficiently well to enable one to classify them as intermit- 
 tent or remittent in form. But more commonly it is impossible to deter- 
 mine this classification, and for practical purposes it is unimportant' to 
 attempt to make any such distinction. 
 
 The. classification which appears to me most true to nature is the 
 following : 
 
 First. The algid or congestive form ; 
 
 Second. The comatose form ; 
 
 Third. The hemorrhagic form. 
 
 The algid or congestive form occurs more frequently than either of the 
 others. Its perniciousness is due to an aggravation or sheer exaggeration 
 of the cold stage of an intermittent attack. 
 
 The following brief clinical histories of two cases will serve to illustrate 
 the symptomatic phenomena of this form of pernicious malarial fever : 
 
 M. S., aged fourteen, had accompanied his father to a malarious 
 locality in the country, and had remained with him during September 
 and a portion of October. Shortly after his return I was asked to visit 
 him because of some unusual symptoms attending a chill. I found him 
 in a stupor, from which he was with difficulty aroused sufficiently to be 
 able to swallow a dose of quinia combined with laudanum. His face 
 was pallid and inexpressive ; the skin cool and moist ; extremities 
 shrunken and cold ; pulse small, easily obliterated by pressure, and 
 irregular ; tongue large and moist ; and pupils rather dilated. 
 
 My second visit was at 12 M., one hour and a half later than the first. 
 Patient was found in a deep stupor ; surface cold ; extremities and face 
 shrunken and blue ; pulse barely perceptible ; large liquid and offensive 
 stools occasionally escaped from the bowels without the consciousness of 
 the patient. Death at 3 o'clock p. M. 
 
 Miss H., living in a malarious situation, complained about noon of 
 September 19th of great cerebral fulness and unaccountable sleepiness 
 and debility. She retired to her room, and after a few hours' sleep 
 resumed her household occupations. On the 20th similar symptoms 
 manifested themselves, but earlier in the day. She again slept for some 
 hours, but complained of great prostration after the sleep. On the 21st, 
 about 10 A. M., she complained of a return of the stupor, and while 
 retiring to her room requested that I should be called if she did not 
 awake in a better condition. At 1 P. M. she was found profoundly coma- 
 tose, with cold extremities and surface and bathed in perspiration. When 
 I reached her residence at 3 P. M. she had expired. 
 
 There is a common belief among non-professional people that the third 
 congestive chill is necessarily fatal. There is no foundation for this opin- 
 ion, except in the fact that when congestive chills are waxing in their 
 perniciousness the subject is seldom able to survive the third recurrence 
 if the second or first should not prove fatal. 
 
 It is difficult to account for the pathological dissimilarity between the 
 simple and congestive types of malarial fevers. If we say that conges- 
 tive chills are produced by an intensification of those causes which pro- 
 duce and govern an ordinary chill, we make an explanation which, how- 
 ever unsatisfactory, represents very nearly the full extent of our know- 
 ledge on this point.
 
 PERNICIOUS MALARIAL FEVER. 607 
 
 It cannot be admitted that alterations of quantity or quality of the 
 malarial poison exercise the sole influence in determining the occurrence 
 of congestive cases. All experienced practitioners understand that cer- 
 tain constitutional conditions may pervert simple chills into congestive 
 forms by producing prolongation or aggravation of the states of con- 
 gestion always present in ordinary chills. Weakened cardiac function, 
 from whatever cause, may be reckoned among these conditions. In 
 these cases the feeble vis a tergo yields readily to those perturbations 
 of vaso-motor influence which occasion passive blood-accumulations 
 in the small veins and capillaries. I may say further, in speaking 
 of the influence of the vaso-motor nerves in governing the phenomena 
 of a chill, that we know that in congestive chills the cerebro-spinal sys- 
 tem is much less the seat of symptomatic phenomena than in simple 
 attacks. On the other hand, the organic system is far more profoundly 
 aifected. 
 
 However we may account for the perversions of normal circulation 
 underlying and producing congestive chills, the great degree of injury 
 they are liable to inflict is so well understood as to awaken the most 
 serious apprehensions whenever we are called upon to treat them. Con- 
 gestion, however occasioned, may destroy life through abolishment of 
 function by the sheer physical change of infarction, or, again, through those 
 inevitable consequences which arrested circulation entails upon the blood. 
 Blood-stasis is followed by separation of 'its constituents, and its disquali- 
 fication as a circulatory fluid in a degree proportionate to the duration of the 
 stoppage, and probably also to the actual extent of the passive engorgement. 
 Thence result the formation of coagula in the congested vessels and 
 deposits of pigmentary matter. If partial reaction should occur, por- 
 tions of this blood-debris may be floated to various parts of the circula- 
 tory system, and give rise to greater or less important alterations of 
 function. 
 
 Among the white soldiers of the United States army from May 1, 
 1861, to June 20, 1866, 13,673 cases were diagnosed as congestive inter- 
 mittent fever. Of this number, 3370 died, being a mortality-rate of 
 23.91 per cent. The aggregate number of malarial cases returned was 
 1,255,623. It would therefore appear that 1 case in not quite 372 was 
 congestive in its type, or 1.08 per cent. The late Dr. Cook of Washing- 
 ton, La., estimated 2 per cent, of his malarial cases to be of the conges- 
 tive type. It can scarcely be doubted that the ratio of congestive^ attacks 
 is greater in the more southern belts of latitude than in the middle or 
 northern parts of the United States. Chronic malarial toxaemia and the 
 enervating effects of long-continued heat upon the circulation must occasion 
 an increased proportion of such attacks, but my own observations show 
 slightly more than 1 per cent, of the cases treated in the Charity Hospital 
 to have been of the congestive form. 
 
 The cure of a congestive chill is one of the most difficult problems the 
 physician can possibly encounter. It is nothing less than the proposi- 
 tion to remove a perverted state of the blood-vessels which is dependent 
 upon some influence exerted through a nervous apparatus whose thera- 
 peutics and experimental physiology are imperfectly understood. While 
 a satisfactory solution of this problem will probably be a remote achieve- 
 ment in medicine, it was long ago empirically ascertained that certain
 
 608 MALARIAL FEVERS. 
 
 agents exercised some degree of control over the cold stage of febrile 
 attacks. For the most part, these agents are addressed to those perver- 
 sions of nerve-function which constitute so important a part of the pathol- 
 ogy of a chill. They are identically the same remedies whose aid we 
 invoke to allay many other forms of perturbed nervous action. 
 Opium, chloroform, belladonna, chloral hydrate, and bromide of potas- 
 sium have proved more or less valuable, according to the idiosyncrasy of 
 the patient or the circumstances under which they have been used. I 
 consider opium the most valuable of these remedies. It should be given 
 in moderate doses, and preferably combined with chloroform or ammonia, 
 or, if more expedient to administer per rectum, combined with solutions 
 of chloral hydrate or bromide of potassium. One-sixth of a grain of 
 morphia, combined with one-fortieth or one-fiftieth of a grain of atropia, 
 is an available and useful prescription when given hypodermically. 
 Rubbing the extremities or the spine, or indeed the whole surface, 
 with ice, is a mode of practice well worthy of attention. In the event 
 of inability to procure ice, douches of cold water, followed by frictions 
 with coarse towels, may be substituted. I have used nitrite of amyl by 
 inhalation, but its effects are too transitory to prove serviceable. 
 
 Some practitioners speak highly of alcoholic stimulants. My own 
 experience has not been favorable to their use. Perhaps their benefits 
 are altogether restricted to those cases in which previously weakened 
 heart-function existed. But it is important that alcohol be added in all 
 those cases of pernicious malarial fever, whatever the type may be, where 
 cardiac stimulation and improvement of nutrition are leading indications. 
 
 I am sure I have often derived benefit from enemas consisting of four 
 ounces of well-prepared beef essence with a half ounce of whiskey or 
 brandy and a half ounce of strong infusion of coffee. 
 
 The value of the hypodermic syringe in treating congestive chills must 
 never be lost sight of. The suspension, or even reversal, of normal sys- 
 temic currents is made evident by the serous vomiting and purging attend- 
 ing congestion of the abdominal cavity. Medicine placed in the stomach 
 under these circumstances is virtually thrown away. 
 
 The term comatose is applied to certain cases of pernicious malarial 
 fever because they present coma as a marked symptom. To appreciate 
 the propriety of this classification, it must be well understood that the 
 coma present is not due to cerebral congestion. Further than this one 
 restriction upon the application of the word there is in its employment 
 no declaration of any pathological views respecting the cases it is intended 
 to define. While, therefore, the term is unquestionably liable to criticism, 
 I suppose its use may still be admitted, provided it is accompanied by a 
 satisfactorily explicit account of the symptoms and probable pathological 
 conditions of the cases included under its caption. 
 
 There is a sharp line of distinction between the symptoms and conjec- 
 tural pathology of comatose cases and of those of the congestive form of 
 pernicious fever. The following notes of cases will sufficiently establish 
 this statement : 
 
 C. L., fisherman, aged forty-four, brought into Ward 20, Charity 
 Hospital, in an insensible condition, November 18, 1875. Tempera- 
 ture at time of admission 104.8, pulse 120, respiration 40; able to 
 swallow liquids placed far back in his mouth. Ordered 9ij of quinia in
 
 PERNICIOUS MALARIAL FEVER. 609 
 
 solution, ten grains to be given every fourth hour. Nov. 19th, patient 
 has taken and retained all the quinia ordered ; is perspiring profusely ; 
 temperature 97.8, pulse 88; more conscious; takes food and water when 
 oifered him. Ordered blue mass, comp. extr. colocynth., dd gr. v, to 
 be taken at once. To drink through the day bitartrate potass. j, dis- 
 solved in lemonade, until bowels are moved. Evening temperature 99.3. 
 Nov. 20th, temperature 98; patient placed under convalescent treatment ; 
 discharged from hospital Nov. 29th. 
 
 Another comatose patient was admitted to Ward 19 on the 29th of 
 October, entirely insensible. He was treated by large doses of quiuia in 
 solution per rectum, and by calomel gr. xx, sodii bicarb, gr. v, placed upon 
 base of tongue, and caused to be swallowed by a tablespoonful of water 
 trickled over the powder. As the patient began to recover it was noticed 
 that his right arm was paralyzed. A history subsequently obtained 
 showed that the patient was an engineer, and had been engaged in 
 making some land surveys in a swampy portion of the State of Louisi- 
 ana, and had been often obliged to wade or swim across the bayous and 
 to sleep at night in the open air, sometimes without any protection from 
 the weather. He had previously enjoyed good health, and was altogether 
 unable to account for the paralysis of his arm. During convalescence he 
 was treated with iron, strychnia, and preparations of cinchona, and by 
 cold douches and frictions to the paralyzed arm. Convalescence was slow, 
 but he was discharged, completely recovered, on November 20th. 
 
 In typical cases the differential diagnosis between the congestive -form 
 and the comatose is made without difficulty. In a congestive chill the 
 surface is cold, blue, or livid, the pupils dilated, and the pulse generally 
 slower than natural and irregular. In the comatose form the surface is 
 preternaturally warm, of a muddy, semi-jaundiced hue, and the pulse and 
 temperature both indicate the feverish rather than the algid state. 
 
 The subjects of attacks of the comatose form of malarial fever are for 
 the most part persons who, having contracted attacks of fever in malarial 
 regions, continue to reside in the same localities and yet use no proper 
 medication, either for cure or for prophylaxis. We have in these cases 
 accumulations of secondary blood-poisons quite sufficient to greatly 
 impede brain-function, and the additional doses of the primary toxic 
 agent must exercise more or less influence in determining the phenomena 
 of the attacks. 
 
 Very little need be said of treatment, beyond a recommendation of the 
 courses pursued in the cases cited. Hypodermic medication must be 
 resorted to when necessary. Efforts to nourish the patient must never 
 be relaxed. One must see many of these cases before he can realize how 
 often they recover, from conditions apparently utterly hopeless, when 
 promptly treated and properly nourished. 
 
 The hemorrhagic form of pernicious malarial fever can scarcely be 
 regarded as an original type. Malaria is not a hemorrhage-inducing 
 poison. Indeed, it may be positively stated that malaria never estab- 
 lishes the hemorrhagic diathesis as a primary effect ; and it is only by 
 changes effected in the human economy by its prolonged influence that 
 it appears to become capable of doing so. The most experienced and 
 accurate observers of malarial affections concur in the opinion that this 
 rule is almost without exception. 
 
 VOL. I. 39
 
 610 MALARIAL FEVERS. 
 
 The morbid conditions whose concurrence entails upon malarial fevers 
 a tendency to hemorrhages may be classed together as follows : First. The 
 blood-changes of chronic malarial toxaemia so alter the consistency of that 
 fluid as to favor the occurrence of hemorrhage. Second. The long per- 
 sistent states of malnutrition in chronic malarial cachexias produce tex- 
 tural weakening of the vascular walls and increased liability to their rup- 
 ture. Third. There should be added to these one other factor, which is 
 mainly operative during a malarial paroxysm namely, the increased 
 blood-pressure put upon the vascular walls by passive congestions. 
 
 Two of these factors, as above enumerated, are more or less general to 
 the system, being the consequence of general cachectic states. The third 
 factor acts in a purely dynamical manner in causing hemorrhages, and 
 must necessarily have its area of influence confined to some certain por- 
 tion or portions of the vascular tree, since the congestions of malarial 
 paroxysms cannot by any possibility be general. It is an interesting fact 
 that the influence of this last-mentioned factor is so frequently paramount 
 in producing malarial hemorrhages. These hemorrhages occur in such 
 immediate relation to chills that we are forced to the conclusion that 
 while altered blood and weakened blood-vessels were previously present, 
 yet some increase of pressure beyond the normal was required to precipi- 
 tate the hemorrhage. 
 
 More than once in the presence of medical classes I have illustrated the 
 influence of these various factors, respectively, by showing the arm of a 
 patient suffering with chronic malarial cachexia, with no extravasation of 
 blood, but upon which the slightest suction with the lips would produce 
 exaggerated ecchymoses. This explains the fact that hemorrhages in 
 malarial fevers are never general, but only manifest themselves upon 
 those surfaces or into those structures which are the seats of congestion 
 during the cold stage of an intermittent. 
 
 I do most earnestly assert that during a practice of almost half a century, 
 nearly all of which has been passed in malarious localities, I have never 
 once seen a malarial-fever patient with a general hemorrhagic tendency, 
 if yellow fever and other hemorrhage-inducing diseases could be authori- 
 tatively excluded. The medical profession cannot be too watchful in 
 guarding itself against erroneous entries upon mortuary records to 
 account for deaths from fevers accompanied by hemorrhages from mul- 
 tiple surfaces of the body. Such aliases as hemorrhagic malarial fever, 
 climatic fever, rice fever, hsematemesic paludal fever, and many more 
 of the same character, should receive the severest examination before 
 approval and adoption. 
 
 When hemorrhage does attend malarial fevers, it may occur from one 
 or another of a variety of surfaces or into shut cavities or in parenchy- 
 matous structures. Some years ago I visited a gentleman who was suffer- 
 ing from an attack of malarial fever, with hsematuria. He made a rapid 
 and, apparently, a complete recovery. Disobeying my injunctions, he 
 returned to the intensely malarious locality where he had formerly 
 resided. After a few weeks he was seized with a chill, followed by apo- 
 plectic symptoms, hemorrhage, and death on third day. It is hardly to be 
 doubted that his death was caused by cerebral hemorrhage. But, how- 
 ever much in consonance with ascertained facts the foregoing remarks may 
 appear to be, there are certain points of pathology connected with
 
 PERNICIOUS MALARIAL FEVER. 611 
 
 malarial hemorrhagic fevers not easy of explanation. Within the last 
 score of years hsematuria has been a far more common form of hemor- 
 rhage in malarial fevers than formerly. In many localities and during 
 certain seasons it has been very prevalent. 
 
 In the present state of our knowledge it is not at all possible to explain 
 why it is that diifereut epidemics of malarial diseases should give rise to 
 such a diversity of phenomena, so that one epidemic will be characterized by 
 a peculiar train of symptoms which shall be absent in another, being there 
 replaced by different symptoms equally distinctive of the second epidemic. 
 Whatever may be the cause of these epidemical peculiarities, it must rest in 
 a something which is capable of acting as a force upon the human system. 
 We must think of that unknown agency which exercises this force and gives 
 it some peculiar direction as possessing at least a conventional essentiality. 
 It is not satisfactory to say that the renal blood-vessels are the first to give 
 way, because they are accidentally more weakened than other parts of the 
 vascular system, or accidentally more often the seat of congestion. When 
 accidents become as numerous as these cases sometimes are, they acquire 
 the authority of laws. 
 
 The following notes of two cases of malarial hemorrhagic fever may be 
 found of interest : 
 
 C. E., aged twenty-six years, was admitted to Ward 19, Charity Hos- 
 pital, Nov. 18, 1872. Had been in America more than a year, and 
 for several months had been working in an intensely malarial district 
 preparing the bed of a railroad; has had malarial diseases for several 
 mouths, and suffered a severe chill the day before admission. A few 
 hours after admission temp. 103, pulse 120, respiration 29 ; effusion in 
 both thoracic cavities, and very marked in abdominal cavity ; lower lobe 
 of right lung cedematous, legs anasarcous, pitting greatly on pressure, 
 with several ulcers of long standing. Urine loaded with albumen and 
 showing under the microscope abundant blood-corpuscles; considerable 
 jaundice present, which the patient states to have occurred suddenly. 
 Ordered five grains each of calomel and bicarbonate^ of sodium, to be 
 followed after catharsis with ten grains of quinia in solution every two 
 hours. Nov. 22d, patient has taken and retained one hundred and eight 
 grains of quiuia; secretion of urine abundant; no blood present, and 
 only a trace of albumen ; ordered twenty drops of tincture of chloride of 
 iron three times daily. Discharged cured December 12th. The above 
 comprises the whole treatment in this case, except one important measure, 
 which consisted in determined and persistent efforts at forced nutrition. 
 Meat essences, milk, eggs, and milk-punch were given as methodically as 
 drugs. 
 
 H. K., fifteen years of age, was admitted to Charity Hospital Sept. 
 15, 1872; has a history of malarial poisoning for several months; 
 was considerably jaundiced at time of admission, with anasarcous legs. 
 Under the administration of a mercurial, followed by quinia and iron, 
 he improved so greatly that he was discharged from my wards and 
 placed upon some duty in the hospital. Dec. 19th, at 11 A. M., had a 
 chill which lasted several hours ; this was followed by violent fever, with 
 rapid but compressible pulse ; much jactitation ; incessant vomiting of a 
 greenish-black fluid ; urine loaded with blood ; and sudden supervention 
 of intense jaundice. Ordered quinia gr. xij by hypodermic injection ;
 
 612 MALARIAL FEVERS. 
 
 small doses of calomel and soda to be placed upon the base of the tongue 
 and washed down with ice-water. Secretion of urine ceased on the morn- 
 ing of the 20th, followed by death at 11 p. M. Autopsy showed both 
 kidneys dark-colored and swollen from complete blood-engorgement. 
 
 The treatment of hemorrhagic malarial fevers may be included undei 
 the following indications : 
 
 First, to secure cinchonism as early as possible ; 
 
 Second, to arrest the extravasation of blood ; 
 
 Third, to sustain the patient's strength, and to preserve the systemic 
 fluids at as near a healthy standard as may be possible. 
 
 The first-mentioned indication is certainly the first in importance. If 
 the hemorrhage originates during a chill, or exhibits degrees of aggrava- 
 tion in such close relation to the cold stage of malarial paroxysms as to 
 point to a relation of cause and effect, then that course of treatment which 
 breaks the recurrence of paroxysms will at the same time mitigate the 
 hemorrhage, if, in truth, it should fail to stop it entirely. Quinia should 
 be given in large doses by the mouth or rectum, or both, or subcutaueously 
 if demanded by the urgency of the symptoms. I have generally used 
 carefully prepared solutions of the sulphate for hypodermic injections, but 
 many practitioners prefer solutions of the hydrobromate for this mode of 
 exhibition. I have never witnessed any symptoms following the adminis- 
 tration of cinchona salts which justified a belief that they increased th& 
 hemorrhage. My rule of practice has invariably been to endeavor to 
 prevent the occurrence of another paroxysm, without regard to this very 
 questionable charge. 
 
 In regard to the second indication, it may be stated that patients are not 
 likely to die from actual loss of blood in any form of hemorrhagic malarial 
 fever. The blood which is poured out on free surfaces and escapes by some 
 outlet is seldom so much as to endanger life, but the hemorrhagic process is 
 likely to involve deeper-seated vessels. This is especially true in malarial 
 hsematuria. Hemorrhages into the stroma of the kidneys, the Malpighian 
 tufts, and the uriniferous tubules arrest urinary secretion, and thus entail 
 death. In order to prevent these results haemostatics should be resorted to 
 as often as attendant circumstances will permit. Generally these are such as 
 to admit of the use of haemostatics without prejudicing the effects of other 
 remedies. In my experience ergot in combination with gallic acid and 
 dilute sulphuric acid has been very efficient. The following prescription 
 has been usually given : 
 
 fy Ext, Ergot. Fluid, fsiv ; 
 Acid. Gallic. gr. xl; 
 
 Acid. Sulphuric, dil. f 3j ; 
 Syr. Zingiber. f siij ; 
 
 Aquae q. s ad f .lij. M. 
 
 S. Dessertspoonful every four hours, diluted with water. 
 
 Some practitioners place a very high estimate upon the haemostatic 
 effects of turpentine. This is undoubtedly a most valuable and 
 accessible remedy. Dr. Schnell of Plaquemine Parish, La., has found 
 the tincture of chloride of iron the best haemostatic. He places fgij in 
 f iv of water, and directs a dessertspoonful every hour as long as the 
 hemorrhage continues. In a great majority of cases of malarial haematuria 
 occurring under my observation solutions of bitartrate of potassium have
 
 PERNICIOUS MALARIAL FEVER. 613 
 
 been given with great apparent benefit. Its action is certainly not that 
 of a direct haemostatic, but by setting up currents through the kidneys, 
 and perhaps by some solvent power over exudations in the uriniferous 
 tubules, it has acted as a renal deobstructive. 
 
 In the arrest of renal secretion diuretics, cupping over the lumbar region, 
 and large injections of warm water into the bowels may be resorted to. 
 Some practitioners state that they have found buchu beneficial. 
 
 The third indication involves a twofold duty. One relates to judicious 
 and vigilant attention to the patient's nutrition ; the other relates to such 
 measures for depuration as may be called for in each particular case. 
 
 It must be admitted that there is a degree of antagonism in the measures 
 of practice proper to effect these two purposes, which renders their coinci- 
 dent exercise a difficult practical question. In many cases of hemorrhagic 
 malarial fever a competent supply of properly prepared foods is sufficient. 
 In other cases and this is especially true of malarial hsematuria depu- 
 rative medication becomes paramount. A person suffering under the 
 effects of chronic malarial poisoning is seized with a chill ; this is followed 
 by bloody urine, and in the course of four or five hours intense jaundice 
 appears. Incessant vomiting, delirium, and jacititation also occur. 
 The experienced physician is at once brought to the conclusion that 
 he has to deal with a case of blood-poisoning bearing a close resem- 
 blance in symptoms to uraemia. To render this conclusion still more 
 absolute, he has only to recall the suddenness of the occurrence of the 
 jaundice and to inquire what has occasioned it. Its appearance is too 
 rapid to permit us to ascribe it to obstruction. It is altogether improbable 
 that it is due to sudden hypersecretion in such pathological states of the 
 system as are present. If, however, we account for it by saying that the 
 addition of a new toxic constituent, urea and its congeners, to an already 
 profoundly poisoned fluid suddenly arrests those processes which dispose 
 of bile in physiological conditions of the system, it seems to me that we 
 adopt the most rational theory. It is then jaundice from lack of consump- 
 tion. The mere probability of truth in this theory will impress the prac- 
 titioner with the great importance of eliminant practice in these conditions. 
 
 Calomel has been the medicine to which I have principally trusted. I 
 give it merely as a depurative, and not as an alterative. Doses of from 
 two to ten grains may be repeated at suitable intervals until catharsis has 
 been produced. Bitartrate of potassium, Seidlitz powders, or solutions of 
 citrate of magnesia may be also administered if indicated. After purga- 
 tion the vomiting is mitigated, if not altogether relieved. On this 
 account, and because of bettered states of the system for absorption and 
 assimilation, the way is now clear to the physician. He can ply his anti- 
 periodics, his properly prepared sustenance, and his alcoholic stimulants 
 according to the exigencies of each particular case. 
 
 The following propositions may seem not inappropriate in closing this 
 section : 
 
 1st. Attacks of pernicious malarial fever are attended by more danger 
 to life or subsequent health than simple attacks ; therefore more prompt 
 and energetic efforts should be made to cut them short by cinchonism. 
 
 2d. The blood depravations of pernicious malarial fevers, far exceed 
 those of simple cases ; and therefore it becomes a leading indication of 
 treatment to correct faulty conditions of this fluid as early as possible.
 
 614 MALARIAL FEVERS: 
 
 In endeavoring to secure this end assimilable foods, stimulants, and 
 depurants must have a shifting scale of value according to the exigencies 
 of each particular case. 
 
 3d. The complications of attacks of pernicious fever are far more 
 important than those of simple forms ; and therefore symptomatic treat- 
 ment is often urgently required. 
 
 1th. Attacks of pernicious fever may be greatly diminished in number 
 by properly directed treatment of chronic malarial toxaemia, and espe- 
 cially also by the removal of persons suffering under this cachexia to 
 non -malarious localities. 
 
 Typho -Malarial Fever. 
 
 The prefix typho- is properly applicable to a class of malarial fevers 
 which are complicated by the specific poison which produces typhoid 
 fever. 
 
 This term was introduced into medical nomenclature by Surgeon J. J. 
 Woodward of the United States Army. His classical paper on this 
 subject has been published in the Transactions of the International Medical 
 Congress at Philadelphia in 1876. The following extract from the pro- 
 ceedings of this congress will show the interpretation of this term by 
 Woodward : 
 
 " On motion of Dr. Woodward, seconded by Dr. Pepper, the following 
 was adopted as expressing the opinion of the section : Typho-malarial 
 fever is not a specific or distinct type of disease, but the term may be 
 conveniently applied to the compound forms of fever which result from 
 the combined influence of the causes of the malarious fevers and of 
 typhoid fever." 
 
 It follows, therefore, that .the term should be so restricted as to define 
 a disease compounded of the two pathological factors which when acting 
 separately produce either typhoid or malarial fever. 
 
 When understood in this sense, and carefully employed, the term 
 appears to me unobjectionable. Perhaps, indeed, it may be a convenient 
 addition to medical nomenclature. If such a name had not been intro- 
 duced, we would be forced to speak of these cases of compound disease 
 as complications. As it is customary to regard the minor or less import- 
 ant affection as the complicating disorder, we would often have confusion 
 in determining whether the case should be typhoid fever complicated by 
 malaria or malarial fever complicated by typhoid. This term leaves all 
 questions of precedence or predominance in abeyance. 
 
 There are no facts, however, which support a conclusion that the 
 malarial poison is capable of forming combinations with the particular 
 poisons of other specific fevers and give birth to a new special poison, 
 which may be perpetuated by successive generations, and thus produce 
 epidemics of a new but compound disease. 
 
 The importance of a proper use of the term typho-malarial implies 
 co-ordinate care in diagnosing the true nature of the malady it should 
 define. 
 
 It may be said, in brief, that the diagnosis of typho-malarial fever 
 must rest upon the blending of the symptomatic phenomena peculiar
 
 TYPHO-MALARIAL FEVER. 615 
 
 to each one of the two fevers which enter into combination. In other 
 words, if the differential diagnosis between the two diseases when they 
 are distinct is made by contrasting the symptoms peculiar to each, the 
 compound disease is to be recognized by more or less positive combinations 
 of these symptoms. 
 
 These blended symptoms should not be expected to exhibit the 
 results of a copartnership in which each member exerts equal influ- 
 ence. It is well understood that when two diseases coincide, that one 
 which is more violent or excessive in its morbid process holds so much 
 sway as in some cases almost to extinguish the symptoms of the weaker 
 member of the combination. Consequently, in typho-malarial fever, the 
 typhoid, being the graver of the two forms of disease, ordinarily rules the 
 pathology. 
 
 The following notes, accompanied by a temperature chart, will illus- 
 trate the clinical course of a case of typho-malarial fever : 
 
 J. L., aged thirty years, of French nativity, but a resident of New 
 Orleans for three years, was admitted to Ward 21, Bed 311, Charity 
 Hospital, on the night of December 10, 1881. Had been ill some days 
 with ague. The house-surgeon administered gr. x. of quinia in solution 
 and gtt. xv. of tincture of opium. 
 
 The records and temperature date from the 12th of December. Dur- 
 ing the llth he took 3y sulph. cinch, in solution. 
 
 Dec. 13th, tenderness and gurgling in ileo-csecal region ; epistaxis ; 
 rose spots on abdomen; deafness and ataxia; no stools since llth. 
 Ordered 
 
 ~Bp. Acid. Sulphuric, dil., 
 
 Syr. Aurantii Cort. da. f sij ; 
 Tinct. Cinchonse Co. f 3j. M. 
 S. Teaspoonful in water every four hours. 
 
 Also ordered beef-essence, milk-punch, and milk. 
 
 Dec. 13th, two very offensive liquid stools; ataxia greater; skin yellow 
 and countenance dull and listless. Dec. 14th, fresh rose spots ; tongue 
 brown and dry; three stools; much jactitation. Dec. 15th, more ataxia; 
 some delirium ; pulse 100, weak. Gave gr. iiss quinia in solution, with 
 tincture opium gtt. iii, every two hours. Dec. 16th, pulse 128, weak; 
 delirious. Dec. 17, new rose spots; belly tympanitic; tongue brown, 
 dry ; sordes on teeth and lips ; eyes injected ; very delirious. Treatment 
 continued ; nutrition and stimulants given methodically. From 17th to 
 22d but little change in condition or treatment. Diet and stimulants 
 administered regularly. Dec. 22d, coma vigil; completely delirious. 
 Ordered 
 
 ^. Liq. Morphise Sulph., 
 
 Tinct. Digitalis da. f siij ; 
 
 Spts. ^Ether. Nitrosi fgij ; 
 Liq. Potass. Citrat. fgiij. M. 
 
 S. Tablespoonful every three hours. t . 
 
 As the oscillations of temperature became more marked, quinia was 
 resorted to, apparently with good effect. The patient was discharged 
 from the hospital Feb. 8, 1882. . 
 
 It should be observed that after the 14th of December the patient s 
 bowels were rather costive, and the stools occasionally moulded and very
 
 616 MALARIAL FEVERS. 
 
 dark in color. On the forty-fifth day after admission the patient had a 
 severe chill, followed by a rise of temperature to 104. This yielded to 
 competent doses of sulphate of cinchonidia. 
 
 This was a typical case of typho-malarial fever. The blended symp- 
 toms, as well as those special to each disease, are sufficiently exhibited in 
 the clinical account. The presence of typhoid fever was established by 
 the rose spots and the marked nervous symptoms. The typhoid process 
 seems to have been unusually mild in so far as evidence of bowel lesions 
 were made manifest. 
 
 The history of the patient before admission, the color of his skin and 
 stools, and the temperature curves gave abundant proofs of the malarial 
 element in the pathology of the case. 
 
 Perhaps nothing need be added on the subject of diagnosis. I may, how- 
 ever, remark that I am very cautious in asserting the diagnosis of typho- 
 malarial cases unless the nervous symptoms, positively-marked bowel 
 symptoms, or rose spots are present to vindicate such a decision. The 
 presence of malarial poison may be determined with less difficulty from 
 the previous history of the case and its special symptoms in the early 
 stages of an attack. But if the morbid processes of the typhoid poison 
 are violent, there are likely to be stages of the disease when it is not possi- 
 ble to detect symptoms which indicate the presence of malaria. On the other 
 hand, it is unquestionably true that the typhoid condition, as it is termed, 
 which so often complicates malarial fevers, can very generally be differ- 
 entiated from true typhoid fever. While certain cases, or even epidemics, 
 of malarial fevers are attended by remarkable adynamia, often manifest- 
 ing itself from the very incipiency of attacks, it differs widely from that 
 utter nervous ataxia which characterizes typhoid fever. Again, the 
 adynamia of malarial attacks is generally ascribable to some cause not 
 essential to those affections. Imperfect reaction from a chill, long per- 
 sistent hyperpyrexia, diarrhoea or vomiting, or chronic paludal cachexia, 
 or, it may be, some epidemic influence, may produce it. The ataxia of 
 typhoid fever is part of its morbid process. 
 
 Woodward's statistics show that 49,871 cases of fever diagnosed as 
 typho-malarial occurred among the white forces of the United States 
 during the late Civil War. Of this number, 4059 proved fatal, a mortality- 
 rate of 8.13-)- per cent. Among the colored troops 7529 cases occurred, 
 with 1301 deaths, a mortality-rate of 17.27. Statistics borrowed from 
 the same excellent authority give the number of cases of unmixed typhoid 
 fever (or fever classed as typhoid without reference to any complication) 
 as 75,368 among the white troops, with 27,056 deaths, a mortality-rate 
 of 35.89. Among the colored troops 4094 cases occurred, and 2280 died, 
 a mortality-rate of 55.68. These figures show very singular compara- 
 tive results. They prove that typhoid fever as an uncomplicated malady, 
 was four and a half times as fatal among the whites as the same disease 
 when in combination with malarial poison. Among the colored troops 
 typhoid fever was three and a half times more fatal than typho-malarial 
 fever. 
 
 It is highly probable that inaccuracies exist in statistics gathered in the 
 confusion of a great civil war, but I am not prepared to say that the con- 
 clusions they point to are incorrect. When an acute inflammation is com- 
 plicated by malaria, its prognosis is rendered more grave. This, no doubt,
 
 FIG. 24. 
 
 104 
 
 103 
 
 99 
 
 PART I., showing the temperature-curve from December 12th to 31st, inclusive, during which time the more 
 characteristic typhoid symptoms predominated. 
 
 PART II., showing the temperature-curve in same 
 
 case from January 1st to 20th, inclusive, during which the 
 
 influence of the associated malarial poison was prominent. 
 
 617
 
 618 MALARIAL FEVERS. 
 
 is due in part to degradations of the fluids of the system by the malarial 
 
 g)ison, and in part to the revulsions of circulation during paroxysms, 
 ut it does not follow from this fact that the presence of malaria in the 
 blood, or its effects upon that fluid, exercise an unhappy influence upon 
 diseases due to other specific poisons. It may, on the contrary, be ascer- 
 tained in the future that it modifies the typhoid process, so as to deprive 
 it of some of its most dangerous features. 
 
 Further investigations are required to determine the facts in regard to 
 these questions. But it may be premised that if such a conclusion shall 
 ever be reached, it will influence our expectations of cure rather than our 
 practice. If the malarial poison is capable of modifying the toxic effects 
 of the typhoid poison, it must do so in the very formative stages of that 
 affection, if not in its incubative period, so that, having accomplished all 
 the good it is capable of effecting, we may proceed at once to rid ourselves 
 of its presence. 
 
 In entering upon the treatment of two diseases compounded in the 
 same patient, if one should ordinarily be amenable to specific treatment, 
 it must certainly be wise practice to endeavor to simplify the case by sub- 
 tracting that one from its composition. This is more especially true if 
 the treatment does not affect the course of the other disease in any injuri- 
 ous manner. It is therefore proper to begin the treatment of a case of 
 typho-malarial fever by administering large doses of quinia. A scruple 
 may be given every fourth hour, until its effects in eliminating symptoms 
 ascribable to malaria, and also as an antipyretic, have been sufficiently 
 tested. In the early stages of typho-malarial attacks the febrile exacerba- 
 tions conform to those laws of periodicity which govern uncomplicated 
 malarial fevers. After the first week, or when the typhoid process has 
 become well established, periodic returns of the fever are less plainly 
 observable. It is possible that in some cases in which the typhoid process 
 manifests itself with great severity the temperature curves may be very 
 characteristic of that disease. I am satisfied that the indications for giv- 
 ing quinia to eliminate the malarial element must be based upon the 
 fever curves which mark the case. Perhaps a more frequent application 
 of the thermometer would often exhibit malarial periodicity where it may 
 otherwise remain unsuspected. I know this to be very often the case in 
 pneumonia complicated by a malarial fever. 
 
 Whether thorough cinchonism in the early progress of the attack rids 
 the case of symptoms due to malaria or not, only a very few days are 
 likely to elapse before oscillations of temperature call for its repetition. 
 
 The typhoid processes require very much the same measures which are 
 applicable in uncomplicated cases of that disease. The stools of the early 
 stages of attacks should not be checked unless excessive, and mercurials 
 and laxatives should be more freely used than in simple typhoid fever. 
 The effects of the malarial fever and of the hyperpyrexia of typhoid 
 fever, when combined, must almost necessarily entail more accumulation 
 of excrementitious material in the blood than would occur either disease 
 existing separately. On this account eliminating treatment is an important 
 indication. When it becomes necessary to check the diarrhoea because 
 excessive or on account of failing strength, diuretics subsequently prove 
 serviceable. Effervescing solutions of potassium or ammonium, lemonade, 
 Apollinaris water, iced tea, strawberry, mulberry, or raspberry juice, are
 
 TYPHO-MALAEIAL FEVERS. 619 
 
 grateful beverages and increase renal activity. The mineral acids may be 
 given during the ulcerative periods of the disease. Insomnia must be 
 relieved by opiates, chloral hydrate, or other hypnotics. 
 
 Tympanites should be met by warm stupes, large enemas of warm 
 water with fgj tincture of asafcetida or f 3j of whiskey. Small doses of 
 turpentine in emulsion are often beneficial. 
 
 In the early progress of cases the diet should consist of farinaceous 
 foods, with milk and the pulps or juices of fresh fruits, given either 
 cooked or in their natural state as the physician may determine for each 
 patient. Methodical and forced nutrition becomes necessary at more or 
 less early periods in different cases. 
 
 The stools and all ejecta of the sick should be disinfected and disposed 
 of with the same care and for the same purpose as those of unmixed 
 typhoid fever.
 
 PAROTITIS. 
 
 By JOHN M. KEATING, M. D. 
 
 THE term parotitis is applied to a condition of painful enlargement of 
 one or both parotid glands, inflammatory in nature, acute in its course, 
 and usually subsiding by resolution, but sometimes ending in suppura- 
 tion. The different methods of termination, together with certain etio- 
 logical distinctions, form the basis of a division of the affection into two 
 sub-classes namely, 1, idiopathic parotitis ; and 2, symptomatic or meta- 
 static parotitis. These demand separate consideration. 
 
 I. Idiopathic Parotitis. 
 
 Idiopathic parotitis, parotitis epidemica, or mumps, as it is variously 
 named, is an acute contagious inflammation of one or both parotid glands, 
 which usually appears but once in a lifetime, and which, although by no 
 means limited to children, is commonly met with between the second year 
 and the age of puberty. In certain exceptional cases the disease affects 
 the submaxillary glands alone. 
 
 NATURE. The undoubted contagiousness of mumps, with the fact of 
 its frequently occurring in extended epidemics, entitles it to a place among 
 the zymotic diseases, from which it differs, however, in the marked dis- 
 proportion between the local and constitutional symptoms, the former 
 being well developed, the latter but slight or altogether absent. 
 
 ETIOLOGY. While it is more than probable that, like the other diseases 
 of the zymotic class, mumps is due to a contagium that finds its way into 
 the body in the inspired air or with the food or drink, nothing is known 
 of the nature of this infecting principle. 
 
 The predisposing agencies are better understood. Age is one of these, 
 the greater number of cases occurring, as already stated, between the 
 second and the fifteenth year. Infants at the breast are almost entirely 
 exempt, and so, too, are individuals advanced in years. In extended 
 epidemics it is not unusual to meet with cases in adults, but it will gener- 
 ally be found on careful examination that these patients have escaped the 
 disease during childhood. Sex exerts some influence, a much larger per- 
 centage of males being attacked than females. Epidemics appear more 
 frequently in the spring and fall than at the other seasons of the year, so 
 that cold and dampness of the atmosphere must be looked upon as pre- 
 disposing causes. Mumps bears a peculiar relation to measles, scarlet 
 fever, and diphtheria, epidemics being apt to occur directly before, during, 
 or immediately after the prevalence of either of these affections, especially 
 
 620
 
 IDIOP4-THIC PAROTITIS. 621 
 
 the first. The popular idea of mutual protection is entirely without 
 foundation. 
 
 Certain peculiarities are presented by the disease in its mode of occur- 
 rence and in the duration and intensity of its epidemics. Thus, some 
 localities are visited annually, others only at intervals of thirty years or 
 more ; again, one epidemic may last but a few weeks and aifect a small 
 number of individuals, while another extends over months and attacks 
 all the children and many of the adults in the affected region. 
 
 ANATOMICAL, APPEARANCES. The exact pathological lesion in mumps 
 is obscure, since the trifling nature of the disease and the almost invari- 
 able termination in recovery afford no opportunity for post-mortem 
 investigation. According to Foerster, who seems to have made exami- 
 nations in cases where mumps occurred as one of the accidental complica- 
 tions of other and fatal diseases, the affected gland at first becomes hyper- 
 semic, and is then the seat of serous exudation. It is reddened, swollen, 
 and on section presents a uniform flesh-like, moist appearance, in place 
 of the ordinary granular aspect. The tumor is often greatly increased in 
 size by a simultaneous serous infiltration of the periglandular connective 
 tissue, and occasionally this tissue alone is involved, the gland itself being 
 entirely free from lesion. The great point in favor of this view of the 
 pathology is the rapid and complete subsidence of the parotid swelling by 
 resolution a termination to be expected only when the inflammatory pro- 
 cess stops short of suppuration or fibrinous exudation. 
 
 Virchow regards all cases of parotitis as the result of an extension of 
 a more or less malignant catarrh originally affecting the gland-ducts. 
 This is undoubtedly true in some cases, but that it is far from being the 
 rule is proved by the infrequency of parotitis as a secondary complication 
 of catarrhal affections of the mucous membrane of the mouth. 
 
 COURSE AND SYMPTOMS. The course of the disease is susceptible of 
 a division into three stages a period of incubation, of invasion, and of 
 actual attack. 
 
 The stage of incubation extends over a period variously estimated as 
 from seven to fourteen days. It is marked by no symptoms, though 
 sometimes a history of impaired appetite and digestion, irregular bowels, 
 and languor during the last two or three days may be obtained. 
 
 The period of invasion is short, lasting only twelve, or at the most 
 twenty-four, hours. The patient is pale and languid, has slight rigors, 
 pains in the breast and head, and loss of appetite ; later, local pain in the 
 parotid region on moving the jaws or on taking acid liquids into the 
 mouth. The surface temperature increases from hour to hour, and just 
 before the glandular swelling appears it reaches 100 or 101 F. In 
 some cases the invasion is characterized by the same train of _ symptoms 
 that ushers in the acute exanthemata, such as repeated vomiting, diar- 
 rhoaa, restlessness and anxiety, a disposition to syncope, and, in very irri- 
 table children, convulsions. Contrasted with this violent invasion other 
 cases are met with, in which there are no prodromes whatever except a 
 gradual rise in temperature, imperceptible without the use of the ther- 
 mometer. 
 
 The first symptom of actual attack is a peculiar slight stitch-like 
 pain in one parotid region, usually the left. This radiates toward the 
 ear of the affected side, and is increased by movements of the jaw, as in
 
 622 PAROTITIS. 
 
 chewing or talking, and by external pressure. The pain rapidly grows 
 more intense, and soon becomes associated with swelling. The tumor 
 first appears in the depression between the mastoid process and the ramus 
 of the jaw, which it fills up, and at the same time thrusts outward the 
 lobe of the ear. As the gland alone is swollen at first, the tumor has 
 the outline of a triangle, with the apex directed downward and forward ; 
 soon, however, the connective tissue becomes oedematous and the swelling 
 is greatly extended, involving the cheeks and neck, in the latter region, 
 in severe cases, running forward as far as the median line, downward 
 nearly to the shoulder and backward toward the spine. The most promi- 
 nent point is directly in front of the ear. The oedema also extends inter- 
 nally, involving the pharynx, the tonsils, and sometimes even the larynx. 
 The skin covering the tumor is either perfectly natural in color or slightly 
 reddened. The central portion is firm and elastic to the touch, the 
 periphery doughy, and pressure here often produces pitting. There is 
 but moderate tenderness. The swelling reaches its height in three days, 
 remains stationary for two days longer, and then rapidly declines, the 
 oedema first disappearing and afterward the glandular swelling, the pro- 
 cess of resolution occupying four or five. days and being attended with a 
 slight desquamation of the cuticle. 
 
 While mumps almost uniformly begins on one side, both glands are, 
 as a rule, affected during the attack. The second tumor begins to develop 
 twenty-four to forty-eight hours after the first, though its appearance 
 may be delayed much longer, even until resolution has begun on the side 
 primarily affected. As the course of the inflammation is similar in both 
 parotids, the whole duration of the attack will depend on the time of 
 involvement of the second gland. 
 
 Among the other symptoms an alteration of expression is prominent. 
 At first, the head is inclined toward the affected side ; later, when both 
 glands are involved, it is held perfectly erect, and, as the slightest move- 
 ment increases the pain, it is maintained stiffly in this position. The 
 swelling of the cheeks prevents all play of the features, and this, com- 
 bined with widely-open, staring eyes and increased thickness of the neck, 
 gives the patient a stupid, almost idiotic, expression. The swelling of 
 the neck is sometimes so great that its diameter exceeds that of the head, 
 and the shoulders, neck, and head, viewed together, have the outline of a 
 truncated pyramid. 
 
 As any movement of the lower jaw greatly augments the suffering, 
 the mouth is kept closed, often so tightly that it is impossible to see more 
 than the tip of the tongue. All efforts at mastication are suspended, and 
 deglutition is so painful, especially when the tonsils become enlarged, 
 that the sufferer bears the pangs of hunger and thirst rather than endure 
 the agony entailed in satisfying his wants. The act of speaking even 
 augments the pain ; the voice, when heard, has a nasal tone. The acute- 
 ness of hearing is impaired, there are singing noises and shooting pains 
 in the ears, headache, and sometimes, in extreme cases, symptoms of 
 cerebral hyperaemia due to pressure upon the cervical veins. 
 
 The tongue is heavily coated, the mouth is either dry or there is an 
 increased flow of saliva, and the fluid dribbling from the mouth adds 
 another element to the idiotic expression already referred to. There is 
 loss of appetite, increased thirst, occasionally vomiting, and commonly
 
 IDIOPATHIG PAROTITIS. 623 
 
 constipation. The temperature is elevated and the pulse increased in 
 frequency, botli to a moderate degree. The respiration is unaffected, 
 except when the oedema has invaded the submucous connective tissue 
 of the larynx ; then the movements are increased in frequency and 
 difficult. 
 
 Throughout the attack the pain, unless intensified by some extraneous 
 influence, as pressure or the act of speaking or swallowing, is only 
 moderately severe. In ordinary cases the patient rests quietly and sleep 
 is undisturbed, unless the tonsils are enlarged, when it is liable to inter- 
 ruption from loud snoring. When the attack is severe and in nervous, 
 excitable children there is restlessness, sleeplessness, and slight delirium 
 at night. 
 
 The general symptoms keep pace with the local in their increase, but 
 they commence to subside before, beginning to disappear while the swell- 
 ing remains stationary. As soon as resolution sets in the general and 
 local improvement are both rapid, and by the end of the week nothing 
 is left but a trifling weakness and pallor, which disappear in a few days 
 more, leaving the patient perfectly well. 
 
 Besides the ordinary symptoms, mumps in certain instances shows a 
 peculiar tendency to metastasis, or secondary involvement, of the testicle 
 and scrotum in males, and the mammae, vulva, and ovaries in females. 
 This metastasis occurs much more frequently in males than in females, 
 and is usually met with in pubescents and adults, being very rare either 
 in childhood or old age. It generally begins six or eight days after the 
 appearance of the parotid tumor. The latter, as a rule, subsides on the 
 occurrence of any of these metastatic affections, though occasionally the 
 two run a simultaneous course. This occurrence, together with the fact 
 of the secondary inflammation appearing at the date on which the paro- 
 titis naturally begins to disappear, tends to support Niemeyer's view, that 
 the two affections are in reality due to the same cause, and that no true 
 transference of inflammation takes place from one point to the other. 
 Occasionally, the parotitis disappears a variable time before the onset of 
 the metastatic affection ; then the interval is marked by grave symptoms 
 of depression and cerebral disturbance, but there are no proofs of actual 
 meningeal involvement. In these cases there is, at times, an excessive 
 elevation of temperature, which may account for the brain symptoms. 
 
 The most constant secondary manifestation is swelling of the testicle 
 proper, or true orchitis; less frequently there is epididymitis, and with it 
 acute hydrocele and oedema of the scrotum. The orchitis in most cases 
 is unilateral, the right testicle being affected, just the opposite to the paro- 
 tids, of which the left is the one first involved. When the orchitis is 
 double, both testicles do not become swollen at once, the one preceding 
 the other by an interval of several days. 
 
 The course of the orchitis is very similar to that of the mumps, the 
 inflammation increasing gradually for from three to six days, then under- 
 going rapid resolution, the gland returning to its normal condition by the 
 end of two weeks. 
 
 The local symptoms are swelling, the testicle being enlarged to two or 
 three times its natural size, dull pain, and moderate tenderness, while in 
 very severe cases there is burning on micturition and a purulent discharge 
 from the urethra. The spermatic cord does not sympathize in the inflam-
 
 624 PAROTITIS. 
 
 mation, and neither the swelling, pain, nor tenderness is so great as in 
 specific orchitis. 
 
 The general symptoms are confined to a moderate elevation of tempera- 
 ture and increase in the frequency of the pulse, thirst, and loss of appe- 
 tite. This fever is separated from that of the parotitis by an interval of 
 two or three days. 
 
 The course of bilateral orchitis is longer by forty-eight hours than that 
 of the unilateral form, and the attending fever is more intense. 
 
 The rapid return of the testicle to its natural size and shape shows 
 that, as in the parotid glands, the inflammation does not extend beyond 
 the stage of serous exudation. 
 
 THE DIAGNOSIS of mumps is easy after the disease is sufficiently devel- 
 oped to produce the characteristic alterations in the facial expression. In 
 the earlier stages the position of the swelling, immediately beneath and in 
 front of the ear, its triangular shape, and the elevation and outward dis- 
 placement of the lobe of the ear of the affected side, distinguish it from 
 the enlargement of the cervical lymph-glands so liable to occur in stru- 
 mous subjects. The acute onset and course of mumps are the points of 
 distinction between it and morbid growths, or the very rare condition of 
 chronic hypertrophy of the parotid gland. The metastatic orchitis cannot 
 be mistaken for gonorrhceal orchitis if the least care is taken to investi- 
 gate the history in either case. 
 
 THE PROGNOSIS is extremely favorable, there being no record of a fatal 
 case of uncomplicated mumps. Suppuration may occur, but it is an 
 exceedingly rare event. In scrofulous children the course may be pro- 
 tracted for several weeks, and in them resolution is occasionally imperfect, 
 a degree of enlargement and induration of one or both parotids remaining 
 for some time. 
 
 Metastatic orchitis, as a rule, leaves the testicle in a normal condition, 
 but, according to Vogel, in some epidemics complete atrophy results. 
 
 Dogrny reports an epidemic which raged in a garrison of Mount Louis 
 in January, 1828. Of sixty-nine bilateral and eighteen unilateral cases 
 of parotitis, metastasis to both testicles occurred in four cases, all of which 
 resulted in atrophy of the affected testicle. 
 
 THE TREATMENT is simple. The patient should be kept in a uniform 
 temperature, confined to one room, or, better still, to bed, until resolution 
 is well established. While the difficulty in swallowing and fever continue 
 the food should consist of milk and beef-tea ; later, other nutritious articles 
 of diet may be added as the appetite demands. Water, iced carbonic acid 
 water, or lemonade may be allowed as freely as the patient will take 
 them, to allay the thirst. A daily evacuation of the bowels must be 
 secured by the use of saline laxatives. During the early stage, if the 
 fever be high, tincture of aconite-root should be cautiously administered ; 
 afterward liquor potassii citratis will sufficiently fill the indications for a 
 febrifuge. Tonics are required during the decline of the disease; of this 
 class of remedies, syrup of the iodide of iron, bitter wine of iron, and 
 ferrated elixir of cinchona are most useful. 
 
 Special symptoms may demand attention. For example, headache and 
 delirium should be relieved by hot mustard foot-baths and moist cold to 
 the forehead ; difficult deglutition from enlargement of the tonsils, by the 
 frequent swallowing of bits of ice, or, if possible, by the application of
 
 SYMPTOMATIC OB METASTATIO PAROTITIS. 625 
 
 astringent lotions, as tannic acid and glycerine (one drachm to the ounce) ; 
 sleeplessness, by the administration of bromide of potassium, with 01 
 without small doses of hydrate of chloral in children and of some 
 preparation of opium in adults. 
 
 In the way of local treatment the best results and greatest relief to 
 suffering will be obtained by gently rubbing the swollen glands with a 
 mixture of tincture of opium and sweet oil (one drachm to the ounce), 
 three times daily, and in the mean while keeping the parts enveloped with 
 a moderately thick layer of cotton wadding covered by oiled silk. Water 
 dressings or light poultices may be used with advantage. When resolu- 
 tion begins a more stimulating lotion will hasten the disappearance of the 
 swelling. 
 
 In the exceptional instances in which the skin covering the tumor 
 becomes tense and red, and suppuration is threatened, two or three 
 leeches may be applied behind the ear of the affected side. When 
 suppuration has actually taken place the abscess should be immediately 
 opened to prevent further destruction of the gland-tissue and perforation 
 into the external auditory meatus. 
 
 If, particularly in strumous subjects, resolution be incomplete and 
 glandular enlargement and induration remain after the cessation of the 
 acute symptoms, cod-liver oil and iodide of iron are demanded for 
 internal administration and the compound ointment of iodine for external 
 application. It is well to dilute the latter sufficiently to prevent its 
 causing irritation of the skin, and to apply it twice daily. 
 
 When metastasis occurs, the return of fever calls for the same general 
 treatment as in the early stage of parotitis. In addition, an emetic should 
 be given, as this often cuts short the fever or causes it to disappear more 
 rapidly. The patient must be kept at perfect rest in bed, with the 
 scrotum elevated by a cushion and covered with warm anodyne lotions. 
 Salines must be administered sufficiently often to secure regular and free 
 action of the bowels. 
 
 When the mammae or ovaries are secondarily attacked, the seat for 
 local treatment is of course different, but in all other respects the manage- 
 ment must be the same. 
 
 For the uncommon cases in which the transference of the inflamma- 
 tion is attended with depression stimulants are required, and for those in 
 which meningitis is threatened cutting off the hair and the application of 
 cold to the head, hot mustard foot-baths, local and general venesection, 
 drastics, and irritants to the cutaneous surface, are necessary. 
 
 IE. Symptomatic or Metastatic Parotitis. 
 
 Symptomatic, metastatic, malignant, or suppurative parotitis, as the 
 condition is variously designated, is an inflammation of the parotid gland 
 which occurs during the course of different grave acute diseases, is 
 usually unilateral, and terminates in suppuration, or much more rarely 
 in gangrene, of the gland involved. 
 
 ETIOLOGY. It may occur in association with typhus, typhoid, relaps- 
 ing, puerperal, and scarlet fevers, or with the plague, measles, dysentery, 
 cholera, and pyaemia, springing into notice at different periods of the 
 
 VOL. I. 40
 
 626 PAROTITIS. 
 
 course of these affections, which may be regarded as predisposing causes. 
 The exciting cause is perhaps mechanical in nature namely, the exces- 
 sive dryness of the mucous membrane of the mouth so common in the 
 severe fevers. This dryuess may lead to an occlusion of the orifice of the 
 parotid duct, with retention of the saliva, which fluid, undergoing 
 decomposition, may act as an irritant, producing inflammation, and 
 finally suppuration, of the glandular tissue. This is a likely enough 
 explanation of the causation in some cases, but dryness of the mouth is 
 such a uniform symptom in fever, and suppurative parotitis such a com- 
 paratively rare complication, that it cannot be a very active or common 
 cause. Nevertheless, it is impossible to fix upon any other direct cause, 
 though the altered condition of the blood in the conditions mentioned 
 must not be lost sight of as an important etiological factor. 
 
 ANATOMICAL APPEAKANCES. The character of the pathological 
 lesions have been well established, owing to the frequent opportunities 
 that arise of examining the diseased gland at different stages of the 
 inflammatory process. When the inflammation has lasted a short time, 
 a day or two, the tubes and acini of the gland are seen on section to be 
 swollen and reddened, and the connective tissue infiltrated with serum 
 and yellowish-red in color ; a fluid, either viscid, ropy, grayish in color, 
 or more purulent in character, fills the duct, and may he forced out into 
 the mouth by stroking it in the direction of the orifice. If of several 
 days' longer duration, purulent softening will be noticed in the centre of 
 the acini; this gradually extends until each acinus is converted into a 
 little sac of pus. Then the inter-acinous connective tissue breaks down, 
 and the multiple, minute, purulent collections become converted into a 
 single large abscess or into two or more smaller ones. Next, the pus 
 seeks an outlet. The position of pointing may be on the cheek or in the 
 external auditory meatus a very common location ; again, the abscess 
 may break into the mouth, the pharynx, the oesophagus, or into the 
 anterior mediastinum, the pus burrowing its way along the sheath of the 
 sterno-cleido-mastoid muscle. 
 
 While the parotid abscess is forming, suppurative inflammation is apt 
 to be set up in the masseter, pterygoid, and temporal muscles, and from 
 these positions the pus forces its way upward to the temporal or zygo- 
 matic fossae. The periosteum of the neighboring bones, and even the 
 bones themselves, may become involved, and sometimes the cranial bones 
 are partially destroyed, and there is an extension of the inflammation to 
 the brain or its membranes. The middle ear may participate in the gen- 
 eral destruction, and the patient is left permanently deaf, if indeed he 
 escape with his life. 
 
 The lymphatics, veins, and nerves traversing the parotid are affected 
 by the suppuration in the gland. Irritation of the lymph-vessels results 
 in swelling, tenderness, and suppuration of the lymph-glands. Thrombi 
 form in the jugular vein and its branches, and by breaking down lead to 
 septicaemia and ichorization of the sinuses of the dura mater. The 
 nerves resist for a long time, but seem to act as paths of conduction of 
 the inflammation, the facial nerve leading it to the ear, and the branches 
 of the trifacial to the brain. When gangrene of the gland takes place, 
 the traversing nerves as well as the gland elements are rapidly destroyed. 
 
 SYMPTOMS. Symptomatic parotitis, occurring during the course of
 
 SYMPTOMATIC OB METASTATIC PAROTITIS. 627 
 
 any of the diseases already named, produces no change in the general 
 symptoms ; if, on the other hand, it occurs during convalescence, the 
 onset is marked by a moderate elevation of temperature and increase in 
 the frequency of the pulse, by thirst, loss of appetite, and sluggish 
 bowels. The tumor, which occupies the same position and thrusts out- 
 ward the ear-lobe as in mumps, is hard, dense, well denned, and the seat 
 of considerable pain until suppuration takes place, when the latter sub- 
 sides greatly. The skin over it is red, hot, and tense, and there is much 
 tenderness and little or no pitting on pressure. After the abscess has 
 formed there is well-defined fluctuation on palpation, and at the position 
 of pointing the skin becomes very thin and assumes a bluish-red hue. 
 Gangrene of the gland is manifested by the cadaverous odor, blackening 
 of the skin, the formation of a cavity, and the discharge of ichor and 
 shreds of tissue. The alteration in the expression, the pain in the ear, 
 the difficulty in moving the jaw and in swallowing, are as constantly 
 present here as in idiopathic mumps. It must not be forgotten, though, 
 that when the disease arises during the course of any of the severe infec- 
 tious diseases, the brain may be so overcome that the subjective symptoms 
 are frequently not complained of. 
 
 The course is usually rapid, the abscess pointing on the fourth or fifth 
 day after the appearance of the parotid tumor ; occasionally, however, 
 the inflammatory process is much slower, extending over a period of 
 several weeks. The course is also much protracted when secondary 
 abscesses form in other parts of the gland or in the surrounding tissues, 
 when the abscess is transformed into an ichorous cavity, and when gan- 
 grene sets in. Ordinarily, where the pus is evacuated by spontaneous 
 rupture or by incision the abscess heals quickly by granulation, leaving 
 the gland enlarged and indurated for some time. 
 
 THE PROGNOSIS depends upon the gravity of the original disease, the 
 period of the disease at which the complication occurs, and whether or 
 no mortification sets in. When the vital processes are greatly impaired 
 by the primary disease, the onset of the parotitis, trifling in itself, may 
 prove sufficient to determine a fatal result. The danger of such a result 
 is much increased, too, if the inflammation begins in the earlier stages 
 or during the height of the disease which it complicates, while if it com- 
 mences during convalescence by far the most frequent result is recovery. 
 Gangrene of the gland involves great risk of life a risk which increases 
 in proportion to the early date of its onset in the course of the original 
 disease. Even when the gangrenous process ends in recovery, the face is 
 much distorted, the hearing is lost in the ear, and the facial muscles are 
 paralyzed on the affected side. Bilateral symptomatic parotitis has natu- 
 rally a graver prognosis than the unilateral form. 
 
 DIAGNOSIS. The disease is readily distinguished from idiopathic 
 mumps by the history, the less marked degree of the enlargement and 
 surrounding oedema, the greater degree of pain and tenderness, the hard- 
 ness of the tumor, the red discoloration of the skin covering it, and the 
 termination in suppuration. Further, it never displays an epidemic tend- 
 ency. 
 
 TREATMENT. The general treatment of this form does not differ from 
 that of the disease it complicates, though the employment of stimulant? 
 in increased quantities may be indicated.
 
 628 PAROTITIS. 
 
 Before the first appearance of tumefaction of the parotid the introduc- 
 tion of a probe or cauula into the duct of Steno, associated with pressure 
 on the gland from the outside, may, by forcing from the duct a collection 
 of mucus or muco-pus, abort the inflammation. If this is unsuccessful, 
 a poultice should be applied over the gland to encourage suppuration and 
 pointing externally. As soon as the abscess points the pus must be 
 evacuated by an incision, and, as this has a tendency to close again, a 
 piece of lint must be kept between the lips of the wound. 
 
 The enlargement and induration left after the healing of the abscess 
 require the application of tincture of iodine or of compound iodine oint- 
 ment to the surface. 
 
 When gangrene occurs it demands the same treatment, both local and 
 general, as when it is seated elsewhere.
 
 ERYSIPELAS. 
 
 BY JAMES NEVINS HYDE, M. D. 
 
 DEFINITION. Erysipelas is an acute disorder, characterized by the 
 systemic symptoms common to the febrile state, and by an involvement 
 of the integument and deeper parts, the affected surface being tumid, 
 hot, reddened, painful, and often the seat of well-defined bullse, the pro- 
 cess terminating either in complete resolution after cutaneous desquama- 
 tion or in a fatal result commonly due to complications of the malady. 
 
 SYNONYMS. Eng. St. Anthony's Fire ; Fr. firysipele ; Germ. Koth- 
 lauf ; Ital. Risipolo. 
 
 CLASSIFICATION. Erysipelas is properly recognized as one of the 
 acute infectious diseases. Though by its symptoms and career it would 
 seem to be properly assigned to the category of the exanthemata, it is 
 yet by most authors set apart from the latter first, because its career is 
 less specifically defined ; second, because its contagiousness is less demon- 
 strable in every case ; third, because one attack is not known to confer 
 upon its victims immunity against a second ; fourth, because the occa- 
 sional prevalence of the disease in apparently epidemic form is evidently 
 due to extrinsic causes, and does not depend exclusively upon its sudden 
 appearance among the unprotected ; fifth, because no definite period of 
 incubation precedes its earliest manifestations; and, sixth, because at 
 times it appears in local manifestations apparently unaccompanied by 
 systemic phenomena. 
 
 HISTORY. The earliest writers on medicine bear witness to the fact 
 that the disease was recognized at the date when men first made record 
 of human ailments. It has occurred in all parts of the world and at all 
 seasons of the year, sparing neither age nor sex in its development. 
 Zuelzer 1 refers to epidemic occurrences of the disorder, described by 
 Rayer, as visiting the' Paris hospitals in 1828 ; by Schonlein, as existing 
 in Zurich in 1836; by Gintrac, as spreading in Bordeaux in 184445; 
 and by Trousseau, as prevailing in the Maternity in Paris in 1858. 
 
 ETIOLOGY. Authors have in general assigned different causes to the 
 forms of erysipelas hitherto regarded as either idiopathic (or medical) or 
 traumatic (or surgical). The modern view, however, is that which 
 regards all cases as alike produced by the absorption of the toxic agent 
 capable of exciting this peculiar inflammation of the skin. The pecu- 
 liarly well-characterized symptoms of the disease for example, when it 
 affects the head and face were long regarded as etiologically distinct 
 from the affection which complicates surgical injuries and wounds. But 
 1 Cyclop, of the Prac. of Med., Ziemssen, vol. iv. p. 424. 
 
 629
 
 630 ERYSIPELAS. 
 
 a closer study of many of the cases first named has again and again dis- 
 closed the fact that they originated in such traumatism, for example, as 
 the piercing of the lobule of the ear for the insertion of an ear-ring, a 
 carious tooth, an alveolar abscess, or a pathological product in the autrum 
 of Highmore. 
 
 The disease is equally common apart from the puerperal state in 
 both sexes and at all ages, and occurs under favorable circumstances in 
 all seasons of the year. It is unquestionably at times spread by direct 
 contagion, either from the living or dead body affected with the disease. 
 Such contagion may occur mediately or immediately. It is, however, 
 not readily shown to be producible by the media of clothing and other 
 articles which have been in contact with a diseased surface. The con- 
 tents of the bullous lesions which appear upon the erysipelatous surface 
 are iuoculable ; and the disease has in this way been transferred not only 
 to men, but also, by Orth and others, to the lower animals, and even from 
 one of the latter to another of the same species. 
 
 Certain it is, however, that the disease does occur, characterized by 
 symptoms indistinguishable from those to be recognized in the contagious 
 type of the malady, where the most careful investigation wholly fails to 
 reveal the cause, and where the disorder rapidly spreads if the conditions 
 for its extension are favorable. Under these circumstances it is wisest at 
 present to admit that the exact etiology of erysipelas is unknown. Its 
 relative frequency in the puerperal state is unquestionably to be explained 
 by the favorable local conditions which at such times exist in the female 
 for the development of all septic disorders. 
 
 As regards the circumstances which might be supposed to specially 
 favor its development, these the capriciousness of the disease, which is 
 its striking characteristic, often quite disregards. Thus, on the one hand, 
 it may and often does prevail, year after year, in certain hospitals, and 
 even in certain wards of a single hospital, especially where these are 
 crowded with patients. But it may also repeatedly spare masses of men 
 affected with disease of a different type when the latter are gathered 
 together in prisons or camps, and indeed even may appear among such 
 individuals and fail to spread to others who are in close proximity to 
 them. 
 
 With respect to the propagation of erysipelas from infected to sound 
 individuals, a contrast is exhibited when the transmission of variola, for 
 example, is compared with it. Thus, it is well known that the mildest 
 cases of varioloid may be sources of malignant forms of variola to the 
 unprotected, while those who are partially protected and exposed to the 
 virus of confluent forms of the disease may exhibit the mildest symptoms 
 of varioloid. In erysipelas, however, it is tolerably certain that there 
 are different degrees of virulence to be recognized in different cases, and 
 that the disease at times is transmitted in its different types. Thus, trau- 
 matic erysipelas is much more closely related to childbed fever than the 
 varieties of the disease appearing upon the head and face, which cannot 
 be attributed to traumatism, surgical accidents, dental abscesses, or local 
 injuries of the antrnm of Highmore. Parturient women frequently 
 escape infection when the erysipelatous disorder is of the so-called 
 medical type. Per contra, it is to be noted that women who are prone 
 to the relapsing and so-called chronic forms of erysipelas are particu-
 
 S YMPTOMA TOLOG Y. 63 1 
 
 larly apt to suifer from that involvement of the genital organs, perito- 
 neum, spleen, and febrile movement whose sudden occurrence after con- 
 finement is so portentous. 
 
 SYMPTOMATOLOGY. The disease is usually announced by the occur- 
 rence of a chill, which may precede by a day or but a few hours the 
 appearance of the cutaneous disorder. The rigor may be severe or mild 
 in grade, so that ^it ^may even be forgotten by the patient till his 
 attention reverts to it in connection with the resulting symptoms. There 
 may be simultaneously some gastric distress, rarely of severe character. 
 These symptoms are commonly followed by a febrile reaction. In other 
 cases the first recognized symptoms of the malady occur in the skin, the 
 patient scarcely recalling the fact of a slight preceding malaise. 
 
 The cutaneous lesions appear in the form of a circumscribed oedema 
 and redness of the surface, often preceded and usually accompanied by a 
 sensation of tension, heat, and burning pain. This macule, plaque, or 
 patch of diseased integument is in its typical features characteristic. It is 
 distinctly or irregularly circumscribed ; its cedematous condition elevates 
 its level decidedly above that of the adjacent integument, so that there is a 
 somewhat sudden descent from the former to the latter for a space of from 
 one to two or more lines. The redness is also of a bright crimson hue, 
 and the reddened surface has a sheen or glossy appearance uniformly 
 displayed over its area. It disappears under the pressure of the finger, 
 leaving a yellowish-white color in the region of impact, the erysip- 
 elatous blush rapidly returning when the circulation at the surface is 
 restored. This smooth and shining condition of the reddened patch is so 
 characteristic of erysipelas that it arrests the attention of the diagnostician 
 as soon as he observes it. According to Zuelzer, it is caused simply by 
 the tension of the epidermis. When first observed it may occur in the 
 form of circular, small or large coin-sized patches, or in streaks, striae, 
 and radiations, or as very irregularly disposed, rosy, and shining mar- 
 blings or mottlings of an oedeinatous surface. 
 
 The skin thus affected is hot to the touch, tender, firm, and smooth. 
 It is occasionally the seat of pruritic sensations, more commonly of a 
 peculiar sensation of heat and burning. 
 
 In the course of two or three days the involved area spreads uni- 
 formly or irregularly and centrifugally from the point first involved, 
 after which time, in mild cases, the disease persists without apparent 
 change for a few days more, prior to its decadence by resolution. This 
 final stage of the malady is characterized by a progressively diminishing 
 fever, moderate desquamatiou, gradual disappearance of the oedema, and 
 a color-change to the darker shades of bluish-red or to a light brown. 
 In this form of the disease the erysipelatous patch, after being fully 
 developed, does not tend to spread from the affected to the unaffectec] 
 surfaces ; and, as a consequence, the affection may complete its entire 
 career in less than a fortnight. 
 
 In other cases, however, a remarkable tendency is developed to the pro- 
 gressive spreading of the inflammation from one point or surface of the 
 body to another, the parts first affected paling as the disease passes on to 
 involve those in the vicinity, or being yet deeply involved while the pro- 
 cess of peripheral extension is in progress. In yet other cases the red 
 blush sweeps away from its first position in tongue-like projections over a-
 
 632 ERYSIPELAS. 
 
 tumid and painful skin, while the region first invaded becomes paler, 
 though still preserving its cedematous features. In still another class of 
 cases the advancing ribbon or band of elevated and reddened integument 
 passes over to a new area, leaving the regions it has traversed tumid, 
 painful, and here and there streaked with rosy lines, patches, or irregular 
 gyrations. 
 
 In yet severer types of the malady the intensity of the inflammatory 
 process is such that the epidermis is raised from the tissues below by the 
 free exudation of the serum of the blood. In this way vesicles, or, more 
 commonly, bullse, develop upon the surface. Bullse thus formed may be 
 typically perfect, but are often exceedingly irregular in contour, having an 
 appearance which is suggestive of the blistering of a surface by boiling water. 
 The bullae may be well distended and filled with a perfectly limpid serum. 
 This fluid may, however, in the course of a few days become purulent, 
 the contents in such case drying into crusts. In the severest types of the 
 disease gangrene results from the intensity of the dermatitis, and the loss 
 of tissue which thus occurs is repaired by the processes of granulation and 
 cicatrization. 
 
 The migration of erysipelas from one part to another of the surface is 
 sometimes so extensive as to invade from time to time the larger part of 
 the superficies of the body. Erysipelas of this ambulant character may 
 also, after invading the entire surface of the body, be relighted at the 
 point where it first appeared. In other cases this phenomenon of recur- 
 rence or reawakening on patches of skin traversed by the disease may be 
 noticed only after moderate extension from a given point. Reddish or 
 rosy-colored islets then appear as new centres of a fresh extension-process 
 upon an integument whose swollen tissues still exhibit the evidences of 
 the prior invasion. In still other cases similar islands of fresh disease are 
 recognized in advance of the elevated edge and tongue-like prolongations 
 which mark the onward progress of the erysipelatous inflammation over 
 areas previously unaffected. 
 
 The swelling of the involved tissues is one of the most characteristic 
 features of erysipelas. By this is meant not the tumefaction simply of 
 the superficial portions of the integument, nor the tumefaction which may 
 be measured by the height of the affected above the level of the unaffected 
 skin at the edge of the involved area, but a swelling much more than 
 this, involving the entire skin, and often indeed the subcutaneous tissues, 
 differing, of course, in the extent to which it advances in different cases. 
 In those of severe grade the swelling is enormous, an affected limb assum- 
 ing the elephantiasic aspect, while the deformity thus induced in the head 
 is fully as great as that seen in the height of confluent variola. In such 
 cases the neighboring ganglia are, as a rule, enlarged and often painful. 
 
 It is indeed this swelling which gives to erysipelas of the head and face 
 its peculiar physiognomy. The disorder is apt to find its starting-point 
 in the ear, the side or point of the nose, or one cheek. At this moment 
 it may be possible to recognize the fact that the adjacent mucous mem- 
 brane is also involved. Thence the disease progresses over the face, and 
 possibly over the scalp also, the resulting tumefaction being occasionally, 
 as already stated, enormous. Thus the eyes are usually closed and sealed 
 by the swollen lids and the orbital depressions are effaced. The lips, 
 enormously pouting and reddened, project from the swollen visage to as
 
 SYMPTOMATOLOGY. 633 
 
 great an extent as the tumid ears, which, for similar reasons, depart from 
 the usual plane. The mouth, nares, and eyes alike are covered with 
 mucous secretions, possibly commingled with the contents of bullse which 
 have formed and broken. Crusts may thus collect near the mucous outlets. 
 The tongue is dry, parched, and cracked, and exhibits a reddish-brown 
 hue. In less severe cases it may be seen to be covered uniformly with a 
 thick yellowish or yellowish-white paste. The fauces and buccal mem- 
 brane are reddish in color, glazed, and dry. 
 
 The patient having this serious form of the malady is indeed in a 
 critical condition. There is usually a coincident coma or delirium. The 
 pulse is either greatly accelerated and full, or thready, fluttering, and 
 destitute of rhythm. The temperature rises to 105 F., and even 
 higher. In this condition a fatal issue may be heralded by collapse, with 
 decadence of the external evidences of the disease, or by the occurrence 
 of blood-filled blebs, or indeed by larger or smaller areas of the surface 
 falling into gangrene. This latter accident may also involve the mucous 
 surfaces, large patches of the buccal membrane, the gums, and even the 
 palate, losing their vitality and showing as greenish-black, insensitive 
 tracts, quite firmly attached to the healthy tissue. These accidents may 
 be of very rapid occurrence, more particularly in the case of individuals 
 prone to exhibit the severest forms of the malady, such as very young 
 infants and those enfeebled by advanced age, by alcoholism, or by any 
 of the cachexise. 
 
 Other types of erysipelas, chiefly noticeable by reason of their loca- 
 tion, are those spreading from the umbilicus, the genital region, the sites 
 of vaccination, of varices of the lower extremities, and the surfaces near 
 the seat of surgical accidents and operations. 
 
 The various names which have been, especially by older writers, given 
 to the several expressions of this disorder relate almost exclusively to 
 their external characteristics. Among these may be mentioned E. 
 ambulans, e. erythematosum, e. bullosum, e. glabrum, e. levigatum, e. 
 miliare, e. oadematosum, e. pemphigoides, e. phlyctenulosum, e. puerperale, 
 e. vaccinale, e. variegatum, e. verrucosum, and e. vesiculosum. 
 
 The resolution of erysipelas in favorably terminating cases is accom- 
 plished by very gradual amelioration of symptoms. The swelling begins 
 to subside, usually between the third and sixth days. The blebs that 
 have formed then disappear by absorption, bursting, desiccation, or crust- 
 ing, and subsequent exfoliation. Desquamation of the involved surface 
 may be a prominent or a very insignificant feature. When the patient 
 with erysipelas capitis enjoys a favorable crisis in his disease, there is 
 occasionally noted a very rapid amelioration of the symptoms. The 
 tumefaction speedily subsides, the features become recognizable, and 
 defervescence is complete. Throughout the course of all attacks the 
 febrile process and the erysipelatous blush proceed pari passu with 
 but little deviation of the severity of the one from the intensity of 
 the other. 
 
 The complications and sequelae of the disease are less numerous than 
 they are grave. In erysipelas of the head there is usually a rapid 
 shedding of the hair, though in convalescence the growth of the 
 hair may be restored. An obstinate seborrhoaa sicca may, as after 
 variola, linger long afterward upon the scalp; here also, as in other
 
 634 ERYSIPELAS. 
 
 portions of the body, one or many abscesses may form in the subcuta- 
 neous tissue after the resolution of the dermatitis ; while in phlegmouous 
 erysipelas these abscesses may accompany the disease at its height. 
 
 Lymphangitis and adenopathy are common complications of erysipelas, 
 the former betrayed in thickened and often knotted cords, which may be 
 felt radiating from involved areas to neighboring glands. A singular 
 modification is often undergone by the integument affected with erysipelas 
 which has also been the seat of other cutaneous disorders. In this way 
 lupus, psoriasis, chronic eczema, and some of the syphilodermata have 
 been relieved. 
 
 Besides the surfaces of the nasal, pharyngeal, and buccal mucous mem- 
 branes which have been indicated as at times involved by the disease, 
 the inflammatory redness and swelling may extend to the epiglottis, the 
 larynx, and the trachea. Croupous and other forms of pneumonia, pul- 
 monary oedema, and pleuritis have been not rarely noted. In erysipelas 
 of the head the membranes of the brain may inflame and serous effiisions 
 distend the ventricles. 
 
 The joints may be inflamed either by sympathy or by direct extension 
 of the erysipelatous inflammation to the periarticular tissues, or yet by 
 the occurrence, in or about them, of metastatic abscesses in septicsemic 
 conditions. 
 
 The peritoneum may be also acutely or subacutely inflamed in ery- 
 sipelas, though it is doubtful whether the accident occurs in consequence 
 of the extension of the disease to this membrane from the skin of the 
 abdominal wall. The same may be said of the endocarditis and peri- 
 carditis noted by several authors. Of all other complications, it may be 
 said that they can usually be assigned to the occurrence of either septicae- 
 mia, or pyaemia, or to the development of metastatic abscesses. 
 
 With respect to the eyes, a distinction should be drawn between those 
 attacks originating in deep or superficial affections of the globes and those 
 in which the visual organs are merely involved as by accident in the 
 extension of the disease. In the former case deep orbital abscesses or 
 inflammatory affections of the iris and retina may be followed by ery- 
 sipelas of the lids or neighboring parts, while in the latter event the 
 issue is more commonly a transitory conjunctivitis, lachrymation, and 
 photophobia, which soon disappear when the disease has declined. The 
 cornea, being unmacerated with pus as in severe variola, commonly escapes 
 perforation. 
 
 Erysipelas is a disorder which, without question, produces in a certain 
 proportion of patients a susceptibility to recurrent attacks. This suscep- 
 tibility, however, is less a systemic tendency to the development of the 
 disease than a peculiar liability to recrudescence originated by chronic 
 local ailments. Thus catarrhal, ulcerative, and other affections of the 
 nasal mucous membrane are particularly apt to originate repeated erysipe- 
 latous attacks in the integument covering the nose, and the same is true 
 of the skin in the vicinity of the orifices of fistulous sinuses and varicose 
 veins. 
 
 The forms of disease which are often described as instances of chronic 
 erysipelas belong to several classes. There are, first, those in which are 
 observed recurrent attacks of true erysipelas. Second, those in which a 
 chronic eczema or dermatitis produces a circumscribed patch of infiltration
 
 PATHOLOGY AND MOBS ID ANATOMY. DIAGNOSIS. 635 
 
 in a skin having a lurid reddish hue, which is also the seat of marked 
 subjective sensations, chiefly itching. The well-known forms of chronic 
 eczema erythematosum of the face in middle years or advanced life are 
 commonly, and erroneously, regarded as erysipelatous in character. 
 Third, there is a peculiar dermatitis, of the cheeks chiefly, with regard to 
 whose identity as an erysipelatous affection there is much doubt. The 
 skin is infiltrated in a circumscribed patch, and has a peculiarly glossy 
 red hue. It is essentially a chronic disorder, the affected patch remaining 
 unchanged for months at a time, and then exhibiting aggravation in con- 
 sequence of accidental exposure to heat or traumatism. These patches 
 may be relics of relapsing forms of erysipelas ; and in my experience 
 are more commonly encountered in the subjects of chronic alcoholism. 
 
 PATHOLOGY AND MORBID ANATOMY. The pathological changes 
 exhibited in the erysipelatous skin are those of an exudative process 
 involving the cutaneous and subcutaneous tissues. Nothing specially 
 different from the phenomena observed in a simple dermatitis can be 
 recognized by the microscope alone. Biesiadecki's careful investigations 1 
 certainly do not disclose any such specificity. The epithelia are swollen 
 with serous fluid, and the exudate, though largely serous, contains also the 
 corpuscles recognized in plastic lymph. It is this serum, rapidly invited 
 to the surface by the acuity of the exudative process, which raises the 
 epidermis into the bullse described above. The nuclei of the bodies 
 recognized in the exudate are evidently in a state of division and conse- 
 quent multiplication. The epithelia of the rete mucosum are swollen and 
 stretched. The connective-tissue elements in the derma are also swollen, 
 and exhibit reversion to the embryonal state. There is within each a 
 relative increase of protoplasm, as a consequence of which they undergo 
 a species of liquefaction. The blood- and lymph-vessels enlarge and are 
 crowded with corpuscles. The subcutaneous tissue participates in this 
 process, its elements being filled with finely granular cells disseminated or 
 in aggregated masses. The chief peculiarity of this exudation, and of 
 these changes in the tissue-elements where it recurs, is the rapidity with 
 which, wheu involution is in progress, the fluid is absorbed and the 
 inflammatory elements disappear. When abscess or gangrene complicates 
 the erysipelatous inflammation the changes are not different from those 
 recognized in dermatitis calorica. 
 
 The changes noted in the viscera are also of a congestive and inflamma- 
 tory type. According to Poufick, 2 there is at times a parenchymatous 
 degeneration of the muscular tissues of the large vessels, and of the ex- 
 tremities, as well as of the kidneys, liver, and spleen, the latter organ occa- 
 sionally undergoing softening. The mucous surfaces of the mouth, larynx, 
 lungs, and alimentary canal have also been found affected with oedema, con- 
 gestion, and infiltration, rarely terminating in ulcerative changes. 
 
 DIAGNOSIS. The diagnosis of a typical case of erysipelas is so simple 
 that the nature of the malady is often recognized by those unskilled in 
 such matters. It is difficult to mistake for any other affection the circum- 
 scribed, swollen, shining, and rosy-reddish patch of skin, accompanied by 
 fever or marked malaise, with adenopathy of near glands, and often with 
 a history of traumatism to which the origin of the disorder may be 
 readily referred. 
 
 1 Sitzungsber. d. L Acad. der Wusen., Wien, ii., 1867. ' Deutsch. klin., No. 20, 1868.
 
 636 EBYSIPHLAS. 
 
 It is to be distinguished from dermatitis in its various forms (venenata, 
 niedicamentosa, phlegmonosa, suppurativa) by its characteristic features, 
 and by the frequent absence in these inflammations of a febrile reaction 
 and of a shining, rosy-red hue of the skin, and by the peculiarities 
 described above of the elevated margin of the erysipelatous area. 
 
 Eczema, especially in its chronic erythematous forms, exhibited in the 
 face of adults in middle and later life, is of much slower development, is 
 uroductive of itching, is ill-defined in contour, and is not accompanied by 
 fever. 
 
 Erythema in all its varieties is a purely hyperaemic affection and unac- 
 companied by fever. In erythema multiforme there is an exudative pro- 
 cess by reason of which various papules, nodosities, and at times even 
 bullse, appear upon the surface. None of them, however, are accompa- 
 nied by a diffused area of redness spreading at the periphery. All of its 
 lesions are circumscribed, and rarely affect the face. 
 
 Pemphigus could only be mistaken for the form of erysipelas bullae, 
 but its lesions do not rise from a broadly inflamed area ; they rather have 
 attended with each a distinct individual halo when the integument from 
 which they spring is at all congested. They are also rarely accompanied 
 by a febrile process. 
 
 Scarlatina, though a febrile affection, is readily distinguished from ery- 
 sipelas by the appearance of its exanthem, symmetrically and generally 
 developed over the entire surface of the body, or progressively and sym- 
 metrically from the upper to the lower segment of it. The exanthem has 
 also a dull scarlet color or the boiled lobster hue, differing thus from the 
 rosy-red and shining patch of erysipelas. 
 
 Urticaria also is often of symmetrical development, is rarely accompa- 
 nied by fever, and is characterized by typical wheals, which, however 
 closely packed together, never have the smoothness of the surface affected 
 with erysipelas. 
 
 PROGNOSIS. The prognosis of a simple case of uncomplicated erysipe- 
 las occurring in an individual in fair health and possessed of a reasonable 
 degree of vigor may be regarded as favorable. Even in the weakness of 
 infancy a large area may be involved in the disease and a high degree of 
 fever be aroused without alarming results. 
 
 Erysipelas should, however, always be regarded as a serious disease or 
 a serious complication of any existing malady. It is often a grave fea- 
 ture in surgical injuries. Erysipelas involving the entire surface of the 
 face and head is always a formidable affection. In the puerperal state it 
 is dreaded by every accoucheur. 
 
 All these circumstances are rendered more portentous by the existence 
 of the disorder as a complication of any other grave malady, or by its 
 occurrence among the subjects of alcoholism, struma, phthisis, or various 
 other cachexias, and among the aged. Occurring in epidemic form among 
 the inmates of prisons, camps, and hospitals, the mortality of the disease 
 may be increased tenfold. 
 
 TREATMENT. The prophylaxis of erysipelas is that of all contagious 
 diseases. It involves isolation of the affected individual, disinfection of 
 body- and bed-clothing before the latter are again employed upon the per- 
 sons of others, and destruction by fire of all dressings which have been in 
 contact with the integument.
 
 TREATMENT. 637 
 
 The hygienic management of the patient is not to be neglected. The 
 complete ventilation of the sick chamber is to be secured, and its tempera- 
 ture uniformly sustained at a point between 65 and 70 F. 
 
 The general treatment of the sufferer need not greatly differ from that 
 commonly pursued in the febrile state by modern therapeutists. There is 
 but little confidence to-day in the methods by venesection and purgation, 
 upon which at one time reliance was placed. Cool or cold water may be 
 freely employed when there is hyperpyrexia, either by general bathing or 
 by wrapping the patient in sheets dipped in and wrung out of the same 
 fluid. The results are favorable as regards the bodily temperature, and 
 are not productive of danger, though water thus applied has no effect 
 upon the local disorder of the skin. Iced or cool water, by the ice-bag 
 or compresses, is specially indicated as a topical application for the head 
 when there is delirium or other indication of disturbance of the cephalic 
 centres, irrespective of the invasion of the scalp and face by the erysipe- 
 latous inflammation. The sulphate of quinia in full doses is indicated 
 especially when there is any tendency to remittence in the febrile accessions, 
 but is not known to possess any power to cut short the disease. In many 
 cases of erysipelas the febrile condition is readily managed by the admin- 
 istration of the simpler remedies found grateful to the palate of the suf- 
 ferer, such as iced, acidulated, and effervescing draughts, with perhaps 
 the employment of the spiritus Mindereri or the spirit of nitrous ether. 
 In other cases the mineral acids can be substituted with advantage for the 
 latter. With many American physicians it is customary to add to these 
 remedies the tincture of the root of aconite, with a view to its effect upon 
 the pulse. 
 
 Few internal remedies, however, have in this country enjoyed as much 
 popularity with the profession in the treatment of erysipelas as the 
 muriated tincture of iron in full doses. Its use, first suggested for this 
 purpose by Bell in 1851, has here steadily gained in favor since its 
 general adoption. It is well to give it in doses of not less than 20 or 
 30 drops, repeated every two or three hours, diluted with water. When 
 there is high fever, and especially if the secretion of urine is scanty, the 
 following formula will be found valuable : 
 Tr. Fern Chloridi ; 
 Sp. Athens Nitrosi ; 
 Glycerinae da f si. M. 
 
 S. A teaspoonful in water every three hours. 
 
 This preparation of iron certainly seems, in many cases, to shorten the 
 disease, but, per contra, it is to be remembered first, that in many other 
 cases it has been found to exercise no control. whatever over the severest 
 manifestations of the disease ; second, that in other countries, especially 
 in Germany, where it is rarely employed, the mortality from the disease 
 is no greater than elsewhere. 
 
 The widest difference in practice has obtained relative to the local 
 treatment of the affection. They who have had the fortitude to content 
 themselves with watching the evolution of the specific dermatitis, merely 
 protecting the skin by dusting over it a simple powder or leaving it 
 covered with a cold compress, have certainly no worse results to tabulate 
 than those who entertain a belief in the efficacy of the abortive treatment 
 of the local disorder.
 
 638 ERYSIPELAS. 
 
 No remedies, locally applied, can be recognized as certainly possessing 
 the power to cut short the inflammation. Those which enjoy the highest 
 reputation for topical employment are saturated solutions, hot and cold, 
 of the hyposulphite of sodium, of boracic acid, and of the bicarbonate of 
 sodium ; salicylic acid ; iodoform in powder ; and, quite lately, resorcin. 
 Hot fomentations of the erysipelatous patch are in general most grateful 
 to the patient, and with these an opiate and astringent effect can be 
 obtained, as by a hot lead and opium wash or by solutions of the 
 sulphate of iron or of alum and tannin. Useful methods of applying 
 these are by the medium of borated cotton, oakum, tow, or spongio- 
 piline, covered with oiled silk or the Lister protective material. 
 
 Other medicaments which have enjoyed favor in the topical treatment 
 of the disease are lime-water and linseed oil (carron oil), sulphur in 
 powder, carbolic acid, camphor, the oil of turpentine, collodium, cata- 
 plasms and ointments containing mercury, lead, zinc, tar, and tannin. 
 
 Respecting the measures adopted with a view to checking the exten- 
 sion of the disease at the periphery of the patch, the belief in such a 
 possibility has been wellnigh abandoned. For this purpose the nitrate 
 of silver, caustic potash, tincture of iodine, and similar substances have 
 been boldly and broadly applied, alike over the sound and affected integ- 
 ument, with the production of an artificial dermatitis intended to supplant 
 that which was previously in progress. Again and again has the local 
 inflammation transgressed these artificial limits; and when they have 
 been by it apparently respected there has been little ground for believing 
 that the result was due to the treatment pursued. Inasmuch as the 
 disease is often self-limited and distinctly limited in its progression over 
 the surface, it is manifestly difficult to determine that its limitation in 
 any given case is the result of topical agencies. These agencies have, 
 moreover, the marked disadvantage of adding their irritative effects to 
 those incidental to the dermatitis. 
 
 The surgical treatment of erysipelas invading special regions of the 
 body or the deeper tissues is a matter of importance. Free incisions are 
 requisite for the liberation of pus, and all abscess cavities should be 
 treated antiseptically and stuffed with iodoform or resorcin. Great ten- 
 sion of the lids demands free incisions in the long diameter of either, and 
 the same surgical procedures are often demanded in erysipelas of the 
 scrotum or of the labia in the female. Gangrene and sloughing are to 
 be treated in accordance with the principles recognized as important in 
 the management of these accidents in general. 
 
 The mouth when involved may be benefited by gargles containing the 
 chlorate of potassium, alum, tannin, the compound tincture of cinchona, or 
 by the use of the spray with a saturated solution of boracic acid in rose- 
 water. Kaposi lays stress, in all cases of erysipelas of the face, upon 
 the importance of searching for and evacuating all dental abscesses and 
 pustules seated upon the Schneiderian membrane. Crusts in the nasal 
 cavity are to be soaked with vaseline and removed by washing, their 
 re-formation being prevented by the insertion of small tampons smeared 
 with a bland ointment or oily fluid. Abscesses in other portions of the 
 body, not suspected as being etiologically significant, are to be carefully 
 searched for and emptied, whether occurring about the anus, the genitals, 
 or the legs.
 
 TREATMENT. 639 
 
 Subcutaneous injections of carbolic acid and other antiseptic solutions 
 have not been rewarded by such results as to establish in any deerree their 
 
 1 C 
 
 special emcacy. 
 
 In all ordinary cases the expectant treatment recommended by Zuelzer 
 is abundantly to be commended. The inflamed tissue is to be dusted 
 with finely-powdered starch, and protected by a layer of soft cotton-wool 
 which exercises a moderate degree of pressure upon it. Antiseptically, 
 the highest ends are thus reached. 
 
 The diet of the patient should consist of animal broths, soups, milk, 
 and eggs, with a view to the reparation of the waste incidental to the 
 febrile process. Stimulants are to be freely used in all asthenic con- 
 ditions. In convalescence the warm water and soap bath is. to be 
 employed, followed by dusting of the surface with starch powder or 
 hv inunction with vaseline.
 
 YELLOW FEVER. 
 
 BY S. M. BEMISS, M.D. 
 
 YELLOW FEVER is a specific, infectious, and communicable disease of 
 cue febrile paroxysm. 
 
 This definition includes some of the most prominent characteristics of 
 the disease. The malady, however, derives its name from a symptom 
 not mentioned in the definition. The yellow color of the skin and 
 scleroticae which appears in advanced stages of grave cases of yellow fever, 
 and which becomes especially marked in the cadaver, has ruled its no- 
 menclature. "Whatever objections may be urged against the term " yellow 
 fever " as being founded upon a symptom of the disease not always present, 
 it is too strongly fixed in both medical literature and popular usage to 
 justify efforts to change it. 
 
 Neither is it liable to beget confusion as long as it is understood that it 
 is to be restricted in its application to a specific fever induced by a specific 
 poison, and that as an incident of its morbid processs it produces yellow 
 coloration of the surface so frequently as to suggest the prefix yellow to 
 its title. 
 
 ETIOLOGY AND SYMPTOMATOLOGY. In this day of almost general 
 belief in the theory which holds that each specific disease has its own 
 specific poison or morbific germ, it is scarcely expedient to occupy much 
 space in discussing the propriety of classing yellow fever among the spe- 
 cific maladies. 
 
 Whether we rest the decision of this question upon the uniformity of 
 those circumstances and conditions which originate and develop epidemics 
 of yellow fever, or upon the sameness of its symptomatic phenomena 
 wherever observed, we find very nearly as substantial claims to a specific 
 individualization of the disease as any one of the eruptive fevers pos- 
 sesses. Not only are its morbid phenomena so characteristic that even 
 non-professional observers designate it by such epithets as Bronze John, 
 Yellow Jack, Vomito Prieto, etc., but it is inconvertible with other 
 specific affections. This inconvertibility of yellow fever with other dis- 
 eases is absolute, and affords irrefrangible evidence of the specificity of 
 that germ or poisonous principle which produces it. 
 
 The study of yellow-fever poison after the objective method has hitherto 
 been unproductive of definite results. When such experienced and truth- 
 ful observers as Sternberg, Woodward, and Schmidt, working with the 
 most approved microscopes, have failed to identify any organism or object 
 peculiar to the products from the bodies of yellow-fever subjects or to 
 the circumfusa of the sick, this declaration is sufficiently supported. 
 
 640
 
 ETIOLOGY AND SYMPTOMATOLOGY. 641 
 
 But when we turn to a subjective method of investigating that toxic 
 agent which causes yellow fever, it is found to possess sufficiently well- 
 marked characteristics to justify practically valuable conclusions. Some 
 of these characteristics or modes of behavior merit notice. 
 
 1st. The human system is a field of reproduction and multiplication of 
 yellow-fever poison. This is sufficiently established by two facts : 
 
 (a) A person in the incubative stage of yellow-fever intoxication may 
 be divested of all fomites and yet originate other cases after a developed 
 attack. 
 
 (6) The infection is intensified by aggregation of the sick. 
 
 These propositions are indisputably true. 
 
 2d. The poison or infection undergoes some change after leaving the 
 human system. This appears to be susceptible of proof, because com- 
 munication of the disease from person to person is not a common event. 
 When this does apparently occur, there is often very strong reason for a 
 belief that the contagion was resident in some fomites connected with the 
 patient's bed or clothing. 
 
 3d. There are no sustained observations which prove that yellow-fever 
 poison is ever created de novo. 
 
 The autochthonous birthplace of the poison is unknown. The sugges- 
 tion of Niebuhr, that yellow fever may have been one of the causes of 
 death during the plagues of Athens, can not be authoritatively denied. 
 It may have been called into existence at the moment when all things 
 else were created which were to perpetuate each its kind. 
 
 4th. Some of those conditions and circumstances which favor or retard 
 the development or maturation of yellow-fever poison outside the human 
 body are quite well understood. Warm, damp weather is most prominent 
 among those climatic conditions which are favorable to the growth of 
 yellow-fever epidemics. 
 
 5th. A freezing temperature ordinarily destroys the contagium of yellow 
 fever. A high degree of artificial heat produces a similar result. It is 
 highly probable that certain chemical agents would also effect its destruc- 
 tion if brought in contact with it. 
 
 6th. If yellow-fever fomites are hermetically enclosed in situations pro- 
 tected from cold or other agents which are destructive to their infection, 
 its vitality may be preserved for an undetermined length of time, and its 
 toxic qualities again made manifest when unacclimated persons are ex- 
 posed to it. 
 
 7th. Yellow-fever poison possesses ponderability. This cliaracteristic 
 is so distinctly marked that it has been frequently termed a " low-lying 
 poison." 
 
 8th. It is incapable of being air-borne through any great distance, at 
 least without being deprived of its toxic effects. 
 
 9th. It is transportable in fomites through great distances, either on 
 sea or land, and as often as its toxic effects are manifested after these 
 portations they are so uniform as to be promptly recognizable. 
 
 A great number of different materials in common use may act as 
 fomites, such as loose wool, cotton, or hair, or textile fabrics of various 
 descriptions. 
 
 The following facts, which illustrate how yellow-fever infection may 
 be conveyed in the most unsuspecting and innocent manner, are well 
 
 VOL. I. 41
 
 642 YELLOW FEVER. 
 
 authenticated. There can be no ground for accusation of error except in 
 the hypothesis that the infection was encountered simultaneously in some 
 unexplained manner. The facts are furnished by Dr. Shannon of Ocean 
 Springs, Mississippi: "On the 14th of October, 1883, Maj. J. B. B. 
 died of yellow fever in Ocean Springs, Miss. I moved the family at 
 once to the healthy locality where you saw Miss B., not allowing them to 
 take any article from the room where the husband and father had died. 
 The children applied to me for a lock of their father's hair, which I 
 refused, but the oldest daughter, now dead, prevailed upon the nurse 
 to give it her. She placed it in an old envelope that had been torn 
 open at the end and carefully folded the torn end down, thus practi- 
 cally sealing it, and laid it away among other old letters. On Sunday, 
 the 4th of November, at 12.30 P. M., she brought this envelope out 
 upon the open gallery, and opened it for the first time to examine the lock 
 of hair and show it to her aunt, Miss S., who was visiting her, and upon 
 inhaling the concentrated poison confined in the envelope and emanating 
 from the hair, exclaimed, ' Oh, what a peculiar smell !' She then handed 
 the envelope to her aunt, Miss S., who, unconscious of danger, also in- 
 haled the ' messenger of death ' with a similar exclamation, when Mrs. B., 
 who was standing near, reached out her hand for the envelope, but was 
 prevented from getting it by the entreaties of a fretful child to be taken up 
 in her arms. This gave time for sufficient reflection, and she admonished 
 the young ladies of the possible danger. The envelope was then carefully 
 folded, and with its fatal contents replaced in the drawer where it had 
 been since the 14th of October. This drawer had been almost daily 
 opened. On the following Saturday night, Nov. 10th, at 9 P. M., Miss S. 
 was taken sick with a chill, and Miss B. at about 2 A. M., some five hours 
 later, the period of incubation being less than seven days in both cases. 
 No other person handled the fatal envelope or in any way came in con- 
 tact with it, and there is, after the most careful inquiry, no suspicion of 
 any other source of infection in these two cases. Miss S. died on Oct. 
 14th, Miss B. on Oct. 16th."/ 
 
 10th. These qualities of yellow-fever infection, and especially its faculty 
 of reproduction (which only organisms possess), furnish almost conclusive 
 evidence that yellow fever is a germ disease produced by a specific con- 
 tagium vivum. 
 
 Many facts are patent which sustain the generally accepted opinion that 
 yellow-fever poison gains admission to the system through the medium 
 of atmospheric air. On the other hand, I know of no observations which 
 prove that the disease is ever communicated by food or drinks, or through 
 any other vehicle than atmospheric air. 
 
 In respect to atmospheric infection by yellow fever, localizations of 
 aerial impregnation are often observable, not common in other air-infect- 
 ing diseases. A certain district of a large and populous city may become 
 the seat of a sweeping and fatal epidemic, and yet no case occur outside 
 of this area of prevalence. It is customary to speak of these points of 
 epidemic prevalence as infected localities. If unprotected persons visit 
 such infected places, even for a short period of time, they are liable to 
 attacks of yellow fever, although they may take neither food nor drink 
 within the limits of infection and bring no fomites away with them. 
 Under these circumstances atmospheric impregnation is conclusive.
 
 ETIOLOGY AND SYMPTOMATOLOGY. 643 
 
 Bat it is difficult to determine how this infection of a locality has been 
 produced in the first place, and how, in the second place, it is maintained 
 sometimes for periods of from one to three months, with so little apparent 
 diminution or change in the liability to communicate yellow fever to un- 
 protected visitors within the limits of infection. 
 
 It seems highly probable that yellow-fever poison, after its exit from 
 the human body, attaches itself to various solid surfaces in proximity to 
 the sick, where, under suitable climatic conditions, it undergoes more or 
 less speedy processes of maturation in toxic qualities. The poison thus 
 matured is capable of being preserved with but little change for the 
 periods indicated above, and is communicable through the atmosphere for 
 short distances. It is also capable, by virtue of some unexplained pro- 
 cess or quality, of spontaneously extending its area of infection. But 
 this is at all times slow, and is readily interrupted by streams of water, 
 high walls, or even by much-travelled thoroughfares. 
 
 There are no instances in which the water-supply of cities has been 
 shown to have distributed yellow fever. 
 
 The periods of time which may intervene between exposure to yellow- 
 fever poison and attacks of the disease are extremely variable. The short- 
 est period of incubation which has come under my observation was about 
 twenty hours. In three cases in which I was able to fix the hours of 
 first exposure with precision attacks followed in 72 hours, 83 hours, and 
 101 hours, respectively. Of 55 unacclimated physicians who exposed 
 themselves at Memphis during the epidemic of 1878, 54 suffered attacks 
 of yellow-feyer. In these cases the periods of incubation varied from one 
 to twenty-five days, the average duration being ten days. These physi- 
 cians all remained steadfastly at their posts of duty ; consequently, the 
 attack which occurred on the twenty-fifth day was postponed for that 
 length of time during constant exposure in a locality most intensely in- 
 fected. 
 
 It must be true that many cases of individual resistance to the effects 
 of yellow-fever infection depend upon states of the system or idiosyncra- 
 sies which diminish liability to the action of the poison. In other words, 
 their personal receptivity to it is lessened by certain constitutional states. 
 
 That this position is correctly taken is proved by the fact that many 
 circumstances which violently disturb the system determine attacks in 
 persons who may have for a long time enjoyed immunity from them. 
 Anxiety, grief, fright, fatigue, or exposure to sudden wettings or cold 
 may precipitate attacks, either by disturbing vital processes by which the 
 system is ridding itself of the poison so far, at least, as to prevent an 
 accumulation great enough to occasion attacks or by lowering powers of 
 resistance through enfeeblement of nerve-force. 
 
 But it can be affirmed in regard to yellow-fever poison that it is not 
 more capricious or eccentric in its behavior as an infection than that of 
 scarlet fever. Each of these diseases may appear in a large family of un- 
 protected persons with a degree of violence which results in death in every 
 instance, and suddenly cease, leaving a greater or less number of the 
 household without attacks, though equally exposed with those who have 
 died. 
 
 One attack of yellow fever confers immunity from the disease during 
 after life. A person who has suffered an attack is said to be acclimated
 
 644 YELLOW FEVER. 
 
 or protected. Neither of these terms should be applied to those who 
 have not suffered attacks, however long they may have withstood ex- 
 posure during epidemics. It often occurs that persons who have escaped 
 attacks through many years of renewed exposure at last succumb to the 
 disease. On the other hand, I know of three well-authenticated instances 
 of immunity in a sweeping epidemic of persons whose mothers had suf- 
 fered attacks during the gestations which respectively resulted in their 
 births. 
 
 While negroes are susceptible to yellow-fever infection, attacks are far 
 less fatal than among whites. 
 
 SYMPTOMS IN MILD OK SIMPLE CASES. Yellow fever is usually 
 sudden in its onset. Persons are liable to be seized while pursuing their 
 ordinary avocations, or, as often occurs, the attack may begin during the 
 night. The initial symptoms are chilliness or cold sensations, seldom 
 amounting to a decided rigor. Reaction is usually prompt and decided, 
 the temperature reaching within a few hours 102 to 105 F. Yellow 
 fever is not a disease in which it is very common to observe excessive 
 body heat. 
 
 As the fever is established, the countenance becomes flushed and the 
 eyes injected and glistening. Frontal headache and lumbar pain are 
 experienced very early in the attack, and are liable to become more intense 
 during the progress of the fever. Muscular neuralgias, especially in the 
 lower extremities, are not uncommon. 
 
 During the early period of the attack the tongue is indifferent 
 as a symptom. It is generally moist and free from any coating. In 
 cases attended by much furring of the tongue careful investigation is 
 pretty sure to disclose the fact that it has been brought about by some 
 pre-existing state of disease. 
 
 The bowels are generally inactive, though naturally impressible to 
 cathartic drugs. The stomach is querulous from the inception of the 
 attack to its conclusion. Vomiting may not occur spontaneously, 
 but it is easily provoked by repletion of the stomach with any descrip- 
 tion of ingesta or by harsh or disgusting medicines. The acts of emesis 
 are sudden and short in duration. Bile is a very uncommon constituent 
 of the matters ejected. Whether vomiting has occurred or not, patients 
 nearly always express repugnance to the weight of the physician's hand 
 over the epigastrium. In the very mildest cases is seems to excite gastric 
 distress and a tendency to emesis. The stomach and bowels are liable to 
 distension by flatus, sometimes to the extent of producing colicky pains. 
 Gaseous eructations are common. 
 
 During and shortly succeeding the cold stage the urine may be some- 
 what increased in amount, but after the fever is established both the 
 quantity and the specific gravity are notably lessened. Albumen seldom 
 appears in the urine during the first twenty-four hours of an attack. In 
 very mild cases it is altogether absent throughout. 
 
 Delirium is not unusual during the fever. Among children attacks 
 are often ushered in by convulsions. In such cases delirium may be 
 persistent and alarming in violence. 
 
 The pulse in the early stage of yellow fever is slower in proportion to the 
 temperature than in most other acute diseases. This is more especially true 
 in respect to mild cases. Another characteristic feature of the pulse in
 
 SYMPTOMS IN MILD OR SIMPLE CASES. 645 
 
 yellow fever is that it declines in frequency before the fever has reached 
 its maximum. In the mildest forms of the disease the temperature will 
 attain its highest record within twelve hours. It then rapidly defervesces, 
 never to return again. But in some cases of a moderately mild form the 
 body heat does not reach its acme of intensity until the second day, occa- 
 sionally not until the third or fourth day. In these cases also the pulse 
 is apt to decline in frequency before the fever has culminated. There are 
 therefore no fixed laws which govern the duration of the hot stage of 
 yellow fever. Those which relate to the pulse are more uniform. 
 
 The following clinical reports of two cases support this statement. The 
 detailed account of the symptoms establishing their diagnosis as mild 
 cases of yellow fever is omitted. 
 
 Susie W , white, aged seventeen years, was admitted to Charity 
 
 Hospital on August 28, 1878. First observation, nine hours after the 
 beginning of the attack, pulse 100, temperature 104.6. Morning 
 of 29th, pulse 94, temperature 102.8; evening, pulse 80, temperature 
 101.5. Sanguineous discharge from vagina began on 29th; patient sup- 
 posed it to be her proper period. Aug. 30th, pulse 80, temperature 
 99.2; convalescent and dismissed from further observations. In this 
 case the urine presented a trace of albumen early on the second day, but 
 as the menses appeared shortly after the urine was obtained, the presence 
 of albumen may be in that manner accounted for. 
 
 Bessie L , white, age twenty-seven years, admitted to Charity 
 
 Hospital on August 28, 1878. First observation, twelve hours after 
 beginning of attack, pulse 100, temperature 100.6. 29th, pulse 76, 
 temperature 102.3. 30th, pulse 64, temperature 101.5. Sanguineous 
 discharge from vagina began on 30th and continued until Sept. 4th ; this 
 was two weeks before the patient's regular period. The urine showed 
 traces of albumen at date of admission. Discharged, cured, Aug. 31st. 
 It may also be stated of the pulse of yellow fever that it is easily com- 
 pressible and often gaseous in character. 
 
 Perspiration is probably an incident in the natural clinical history of a 
 case of yellow fever. It occurs spontaneously if the. patient's surface is 
 protected from those influences which conflict with its appearance. It is 
 not critical in any sense of the word, and may coexist with high tempera- 
 ture. 
 
 Yellow fever is considered to have two clinical stages. The first is the 
 paroxysm. This is made to include the cold stage and succeeding fever. 
 The cold stage is often almost or quite inappreciable, and when this is not 
 the fact it is in simple cases a very unimportant event. It is therefore 
 quite convenient to include it with the fever under the term paroxysm. 
 The paroxysm of a simple case is terminated by a subsidence of the fever 
 to nearly or quite a normal temperature. Sometimes the temperature 
 falls below the normal standard. 
 
 The neuralgias and subjective sufferings are greatly mitigated or cease 
 altogether. Thirst and restlessness are relieved, and the patient sees 
 before him a delicious, but too often treacherous, mirage of restoration to 
 perfect health. This is termed the stage of calm, perhaps because it often 
 precedes a tempest of fatal symptoms. 
 
 In mild cases convalescence begins at the termination of the paroxysm, 
 and may proceed without interruption until complete re-establishment of
 
 646 
 
 YELLOW FEVER. 
 
 health has been accomplished. But in the very mildest cases the process 
 of recovery is easily interrupted. 
 
 In these simple forms the tendency to hemorrhage first manifests itself 
 in the calm stage. The gums become red, tumid, and spongy, the tongue 
 pointed and red at the tip. Epistaxis is liable to occur. The eyes and 
 skin may be slightly yellow, and the urine may show traces of albu- 
 men. However mild the other symptoms may appear, the tendency to 
 hemorrhage, to albuminous urine, and to jaundice in the calm stage 
 bears a direct relation in frequency of occurrence and in degree to the 
 blood-stasis, or sluggish capillary circulation, of the first stage. 
 
 The foregoing is a recital of the clinical phenomena of typical and 
 simple forms of yellow fever. The departures from type have been 
 divided by different writers into a variety of forms. The most important 
 of these will be referred to in connection with suggestions as to treatment. 
 
 PROGNOSIS. Prognosis is variable in different epidemics, this observ- 
 ation being understood to apply to the same localities. Some of those 
 circumstances which affect epidemic force, so as to increase the mortality- 
 rate, are appreciable. If an epidemic invades a population after an 
 interval of exemption sufficiently long to allow a large number of unpro- 
 tected persons to have accumulated in its midst, the crowding of the sick 
 will increase the death-rate. We may naturally assume that this is 
 attributable, first, to sheer multiplication of the infection ; second, to 
 lack of proper attention to the sick, and to fright, grief, exhaustion, etc. 
 
 Tabulated Abstract of Practice in Yellow-Fever Epidemic of 1878, New 
 Orleans Charity Hospital. 
 
 AGES. 
 
 July. 
 
 August. 
 
 September. 
 
 October. 
 
 Total. 
 
 Per cent. 
 
 White. 
 
 1 
 
 i 
 
 I 
 
 i 
 
 1 
 
 d 
 
 fc 
 
 I 
 1 
 
 6 
 
 3 
 
 
 i 
 
 3 
 3 
 
 i 
 
 T3 
 
 
 
 I 
 
 O 
 K 
 
 | 
 1 
 
 73 
 
 ! 
 
 d 
 iz; 
 
 3 
 
 3 
 
 d 
 
 K 
 
 Under 5 
 
 
 
 7 
 2 
 26 
 246 
 75 
 7 
 
 3 
 1 
 
 7 
 141 
 45 
 6 
 
 3 
 
 1 
 25 
 175 
 83 
 5 
 
 1 
 
 1 
 
 6 
 91 
 45 
 1 
 
 7 
 61 
 
 18 
 
 1 
 
 24 
 10 
 1 
 
 10 
 3 
 66 
 500 
 185 
 15 
 
 4 
 2 
 16 
 265 
 106 
 10 
 
 40.0 
 66.66 
 24.2 
 53.0 
 57.3 
 60.66 
 
 5 to 10 
 
 
 
 10 to 20 
 
 8 
 18 
 9 
 2 
 
 3 
 9 
 6 
 2 
 
 20 to 40 
 
 4u to 60 
 
 60 to 80 
 
 
 Total 
 
 37 
 
 20 
 
 363 
 
 203 
 
 292 
 
 145 
 
 87 
 
 35 
 
 779 
 
 403 
 
 51.7 
 
 
 Black. 
 
 
 
 
 
 
 
 
 
 
 
 
 10 to 20 
 
 
 
 2 
 11 
 
 2 
 
 3 
 
 1 
 
 5 
 8 
 1 
 
 1 
 1 
 
 1 
 5 
 3 
 
 1 
 1 
 
 8 
 24 
 6 
 
 5 
 3 
 
 20.8 
 50.0 
 
 20 to 40 
 
 
 
 40 to 60 
 
 
 
 
 
 
 Total 
 
 
 
 15 
 
 4 
 
 14 
 
 2 
 
 9 
 
 2 
 
 38 
 
 8 
 
 21.0 
 
 
 
 
 Grand t 
 
 otal 
 
 817 
 
 411 
 
 50.3 

 
 PROGNOSIS. 
 
 647 
 
 Prognosis is especially bad in hospital practice. The foregoing statis- 
 tics of cases admitted to the Charity Hospital of New Orleans during 
 the greater part of the epidemic of 1878 illustrate the usual results of 
 hospital practice. 
 
 Many of these patients were conveyed to the hospital in extreme con- 
 ditions ; occasionally they were moribund on admission. It is hazardous 
 to the life of a yellow-fever patient to transfer him over the rough streets 
 of a city, often for two or three miles, unless this is done in the very 
 earliest hours of the attack. 
 
 Prognosis is seriously influenced by the condition of the patient at the 
 moment of attack. If pregnancy exists or delivery has just occurred, it 
 is, under most circumstances, extremely unfavorable. Fatigue, anxiety, 
 despair, or grief, all render prognosis more gloomy. 
 
 The march of temperature is also important in determining fatal 
 results. 
 
 The following statistics show the influence of temperature in relation 
 to mortality from yellow fever : 
 
 
 First 
 day. 
 
 Died. 
 
 Second 
 day. 
 
 Died. 
 
 Third 
 day. 
 
 Died. 
 
 Fourth 
 day. 
 
 Died. 
 
 Fifth 
 day. 
 
 Died. 
 
 106 
 
 
 
 3 
 
 2 
 
 1 
 
 1 
 
 2 
 
 2 
 
 
 
 105 
 
 9 
 
 3 
 
 5 
 
 4 
 
 2 
 
 5 
 
 2 
 
 2 
 
 2 
 
 2 
 
 104 
 
 18 
 
 10 
 
 23 
 
 13 
 
 8 
 
 3 
 
 2 
 
 2 
 
 3 
 
 2 
 
 103 
 
 14 
 
 4 
 
 11 
 
 8 
 
 2 
 
 2 
 
 3 
 
 1 
 
 2 
 
 
 It will be seen from this table that the danger line of temperature in 
 yellow fever descends as the case progresses. 
 
 It may again be stated that yellow fever, like scarlet fever, exhibits 
 such striking contrasts in its mortality-rate that it is hardly possible to 
 assert any average standard. It is true that in this disease, as in all 
 others, statistical accumulations tend to correct their own errors in exact 
 proportion to the magnitude of the collections. 
 
 In 1878 some 36,000 cases occurred in Louisiana, of which number 
 not less than 6000 were fatal, a percentage of 16.66. The results of pri- 
 vate practice in New Orleans are exhibited in the following statistics : 
 Four of the principal practitioners in the city treated in private practice 
 975 patients 909 white and 66 colored. Of the former, 92, or 10.11 
 per cent., died ; of the colored only 2 died. The cases and deaths among 
 the whites, classified by age, were as follows : 
 
 AGE. 
 
 Cases. 
 
 Deaths. 
 
 Per Cent. 
 
 
 206 
 233 
 183 
 232 
 
 47 
 4 
 
 26 
 20 
 9 
 39 
 6 
 2 
 
 12.67 
 8.61 
 4.9 
 16.7 
 12.7 
 50 
 
 
 lOto 20 " u 
 
 20 to 40 " " 
 
 40 tr fiO " u 
 
 fiO to Kft " " 
 
 
 The physicians above quoted lived in diiferent parts of the city. All of 
 them extended their visits and professional services to the sick to the
 
 648 YELLOW FEVER. 
 
 very limits of physical endurance, and consequently included in the 
 above lists some patients who were not able to procure the comforts and 
 attention necessary to the sick. Some cases also were included to which 
 the physician was only brought that he might sign the death-certificate 
 and so avoid the coroner's inquest. After making allowance for increase 
 of mortality on these scores, I think it safe to assert that the best results 
 obtained in private practice varied from 7 to 10 per cent, of mortality- 
 rate. 
 
 DIAGNOSIS. While there is no one symptom pathognomonic of yellow 
 fever in every stage of the disease, its differential diagnosis is nearly 
 always possible. The morbid action of its special poison produces phe- 
 nomena sufficiently characteristic to prove its presence. The sudden 
 attack, the slight cold stage, the frontal and lumbar pain, and the capil- 
 lary congestion are important diagnostic symptoms. 
 
 Even in mild attacks this capillary blood-stasis is usually sufficient to 
 alter the patient's countenance to such a degree as to attract attention. A 
 great many different adjectives are used in description of the countenances 
 of yellow-fever patients. While no one among them is constantly 
 applicable, the presence of a changed facial expression should enlist the 
 physician's attention and incite investigation. If this altered countenance 
 be associated with watery or glistening injected eyes, the probability of 
 yellow fever is increased. 
 
 The slow pulse which coexists with elevated temperature is a point 
 of much diagnostic value. But it must be remembered that this symptom 
 is not peculiar to yellow fever. I have noted this lack of correlation of 
 of pulse and temperature in several cases of dengue. It is also not 
 infrequently found in ordinary cases of jaundice. The slow pulse of 
 yellow fever must be attributable to the special action of the poison 
 upon the nervous system. The heart's action may be slowed by influ- 
 ences exerted directly or through the retrograde effects of the delay of 
 blood-currents in the capillary distribution. 
 
 Albuminous urine is a symptom of much diagnostic importance. 
 
 A tendency to hemorrhage may be safely stated to exist in all cases of 
 yellow fever. In the mildest cases hemorrhage may not actually take place 
 unless the patients be non-gravid females within the ovulating limits of 
 life. These patients seldom pass through yellow-fever attacks without san- 
 guineous vaginal discharges. But even in the mildest cases yellow fever 
 establishes the hernorrhagic diathesis to an extent sufficient to render 
 the 'occurrence of hemorrhage an imminent event. This fact is shown 
 first, by the congested and tumid gums, from which blood can be readily 
 pressed, and also by the still more important circumstance that medical or 
 hygienic mismanagement is so quickly and certainly followed by black 
 vomit or by hemorrhages from other parts of the system. Capillary conges- 
 tion is undoubtedly an important factor in the production of hemorrhages 
 in yellow fever, since we cannot otherwise account for the liability to 
 hemorrhage which is so general in this disease. 
 
 The yellow color of the skin and eyes during life, and of the tissues 
 and serum of the cadaver, is probably due to the coincident influence of 
 two causes : first, to the coloring matter of the red corpuscles diffused in 
 the serum of the blood ; second, to an accumulation of secondary blood- 
 poisons. The occurrence of the yellow color and its intensity bear a
 
 TREATMENT. 649 
 
 direct relation to the sluggishness of capillary circulation during the par- 
 oxysm. It appears likely, therefore, that the yellowness is principally 
 ascribable to coloring principles derived from dissolution of the blood, to 
 which capillary obstruction would so strongly predispose this fluid. 
 
 Schmidt has made a very careful resumS of the pathological changes 
 found after death from yellow fever. The most important and uniform 
 of these affected the nervous system, liver, and kidneys. They consisted 
 for the most part of hypersemic conditions, not infrequently attended by 
 points of extravasation and of degenerative changes. The latter are 
 principally found in the liver, and bear some relation to the duration of 
 the case, and it may be also to the degree and persistence of the pyrexia. 
 When the liver is the seat of fatty degeneration, it is yellowish in color 
 in whole or in parts. It is then sometimes spoken of as the cafe au 
 lait or the box-wood liver. 
 
 In cases which run a very rapid course these changes are not observed, 
 but only those which indicate congestion are found, and often hemorrhagic 
 puncta. In these instances the depending portions of the body have dark 
 or livid ecchymoses. 
 
 TREATMENT. There are two propositions to which due attention 
 should be given before formulating rules for the treatment of yellow 
 fever. The first of these is, that yellow fever is strictly a self-limited 
 disease, and therefore is insusceptible of jugulation. Both clauses of this 
 proposition are indisputably true. Cases have been observed in which 
 mitigation of symptoms and abridgment in duration appeared to follow 
 spontaneous diarrhoea. Such events must be extremely uncommon, since 
 in my large experience I know of but one such instance supported by 
 good testimony. 
 
 Efforts to abort the disease by purgatives, bleedings, cold baths, qui- 
 nia, etc. have all signally failed. Among the possibilities of the future 
 is the discovery that some drug or combination of drugs is capable of 
 meeting yellow-fever poison in the field of the circulation and antago- 
 nizing it sufficiently to rescue the victim from its fatal toxic effects. 
 
 The second proposition is, that the formative stages of the disease 
 that is, the early hours of the paroxysm afford the most precious moments 
 for instituting such medication as may be considered proper. This prop- 
 osition applies no doubt to a number of other acute affections, but in no 
 one among them all is it so important to be regarded as in yellow fever. 
 The primary effects of the poison are so boldly outlined that it appears 
 highly probable that the damage it exerts upon the economy is chiefly 
 inflicted during the paroxysm. This affords an additional reason why 
 efforts at medication should be principally restricted to the paroxysm and 
 to the earliest periods of that stage. 
 
 It is probable that during an attack of yellow fever the patient's hold 
 upon life is more or less secure in direct ratio to the number of functions 
 which retain their physiological integrity fairly well. The suggestion of 
 such a fact should exclude all scholastic or routine rules of treatment. 
 
 In simple forms of yellow fever the first desideratum of the practi- 
 tioner is to become acquainted with the patient's condition at the moment 
 of attack. If this has occurred after eating indigestible food or after a 
 hearty meal of any description, the stomach should be emptied. Ipecac- 
 uanha may be given in warm water or chamomile infusion until this result
 
 650 YELLOW FEVER. 
 
 has been accomplished. After emesis, provided this should have been 
 considered necessary or as a first step of treatment under other circum- 
 stances, a purgative is usually given. The benefits of purgation are, in 
 my opinion, limited to the act of ridding the bowels of any fecal accumu- 
 lations present. For this purpose those purgatives which combine a due 
 degree of efficiency with inoifensiveness in operation have appeared to me 
 to be the best. Castor oil is at the head of this class. An ounce may be 
 given to an adult in some acceptable vehicle. This may be followed by 
 an enema of tepid water when required. Salines are more agreeable to 
 the palate, but far too unmanageable in their cathartic effects to be 
 adopted generally. 
 
 Some very good practitioners believe that a mercurial purge at the 
 onset of the attack impresses the subsequent career of the case in 
 some favorable manner. I do not share in this opinion, but I do select 
 calomel as the preliminary purgative in cases where much gastric irrita- 
 bility attends the early periods of the attack. I exhibit it also in those 
 cases in which previous indisposition had occasioned coating of the 
 tongue, or in which other conditions of systemic derangement existed for 
 which calomel is usually prescribed. 
 
 In many cases it is desirable to avoid the disgust at taking a purgative 
 or the perturbation it may occasion by its action. Enemas of tepid 
 infusion of linseed or of milk and water may be substituted, with the 
 addition of castor oil when necessary. 
 
 In the early hours of the attack warm pediluvia are always grateful 
 and proper. They are to be given by placing a basin of warm water 
 near the foot of the bed, beneath the covering of a light blanket or sheet, 
 and allowing the patient's feet to remain immersed for ten or fifteen 
 minutes. If the feet are cold, mustard should be added. During the 
 foot-bath the patient usually falls into a perspiration which is sometimes 
 profuse and general. 
 
 Perspiration is a desirable event during the paroxysm, although it is 
 not, like the sweatings of the malarial fevers, critical, in the sense 
 of being accompanied by a marked decline in temperature. The idea 
 that sweating is beneficial is so strongly and generally prevalent as 
 to give countenance to the erroneous practice of resting the cure of the 
 disease upon its production and maintenance. I have seen valuable lives 
 sacrificed by obstinate persistence in measures to promote diaphoresis, 
 more especially in the later hours of the paroxysm or in the succeeding or 
 calm stage. It is quite sufficient to encourage the perspiration by the 
 pediluvia and by a moderate allowance of cool, palatable drinks. Much 
 value is attached by non-professional persons to a warm infusion of 
 orange-leaves or some other warm and grateful beverage. When agree- 
 able to patients I permit them in moderate amounts, but do not regard 
 them as especially valuable. 
 
 Jaborandi has been used in yellow fever. Strong hopes were quite 
 naturally based upon the action of this drug in exciting excretory func- 
 tions, especially diaphoresis, but the observations of my friend Dr. 
 Thomas Layton and of others show that it possesses no special value, 
 while it frequently increases the vomiting and has to be discontinued. 
 
 After the bowels have been relieved of fecal accumulations it is good 
 practice to exhibit a scruple of quinia in solution with ten to thirty
 
 TREATMENT. 651 
 
 drops of tincture of opium, by rectal injection. Infusion of linseed or 
 mucilage of elm-bark or gum-arabic are the best vehicles. 
 
 The combined action of the quinia and opium mitigates the patient's 
 headache and lumbar pains. But the influence of these drugs is not lim- 
 ited to their effect on the nerves of sensation. In quite a proportion of 
 cases reaction is not so prompt or complete as usual ; or reaction may be 
 quite pronounced, and still the surface may alternate between a dry and a 
 perspiring state. These oscillations of function of the organic nerves are 
 also often corrected by this prescription. In the great majority of simple 
 cases no other medication than this is requisite or proper, for no medica- 
 tion is proper in yellow fever unless it is requisite. 
 
 When the neuralgias are excessively violent, opium may be again 
 administered, preferably by enema, and in combination with bromide of 
 potassium or chloral hydrate. But the eifects of opium in limiting excre- 
 tory function must always be borne in mind and carefully avoided. 
 
 External applications are very efficacious in relieving the neuralgias. 
 In the southern part of this country the " eau sedative" of Raspail is 
 greatly used. This is a mixture of ammonia, camphor, and common salt in 
 solution, and may be prepared extemporaneously. The applications may 
 be made hot or cold, but if used cold they must be continuously kept up. 
 It is therefore better to use them warm if sufficiently effective. Stimu- 
 lating embrocations of turpentine or mustard, or dry or wet cups, are 
 sometimes resorted to for relief of pain. 
 
 Excessive temperature demands attention and antagonistic treatment in 
 direct measure with its persistence, its degree, and its occurrence in 
 advanced periods of an attack. 
 
 In the epidemic of 1867, I used gelsemium as an antipyretic in fifty 
 cases or more, but the results were so unsatisfactory that I have quite 
 abandoned its exhibition. I have given quinia as an antipyretic, but 
 never in doses of more than a scruple. In these doses it has failed to 
 accomplish the desired result in the great majority of the cases. Perhaps 
 its antipyretic effects are limited to those cases in which malaria is a 
 known or an unknown complication. 
 
 I have exhibited small doses of digitalis with apparent benefit, but 
 aconite and veratrum viride I have long since discarded. The physician 
 cannot afford to sacrifice gastric quietude and competency of function to 
 the use of remedies whose value as antipyretics is, to say the most, quite 
 doubtful. 
 
 Cold has for a long period of time been brought into use as an anti- 
 pyretic in yellow fever. Its positive value and instantaneous action 
 should be constantly borne in mind, and in the hyperpyrexia of yellow- 
 fever it constitutes by far the most reliable remedy, though its mode of 
 application must be carefully adapted to the degree of fever present and 
 to the susceptibilities of the patient. Cold drinks in limited quantities, 
 but frequently repeated ; cold spongings of the surface, or the use of the 
 cold pack, especially in very high degrees of body heat; large injections 
 of cold water per rectum, which may be passed off and repeated once in 
 two to four hours, form safe and effective modes of treatment. 
 
 Hemorrhages are a constant source of anxiety in yellow fever. It is 
 very true that persons do not often die from actual loss of blood. I do 
 not know that I have ever witnessed such an event except when the
 
 652 YELLOW FEVER. 
 
 blood was poured out from a recently-emptied uterus. But the chances 
 of recovery are lessened, because the hemorrhagic state indicates a degree 
 of spoliation of both the fluids and solids of the system incompatible 
 with maintenance of life. When this condition of constitution is once 
 established, the stomach rarely escapes, and in a majority of instances it 
 is the first, and sometimes the only, bleeding surface. The treatment 
 should be directed, first, to the great indication of correcting the hem- 
 orrhagic diathesis; secondly, to quiet gastric irritability, in order that 
 vomiting shall not cause rupture of capillaries. To meet the first indi- 
 cation I regard nutrition and stimulants as the most important measures 
 of treatment. The mode of administration will be specially referred to 
 under the head of alimentation. 
 
 Haemostatic remedies, given as specific treatment, generally fail in 
 accomplishing the purpose for which they are administered. It has 
 always appeared to me that those therapeutic agents which are capable 
 of controlling hemorrhage where yellow fever is not present are com- 
 pletely neutralized by the effects of its toxic agent upon the vaso-motor 
 nerves. Consequently, while ergot, turpentine, gallic acid, and other 
 like remedies may be resorted to, too much hope should not be enter- 
 tained as to their good effects. 
 
 Some excellent practitioners rely greatly on preparations of iron. The 
 tincture of the chloride is undoubtedly the best. This may be given in water 
 or upon shaved ice in doses of five or ten drops every half hour. To 
 allay the gastric irritability pellets of ice should be swallowed. Effer- 
 vescing drinks may be given with benefit. 
 
 T have often used with good results the following prescription : 
 Tfy. Sodii Bicarb. gr. xx; 
 
 MorphiaB Sulph. gr. ss. 
 
 Aquse Lauro-Cerasi, 
 Aquse Menth. Pip. da f^iv. M. 
 S. Teaspoonful after every act of emesis. 
 
 Occasionally I have given the following prescription : 
 
 ty. Creasoti gtt. viij ; 
 
 Tinct. Opii Deodorat. gtt. xl. 
 
 Aquae Menth. Pip., 
 
 Muc. Acacife da. f siv. 
 
 S. Teaspoonful after every act of emesis in iced Seltzer or Apolh'uaris 
 water, or in champagne. 
 
 Sometimes a few drops of chloroform in a spoonful of iced mucilage of 
 acacia act favorably. 
 
 In cases which appear utterly hopeless the physician, acting desper- 
 ately, is sometimes able to save life by treatment which could scarcely 
 be safely recommended. I once administered a fourth of a grain of 
 morphia to a child of seven years, who, after a sleep of ten hours, ceased 
 to throw up black vomit and recovered. 
 
 External applications to the epigastrium usually afford some relief 
 to nausea at any stage of yellow fever. Mustard or aromatic cata- 
 plasms may at all times be used with hopes of favorable effects. Towels 
 wrung from cold water are very efficacious. Sometimes a drachm 01 two 
 of chloroform dashed over them increases their anti-emetic action. 
 
 Suppression of urine is generally a symptom of fatal import.
 
 TREATMENT. 653 
 
 Attempts may be made to establish the secretion by dry or wet 
 cups in the lumbar region, by warm applications around the loins, or 
 by mustard cataplasms or blisters. If the condition of the patient's 
 stomach is such as to permit this practice, copious diluent drinks and 
 diuretics should be given. Lemonade holding bitartrate of potassium in 
 solution is generally the most acceptable, and probably the most efficient. 
 Some physicians think they oftener obtain good results from small and 
 frequently repeated doses of turpentine. I can bear testimony to the 
 good results which sometimes follow large rectal injections of warm or 
 cold water, the latter being preferable when there is high fever. 
 
 In certain cases of yellow fever reaction from the cold stage is feeble 
 and imperfect, or perhaps may not occur at all. This departure from 
 type is very fatal. The patients are stupid, sometimes semi-comatose and 
 incoherent, from the earliest hours of the attack. The face is listless, 
 drunken, or idiotic in expression. The color of the skin is dark olive 
 and almost livid. The print of a hand on the chest is very slowly eifaced. 
 Sometimes the surface is covered with a peculiarly unctuous perspiration. 
 The pulse is feeble and compressible ; the temperature seldom more than 
 one or two degrees above the normal standard. Albuminous urine is 
 found during the first day. Death, attended by convulsive rigors, gen- 
 erally closes the scene within seventy-two hours from the moment of 
 seizure. 
 
 Hot mustard-baths should be resorted to. Blood may be drawn by 
 cups or leeches from the back of the neck or temples, and this may be 
 followed by the application of a blister. Morphia and atropia may be 
 exhibited subcutaneously in small doses, to be repeated as often as proper. 
 Quinia may be administered per rectum or by the hypodermic method. 
 Lastly, pilocarpine may be thrown into the tissues in sufficient doses to 
 procure its vigorous physiological action. 
 
 Almost in precise symptomatic contrast with these cases of failure in 
 reaction is another form of attack, in which violent disturbances of 
 nerve-function occurs ; such cases often being characterized as congestive 
 in type. The most typical of these attacks are among children or ado- 
 lescents. If attended by noticeable chill, it is ordinarily slight. Reac- 
 tion is quick and excessively violent. The face is flushed, the eyes 
 injected, and convulsions with delirium are liable to occur as early symp- 
 toms. I have watched with much interest the alternate flushings and 
 pallor of the countenance occurring in these cases, such as are often 
 observed in basilar meningitis. 
 
 The treatment in this type of attacks should include chloroform by 
 inhalation in sufficient amount to control convulsions. Chloral hydrate 
 may be administered by enema, or morphia hvpodermically. Cathartic 
 doses of calomel often exert a beneficial effect. Leeches or cups, to }>e 
 followed by cold applications or by blisters, may be applied about the 
 head or neck. But cupping and leeching should only be resorted to in 
 the treatment of grave symptoms, since obstinate hemorrhage is liable 
 to occur from any and every point from which the cuticle has been 
 removed. 
 
 Yellow fever is often masked during the paroxysm by some pre-exist- 
 ing disease. Malarial fevers, the febrile states of pulmonary consump- 
 tion or of the recently-delivered female, may all mask the early clinical
 
 654 YELLOW FEVER. 
 
 phenomena to such a degree that the most experienced and vigilant 
 practitioners are sometimes astonished to find black vomit, suppression 
 of urine, and all those symptoms which mark the last stages of the dis- 
 ease, suddenly developed. 
 
 Walking cases should be classed in the same category as masked forms. 
 In these instances the early symptoms are so slight as to be overlooked or 
 neglected by their subjects. They continue to prosecute their usual pur- 
 suits until, by sheer exhaustion, they are driven to beds from which they 
 seldom arise. 
 
 The hygienic and dietetic management of yellow-fever patients is 
 extremely important, and the strictest attention must be paid to the 
 condition and discipline of the sick chamber. In this disease those 
 occurrences and circumstances which in other affections would be 
 reckoned as unimportant and trivial become matters of serious mag- 
 nitude. 
 
 The physician, by a composed and cheerful demeanor, often decides 
 which end of the balance shall go down. But an intelligent, experienced, 
 and faithful nurse is equally as important as the excellent physician. 
 
 The patient should be confined in strictly recumbent positions, and all 
 drinks and foods must be given through tubes or from pap-cups. It 
 frequently occurs that patients are unable to void the bladder in such 
 positions. In these cases the catheter should be used, rather than suffer 
 any violation of the rule which demands a maintenance of unbroken 
 decubitus. 
 
 The sick room should be kept freely ventilated, and the patient': 
 bedding should be changed, when requisite, by removing him to one 
 side of the bed while the other is renovated. If the patient's night- 
 shirt becomes soiled and disagreeable, it may be cut so as to remove it, 
 and another, cut in the same manner, may be substituted and stitched 
 together. The room must be kept quiet, and useless visiting entirely 
 forbidden. 
 
 Cool and grateful drinks may be given in any stage or state of yellow 
 fever if demanded by patients. The quantity allowed at one time should 
 be small, since over-distension of the stomach almost certainly causes vom- 
 iting. Effervescing drinks are nearly always grateful, and are better toler- 
 ated than others. Seltzer-water and lemonade, or Seltzer or Apollinaris on 
 shaved ice, are to be recommended. Sometimes patients call for sparkling 
 wines or beers. I never refuse them or any other alcoholic drink asked 
 for in any stage of the disease. Wine surely possesses valuable thera- 
 peutic effects in yellow fever. 
 
 Alimentation must be severely controlled by the physician, and the 
 tolerance and effects constantly watched. Even to the most experienced 
 physician the kind of food to be selected, and the time and manner of 
 administration, constitute difficult problems. In simple forms of the 
 di.sea.se food had better be strictly withheld during the continuance of the 
 paroxysm. Even after the stage of calm has been reached, sufficient time 
 should be allowed to elapse to enable the physician to form some estimate 
 of the degree of damage his patient has suffered and his competency to 
 retain foods and be nourished by them. This question can seldom be 
 answered in a decided manner, except through a cautious trial of some 
 bland and inoffensive food.
 
 TREATMENT. 655 
 
 On the third or fourth day of sickness a single tablespoonful of iced 
 milk may be given, and the immediate consequences closely watched. If 
 no retching or gastric uneasiness should ensue, it may be repeated at the 
 end of thirty minutes. Some physicians prefer to begin with spoonful- 
 ful doses of equal parts of sweet milk and thin barley-water. In my 
 own experience chicken-water has proved to be the most universally 
 acceptable, as well as the most beneficial, of all the various forms of 
 nutriment to be chosen as a first venture. I have frequently combined 
 this with barley-water when first given. In this cautious and tentative 
 manner even the most experienced physician prefers to proceed, rather 
 than to attempt to prescribe rules of diet in an abstract and arbitrary 
 manner. 
 
 If these light articles of diet are well borne, they are to be gradually and 
 watchfully exchanged for beef-essences, the blood of a rare beefsteak, and 
 the more substantial broths. Solid articles of food should not be allowed 
 during the first ten days after an attack, and for still longer periods patients 
 should be admonished against excesses in eating, and especially in respect 
 to indigestible articles. Those lesions of the blood and of the stomach, 
 and those grave disorders of nerve-function which occasion hiematemesis 
 in yellow fever, are slowly repaired. Instances are reported in which 
 black vomit and death have followed excessive eating and drinking ten 
 or twenty days after dismissal from treatment. 
 
 There are, however, certain conditions which are liable to complicate 
 yellow fever which demand a course of dietetic procedure different from 
 that which I have recommended. Thus, children cannot bear privation 
 of food until the paroxysm is over if its duration is long. In like man- 
 ner, a more supporting course is required in most of those cases in which 
 yellow fever occurs as an intercurrent affection, in all those cases which 
 are termed typhoid or adyuamic per se, and, more emphatically still, in 
 every case in which hemorrhages are occurring. A failing pulse should 
 in all instances admonish us to resort to nourishment and stimulants. 
 
 It is a fortunate circumstance that in yellow fever the lower bowel is 
 
 fenerally in a state favorable for the retention of nutritious enemas, 
 n the most trying and critical hours of desperate cases I have seen 
 patients tided through by the use of skilfully prepared and skilfully 
 administered injections of some suitable meat-essence. When insomnia 
 exists, chloral hydrate or bromide of potassium may be conveniently 
 given in these vehicles. 
 
 It is evident that the discussion of the vastly important sanitary ques- 
 tions pertaining to the prevention of yellow fever cannot be appropri- 
 ately discussed in the present article.
 
 DIPHTHERIA. 
 
 BY A. JACOBI, M. D. 
 
 DEFINITION ; SYNONYMS ; HISTORY. Diphtheria is a specific, infectious, 
 and contagious disease, characterized principally by epithelial changes in. 
 and the exudation of fibrin on and into mucous membranes, the surface of 
 wounds, and the rete Malpighii, thereby constituting the so-called pseudo- 
 membrane. Under the names ulcus syriacum, ulcus segyptiacum, garotillo, 
 morbus suffocans, morbus suffocatorius, affectus suffocatorius, pestilentis 
 gutturis affectio, pedancho maligna, angina maligna, angina passio, mal 
 de gorge gangr6neux, ulc&re gangr6neux, angina polyposa, angine couen- 
 neuse, cynanche, croup, diphtheritis, and diphtheria, the disease has been 
 known and described at different periods by the writers of different 
 nations. The Hippocratic writings and some remarks in the Talmud 
 allow of some doubt in regard to their explanation. Whether their 
 authors observed or recognized diphtheria cannot be proven. There is 
 less doubt in regard to Archigenes, quoted by Oribasius. Areta?us of 
 Cappadocia is notably the first, if we except Asclepiades only, who is said 
 to have performed laryngotomy. The description of the pharyngeal and 
 laryngeal manifestations furnished by the former, however, can leave no 
 doubt in our minds that he knew diphtheria and recognized it. Galen, 
 in his remarks on the Chironian ulcer, tells us that the pseudo-membrane 
 was gotten rid of by coughing when the respiratory passages were affected 
 by the disease, and by hawking when the disease was in the pharynx. 
 Caelius Aurelianus recognized diphtheria of the pharynx and larynx, as 
 well as the diphtheritic paralysis of the soft palate; it is to him we are 
 indebted for the information that Asclepiades resorted to scarification of 
 the tonsils, and even to laryngotomy. Ae'tius in the fifth century distin- 
 guished white and grayish patches and gangrenous degeneration, observed 
 paralysis of the soft palate, and advised against energetic local treatment 
 and the forcible removal of the deposits before they were in a condition to 
 fall off spontaneously. The Arabs and Arabists contain no allusions to 
 the subject, but early chronicles tell of an epidemic raging in St. Denis 
 in 580, subsequent to a great inundation. There appear to have been 
 memorable epidemics in Rome in 856 and 1005, in Byzantium in 1004. 
 The former are mentioned by Baronius, the latter by Cedrenus. 1 
 
 According to Morejon, Gutierrez wrote his Tradado del enfermedad del 
 garrotillo in the second half of the fifteenth century. A malignant form 
 of angina raged in 1517 in Switzerland, along the Rhine, and in the 
 Netherlands; in 1544 and 1545 in Northern Germany and on the Rhine; 
 
 1 Haeer, Lehrb. a. Oesch. du Med. u. d. Epidem. Krankh., 3d ed., vol. Hi., p. 434. 
 656
 
 HISTORY. 657 
 
 in 1557 in France, Germany, and Holland; to the latter refer the reports of 
 Tetrus Fosterus. Antonio Soglia, quoted by Chomel, describes an epi- 
 demic in Naples and Sicily (1563), which spread in the following year as 
 far as Constantinople; Joannes Wierus, epidemics in Dantzic, Cologne, 
 and Augsburg (1565); Ballonius (Baillon), in Paris (1576). At the same 
 time this disease was frequent in Denmark. From Spain there are reports 
 on severe epidemics between the years 1583 and 1618; the year 1613 was 
 long known as the year of diphtheria (anno de los garrotillos). 
 
 Mercado (1608) speaks of a child that had communicated the disease to 
 his father by biting his finger. Casealez advised gargles containing alum 
 and sulphate of copper. Herrera described diphtheria of the skin and 
 of wounds, and looked upon the pseudo-membrane as the essential cha- 
 racteristic of the disease. Heredia, in 1690, recognized the suffbcative and 
 astheuic forms, as well as the paralysis of the soft palate, the pharynx, 
 and the limbs; he also called attention to the occurrence of relapses, 
 which he attributed to the absorption of the morbid products, and endeav- 
 ored to prevent by cauterization. 
 
 Naples had diphtheria 1610-45, in its worse form 1618-20, together 
 with erysipelas, and diphtheritic affection amongst cattle. About those 
 times tracheotomy was often performed by Severino, the same who found 
 pseudo-membrane in the larynx at a post-mortem examination made in 
 1642. In 1620 the disease was in Portugal, Sicily, and Malta; in 1630 
 in Spain, according to Fontechu, Villa Real, and Herrera. It was 
 remarked that in some instances no membranes were perceived in the 
 throat, but the cases were liable to terminate fatally with large glandular 
 swellings round the neck and general symptoms of adynamia. Sicily was 
 again invaded in 1632, Rome in 1634, Italy from 1642 to 1650, Spain in 
 1666. The Italian reports emphasize the marked contagiousness of the 
 disease and its tendency to depress the vital powers, also the weakness 
 of the mental faculties left behind. In Germany the disease was described 
 by Wedel in 1718. The epidemics observed by him were not very instruc- 
 tive, yet they sufficed to teach the importance of isolating the sick. 
 
 In the New England States diphtheria appeared in the seventeenth 
 century. Samuel Danforth lost the four youngest of his twelve children 
 by the "malady of bladders in the windpipe" within a fortnight in 
 December, 1659, in Roxbury, Mass. John Josselyn mentions an epi- 
 demic in New England, mainly in Maine, which lasted at least until the 
 year 1671. Mr. Douglass reports another, which commenced on the 20th 
 of March, 1735, in Kingston township, about fifty miles east of Boston, 
 and extended all over, and also to Boston, where it was mild at first. But 
 in 1738 it was very severe, and remained so for some time. Indeed, it 
 did not abate for a long time, to judge from a letter of Cadwalader Golden 
 written in 1753 to Dr. Fothergill, and the two letters of Dr. Jacob Ogden, 
 written in 1769 and 1774 to Mr. Hugh Gaine of New York; as also 
 from John Archer's "Inaugural Dissertation on Cynanche Trachealis, 
 commonly called Croup or Hives," published in 1798. 1 In 1809 there 
 was a severe epidemic in Philadelphia; 2 in 1816 in Crete. 
 
 1 For extensive quotations from these and other writers on diphtheria at a very inter- 
 esting period of our medical literature, see A. Jacobi, A Treatise on Diphtheria, New 
 York, 1880. 
 
 2 Caldwell, in ed. of Cullen's First Lines of the Practice of Physic, Philadelphia, 1816, 
 1, p. 260. 
 
 VOL. I. 42
 
 658 DIPHTHERIA. 
 
 The reports of Le Cat concerning epidemics in Rouen in 1736 and 
 1737 being doubtful, the first great epidemic must be set down, in 
 France, for 1745. It commenced in Paris, and invaded the provinces 
 afterward. Chomel gave an accurate description of the diphtheritic 
 paralysis of the soft palate, and reports a case of strabismus. Epidemics 
 are reported from the Netherlands in 1745, 1746, 1769, 1770, 1778-86 ; 
 from Spain in 1764-71; from England in 1744-48 (by Starr), from 
 Plymouth, England, in 1751-53 (Thurham) and 1776. Dropsy and 
 glandular swellings were frequent; emetics and pure air were the sheet- 
 anchors of treatment. The Netherlands, France, and the West Indies 
 were invaded from 1770-80 by the disease, which was found often com- 
 plicated with scarlatina; Portugal in 1786 and 1787; France again in 
 1787 and 1788 ; Northern Germany in 1790. At that time, particularly 
 in France, the main reliance was had on the internal administration of 
 cinchona and the insufflation into the throat of alum. 
 
 Epidemics have been described since from different localities in differ- 
 ent years : in Glasgow, 1812 and 1819 ; Switzerland, 1823-26 ; Norway 
 and St. Helena, 1824; New York and Kentucky, 1826 and 1828; 
 French provinces, 1834; Paris, 1841; several parts of Europe and 
 North America, 1845-56; Paris, 1853-55; England, 1854 and 1859, 
 when 95 per cent, of all the cases of nasal diphtheria proved fatal ; 
 Netherlands and Sweden, 1855 ; all Western Europe, 1855-65, up to the 
 present time, and all Europe since; California, 1856 and 1857 ; Portugal 
 and France, 1856; Eastern Prussia, 1850, 1852, 1856, 1857; and all 
 the countries with a cold or moderate climate to this very day. 
 
 During the second half of the eighteenth century but two writers are 
 worthy of especial notice Home, a Scotchman, 1765, and Samuel Bard, 
 an American, 1771. 
 
 Home deserves credit for having distinctly drawn the line between the 
 pseudo-membranous and the gangrenous affections. He also endeavored 
 to prove that croup and angina maligna were two distinct diseases, not- 
 withstanding all that had been said since the time of Aretseus in favor of 
 their identity. The false membrane of croup he looked upon as an aggre- 
 gation of mucus. He sought for it exclusively in the respiratory tract, 
 and disregarded any connection between it and the false membrane found 
 in the pharynx. 
 
 Bard's experience was very extensive; he saw membranous pharyngitis, 
 laryngitis, and pharyngo-laryngitis ; he speaks of the membrane as met 
 upon the skin, of paralysis of the muscles of deglutition and of the 
 larynx, and likewise of paralysis of the lower extremities, as sequelae. 
 He looked upon the morbific process as the same whichever were the 
 mucous membranes attacked, and made a distinction only according to the 
 localization of the disease. The influence which he might have exercised 
 in shaping the professional opinion on the nature of the disease did not 
 make itself felt, partly because of his classical modesty, and partly 
 because of his remoteness from the centres of European learning. Not 
 before 1810 was his book translated into French (by Iluette). While his 
 style is classical in its simplicity, his observation is astonishingly correct, 
 and his conclusions as to the actual identity of all the diphtheritic pro- 
 cesses in the most various clinical symptoms unimpeachable this very day. 
 His description of the various forms of pharyngeal diphtheria is painfully
 
 HISTORY. 659 
 
 good, his observations on cutaneous diphtheria very accurate, his few dis- 
 sections well recorded, particularly when he speaks of tracheal and 
 tracheo-laryngeal diphtheria, and his historical reviews very judicious 
 indeed. "Upon the whole, I am led to conclude that the morbus 
 strangulatorius of the Italians, the croup of Home, the malignant 
 ulcerous sore throat of Huxham and Fothergill, and the disease I have 
 described and that first described by Douglas of Boston, however 
 they may differ in symptoms, do all bear an essential affinity and relation 
 to each other, or are apt to run into each other, and, in fact, arise from 
 the same leaven. The disease I have described appeared evidently to be 
 of an infectious nature, and, being drawn in by the breath of a healthy 
 child, irritated the glands of the throat and windpipe. The infection did 
 not seem to depend so much on any prevailing disposition of the air as 
 upon effluvia received from the breath of infected persons. This will 
 account why the disorder sometimes went through a whole family, and 
 yet did not affect the next-door neighbors. Here we learn a useful 
 lesson viz. to remove young children as soon as any one of them is 
 taken with the disease, by which many lives have been saved and may 
 again be preserved." 
 
 Jurine, in his prize essay of 1807, denies the gangrenous nature of 
 angina maligna and emphasizes the frequent complication of membranous 
 croup with membranous pharyngitis. It was reserved for Bretonneau to 
 enforce attention to the ideas of Bard by asserting (though he did not 
 mention either his monograph or its French translation of 1810) the 
 identity of angina maligna, or by whatever other title it may be known, 
 with membranous laryngitis, and by inaugurating his theory with a new 
 name for the disease to perpetuate the views expressed therein. First and 
 foremost, he called attention to the continuity of the membrane (accord- 
 ing to him, composed of coagulated mucus and fibrin) of the nose, pha- 
 rynx, and respiratory tract, its identity with certain morbid conditions of 
 the skin, and promulgated the theory that " diphtherite " the name dates 
 from that time is a specific disease, an affection sui generis, and differs 
 both from a catarrhal and a scarlatinous inflammation. 
 
 The modern history of diphtheria may be dated from June 26, 1821, 
 when Bretonneau read his first essay on that subject before the French 
 Academy of Medicine, and gave to the disease the name it now bears. 
 His second and third (Nov. 25th) papers belong to the same year ; his 
 fourth was read in March, 1826 ; his fifth appeared in the Archives g&n. 
 of January and September, 1855. It was only in 1826 that the material, 
 previously gathered, was summed up in his celebrated monograph. 1 
 Before this time, however, the separate essays had received prominence 
 from the reports and commentaries of Guersant, who laid particular stress 
 on the statement that diphtheria was a non-gangrenous affection, identical, 
 and even synchronous, with croup in the majority of epidemics. Since 
 that epoch the literature on the subject has assumed enormous propor- 
 tions. It is a matter of regret that the limited space allotted to this 
 subject should exclude much historical detail of the etiology, pathology, 
 and therapeutics of diphtheria. If the history of any disease is interest- 
 ing, and the neglect of its study has ever punished itself, it is diphtheria. 
 
 1 P. Bretonneau, Des Inflammations speciales du tissu muqueux, et en particulier de la Diph- 
 thtrite, etc., Paris, 1826.
 
 DIPHTHERIA. 
 
 Particularly would the treatment have been more successful if the know- 
 ledge of former times had been available and more heeded. As long 
 ago as in the seventeenth century depletion in diphtheria was con- 
 demned, and in the seventeenth and eighteenth centuries the local treat- 
 ment with muriatic acid and the internal administration of cinchona, cam- 
 phor, and rolx>rant diet were held to be the only admissible ones, Bre- 
 tonnean urged the same principles, and still in our own times, for want of 
 historical knowledge, we had to learn the old lesson over again. 1 
 
 The following is a brief review of the main points of discussion upon 
 subjects connected with the symptomatology and pathology of diphtheria 
 since Bretonneau's first paper : 
 
 Bourquoise and Brunet express their belief (1823) in the contagious 
 character of this disease. Desruelles (1824) sees a diagnostic difference 
 between the sporadic and the epidemic forms in the participation of the 
 brain in the latter. Louis referred a number of cases of croup in adults 
 to pharyngeal diphtheria as their source. Mackenzie considers that croup 
 has its origin in the fauces, and urges the employment of lunar caustic. 
 Billard (1826) denies the specific character of diphtheritic inflammation. 
 Hamilton describes cases that terminated in suppuration, and which he 
 therefore distinguishes from Bretonneau's cases. He describes two modes 
 of termination of the disease one in croup, the other in a state of 
 debility arising from the effect of the absorbed secretion on the respira- 
 tory nerves. Pretty looks upon those cases of croup that have their 
 original seat in the tonsils as contagious. Bland (1827) explains the dif- 
 ference between croup and diphtheria. Deslandes declares them to be 
 identical. Bretonneau publishes a work in which he compares diphtheria 
 with scarlatina anginosa, and recommends the use of alum. Emmangard 
 is the first one of the physiological school who, likening diphtheria to 
 typhoid and claiming its origin in a malarial infection, calls it angina 
 gastro-enterica. Abercrombie is in favor of distinguishing diphtheria 
 from croup, but reports a number of cases of diphtheria of the pharynx 
 that terminated fatally by stenosis of the larynx. Ribes, who encoun- 
 tered the disease in nine members of a single family, asserts that croup 
 rarely occurred without a preceding diphtheria in his experience; he 
 advises an examination of the throats of apparently healthy individuals. 
 Fuchs relates the history of epidemics of angina maligna, and declares 
 croup to be a genuine angina maligna trachealis, which only does not run 
 through all the stages. Broussais opposes the identity of croup and diph- 
 theria (1829), and gives a report of cures by means of antiphlogistic regi- 
 men and laryngotomy. Diphtheria and gangrenous angina are synony- 
 mous with him. Gendron expresses a belief in the identity of diphtheria 
 and gangrenous angina. Roche considers the membrane rather of henior- 
 rhagic than of inflammatory origin, and consisting of discolored fibrin. 
 About the same time Trousseau is endeavoring to clearly establish the 
 diagnosis between diphtheria and scarlatinous angina. Shortly after 
 (1830), he reports cases of diphtheria which originated in blistering 
 wounds, and of diphtheria of the skin giving rise to throat affections, and 
 
 1 See history and bibliography of diphtheria in Chatto ; Sanne, Trade de la Diphtherie 
 Paris, 1874; Jacobi, in Gerhnrcie* Handb.fi. Kinderk., vol. ii., 1877; Seitz, Diphtheric 
 und Croup getch. u. Klin, (largest, Berlin, 1879 ; fndex-Calalogue of the Library of the Sur* 
 geon-GeneraCa Office, U.S. A., vol. iii., Washington, 1882.
 
 HISTORY. 661 
 
 diphtheria of the throat followed by skin disease. T. F. Hoffmann cites 
 a severe case, that ultimately recovered, with consecutive paralysis of cer- 
 tain cranial nerves. Cheyne (1833) makes a stand against the " confound- 
 ing of croup and cynanche maligna under the name of diphtheritis." 
 Bourgeois witnessed an epidemic succeeding mumps. 
 
 Fricout and Burley (1836) declare their belief in the contagiousness of 
 the disease. Bouillaud attacks the theory of its specific character on the 
 ground that abstraction of blood produced favorable results. Stokes 
 makes a distinction between primary and secondary croup according to 
 the original seat of the affection (1837). Kessler advocates (1841) the 
 view of its contagious nature, and Rilliet and Barthez adduce evidence 
 of the occurrence of ulceration and gangrene in the course of the disease. 
 Taupin, like Ribes, enjoins a methodical examination of the throat of 
 every patient during the prevalence of an epidemic of diphtheria, what- 
 soever be the disease from which the child suffers. Boudet (1842) opposes 
 Bretonneau's hypothesis that croup is a descending diphtheria, and holds 
 to the identity of diphtheria and gangrenous angina. In this contest 
 Durand (1843) also takes sides against Bretonneau, and lays particular 
 stress on the point that the diphtheritic patient succumbs rather from the 
 severity of the constitutional symptoms than from suffocation. Rilliet 
 and Barthez, on the other hand, rally to the support of the attacked 
 master, asserting that the usual form of croup and that resulting from a 
 decending diphtheritis are one and the same, while they claim that diph- 
 theritis and gangrenous angina are distinct affections. 
 
 Meanwhile, the strife regarding the nature of the disease continued. 
 Guersant and Blache (1844) describe the stomatite couenneuse (nonia, 
 stomacace, according to them, the rarest kind of gangrenous angina) as a 
 form of Bretonneau's diphtheritis, and Landsberg raises the question 
 whether a nerve-inflammation, present in a certain case, was to be looked 
 upon as an accidental or an essential feature of the disease, and finally 
 comes to the conclusion, with Schonlein, that it was a neurophlogosis 
 dependent on the disease. Bouisson (1847) reports a case of diphtheritic 
 conjunctivitis resulting in loss of the eye. Robert publishes his observa- 
 tions on diphtheria of the skin and of wounds, which he attributes to an 
 atmospheric contamination in crowded wards of hospitals, and looks upon 
 it, with Delpech and Eisenmann, as a form of hospital gangrene. Vir- 
 chow, in the same year, distinguished the catarrhal, croupous, and diph- 
 theritic varieties of the disease. Meanwhile, reports of paralysis of the 
 soft palate after diphtheria came from Morisseau, from Trousseau and 
 Lasegue, and lastly (1854-59) from Maingault. The subject of diph- 
 theritic conjunctivitis was studied by A. v. Graefe ( (1854), who encoun- 
 tered the disease as a complication of diphtheria of the pharynx, nose, 
 and skin, and hence considered it a part of the general disease rather than 
 an independent local affection. Diphtheria, in its effects on the system, 
 had at the same time been investigated by Trousseau, who sums up with 
 the statement that the principal source of danger lies in the invasion of the 
 larynx, and that the large majority of cases of croup began as a diph- 
 theria of the pharynx, but that, even without the occurrence of a laryn- 
 geal localization, many cases terminate fatally owing to adynamia. 
 
 Outside of France, too, the subject had attracted attention. ^ West, who 
 had never seen the disease occur primarily, describes diphtheria as a com-
 
 (562 DIPHTHERIA. 
 
 plication of measles. Bamberger (1855) divides the inflammations of 
 the mouth and pharynx into the catarrhal and croupous forms, and con- 
 siders croup and diphtheria to be subdivisions of the latter form, differ- 
 ing only in degree. The paralysis of the muscles of deglutition is 
 discussed by Dehsenne (1857) who had contracted the disease, and the 
 paralysis of other muscles by Faure. A case of diphtheria of the 
 tonsils, nipples, and vagina in a woman recently confined, followed by 
 infection of the new-born and the death of both, is reported by Ma- 
 thieux ; and cases of diphtheritic conjunctivitis by Grichard, Warlomout, 
 and Testelin. The same year Isambert published a work in which he 
 divided the diphtheritic affections into three forms viz. angine couen- 
 neuse, scarlatinous angina, and diphtheritic angina. The last-mentioned 
 is further subdivided into a croupous-diphtheritic angina, in which croup 
 of the larynx plays an important part, and into that form in which death 
 results from adynamia ; in the latter form there is a marked swelling of 
 the lymphatic glands. Apparently, at this time the epidemic in Paris 
 underwent a considerable change, for the croupous form does not occur 
 by far so frequently as Bretouueau had asserted, and croup of the larynx 
 without a preceding diphtheria of the pharynx was observed more fre- 
 quently than he would lead us to believe. 
 
 The various changes in the symptoms of the epidemics of diphtheria 
 which were observed in different places and countries, and at different 
 times, explain many of the differences of opinions in regard to the nature 
 of the disease. The literature of that subject is in the last twenty-five 
 years simply stupendous, and a few more notes must suffice for the 
 elucidation of the drift of theories and observations. Beale was the first 
 to look for organic beings as the cause of the disease, without finding any. 
 Laycock sees it in the bacilli and spores of oidium albicans; Wilks, 
 however, found the same parasite in other affections. Cammack declares 
 the diphtheritic membrane to be herpetic. Ferou also calls Bretonueau's 
 mild form of the disease a herpetic angina with pseudo-membrane ; so 
 does Gubler. Bouchut writes against the identity of diphtheria, croup, 
 and gangrene. Condie describes the disease as occurring with scarlatina. 
 Litchfield claims that it is a concealed scarlatina, and Hillier that it has 
 some connection with it. Millard cites one case in the course of which 
 gangrene occurred, and another in which skin, mouth, pharynx, respira- 
 tory passages, oasophagus, and vulva were affected at the same time. 
 Harley vainly endeavored to inoculate the disease in animals. Stephens 
 declares the disease to be infectious. Sanderson looks upon it as identical 
 with the angina maligna of the aged. Farr considered the exhalations 
 from sewers an important etiological factor. Sellerier, Kingsford, and 
 Harley (1859) report paralyses as sequelae. Maugin speaks of a specific 
 eruption ; Ward, of an accompanying purpura. Bouchut and Empis 
 remarked the frequent presence of and danger from albuminuria ; so did 
 Wade. Maugiu calls attention to the fact that, when present in diphtheria, 
 it occurs early, whereas in scarlatina it is seen during the period of des- 
 quamation, and is not of frequent occurrence even then. Gull gives an 
 account of cases in which death resulted from asthenia, and speaks of a 
 nerve-lesion which he attributes to the severity of the local inflammation. 
 Hildige describes diphtheritic conjunctivitis as seen in Graefe's practice, 
 and looks upon it as contagious. Magne denies its contagious or infec-
 
 HISTORY. 663 
 
 lious character. Mackenzie, while probably having seen false membrane 
 appear on the conjunctiva when in a state of inflammation, yet refuses to 
 recognize diphtheritic conjunctivitis as a distinct disease. 
 
 In the same degree that observations of cases and epidemics increased 
 in number, the nature of the disease and its cause commenced to be 
 studied. The assumption that the latter was a chemical poison was soon 
 doubted, and the parasitic nature of diphtheria considered by many as 
 proven. 
 
 After Henle had (1840) expressed his belief in the existence of a 
 coutagium animatum, and morbid processes had for some time been 
 compared with the phenomena of fermentation, Schwann demon- 
 strated the presence of lower organisms in fermentation and putrefac- 
 tion. The discovery of the cause of the silk-worm disease by Bassis, 
 of the achorion by Schonlein, of the acarus by Simon, of bacteria in 
 malignant pustule by Pollender, Brauell, and, above all, by Davaine, 
 in relapsing fever by Obermeier, the teachings of Pasteur concerning 
 the conditions under which putrefaction occurs, all tended to explain 
 the various infectious and contagious diseases by analogy also, and to 
 stimulate the search for a vegetable organism in diphtheria. Buhl was 
 the first to discover schizomycetse in diphtheritic membrane, but expressed 
 no opinion as to the part they played in the process. Hiiter found them 
 in the gray diphtheritic covering of wounds, in the surrounding appar- 
 ently healthy tissues, and in the blood. Hiiter and Tomasi found them 
 in the diphtheritic membranes of the pharynx and larynx, inoculated 
 them on the mucous membranes of animals, and described them as small, 
 round or oval, dark-colored, active little bodies. The latter observers 
 look upon these organisms as a part of the infectious element. Oertel 
 found them in diphtheritic membrane and in inflamed mucous membranes 
 in the lymphatic vessels, lymphatic glands, kidneys, and other organs ; 
 he considers them as the contagious element of diphtheria. Nassiloff, 
 too, after inoculations in the cornea resulted in an enormous multiplica- 
 tion of the microscopic organisms and their appearance with pus-cells in 
 the lacteals and in the lymphatics of the palate, and even in the bones and 
 cartilages, asserts that the development of organisms is the primary step 
 in the diphtheritic process. Eberth made successful inoculations in living 
 tissues ; the micro-organisms, introduced into the cornea, proliferated 
 actively and caused an inflammation of irritative character in the sur- 
 rounding tissue. He asserts, with the positiveness of an evangelist, that 
 diphtheria cannot occur without bacteria. Klebs inoculated the micro- 
 cocci in pigeons and dogs, and found them in the blood of the animals 
 after death. Orth found them in the pleura, lungs, kidneys, and urinary 
 bladder. But what their action is, whether they are directly pernicious, 
 or deprive the body of certain elements (as of oxygen in malignant pus- 
 tule, according to Bollinger), or injure mechanically by acting on the 
 coats of the blood-vessels (either directly or by means of altering the 
 blood), thus depriving whole territories of their blood-vessels, is a ques- 
 tion upon which the principal advocates of the parasitic theory have not 
 yet agreed. Even Oertel acknowledges the impossibility of explaining 
 the manner in which bacteria act (Ziemsseu, Handbuch, ii., 1, p. 581, 2d 
 ed.). This much is positive, at any rate : that no one has yet proven that 
 the vegetable organisms alone, and not other, free or fixed, parts of the
 
 664 DIPHTHERIA. 
 
 diphtheritic membrane, are the vehicles of the infecting elements (Steu- 
 dener) ; and even now the question has not been decided whether the bac- 
 teria met with in diphtheria constitute the cause of the disease, or are a 
 part of the process, or co-effects of the poisonous action whether they 
 are the carriers of the poison or entirely indifferent entities. 
 
 The most important observations made by those who deny a direct etio- 
 logical connection between micro-organisms and septic diseases in general, 
 and diphtheria in particular, are those of Hiller and Billroth. The latter 
 has proven the morphological identity of the various kinds of bacteria, 
 although it cannot be denied that the apparent similarity may mask a yet 
 unknown difference. Hiller calls attention to the fact that large numbers 
 of micrococci have been found in the cadaver where death has not been 
 the result of septic disease, and also that septic infection is not always 
 severest where the bacteria most abound, but where an extensive chemical 
 decomposition or a mass of putrefying tissue is found. This would indi- 
 cate that the septic process is rather dependent on chemical decomposition 
 than on the presence of bacteria. 
 
 Panum, Bergmann, and Schmiedeberg have isolated poisons that con- 
 tained no bacteria. Rawitsch and many others prove that septic infection 
 is not dependent on the existence of bacteria. Davaine has shown that 
 an infinitely small amount of a chemical poison, free from bacteria, can 
 kill quickly. 
 
 The presence of cocco-bacteria (Billroth) in the blood during life has 
 not once been proven, not even in pysemia or septicaemia. Yet their being 
 swept into the lungs with the atmospheric air is indisputable. It would 
 therefore seem as though living blood had a greater tendency to destroy 
 bacteria than to allow itself to be decomposed by them. Not only, how- 
 ever, would it seem so, but P. Grawitz (Virch. Arch., vol. Ixx., p. 546) 
 proves that sporules do not grow in the (tissue and) blood, but that they 
 are in part dissolved, in part eliminated through the kidneys, and that 
 this result is accomplished through the combination of the following four 
 factors viz. the elasticity of the blood, its constant motion, the absence 
 of oxygen in sufficient quantity in the circulating blood, and the presence 
 of living animal cells. All of these factors appear to be of great import- 
 ance. Thus it is that, where the constant motion of the blood and th<. 
 animal living cells are not present (as in the anterior chamber of the eye 
 or in the humor vitreous) a rapid proliferation and accumulation of bac- 
 teria can take place. They are also known to increase rapidly and emi- 
 grate into the liver when deposited in the abdominal cavity. 
 
 The destruction of bacteria in the circulating blood, into which they 
 may have penetrated, accounts for some microscopical facts in connection 
 with (actually or apparently morbid) blood. Their remnants are probably 
 the pale and dark particles which are discovered in the blood alongside 
 the red and white blood-corpuscles. They could not be identified as 
 micrococci, while in the tissue they are more recognizable. In autopsies 
 they have been found in the urinary tubules, pressing forward and pier- 
 cing the walls, not occupying a nidus of inflammation, however, and prob- 
 ably are even here a post-mortem phenomenon. A direct necrosis or 
 inflammation by the inoculation of diphtheritic elements can only be pro- 
 duced in the cornea, as was shown by Reckliughausen, and particularly 
 Eberth. Besides, there is nothing characteristic in. the cocco-bacteria of
 
 HISTORY. 665 
 
 diphtheria, with the exception, perhaps, of their browner color, to justify 
 their being looked upon as a distinct variety, certainly not as another spe- 
 cies. It is^ more likely that a difference of action is not so much to be 
 sought for in a different parasite as in the peculiarity of the corneal tissue. 
 When fluid containing cocco-bacteria was injected into ,the eye of a rabbit, 
 in twenty-four hours the eye was destroyed. If injected into the eye of 
 a dog or guinea-pig, only a slight inflammation resulted (Billroth and 
 Ehrlich). If these experiments were continued on a larger scale, we 
 might eventually, by analogy, infer, and even prove, that the immunity 
 against certain diseases enjoyed by some animals is owing to peculiarities 
 in the very structure of their own tissues. In a similar manner I shall 
 prove hereafter that even peculiarities and variations in the tissue and 
 epithelium of the human body give rise to different shades and variable 
 clinical symptoms in the diphtheritic processes. 
 
 The views of Curtis, Satterthwaite, and Charlton Bastian fully agree 
 with those of the above observers. The latter is rather inclined to look 
 upon bacteria as an effect of the disease than as a cause. Similar views 
 were expressed by Burdon Sanderson. 
 
 Nor are the researches of Weissgerber and Terls, Lukomsky, Weigert, 
 Liicke, any more conclusive; and, finally, Fiirbringer, in his most recent 
 and careful studies of diphtheritic nephritis, insists upon this, that it is 
 not caused by immigration of fungi into the kidneys, that the very best 
 methods employed for the finding of parasites result in the absence of 
 micrococci from the inflamed organ, and that the renal inflammation fol- 
 lowing diphtheria is the result of a chemical process. 
 
 H. C. Wood and Henry F. Formad, in Supplement 7 of the National 
 Board of Health Bulletin (1880), declare it altogether improbable that 
 bacteria have any direct function in diphtheria i. e. that they enter the 
 system as bacteria and develop as such in the system, and cause the 
 symptoms. It is, however, possible that they may act upon the exuda- 
 tions of the trachea as the yeast-plant acts upon sugar, and cause the 
 production of a septic poison which differs from that of ordinary putre- 
 faction, and bears such relations to the system as to, when absorbed, 
 cause the systemic symptoms of diphtheria. Now, these bacteria may 
 be always in the air, but not in sufficient quantities to cause tracheitis, 
 but enough when lodged in the membrane to set up the peculiar fermen- 
 tation ; whilst during an epidemic they may be sufficiently numerous to 
 incite an inflammation in a previously healthy throat. 
 
 The same authors publish a number of other experiments and conclu- 
 sions in Suppl. 17 (Jan., 1882): "There is no proof as yet that the 
 micrococci are the cause of the disease. Their presence in the exposed 
 dead tissue is no evidence, for the membrane represents but the necrotic 
 
 mucous lining Indeed, when the healthy mucous membrane of 
 
 the mouth or trachea is destroyed by caustics for instance, ammonia 
 the eschar into which it is converted really a pseudo-membrane con- 
 tains the same micrococci as are found in true diphtheria, as Wood and 
 Formad have learned. Moreover, in the scrapings of the healthy tongue 
 the same micrococci can be seen. Of more significance is the detection 
 of the same or similar micrococci in the blood of the living patients 
 during severe attacks. But since these parasites were found only in the 
 more severe cases, and not in all instances of the disease, were seen also
 
 666 DIPHTHERIA. 
 
 in the blood of other septic disorders, and since no cultures have been 
 made with the fresh blood, there is not yet enough evidence for any 
 decision. In the internal organs bacteria are not found with any regu- 
 larity in diphtheria." 1 
 
 O. Heubner, while studying both the local affection and the general 
 infection of diphtheria, availed himself of the methods of Cohnheim 
 and Litten, who produced diphtheritic deposits by cutting off the circu- 
 lation of the blood. He ligated the neck of the bladder in rabbits for 
 two hours. On the first day he noticed a hemorrhagic cedema of the 
 mucous membrane, with loosened and tumefied epithelium ; on the second 
 a firm and coagulated exudation took the place of the normal tissue ; on 
 the third there were genuine diphtheritic spots in the mucous membrane. 
 The newly-formed pseudo-membrane exhibited all the morphological 
 elements of human diphtheria (genuine or scarlatinous) and epidemic 
 dysentery. 2 Thus Heubner's results agree with the definition of diph- 
 theria as the compound of severe inflammation and necrosis. The inoc- 
 ulation of his diphtheritic artefacts he found sterile. Animals, however, 
 which were inoculated with diphtheritic masses taken from the diseased 
 human patient fell sick with tumor of the spleen, hemorrhages, and 
 general sepsis, besides a local diphtheritic affection. Scarlatinal diph- 
 theria used for the same purpose had the same effect. Bacilli were 
 developed, but they were not found in the blood-vessels (differing in that 
 respect from the bacilli of anthrax), in spite of continued examination. 
 Thus, Heubner refuses to accept the bacilli as the diphtheritic poison ; 
 they are, in his opinion, the result of the morbid process, and not its 
 cause. Thus, though he believes the diphtheria poison to be organic, he 
 concludes that its nature is not yet explained ; contrary to the assertions 
 of many prolific prophets of the bacteria literature, who now and then 
 claim for this year's microscopic revelations the same infallibility which 
 was claimed for last year's opposite views. 2 
 
 E. Bindfleisch 4 expresses himself as follows : " The microphytes of 
 diphtheria, septicaemia, and pyaemia have not been isolated and cultivated 
 as yet. But experimenters are convinced that there are a great many 
 species of microphytes underlying genuine putrefaction. In producing 
 septicaemic conditions in animals their efficacy differs. Not every animal 
 is influenced by the same microphyte. Thus it becomes probable that the 
 human organism is endangered by a certain number of the putrefaction 
 microphytes. Some one may have a particular predilection for granu- 
 lating wounds and mucous membranes, and thereby produce a diphtheritic 
 inflammation. Another may enter the blood from a recent wound and 
 give rise to a septicsemic fever with rapidly fatal termination. The third 
 may invade the body by means of a phlegmonous inflammation, purulent 
 infiltration, thrombosis, embolism, and metastatic abscesses, accompanied 
 with a pyaemic fever of a remittent type." 
 
 After all, it does not appear to me that the bacteria question has come 
 
 1 H. Gradle, Bacteria and the Germ Theory of Disease, Chicago, 1883, p. 186. 
 
 2 Die Experimentellf Diphtheric, Leipzig, 1883. 
 
 s L. Letzerich recognized in former years the specific parasites of diphtheria, whoop- 
 ing cough, and typhoid fever as if they were labelled. Then, again (Arch. f. Experim. 
 Pathol. u. Pharmtir.oL), he admitted the great difficulty in discriminating the specific 
 Bchizomycetee of diphtheria, croupous pneumonia, epidemic influenza, and typhoid fever. 
 Die Elemente der Pathologic, Leipzig, 1883, p. 301.
 
 SYMPTOMS. 667 
 
 any nearer its solution in the last few years, in spite of the most eager 
 researches and the fact that some of the best medical names in the world 
 of medicine take the parasitic nature of diphtheria for granted. For 
 instance, in the second Congress for Internal Medicine (Wiesbaden, 1883) 
 C. Gerhardt rises in its favor. He makes the statement, or rather 
 admits, that several parasites have been found by different men, that 
 every one considers his the genuine one, that several writers assume that 
 there ^ are several diphtheria parasites, and suggests that, in his opinion, 
 the disease may be produced by different varieties of bacteria. At the 
 same time, he contends that the essence of the disease consists in the 
 erosion (and change) of the epithelium and the emigration of leucocytes. 
 If that be the case, I understand less than ever why diphtheria is, or is 
 to be called, a parasitic disease. 
 
 Panum's words seem still to be the soundest expression of all our 
 knowledge on the subject when he says : " It is a matter of rejoicing that 
 physicians have come to the conclusion that certain microscopic organ- 
 isms, be they considered vegetable or animal, and designated as bacteria, 
 fungi, monads, micrococci, or vibriones, do not exist merely in the minds 
 of theorists as causes of disease, but are in reality enemies that must be 
 combated with all the known efficient weapons in our possession. But, 
 while thus rejoicing, it must be borne in mind that we have but a feeble 
 insight into the relation between these organisms and diseases, and in 
 order to effect that much-desired advance in scientific knowledge a 
 matter of considerable importance in the practice of medicine it is 
 necessary not only to grasp at isolated data, but carefully and deliberately 
 to observe and study all the facts before us, and even to devote some 
 attention to those which would tend to prove that there are bacteria and 
 fungi which, under certain circumstances, are perfectly harmless, and that 
 even some of the malignant ones among them do not commit all those 
 outrages with which they are charged, directly and personally." 
 
 SYMPTOMS. In the majority of cases the disease has a prodromal 
 stage, which usually lasts a day or two, and may run a similar course to 
 that of a catarrhal pharyngitis. The patient feels somewhat indisposed, 
 has slight fever, is dejected, complains of painful deglutition, more 
 marked when swallowing fluids than solids or semi-solids, has headache 
 and occasionally vomiting. The occurrence of the latter, however, is 
 very much less frequent than in the outbreak of scarlatina. In very 
 severe cases convulsions have been observed, chills very rarely ; eleva- 
 tions of temperature of from 102.5 to 104 F. are frequent; higher 
 ones, from 105 to 107, rare. At this time it is often difficult or 
 impossible to distinguish a catarrhal angina from a diphtheritic by the 
 subjective symptoms. Slight glandular swellings under the jaw may 
 occur in either. The characteristic objective symptom of the latter 
 disease is the presence of membrane on the reddened mucous membrane 
 of the fauces, which, usually, is markedly injected over all or part of the 
 surface. The arches of the palate and the tonsils, less frequently the 
 posterior wall of the pharynx, are so affected. A distinctly localized red- 
 ness cannot be but either traumatic or diphtheritic. Larger or smaller 
 deposits are found thereon, lying loose on the surface or deeply imbedded 
 according to the locality. At times the first examination reveals their 
 presence in large numbers ; at other times but a single one can be
 
 668 DIPHTHERIA. 
 
 detected, which is soon followed by others, however. Within a certain 
 period of time, as a rule twenty to twenty-four hours, the single deposits 
 coalesce and form a membrane of greater or less extent. Mostly in the 
 same proportion to its increase in size it increases in thickness. On the 
 uvula, soft palate, and the posterior wall of the pharynx the membrane 
 is located superficially, and at times can be easily removed ; on the tonsils 
 it has a firmer hold, and is usually amalgamated with their uppermost 
 tissues. On the other hand, there are cases in which no actual mem- 
 branous formation is observed ; in such cases the tissues are more or less 
 swollen, the surrounding portions more or less reddened, and the grayish- 
 white discoloration is the resuH of an infiltration of the tissues them- 
 selves, and cannot be removed. 
 
 There are still other cases in which deposits of membrane and tissue 
 infiltration are found at the same time, and where both history and evi- 
 dence indicate that these two phenomena are the result of one and the 
 same process. When the uvula takes part in the process the swelling is, 
 as a rule, more marked than when the remaining parts of the fauces only 
 are implicated. Its circumference is very considerable, and amounts 
 sometimes to the treble or quadruple of the normal, in consequence of 
 the cedematous condition of the entire tissue. 
 
 We have to deal, then, with three different manifestations of the 
 diphtheritic process : first, with a membrane lying on the mucous mem- 
 brane, and removable without causing much injury to the epithelium or 
 any to the basement membrane ; such membranes were given by some the 
 name of croupous deposits ; secondly, with a membrane implicating the 
 epithelium and upper layers of the mucous membrane ; to this the title 
 of diphtheritic membrane has been given by preference ; thirdly, with a 
 whitish or grayish infiltration of the surface and the deeper tissue, which, 
 if abundant, may give rise to a necrotic destruction of the tissue. 
 
 The severity of the disease does not always depend on the predomi- 
 nance of one of these three forms, for any of them may accompany a mild 
 or a severe attack. By a severe attack we understand one attended with 
 chills, temperatures as high as 105 and 107 F., and marked nervous 
 symptoms, such as vomiting and convulsions. It is characteristic of 
 such cases that when the membrane is accidentally or forcibly removed it 
 is speedily reproduced ; the lymphatic system, in addition, takes an active 
 part in the process. The neighboring glands become swollen ; the peri- 
 glandular tissue does likewise, so that the circumference of the neck 
 becomes enormous, and the space between the lower jaw and the clavicle 
 appears one immense tumefaction. These are the cases in which, as a 
 rule, loss of strength and general debility speedily ensue, and death occurs 
 from exhaustion. The membrane in cases of this description frequently 
 undergoes changes in appearance ; under the influence of the atmosphere 
 and of ^ foreign substances, and by admixture of blood, its color becomes 
 yellowish or brownish. The odor of the membrane and surrounding 
 parts becomes sweetish and musty, and occasionally so fetid that it con- 
 taminates the atmosphere of the "room, and the air in its transit through 
 the nose and^over the pharynx becomes by inhalation dangerous to the 
 patient. ^ His throat becomes more swollen, his respiration loud; he 
 keeps his mouth open constantly, has an indifferent expression ; the saliva 
 dribbles continually, the color of the skin is sallow and livid, the appe-
 
 SYMPTOMS. 669 
 
 tite very poor, and pulse both frequent and small. When the symptoms 
 are of long duration, and a deep infiltration of the affected parts occurs, 
 hemorrhages not infrequently make their appearance. These may be 
 slight although frequent ; occasionally, however, larger blood-vessels are 
 encroached upon in the process of destruction, and dangerous, nay even 
 fatal, hemorrhages may be the result. The septic forms which I have 
 here described are more dangerous than the mild ones previously men- 
 tioned. Still, even in the latter bad results may ensue from a direct 
 absorption into the blood of putrid substances and by the penetration of 
 fetid gases to the lungs. 
 
 Occasionally, where the infiltration has been extensive, we meet with a 
 condition that can only be considered as gangrene. In such cases we see 
 collections of a grayish pulpy mass, which on falling off leaves a con- 
 siderable loss of tissue, the further course of the disease being either 
 favorable, or dangerous through absorption of septic material, or accom- 
 panied by local hemorrhages. When, after a time, health is completely 
 restored, marked cicatrices are left behind. Such loss of tissue is gener- 
 ally seen in the tonsils only, but it may also be encountered in the soft 
 palate. Its cicatrices on the soft palate are always a source of inconveni- 
 ence, partly in swallowing, partly in speaking. Actual local perforation 
 of the soft palate I have seen but five times in twenty-five years, slough- 
 ing without perforation very often. 
 
 The diphtheritic membrane not infrequently spreads from the pharynx 
 to the neighboring organs. From the posterior aspect of the soft palate 
 or pharynx the disease gradually ascends to the nasal cavities ; this is 
 particularly apt to occur when the uvula is the seat of extensive deposits, 
 and by forced inspiration and deglutition its posterior surface becomes 
 affected. In such cases the membrane which extends thence to the nasal 
 cavities is very dense, and capable of narrowing the capacity of the nasal 
 cavities anteriorly, and occasionally even to close them entirely ; as a rule, 
 however, several days elapse before the membrane assumes such a condi- 
 tion. Usually, when this form of nasal diphtheria is in its incipient 
 stage, it is impossible to diagnosticate it ; the most important sign thereof, 
 besides a more nasal articulation and sometimes greater difficulty in deglu- 
 tition, and the result of close ocular examination while the uvula is 
 turned sideways or drawn forward, is a swelling of the deep facial glands 
 at the angle of the lower jaw ; when these swell rapidly it can be asserted 
 positively that the nasal cavities have been invaded. There is little or 
 no discharge from the nostrils under these circumstances. 
 
 The picture is a very different one, however, when the nose becomes 
 primarily affected. This usually occurs only where an acute catarrh with 
 but little secretion, not so often where a chronic catarrh, has preceded 
 infection. When the secretion is thin and serous, the diphtheritic infec- 
 tion renders it no thicker, but makes it slightly flocculent, and it may 
 become very profuse. This form is frequently attended with a disagree- 
 able odor, equally unpleasant to the patient and to those around him. 
 During the prevalence of an epidemic one must always be prepared to see 
 an acute nasal catarrh or an influenza, or even a chronic nasal catarrh, 
 become complicated with diphtheria or pass into it. Schuller reports^the 
 case of a five- weeks-old male child who, having had a nasal catarrh since 
 birth, became affected with diphtheria of the nose. The glandular swell-
 
 670 DIPHTHERIA. 
 
 ing of which I spoke above is a very important diagnostic, and likewise 
 a decidedly unpleasant symptom, which becomes very marked inside of 
 twenty-four hours ; frequently a partial swelling remains long after the 
 disappearance of the diphtheritic membrane. Such glands rarely sup- 
 purate or undergo a necrotic degeneration ; sometimes they become per- 
 manently indurated. This induration and a chronic pharyngeal and nasal 
 catarrh are very serious matters in many instances. Both of these condi- 
 tions are starting-points for a number of acute or subacute attacks of 
 diphtheria in the same person. It is they which constitute the liability 
 of persons once affected to be taken sick again. Not only are they liable 
 to be affected themselves, but they are a constant danger to all around 
 them. Diphtheria, in a large family of children living in one of the best 
 houses of the city, after having returned half a dozen times in the course 
 of a year, disappeared instantaneously, not to return, when a seamstress 
 living in an infected neighborhood and suffering from occasional sore 
 throats was relieved of her daily work in the house. QEdematous swell- 
 ing of the mucous membrane and submucous tissue is often observed for 
 a long period to come ; elongated uvulae, enlarged tonsils, often date back 
 to such an acute attack. Thus it is with the upper portion of the larynx 
 about the posterior insertion of the vocal cords (see below) ; its large 
 amount of loose submucous tissue is liable to swell considerably in acute 
 attacks. Frequent spells of croupy cough and a certain degree of 
 dyspnoea are often observed for years afterward. Though the cases of 
 genuine cicatrization between the arytenoid cartilages, as described by 
 Michael, 1 be rare, with their result of permanent paresis of the thyro- 
 arytenoid interni muscles, when they do occur they are either obstinate or 
 altogether incurable. 
 
 Diphtheritic conjunctivitis occurs either primaily or as a complication 
 of pharyngeal or nasal diphtheria. Fortunately, it is not of frequent 
 occurrence ; the cornea may become destroyed either by pressure through 
 the considerable swelling of the eyelid or by diphtheritic keratitis. 
 Usually the upper eyelid is the first to suffer ; it is red, rigid, swollen. 
 In the beginning the conjunctiva palpebrse is smooth, dry and pale, while 
 that of the eye is chemosed ; afterward diphtheritic deposits take place 
 either in floccules or in solid masses. Knapp distinguishes between croup 
 and diphtheria of the eyelid according to the facility or impossibility of 
 removing the deposit. In favorable cases the membranes begin to 
 macerate and the eyelids to soften after a few days. In those less 
 favorable perforation of the cornea, prolapse of the iris, or total destruc- 
 tion of the eye take place. 
 
 The ear is but rarely the primary seat of diphtheria. A girl of throe 
 years died of laryngeal diphtheria on Sept. 6, 1882, after an illness of 
 four days. A girl of seven years was removed from the house on Sept. 
 6th and returned on Sept. 8th. On the afternoon of the 10th an earring 
 taken from the corpse was attached to the left ear of the sister, after 
 having been washed with soap and water only. About noon on the llth 
 the lobe of the left ear reddened, on the 12th it exhibited a membrane 
 and became swollen, and some glands enlarged in the neighborhood. On 
 the right mastoid process the skin was not quite healthy, a vesicatory 
 having been applied three weeks previously. This surface became diph- 
 1 Deutsch. Arch.f. klin. Med., 1879, xxiv. p. 618.
 
 SYMPTOMS. 671 
 
 theritic on the 12th, without consecutive glandular swelling. On the 
 13th the membranes _ grew thicker; on the 14th the pharynx was also 
 affected, and the physician called in. 
 
 Most diphtheritic affections of the ear, however, are secondary. In 
 pharyngeal and nasal diphtheria the narrow orifice of the Eustachian 
 tube is easily obstructed by either catarrhal swelling or diphtheritic deposit. 
 The disease may invade the middle ear and the drum membrane with 
 perforation, caries, and deafness following. 
 
 The descent of the diphtheritic process into the respiratory organs 
 may give rise to various conditions. The membrane is not always 
 found to pass uninterruptedly from the mucous membrane of the 
 fauces into the larynx; not infrequently isolated diphtheritic spots 
 are found in the pouches on either side of the attached extremity of 
 the epiglottis, or on the epiglottis, or in the larynx. At such 
 times the epiglottis is moderately swollen, its margins hard and red- 
 dened. Occasionally the redness is interrupted by small diphtheritic 
 deposits, which may remain isolated for a considerable time, but generally 
 coalesce so as to coat the edges of the epiglottis with a continuous mem- 
 brane. As a rule, the upper surface of the epiglottis is not completely 
 covered by membrane, while only now and then diphtheritic deposits are 
 found on its under surface. 
 
 The subjective symptoms accompanying the affection of the epiglottis 
 are not always in direct proportion to the extent of the membranes. 
 Dyspnoea and hoarseness occasionally occur where the only abnormal 
 condition is a marked oedema at the entrance of the larynx, particularly 
 of the the posterior wall near the arytenoid cartilages and the attachment 
 of the vocal cords. The oedematous condition causes a functional paral- 
 ysis of the vocal cords, together with marked dyspnoea on inspiration. 
 The difficulty of breathing may become so excessive that the clinical 
 diagnosis of croup is unquestionable, and tracheotomy resorted to, while 
 expiration is comparatively free and the voice not markedly affected. 
 Furthermore, cases occur in which there is no marked oedema, but merely 
 a general catarrh of the epiglottis and larynx ; here, too, the subjective 
 symptoms of hoarseness and dyspnoea may become severe and necessitate 
 the performance of tracheotomy. Still, bearing this in mind, I have on 
 several occasions refrained from performing this operation where I judged 
 that, aside from the diphtheria of the pharynx, I had to deal with a 
 moderate oedema of the glottis or a laryngeal catarrh. 
 
 Frequently, however, membranes form in the larynx in the same way 
 as in the pharynx or nose ; then inspiration and expiration are equally 
 interfered with, and hoarseness is a more constant symptom than in the 
 above-mentioned cases. Fever and pain are not necessarily prominent 
 symptoms; in fact, they are frequently unimportant, but in proportion as 
 the degree of narrowing of the larynx increases the respiration becomes 
 more difficult, long-drawn, and loud. 
 
 It may happen that the trachea and bronchi may become affected, 
 although diphtheria of the fauces does not exist, This does not occur as 
 rarely as Henoch and Oertel seem to believe. They think that diph- 
 theritic tracheo-bronchitis is mistaken for the primary condition, because 
 the throat is not examined early enough. 
 
 Oertel is of the opinion that the membrane in the fauces is over-
 
 672 DIPHTHERIA. 
 
 looked in such cases. Steiner 1 , too, asserts that "the tendency of 
 the times is to question, nay, rather to deny, the existence of croup 
 extending from below upward." Now, on the contrary, repeated 
 experience enables me to assert with positiveness that diphtheritic 
 tracheo-bronchitis may occur without an affection of the pharynx at 
 the same time. I do not deny that it may last for days without giving 
 rise to dangerous symptoms. I know it does. But when the process 
 reaches the larynx, the symptoms of suffocation become so urgent that 
 tracheotomy may be absolutely required at once, and, in spite of the 
 operation, death soon after occurs. 
 
 Of course these, cases are exceptions ; as a rule, laryngeal and tracheal 
 diphtheria result from a descent of the disease from the fauces. More or 
 less uncomplicated cases of primary laryngeal diphtheria, or so-called 
 sporadic membranous croup, were, however, observed before tho end of 
 the sixth decade of this century. They were then almost the only cases 
 of diphtheria, and linked former epidemics and the present one together. 
 
 Inflammatory affections of the lungs may occur at various times and in 
 various forms during an attack of diphtheria. That which appears after 
 tracheotomy is usually a broncho-pneumonia, and results from rarefaction 
 of the air in the respiratory passages during the period of impeded res- 
 piration, with consequent collapse of pulmonary tissue and dilatation of 
 the blood-vessels, and hence a disturbance of the circulation. It may 
 not fully develop until after tracheotomy, and is a frequent cause of 
 death on the second or third day after the operation. Now and then a 
 case of lobular pneumonia will result from the aspiration of pieces of 
 membranes into the smallest bronchi. It can be easily recognized when 
 the trachea is opened, but previous to the operation the auscultatory signs 
 are of little or no value, being masked by the laryngeal rales. Percus- 
 sion is equally useless, for a dulness may just as well indicate collapse of 
 the lung as infiltration. The second form of pneumonia associated with 
 diphtheria is from the beginning fibrinous in character. Here, too, 
 auscultation and percussion are of little assistance in establishing a 
 diagnosis when there is a laryngeal diphtheria at the same time, for 
 the above reasons. Where, however, the dulness on percussion is accom- 
 panied by high fever, and the long-drawn inspiration is replaced by 
 rapid respiratory movements, the diagnosis of pneumonic complication is 
 justified. 
 
 Diphtheria of the mouth, as a primary affection, is not of very fre- 
 quent occurrence; not rarely, however, is it associated with diphtheria 
 of the fauces and nose, mainly when they have assumed a septic or gan- 
 grenous character ; it appears on cheeks, tongue, angles of the mouth and 
 gums, and, after the fetid discharges have excoriated the skin, on the lips 
 also. In all of these localities it appears less in the form of an exten- 
 sive, thick membrance than an infiltration of the tissues. It is most apt 
 to occur where, from the start, the mucous membrane of the mouth was 
 eroded or ulcerated. The ulcerated base of a follicular stomatitis is very 
 frequently the starting-point of a general diphtheria of the mouth. It 
 is always a disagreeable symptom, points to a long duration of the whole 
 process, and threatens septic absorption. 
 
 The O3sophagus and the cardiac portion of the stomach are the seat 
 
 1 Ziemssen's Handb., iv., 1, 126.
 
 SYMPTOMS. 673 
 
 sometimes of very massive and extensive, mostly fibrinous exudations, in 
 typhoid fever, dysentery, cholera, measles, and scarlatina, or after injuries 
 following contact with mineral acids, alkalies, corrosive sublimate, or 
 antimony. When the normal tissue was not injured I never saw any 
 that were not superjacent and could not easily be peeled off (croupous). 
 In cases of extensive pharyugeal and laryngeal diphtheria the upper part 
 of the ^ oesophagus is often covered to a" distance of half an inch or an 
 inch with membrane, the lower part of which is thinning out into a mere 
 film. A case of local diphtheritic deposit near the cardiac portions of the 
 oesophagus, upon the seat of a stricture, I have described in my Treatise, 
 p. 83.^ Actual diphtheria of the stomach is rare. So is that of the 
 intestine, which is much more liable to be affected in animals than in 
 man. In the cow intestinal diphtheria is frequent (Bollinger). In the 
 gall-bladder, resulting from the irritation produced by calculus, it was 
 seen by Weisserfels. The diphtheritic form of inflammation of the 
 human colon and rectum dysentery is frequent enough, but will be 
 the subject of discussion in another place. But, besides this, in the 
 lower portion of the small intestines and in the colon long, tough, cohe- 
 rent membranes are sometimes found in the male and female (not in the 
 hysterical female only). As a rule they are not diphtheritic, but consist 
 mostly of nothing but mucus hardened and flattened down by protracted 
 compression. The few cases of intestinal diphtheria I have met with 
 gave rise to the usual symptoms of enteritis, and were diagnosticated as 
 such. 
 
 Wounds of all kinds are easily and rapidly infected by diphtheria ; for 
 instance, vaginal abrasions and erosions of the external ear, tongue, and 
 corners of the mouth. Scarification or removal of part of the tonsils is 
 followed in half a day or a day by a deposit of diphtheritic membrane 
 on the wound. The wound caused by tracheotomy becomes liable to be 
 infected with diphtheria within twenty-four hours. Leech-bites, skin 
 denuded by vesicatories, removal of the cuticle by scratching during 
 cutaneous eruptions, all furnish a resting-place for diphtheria in a short 
 time. What Billroth has described under the name of muco-salivary 
 diphtheritis, as it occurs after the extirpation of a large portion of the 
 tongue and resection of the lower jaw, belongs to this class. 
 
 At times immediately at the beginning of an invasion of diphtheria, 
 at other times only on the second or third day, an erythematous eruption, 
 more or less general, appears on the skin. Now and then it appears on 
 the chest, shoulders, and back ; at other times it covers the body, and has 
 not infrequently led to its being confounded with scarlatina. It is not 
 always accompanied by much fever, and cannot therefore be mistaken for 
 that form of erythema which frequently appears in children with delicate 
 skins during high fever from any source. I cannot say that I have 
 found this complication to give a more malignant character to the disease, 
 but true erysipelas does. I am not prepared to prove that the two pro- 
 cesses, erysipelas and diphtheria, are identical under some circumstances, 
 but the complication of the two, and the ferocity with which they com- 
 bine, renders a close relationship probable. I have seen an infant dying 
 from an erysipelas added to a post-auricular diphtheria, this^ being due to 
 a slight abrasion of the surface. Erysipelas originating in the trache- 
 otomy wound, though ever so carefully disinfected and secured, is fre- 
 
 VOL. I. 43
 
 674 DIPHTHERIA. 
 
 quently observed after two or three clays, and is a very ominous symp- 
 tom. Erysipelatous surfaces, denuded of their epidermis by spontaneous 
 vesicatiou or injured by ever so slight a trauma, are very liable to be 
 covered with diphtheritic membranes. 
 
 An eruption resembling urticaria in the beginning is as innocent as 
 erythema, but purpura in the latter stage is a symptom of mostly omin- 
 ous nature. 
 
 On the vulva and vagina of little girls diphtheria is sometimes met 
 with ; probably in every case it is due, under the epidemic influence, to 
 a local catarrh or erosion. In but few cases, comparatively, the inguinal 
 glands are swollen. There are not many cases of vaginal diphtheria 
 which are followed by the pharyngeal affection. Diphtheria of the 
 vagina in puerperal* women is liable to become the cause of general 
 sepsis, and is a dangerous disease ; it is seldom complicated, but uterus, 
 Fallopian tubes, and peritoneum may become the seat of inflammatory 
 and septic disturbances. In the bladder it may occur when the urine is 
 alkaline, in chronic cystitis, after lithotomy, urethotomy, the operation 
 for vesico- vaginal fistula, and in ectopia vesica?. This form has a marked 
 tendency toward localization, but by extension of the phlegmon, when of 
 putrid character, to the retro-peritoneal cellular tissue, peritonitis may 
 ensue and terminate fatally. Sepsis from absorption is also frequent. 
 Vesical diphtheria is sometimes quite unsuspected. A man of sixty had 
 urinary trouble a long time ; his urine was frequently very offensive, con- 
 taining blood and pus. About five days before his death he suddenly 
 collapsed. I found the bladder well filled, and introduced a catheter, but 
 succeeded in removing but a few drops of fetid liquid. Assuming the 
 presence of a malignant tumor at the neck of the bladder, I attempted 
 to draw off the urine by puncturing above the symphisis pubis ; again 
 without success. At the post-mortem examination a thick membranous 
 lining of the bladder was found detached in the form of a sac containing 
 about a quart of urine. During life the beak of the catheter evidently 
 passed into the space between the bladder and the membranous sac, which 
 accounts for the unsuccessful attempts at catheterization. 
 
 Diphtheria of the placenta was observed by Schiiller. The membrane 
 was between uterus and placenta, and attached to the latter. It resulted 
 from puerperal sepsis. Balano-posthitis is liable to result in local and 
 general diphtheria; so are circumcision wounds. They are apt to become 
 affected either primarily, without apparent cause, or when other members 
 of the family are suffering from the disease. 
 
 The kidneys may become affected in various ways. Albuminuria is 
 not always of significance, as it occurs in severe and mild cases alike, 
 both before and after tracheotomy, and therefore is not connected always 
 either with the height of the fever or the degree of dyspnoea ; at times 
 it disappears in a few days, in other cases it is of longer duration. It is 
 not invariably complicated with changes in the kidney, neither do we 
 always discover casts or degenerated epithelial cells in the urine. In 
 other respects also it does not behave like albuminuria in scarlatina. In 
 the latter it appears seldom before the second week of the process, and 
 frequently later, while in diphtheria it is often seen early. It sometimes 
 lasts but a few days, particularly in many cases which set in with a high 
 fever, which rapidly diminishes, and terminates in speedy recovery. In
 
 SYMPTOMS. 675 
 
 these occurrences the presence of albumen appears to attend the rapid 
 elimination of the poison. 
 
 Albuminuria seldom lasts longer than a week, and is not often com- 
 plicated with oedema, but sometimes it is but a symptom of a local or 
 general nephritis, and then hyaline, epithelial, and fibrin casts and gran- 
 ular cells are found in the urine. Nephritis then assumes as serious a 
 character as it possesses in scarlatina. Cases of nephritis, ' fortunately 
 rare in a very early period of diphtheria, are liable to run a rapid and 
 often fatal course. 
 
 The heart and blood are affected in various ways by the diphtheritic 
 process. Where the disease runs a slow course, accompanied by high 
 fever, a granular degeneration occurs, similar to that appearing in other 
 acute infectious disorders typhoid, for example. In diphtheria, how- 
 ever, it would seem that this condition may arise even without marked 
 elevation of temperature. The pathological changes in the heart 
 produced by diphtheria are not always the same. Ecchyrnoses, 
 cellular hypertrophy, and granular degeneration have frequently been 
 noticed after death where the symptoms had been severe. The 
 result, of course, is considerable weakness of its muscular tissue, 
 evidenced by the formation of local (Beverly Robinson) thrombi, general 
 sluggishness of the circulation, dyspnoea, muffled heart-sounds, a cool 
 and pale skin, and sudden death, preceded by a very feeble and frequent, 
 sometimes, however, by a very slow, pulse. Aside from this, there is 
 actual endocarditis during the course of diphtheria or convalescence there- 
 from. It affects especially the valves, and among them particularly the 
 mitral. It is characterized by high fever, precordial pain, attacks of 
 syncope, and a systolic murmur. 
 
 The rapid decrease of red blood-cells and a moderate increase of leuco- 
 cytes were demonstrated by Bouchut and Dubrisay, but the disproportion 
 was not such as to necessitate the diagnosis of leucocythasmia. Wunder- 
 lich reports two cases of Hodgkin's disease, the pseudo-leukaamia devel- 
 oping during diphtheria. And the slowness of final recovery in many 
 cases, even of but short duration and not complicated with nervous dis- 
 orders, appears to point to a serious disintegration of the elements of the 
 blood. The dark color and defective coagulation of the blood in autop- 
 sies of diphtheria cases have often been remarked. 
 
 The direct and rapid introduction into the blood of a foreign substance 
 has amongst its earliest symptoms fever. This reaction of a nervous 
 system depends both on the quantity and quality of the substance or 
 poison introduced, and on the susceptibility of the patient. High tem- 
 peratures are, however, not the only, nor are they the most dangerous, 
 nervous symptoms. To the latter belong the different shades of paralysis 
 met with during or subsequent to diphtheria. 
 
 Sudden and unexpected collapse is sometimes observed, not infrequently 
 in the earlier part of the disease. The changes found in autopsies, such 
 as a dark color of the blood, deficient coagulability, extravasations into 
 and friability and granular degenerations of the tissues, accumulations of 
 degenerated cells, and granules between the fibres, degeneration mainly of 
 the heart-muscle, the presence of heart-clots, thrombi in remote veins, 
 they all show to what extent the disease can destroy life in the shortest 
 time possible. In the heart either the pneumogastric or the ganglionic
 
 676 DIPHTHERIA: 
 
 nerves may be affected, aud the symptoms will vary accordingly. Paraly- 
 sis of the former will accelerate the pulse, degeneration of the sympathetic 
 will diminish its frequency, yet death may ensue in either. 
 
 The usual form of diphtheritic paralysis makes its appearance during 
 the period of convalescence, at a time when all danger seems to have 
 passed by. As a rule, the soft palate and the muscles of deglutition are 
 the first to be attacked, while the condition of these organs is apparently 
 normal (and no longer oedematous, and thereby inactive, as in the first 
 period of the disease). While they are recovering, or before, the accom- 
 modation muscles of the eyes become paralyzed. Sometimes, however, 
 these are the first to be affected. Thia paralysis does not, as a rule, follow 
 severe cases ; on the contrary, it is not uncommon to observe it after appa- 
 rently mild attacks of the disease. In consequence of the former paraly- 
 sis, deglutition becomes difficult; fluids are expelled through the nose or 
 enter the larynx and bronchi, thereby giving rise to pneumonia ; in the 
 latter there is strabismus. The upper and lower extremities become para- 
 lyzed afterward. As a rule, a number of muscles are affected at the same 
 time, and improvement will take place in about the same order in which 
 the individual muscles became affected. After paralysis has become 
 affected, circulation begins to suffer. The extremities now and then 
 become bluish, cool, emaciated; rarely atrophy and fatty degeneration 
 have been observed. The muscles of the neck also become paralyzed ; 
 the head cannot be carried, or with difficulty only. The fingers are but 
 seldom affected. The same holds good of the bladder and intestines. 
 The respiratory muscles are not frequently attacked. Their paralysis is 
 very ominous, and may prove fatal in a short time from apnoea. 
 
 Not only motory but sensory paralyses may occur. Anaesthesia, amau- 
 rosis, deafness have been observed ; a number of cases of locomotor ataxia 
 are on record, and but lately Hadthagen l publishes a case which he claims 
 as disseminated sclerosis. 
 
 Sometimes the nervous affection in diphtheria is localized in a peculiar 
 manner; it seems as if there is a predisposition on the part of a certain 
 nerve to become diseased. The case of a boy, active and healthy, in the 
 practice of H. Guleke, is very interesting. In the course of three 
 years he had three attacks of diphtheria. In the very beginning of the 
 disease he always became soporous with an almost normal temperature 
 and a slow but regular pulse. Probably the heart's ganglia are the first 
 to submit to the influence of the poison and exhibit symptoms of flagging 
 function. In most of the cases of diphtheritic paralysis the prognosis is 
 good ; the large majority will run a favorable course in from six to ten 
 weeks. 
 
 INVASION. Is diphtheria, primarily", a local or a constitutional disease? 
 Mercado's well-known case of diphtheria, engendered by the biting of a 
 finger, has been alluded to. I know of one case in which the vagina 
 became first affected, and later the pharynx. Bayles saw denuded por- 
 tions of skin assume a membranous character, and general diphtheria 
 develop afterward. Fresh wounds become diphtheritic, and the genpral 
 disease arises from this source. Even paralysis will follow. I had a 
 death from diphtheria when a long incision into a phlegmon of the thigh 
 had become diphtheritic. A little girl, who had a considerable amount 
 l Arch.f. Kinderheilk., vol. v., 1883.
 
 INVASION. 677 
 
 of discharge from a eatarrhal vagina, and sore thighs in consequence 
 exhibited first, during the epidemic of 1877, membranes on the denuded 
 cutis, and afterward general diphtheria. Brehm reports the case of a 
 woman on whom he performed colotomy. The wound became thoroughly 
 diphtheritic and gangrenous, but the pharynx and respiratory organs 
 remained intact. A few days after, her daughter, who attended her in 
 her sickness, was infected. In her the pharynx was the seat of disorder. 
 Besides, the tonsils are very frequently coated with a membrane without 
 any general symptoms in the beginning, fever and general illness occur- 
 ring only later on. Now, all of these facts tend to show that there are 
 cases in which the origin of the disease is purely local. 
 
 It must, however, not be forgotten that during the prevalence of an 
 epidemic every one is more or less under its influence, and but little is 
 wanting to call forth the disease. Some years ago a well-known physi- 
 cian, with whom I was intimately acquainted, died from facial erysipelas 
 and meningitis which had originated in a slight abrasion of the upper lip. 
 During an epidemic of typhoid we daily see persons with fever, headache, 
 and lassitude. Diarrhoeas are frequent during an epidemic of cholera. 
 An epidemic of diphtheria is accompanied by a great number of cases of 
 pharyngitis. When, in the year I860, 1 I reported two hundred cases of 
 bona fide diphtheria, I at the same time observed one hundred and eighty- 
 five cases of non-membranous inflammations of the throat. Such occur- 
 rences may be considered as possible or incipient cases of pharyngeal 
 diphtheria. Therefore, contrary to the view of a local origin of diph- 
 theria, it may be claimed that the individual taking the disease was already 
 saturated with the poison, and the local membrane represented perhaps 
 nothing but a symptom, or at the utmost the causa proxima. Accord- 
 ingly, then, there are undoubtedly cases in which the pharyngeal mem- 
 brane is the first cause and symptom of the final affection, and others in 
 which the poisoning of the blood through inhalation is the first step in 
 the development of the disease, amongst the symptoms of which the 
 pharyngeal or nasal membrane counts as one. 
 
 In these cases the first complaints of the patients relate to their general 
 condition. Sometimes they are ignorant of any local trouble when they 
 consult a physician. When it is perceptible, however, it is usually found 
 on the visible pharyngeal and respiratory mucous membranes. This 
 would seem to indicate that the infectious elements while being inhaled 
 are . there deposited. Thus there is a possibility of simultaneous affec- 
 tions of both the throat and the blood in the lungs, in either equal or 
 variable proportions. We are easily led to defend at least a partial admis- 
 sion of the poison by the respiratory act, when we reflect that the mem- 
 branes which are swallowed are rendered innocuous by the action of the 
 gastric fluids, and, therefore, the alimentary canal, from the oesophagus 
 downward, cannot be made responsible for the admission of the poison 
 into the system. Thus it is that the general symptoms as fever, lassi- 
 tude, etc. precede the local phenomena in very many cases, while there 
 are exceptional cases in which the membrane appears first and the fever 
 later. This is especially the case when the tonsils are very large and 
 occupy a prominent position in the throat. 
 
 Those cases which begin with high fever and moderate or no local 
 1 Amer. Med. Times., Aug.
 
 678 DIPHTHERIA. 
 
 symptoms must be looked upon as constitutional diseases. If a person, 
 in the course of several hours or a day, be taken with high fever and a 
 moderate membrane-formation, these symptoms subsiding in one or two 
 days, leaving the patient weak and exhausted, but fully restored to 
 health at the end of a week, we would be justified in assuming (caeteris 
 paribus) that there was a rapid absorption of a large amount of poison, 
 and an equally rapid elimination thereof. They are, moreover, the same 
 cases in which the second or third day of the disease furnishes albumi- 
 nuria, with rapid elimination and speedy recovery. When, however, the 
 process is slow in developing, accompanied by moderate fever, and the 
 course is indolent, we have reason to infer that moderate amounts of the 
 poison are being continually taken into the system and making their 
 influence felt to a moderate degree, but for a longer period. Such are the 
 cases which, without any violent symptoms, are accompanied by frequent 
 local relapses, or run, when the absorption is constant as well as copious, 
 a septic course, or terminate in paralysis. 
 
 Thus there are cases in which a local infection of the skin or of a wound 
 may be one of the causes, or the only cause, of the disease, and there are 
 cases in which the poison, in passing through and caught in the pharynx, 
 gives rise to local phenomena before the system at large gives evidence of 
 infection. But, as a general thing, diphtheria must be looked upon as a 
 constitutional disease, giving rise to local phenomena, in the same way as 
 scarlatina does on the skin, on the mucous membrane of the alimentary 
 canal, and in the uriniferous tubules; measles on the skin and respiratory 
 mucous membrane ; or typhoid in the lymph-follicles and on the mucous 
 membrane of the intestine ; or, in other words, the diphtheritic poison 
 may enter the system locally through a defective, or sore, or wounded 
 integument or through the lungs. 
 
 Is diphtheria contagious? Undoubtedly it is. The contagious ele- 
 ment is liable to be directly communicated by the patient ; it also clings 
 to solid and semi-solid bodies, and in this way is transmitted even after a 
 long time. There is hardly any disease which can cling so tenaciously 
 to dwellings and furniture ; it can be transported by the air,, though 
 probably not to a great distance, and hence in houses artificially heated, 
 while the windows and doors are mostly closed, rises from the lower to 
 the upper stories ; and it is for this reason advisable to keep the sick on 
 the top floor. It is certainly transmitted by spoons, glasses, handker- 
 chiefs, and towels used by the patient. The contagious character 
 increases directly in proportion to the neglect of proper ventilation. 
 That it is spread by the feccs is not clearly established in my mind. I 
 can give personally no examples of its being carried by visitors or by 
 the attending physician ; this is said to have occurred, however. The 
 character of the disease communicated, and the local manifestation, do 
 not depend on that of the original sufferer; thus mild cases 'may produce 
 severe ones, and vice versa, and convalescents can convey the disease in 
 its full force. Naturally, the softer character of the tissues in children 
 renders them more susceptible to infection, and the activity of their 
 lymphatic system more liable to severe forms of the disease. 
 
 Many tragic cases are recorded in literature of infection by direct con- 
 tact from pharynx to pharynx, or from the opening in the trachea to the 
 mouth of the surgeon ; and one of the saddest cases, perhaps, is that of
 
 INVASION. 679 
 
 the much-lamented Carl Otto Weber. Myself and others have contracted 
 diphtheria from sucking tracheotomy wounds. 
 
 In regard to the length of the incubation periods, there can be no 
 better authenticated facts than those contained in a report of Elisha 
 Harris to the National Board of Health, an abstract of which is found 
 in No. 1, National Board of Health Bulletin, June 28, 1879. The report 
 says that in the fourth school district of the township of Newark 
 (Northern Vermont), amidst the steep hills where reside a quiet people 
 in comfortable dwellings, the summer term of school opened on the 12th 
 of May. Among the twenty-two little children who assembled in the 
 school-room in the glen were two who had suffered from a mild attack of 
 diphtheria in April, and one of them was, at the time school opened, suf- 
 fering badly from what appeared to have been a relapse in the form of 
 diphtheritic ophthalmia. Besides, it is proved that these recently sick 
 pupils had not been well cleansed, one of them having on an unwashed 
 garment that she had worn in all her sickness three weeks previously. 
 At the end of the third day of school several of the children were 
 complaining of sore throat, headache, and dizziness, and on the fourth 
 day and evening so many were sick in the same way that the teacher and 
 officers announced the school temporarily closed. By the end of the 
 sixth day from school opening, sixteen of the twenty-two previously 
 healthy children became seriously sick with symptoms of malignant diph- 
 theria, and some were already dying. The teacher and six of the pupils 
 were not attacked, nor have they since suffered from the disease. 
 
 A case 1 is reported of a surgeon who, while attending a diphtheritic 
 child, had some secretion thrown into his face. Twelve hours after his 
 right eye was inflamed and painful. The affection proved diphtheritic, 
 and recovery was completed after several weeks only. In a case seen by 
 me, with Dr. L. Bopp, a child removed from a house infected with diph- 
 theria was attacked after fourteen days and eight hours. 
 
 It would then appear that, in the direct communication of the disease 
 to healthy or nearly healthy mucous membranes as healthy as the pre- 
 vailing epidemic will allow the period of incubation is from one or two 
 to fourteen days. In only a small number of cases the disease has an even 
 shorter period of incubation than this, as when tonsil lotorny or a similar 
 operation is undertaken during the prevalence of an epidemic. ^ One may 
 rest assured that any operation on the tonsils while an epidemic of diph- 
 theria is at its height will be followed within twenty-four hours by diph- 
 theritic deposits on the wounded part. To what extent we are justified 
 in considering this a bona-fide incubation of the disease in a previously 
 healthy body is, of course, another question. It seems to me that these 
 cases positively prove that the operation is only the caus& proxima of ; 
 diphtheritic affection, and that we may take it for granted that during an 
 epidemic evjsry individual is more or less under its influence and affected 
 by it, so that it needs but a wound or an accidental abrasion of the sur- 
 face of the mucous membrane to call the disease into action. In a similar 
 wav, fresh wounds or morbid conditions of the mouth may call forth tl 
 
 .. '' , . -i ' t f _ I*_1i: ! r,4-^mr\4-\t\ci ava Itamp tO 
 
 disease. The ruptured vesicles of a follicular stomatitis 
 
 serve as resting-places for diphtheritic membranes, and thus I have i 
 
 the complication of a follicular stomatitis with oral diphtheria; and any 
 
 iplication 
 
 1 Wilrt. Med. Corresp. Bl., 1878, No. 2.
 
 680 DIPHTHERIA. 
 
 lacerations of the vagina during labor may become diphtheritic within 
 twenty-four hours. If now, on the one hand, incubation depends on the 
 condition of the affected surface, it is probable, on the other hand, that 
 the intensity of the poison at the time plays an important part in deter- 
 mining the period that is to elapse between infection and the invasion of 
 the disease. 
 
 ETIOLOGY. Diphtheria is pre-eminently a disease of early life ; in 
 this respect it is said to differ from the genuine fibrinous bronchitis, which 
 by some is held an absolutely different disease, and stated to occur but 
 rarely in children. But even this statement is probably incorrect. In 
 the spring of 1879 I met with four cases of fibrinous bronchitis in 
 children under three years of age. The number of cases of diph- 
 theria in adult life is not very large, while in old age it is very small. 
 Of 501 deaths in Vienna in 1868, only 1 had reached the age of sixty- 
 two ; of more than 300 cases in which I performed tracheotomy but 2 
 were over thirteen years old. 
 
 I do not know that sex exerts any predisposing influence over diph- 
 theria, yet of the six hundred cases or thereabouts of laryngeal diph- 
 theria in which I either personally performed tracheotomy or observed 
 the progress of the disease in the practice of others, I found the majority 
 in males, and the recoveries in inverse proportion to the number thereof, 
 the mortality being greater among boys. As far as age is concerned, nearly 
 all the zymotic diseases are seen most frequently in children. They ex- 
 hibit a greater disposition to submit to diphtheria than adults, if we except 
 those under ten months. Where, however, the disease has occurred pre- 
 vious to the seventh or eighth month, the greater number of cases has 
 been found under three months. Tigri reports the disease in a child of 
 fourteen days. A child of fifteen days was seen with diphtheritic laryn- 
 gitis and cesophagitis by Bretonneau, one of seventeen days by Bednar, 
 one of eight by Bouchut, one of seven days by Weikert ; Parrot mentions 
 several cases, and Sirecley l reports eighteen cases of diphtheria in the 
 newly-born. They occurred in the Hospital Lariboisiere in the spring of 
 1877, and were probably infected by the nurses of a neighboring children's 
 asylum. Membranes were found on the soft palate, tonsils, or larynx, 
 and also on both pharynx and larynx. One case occurred where the 
 posterior nares alone were affected. I have met with four cases of diph- 
 theria of the pharynx and larynx in the newly-born myself. One of 
 these became sick on the ninth day after birth, and died on the thirteenth 
 day ; the other died on the sixteenth day after birth ; the third was taken 
 when seven days old, and died on the ninth day. The predisposition to 
 diphtheria during childhood 2 seems to be explainable by several circum- 
 stances. The mucous membrane of the mouth and pharynx in the child 
 is more succulent and softer, and frequently the seat of a congestive and 
 inflammatory process. The nasal cavities are small and frequently 
 affected by catarrhs, the buccal cavity often the seat of catarrh and of 
 stomatitis, and insufficient cleanliness leads here to irritation of the 
 mucous membrane. Any abnormal state of the mucous membrane, with 
 
 1 These, Paris, 1877. 
 
 2 W. N. Thursfield (London Lancet, Aug. 3d, 10th, 17th, 1878) collects 10,000 cases of 
 diphtheria in England between the years 1855 and 1877. Of these 90 per 1000 were 
 under a year, 450 per 1000 from 1-5 years, 260 from 6-10, 90 from 11-15, 50 from 16-25, 
 35 from 26-45 ; 25 per 1000 were 45 years and over.
 
 ETIOLOGY. (J3 j 
 
 the exception of an atrophic condition and cicatricial changes, affords an 
 excellent abode for diphtheria. The tonsils are proportionally laro-e; 
 in fact, we rarely see the tonsils in children completely sheltered by the 
 arches of the palate. On the other hand, the pharynx is anything but 
 spacious, and while the protuberant condition of the tonsils affords a rest- 
 ing-place for the invading disease, the remaining space is so small that it 
 becomes a source of uneasiness to the well in many instances, and very 
 much more than that to the child during diphtheritic tumefaction. 
 Furthermore, we must take into consideration the large number and size 
 of the lymphatics, which can be more easily injected in the child than in 
 the adult, according to Sappey, and the fact of greater intercommunica- 
 tion amongst the lymphatics and between them and the system ; for S. L. 
 Schenck has found that the network of lymphatics in the skin of the 
 newly-born, at least, are endowed with stomata, loopholes through which 
 the lymph-ducts can communicate with the neighborhood, and vice versa. 1 
 These circumstances, although they may have no influence in calling the 
 disease into existence, yet assist in its development and in adding to the 
 severity of the symptoms. 
 
 On the other hand, while the above reasons go to prove that diphtheria 
 attacks children by preference, there is again an anatomical and physio- 
 logical condition to wit, the free slightly acid secretion of the mouth, 
 beginning with the third month that acts as a hindrance to the frequent 
 occurrence of diphtheria after the third month. A poison or poisonous 
 product of whatever nature can less readily find a hiding-place so long as 
 it can be readily we might always say must, surely be washed away. 
 During these months of eruptive secretion from the mouth diphtheria, 
 therefore, is not very frequent ; thus teething, in the case of diphtheria, 
 cannot be held responsible by mothers fond of diagnosticating dental 
 diseases. In this connection the remark of Krieger ought not to be 
 overlooked, who explains the relative scarcity of the disease in the first 
 year of life by the fact that cumulative influences will produce a great 
 number of cases, and cumulation requires time. Undoubtedly, however, 
 an important etiological consideration is the fact of having had the dis- 
 ease previously. We can cite a host of zymotic diseases the occurrence 
 of which once serves as a protection against future attacks. Not only 
 can no such security be expected after one attack of diphtheria, but, 
 cseteris paribus, the disease shows a preference for those who have sur-' 
 vived a previous attack. The statement that only the mild cases, with 
 but slight elevation of temperature and freedom from severe constitutional 
 symptoms, are likely to suffer a relapse is founded on error. True, I have 
 more frequently seen relapses after mild cases which, fortunately, are in 
 the majority but the disease has also recurred where originally high 
 fever and an extensive lymphadenitis proved it to be a severe case. 
 Besides, second attacks of membranous croup are also recorded (Guer- 
 sant, N. F. Gill, Quincke). 
 
 As there are individuals, so there are families, which have a predispo- 
 sition to diseases, as there are others in whom, notwithstanding^ ample 
 exposure, infection does not easily take place. Yet in the famih'es in 
 which diphtheria is of frequent occurrence it cannot always be attributed 
 to enlarged tonsils and a tendency to pharyngeal or nasal catarrh. 
 1 Mittheil. aus d. Embryol. Imtit., i., 1877.
 
 682 DIPHTHERIA. 
 
 Still, catarrh and the vulnerability of mucous membranes must be con- 
 sidered as a frequent source of diphtheria ; children will get numerous 
 relapses often after a nasal or pharyngeal catarrh. Sudden changes in the 
 temperature of the atmosphere or of the surface of the body are therefore 
 dangerous in predisposed persons. And thus it is that while severe epi- 
 demics have spared no climate or land known to us, the majority of cases 
 have occurred in winter and spring ; in other words, at a time when 
 catarrhal disorders are of most frequent occurrence. In my experience 
 at New York, the first quarter of the year yielded more cases than any 
 other. Still, they are frequent enough in warm seasons. Krieger insists 
 upon the injurious influence of hot summers and dry hot rooms. I do 
 not doubt the correctness of his views, which cannot but be strengthened 
 by the damaging results of our furnace-heating. But the influence of 
 season on the invasion and course of diphtheria is but indirect and condi- 
 tional, and may be, perhaps, after all, compared with that exerted by filth 
 a term which is lately used to express all sorts and forms of nastiuess, 
 from filthy bodies of men to their clothes, their habits, their food, and the 
 air they breathe, whether polluted by carbonic acid, by excremeutitious 
 gases, or by exhalations of sewers. 
 
 Cases of diphtheria which are traced to exhalations from sewers (or 
 even to filthy habits of life) are very frequent. Yet typhoid is attributed 
 to the same causes. So is dysentery. Can, then, foul exhalations pro- 
 duce alike diphtheria, typhoid, and dysentery? Do these diseases arise 
 from a common poison? Or is the poison of a treble character, so that 
 a part may give origin to diphtheria, another part to typhoid, a third 
 to dysentery? 1 Have we to deal, in such occurrences, with specific 
 influences, or only with a lowering of the standard of health, thereby 
 affording other morbid influences an opportunity to exercise their power "f 
 These questions are still involved in darkness, and constitute problems the 
 solution of which still engages the minds of both individual writers and 
 authorities. A report of the Board of Health of Massachusetts, closely 
 adhering to the results of exact observations, 2 leaves them doubtful, and 
 the affirmative reports of some modern writers do not bear scrutiny. 3 
 
 Air polluted by bad drainage or leaky sewers has been considered 
 responsible for diphtheria as well as for typhoid fever and dysentery. 
 Not only the impairment of general health, but the direct and unmis- 
 takable disease, has been attributed to it. Thus Bayley refers, in the 
 endemic of Bromley, 4 the first cases to unventilated sewers and cesspools. 
 School-children multiplied the disease. Thursfield attributes the diph- 
 theria at Ellesmere 5 to the accumulation of excrements under the school- 
 room, and to deficient supply of water, which, moreover, was of bad qual- 
 ity. Tripe (like Railton, Bailey, Russell, Bell) accuses sewer gas ; 6 others 
 polluted waters or bad drainage. 7 I have not been convinced, however, 
 that diphtheria can be considered a sewer-gas disease, in the same way as 
 typhoid fever. The deterioration of the general health resulting from the 
 inhalation of foul air is sufficient to explain the outbreak of the individ- 
 ual attack during a prevailing epidemic. 
 
 1 In regard to the causal connection of the two latter diseases with sewer exhalations 
 we can be more positive than in regard to the former. 
 1 Author's Treatise on Diphth,., p. :>>. 
 
 3 M. A. Averv, Med. Jour, and Ohxt. Rev., Feb., 1882. *Sanit. Record, Aug. 10, 1877. 
 5 San. Rec., 158, 1877. * Ibul., June 14, 1878. T Ibid., April 18, May 2, 1879.
 
 ETIOLOGY. 683 
 
 In regard to polluted water, I do not think that pathologists who 
 attribute infectious diseases to bacteria only are justified in condemning 
 it. It may not be so guilty, after all, for the admixtures, inorganic and 
 organic, minerals, admixtures of wood and plants, also lower fungi and 
 their products algae, infusoria would render water rather disagreeable, 
 but not exactly unhealthy. The latter eifect can be accomplished always 
 assuming the bacteria theory correct, for the sake of argument by bac- 
 teria only. But when they arrive in the stomach, their doom is sealed; 
 they are decomposed. The only places where, possibly, they could take 
 root would be diseased or ulcerated places in either the oral cavity or the 
 upper portion of the oesophagus. 
 
 Not only water, but the milk of animals also, has been accused of 
 being the direct cause of diphtheria. Powers concludes, though a 
 connection between diphtheria and the consumption of milk have not 
 been proven as yet, that it is very probable indeed. His careful investi- 
 gations into the causes of some local epidemics in North London exclude 
 any other source from which the people could have been affected. Per- 
 haps one of the forms of garget, cow mammitis, is of an infectious cha- 
 racter. His reasoning, however, is not accepted by A. Dowrus, 1 who still 
 believes that the milk which gave rise to diphtheria at a distance may have 
 been soiled and infected. For though the connection between milk and scar- 
 latina and typhoid fever had been known for years and variously studied, 
 no observation of the kind had yet been made in regard to diphtheria. 
 Besides, where the young, in England, drink much milk viz. in the 
 cities diphtheria was very much less frequent than where little or no 
 milk was taken viz. in the country. Even in the country the well-to- 
 do classes, who drink milk, had but little diphtheria, while the children 
 of the poor, who obtained none, suffered a great deal from it. 
 
 In regard to this transmission of diphtheria by means of milk O. Bol- 
 linger 2 hesitates to express any opinion, except that the matter is very 
 doubtful indeed. Probably the possibility of contracting diphtheria 
 directly from animals is very much greater than the danger from water 
 or milk. On a Pomeranian farm, during the winter 1875-76, every 
 newly-born calf died of diphtheria. The superintendent of the farm and 
 the woman who attended to the calves were taken with diphtheritic 
 angina. 3 Similar occurrences have been recorded. Bellinger reports a 
 mycotic disease of the trachea and lungs in birds. 
 
 Friedberger's report, 4 presented to the Veterinary Society of Munich, 
 on croup and diphtheria of domestic fowls, leaves no doubt as to its fre- 
 quency, particularly amongst the nobler varieties. 
 
 Nicati 5 studied an epidemic diphtheria amongst hens which nad_ si 
 lar symptoms and a course very much like that in man ; it could be innoc- 
 ulated into other animals, and was contemporaneous with the outbrea at 
 the epidemic amongst the human population of Marseilles, 
 succeeded in inoculating a healthy hen from a diphtheritic one, but 1 
 
 1 "Diphtheria and Milk-Supply," Brit. Med. Journ., Feb. 1, 1879. 
 
 * D. Z.f. Thie>~med,. . vergleich. Pathol., vi., 1879, p. 7. 
 8 Damman, in D. Zeitxch. f. Thiermed., 1876, p. 1. 
 
 * /). Zeitsch. f. Thiermed., v., 1879, p. 16. 
 
 6 Revue d' Hyqten* ft de Police sanitaire, 1879, p. 6. jij^w i7Q 
 
 "De la transmission de la Diphth. des An.maux a I'Homme" Oaz. hebtam., I 
 
 AvrU 25.
 
 684 DIPHTHERIA. 
 
 attempts at transmission to dog, pig, and man were unsuccessful. The 
 Med. and Surg. Journal 1 contains the following: In a house at Ogdens- 
 burg, N. Y., five children were ill with diphtheria. Three kittens who 
 had been playing with them from time to time took the disease and died. 
 Post-mortem examination showed diphtheritic membranes in their 
 throats. 2 
 
 Gerhardt 3 reports the following: 2600 hens were imported from 
 Verona, Italy, into a village, Messelhausen, in Baden. Some of these 
 hens were affected with diphtheria when they arrived. "Within six weeks 
 600 of their number died of diphtheria, and 800 more soon after. In 
 the following summer 1000 chickens were raised by artificial breeding, 
 all of which died of diphtheria within six weeks. Five cats kept in the 
 place also died of diphtheria ; a parrot fell sick with it, but recovered. 
 An Italian cook, suffering from diphtheria, in the mouth of November, 
 1881, while being subjected to local treatment with carbolic acid, bit the 
 head-nurse's left foot and hand. Both these wounds became diphtheritic, 
 the man falling sick with high fever, and requiring three weeks for his 
 gradual recovery. Besides, four of the six workiugmen employed in 
 taking care of the hens of the establishment Were taken with diphtheria. 
 Not a single case, however, occurred in the neighboring village. Thus, 
 it is safe to assume that the diphtheritic disease of hens can be trans- 
 mitted to man. 
 
 Diphtheria may be also produced by outside influences. In this 
 regard the attempts at generating pseudo-membranes by artificial means 
 are very interesting indeed. As early as 1826, Bretonneau, by the intro- 
 duction of tincture of cantharides and olive oil into the trachea, suc- 
 ceeded in producing a "dense, elastic, reed-like membranous concretion." 
 Delafond called croup into existence by the use of ammonia, oxygen, 
 chlorine, corrosive jsublimate, arsenic, and sulphuric acid. On the other 
 hand, H. Mayer asserts that it is impossible, by means of ammonia, to 
 produce a croup in the windpipes of animals which in the slightest degree 
 resembles that occurring in human beings. Trendelenburg, however, 
 after producing membranes in the trachea by the use of a solution of 
 corrosive sublimate (1 : 120), succeeded in hardening the entire mass with 
 bichromate of potassium, which it was impossible to do with the most 
 tenacious mucus. 
 
 Rey observed croup in horses that inhaled smoke in a burning stable. 4 
 In the collection of the veterinary school of Zurich there is a croup mem- 
 brane from a heifer which had been exposed to a fire ; at Munich, one 
 from the trachea of a horse, produced by forcibly injecting medicines 
 into the nose. Hahu made an observation on cows, W. Ammon on 
 horses, of long croup membranes after the animals had been exposed to 
 smoke and fire ; and Oertel constantly insists on there being " no actual 
 difference between croup as it ordinarily occurs and that excited in the 
 windpipe of a rabbit by means of ammonia. The color and texture, the 
 physical, chemical, and histological characteristics, are identical." 
 
 1 Med. Rec., Nov. 8, 1879. 
 
 'An elaborate description of the croupo-diphtheritic inflammations of mucous mem- 
 branes in hens, turkeys, pheasants, and pigeons may be found in Z'drn. Krankh. d. 
 Hausyeflilyds, 1882, p. i04. 
 
 3 Verhandlungen des (ii.) Congresses fur Tnnere Medicin, Wiesbaden, 1883, p. 129. 
 
 * Journ. de med. vet. de Lyon, 1850, p. 249.
 
 MORBID ANATOMY. 685 
 
 _ MORBID ANATOMY. Either the membrane or the granular infiltra- 
 tion is characteristic of diphtheria. The statement that the former occurs 
 only when atmospheric air can gain access thereto, as A. d'Espiue and C. 
 Picot still hold, 1 is plainly contradicted by its appearance on the mucous 
 membrane of the lower intestines. The condition of the membrane is 
 not unalterable, any more than the clinical symptoms of the disease, for, 
 according to different circumstances, epithelium, mucus, blood, ' and 
 vegetable parasites are added thereto. The membrane can either be 
 lifted from the mucous membrane on which it lies or is imbedded into 
 and underneath it. In the first instance, it consists to a great extent of 
 fibrin, the result either of epithelial changes or derived directly from the 
 exuded blood-serum. E. Wagner, who makes no anatomical distinction 
 between croup and diphtheria, considers epithelial changes the principal 
 source. The pavement epithelium becomes altered in a peculiar manner. 
 It becomes turbid, larger, dentated, and dissolves into a network ; it is at 
 first uninhabited, but serves later as the vehicle of newly-formed cells 
 there also occurs a considerable infiltration of the mucous membrane 
 pus-cells and granules; besides, the cellular tissue is studded with 
 granules, the granular degeneration resulting sometimes in necrotic 
 destruction, which is looked upon by Virchow as the most important 
 element in severe forms of diphtheria. The several conditions or degrees 
 may occur independent of each other, associated or in succession. Classen 
 shares Wagner's views, but, according to Boldygrew, the pseudo-mem- 
 brane consists of successive coagulations of a fibrinous fluid which 
 exudes from the diseased surface. Steudener also opposes the views of 
 Wagner. He does not believe in the probability of an exclusively en- 
 dogenous origin of the cellular elements of croup membrane ; in fact, he 
 doubts the occurrence of an endogenous formation of pus-globules in epi- 
 thelium. Croupous membrane, according to him, is formed by the 
 migration of numerous white blood-globules through the walls of the 
 vessels in the mucous membrane, and by a direct formation of fibrin 
 from the transuded plasma. In addition to this, the mucous membrane 
 is stripped of its epithelium (except at the mouths of the acinous glands) 
 and infiltrated with migrating cells. Fresh croupous membrane consists 
 of a delicate network of homogeneous structure and shining appearance, 
 in which numerous cells and the epithelium of the various layers of the 
 trachea are imbedded. In old membranes the cells are destroyed by 
 granular degeneration and general maceration. Tenacious mucus with 
 pus-cells and detritus are then found. C. Weigert looks upon the 
 deposits as analogous to those on serous membranes. Every inflamma- 
 tion yields an exudation which may coagulate when the coagulating fer- 
 ment is added. This latter is probably produced by the white blood-cells 
 when in disintegration. But he does not say why it is that there is no 
 such coagulation in suppurative processes, where the leucocytes are more 
 numerous. He believes himself justified in establishing pathological 
 differences of croup, pseudo-diphtheria, and diphtheria. A croupous 
 inflammation means destruction of epithelium, which gives rise to a 
 fibrinous exudation upon the surface, while the cellular tissue remains 
 intact The only difference between it and the pseudo-diphtheritic 
 inflammation is looked for in the larger number of emigrated white 
 1 Man. prat, rfes mat. de Penfance, 1877, p. 81.
 
 686 DIPHTHERIA 
 
 blood-cells. The superficial deposit consists, to a great part, of them and 
 the fibrinous exudation. When there are but few leucocytes the deposit 
 is a network of fibrillse (croup). When there are many, the masses are 
 more solid and voluminous (pseudo-diphtheritis). When, however, the 
 tissue is changed into a hard substance resembling coagulated fibrin, 
 when the exudation does not exist on the surface, but takes place into the 
 mucous membrane, the process is diphtheria. Zahii also establishes 
 three varieties viz. 1st, such as result from a peculiar degeneration of 
 pavement epithelium; 2d, such as originate in the solidification of a 
 muco-fi brinous, and, 3d, of a fibrino-purulent, exudation. Each of these 
 varieties may contain colonies of micrococci, but these organisms are 
 neither essential nor are they constantly found. 
 
 The diphtheritic process does not merely consist of the membranous 
 changes in the pharynx and air-passages. Its fatal cases have afforded 
 marked evidence of the implication of most of the organs. Refiner's 17 
 3ases give the following post-mortem results : the lungs were hypera3mic 
 in 8 cases, twice the seat of pneumonia, and three times of embolic infarc- 
 tions ; in addition, emphysema in 1 2, cedema in 6, atelectasis in 7, sub- 
 pleural ecchymoses in 7, pericardial ones in 4. The heart-muscle had 
 undergone fatty degeneration in 6, and was the seat of ecchymoses of 
 the size of a pin's head in 3. In addition to frequent hypersemic condi- 
 tions of the abdominal viscera, emboli of the liver in 3 (with capillary 
 hemorrhages of the peritoneal covering in 1), emboli of the spleen in 5, 
 desquamative nephritis in 7 (in 6 of which there were colonies of micro- 
 cocci in the uriniferous tubules), cellular hyperplasia of the cervical aud 
 mediastmal glands in 14 (complicated in 6 with capillary hemorrhages in 
 the glandular tissue). The blood was frequently normal, very often 
 watery and dark, at times leucocythaemic. Thus the disease exerts its 
 influence everywhere. 
 
 Rindfleisch defines diphtheritic inflammation as that form of inflam- 
 mation which produces a coagulating necrosis in the tissues by the immi- 
 gration of schizomycetse. The coagulating necrosis differs from the usual 
 form of necrosis in this, that the change from life to death is accompanied 
 with the coagulation of fluid albuminoids. This process takes place 
 mainly in the interior of cells and other parts of tissues, and therein 
 differs from the coagulation of fibrin. In the cells there is taking place 
 a peculiar homogenization of protoplasm ; at the same time the nuclei 
 disappear, and are changed into irregular masses liable to cohere and 
 form membranous conglomerates, which owe their peculiar wax color to 
 the invasion of a solid albuminoid endowed with a strong tendency to 
 refract the light. Coagulating necrosis is found in circumscribed localities, 
 and gives rise, in the neighborhood, to a marked amount of inflamma- 
 tion and suppuration, which leads to the expulsion of the necrotic part, 
 with more or less loss of substance either mild or phagedenic ulcera- 
 tion. 
 
 Leyden describes a gray degeneration of the muscular tissue which he 
 believes to be truly inflammatory, and Unruh has lately published an 
 account of some cases in which myocarditis occurred. In Leyden's cases, 
 the muscular nuclei were increased, became atrophied, and underwent 
 fatty degeneration, giving rise thereby to extravasations, softening, dilata- 
 tion and debility of the heart, with general debility, collapse, and prob-
 
 MORBID ANATOMY. 687 
 
 ably by reflex action on other branches of the pneumogastric vomiting. 
 Micrococci he found neither in the heart nor in the kidneys. 
 
 In the heart, particularly on the right side, numerous thrombi are fre- 
 quently found in various stages of development; its muscular tissue is often 
 in a state of fatty degeneration or the seat of parenchymatous inflammation 
 and hemorrhages. Bridges first called attention to the occurrence of endo- 
 carditis in diphtheria. 1 This complication, which, however, occurs more 
 frequently with rheumatism, puerperal fever, diphtheria of wounds, pyaemia, 
 and old valvular affections than in the course of an acute diphtheria, does 
 not, tis found in the latter affection, consist simply of a fatty degeneration and 
 subsequent ulceration, but is considered a genuine diphtheritic process (Vir- 
 chow), affecting the mitral valve more frequently than the tricuspid or pul- 
 monary valves. It begins with hypersemia and the exudation of plasma in 
 the cellular elements, so that they appear larger and darker. The granu- 
 lations which form are frail and easily destroyed, so that ulcers form on 
 which fibrin is deposited, and whence it is conveyed as emboli into the 
 terminal arteries (Cohnheim) of the spleen, nerves, brain, and eye. 
 Infarctions may also occur in the valveless veins of these organs, giving 
 rise rather to small multiple abscesses than to large purulent collections. 
 Suppuration but rarely takes place in the heart ; the granular mass found 
 there resists the action of sether and alcohol, and spreads throughout the 
 cardiac parenchyma, so that perforation of the septum and of the right 
 auricle and aorta has been observed. 
 
 Bouchut and Labadie-Lagrave, out of 15 cases of diphtheria, met 
 in 14 with a plastic endocarditis, which became the source of emboli. 
 Thus, there were infarctions of the lungs, at times in their centre color- 
 less, at other times in a state of purulent degeneration; superficial thrombi 
 of the small veins of the heart, subcutaneous connective tissue, pia mater, 
 brain, and liver ; and in addition, moderate leucocytosis. 
 
 The lungs exhibit (post-mortem) all sorts of inflammatory and con- 
 gestive conditions, with their consequences, as oedema, catarrh, broncho- 
 pneumonia, atelectasis, emphysema, ecchymoses, and large infarctions. 
 
 The spleen (and occasionally the liver) is frequently large, congested, 
 and friable, and studded with infarctions to a greater or less extent^ ^ 
 
 The kidneys are either simply congested or the seat of nephritis or 
 infarctions. The same forms of * inflammation which accompany scarla- 
 tina to wit, the desquamative and the diffuse are here observed. The 
 diffuse form is not of so frequent occurrence as in scarlatina, but Is some- 
 times extensive and dangerous. 
 
 The muscles occasionally exhibit ecchymoses, and are at tunes the seat 
 of parenchymatous inflammation, gray degeneration, and atrophy. 
 
 The lymphatic glands are frequently inflamed and swollen, either hard 
 or doughy, oedematous or congested. Large abscesses are rare. It is 
 more especially the gland tissue, and less the connective tissue of the 
 glands, which takes part in the pathological process. The periglandular 
 tissue very soon becomes involved, however. Necrotic foci have been 
 described by Bizzozero. When the entire surface of the mucous mem- 
 brane of the mouth and of the air-passages, from the nose to the trachea, 
 is the seat of the disease, there is an impregnation of the mucous mem- 
 brane, from the epithelial surface to the submucous tissue, of 
 1 Med Times and Qcut., ii. p. 204.
 
 688 DIPHTHERIA. 
 
 tongue, borders of the lips, and frequently of the lips and cheeks, as well 
 as of the tonsils, the lower portion of the nasal cavities and the upper, 
 and especially the anterior, portion of the larynx. The fossse Morgagni 
 and the posterior aspect of the soft palate are more frequently affected in 
 the same way than the anterior aspect. Small isolated spots are found 
 on the tonsils and occasionally on the posterior wall of the pharynx. 
 The so-called croupous form that is u) say, the one in which the mem- 
 branes deposited may either be removed in large patches or lie macerated 
 in the profuse secretion of subjacent mucous glands is found partly in 
 the nasai cavities, on the posterior surface of the soft palate, and also in 
 the trachea and its subdivisions. 
 
 The character of the mucous membrane varies with the locality, Its 
 different elements, as the epithelium, the basement membrane, the con- 
 nective tissue mingled with elastic fibres, the blood-vessels, the nerves 
 from the cerebro-spinal and sympathetic systems, and the papillae and 
 ducts of numberless glands, all influence the pathological process going 
 on upon the surface. Their distribution in the oral cavity and the respi- 
 ratory organs is a very interesting study, and in a table already published, 1 
 I have exhibited it in a condensed tabular form. 
 
 Where elastic tissue predominates, diphtheritic impregnation is slow to 
 take place, and recovery is also slow when the tissue has finally submitted. 
 Pavement epithelium yields the easiest foothold to diphtheritic mem- 
 brane. Thus it is that the tonsils, not from their prominent situation 
 alone, favor the reception and development of the infection. But the 
 elastic and connective fibres when once affected are* apt to harbor the 
 disease a long time. Still, there is another reason why the diphtheritic 
 process should favor the tonsils. For Th. Hohr has demonstrated that 
 their epithelium exhibits interruptions in its continuity. Through them 
 round cells may emigrate. Wherever the epithelial covering of the integ- 
 uments (skin or mucous membrane) is intact and unbroken, diphtheria 
 takes hold with difficulty. But where a defect is established, large or 
 small, diphtheritic formations will be apt to take place according to the 
 size of the abrasion. This is one of the modes of the formation of small 
 diphtheritic deposits on the tonsils, which it has been the tendency of 
 many, both practitioners and authors, to honor with special names. 
 
 Ciliated epithelium is not so liable to be affected. It occupies a higher 
 rank in the scale of animal formations, has a more complex function and 
 a greater power of resistance. The presence of a large number of mucous 
 glands impedes, as a rule, by the presence of the normal secretion, an 
 extensive destructive action upon the tissues. The secreted mucus assists 
 in removing epithelial masses, and even fibrinous exudations, from the sur- 
 face. Thus it is that the deposits in the respiratory portion of the nasal 
 cavities are frequently cast off through the nostrils, and in a similar manner 
 the membranes that have formed in the trachea are ejected in a semi-solid 
 condition through the opening made by tracheotomy. The large number 
 of mucous glands in the larynx and trachea is unquestionably the reason 
 why the lymphatic vessels of the mucous membrane are not influenced 
 by the overlying loosened masses, and will not absorb ; hence laryngeal 
 and tracheal diphtheria, when not complicated, have decidedly a local 
 character, and are usually devoid of constitutional symptoms. For the 
 
 1 Treatise on Diphtheria, p. 126.
 
 DIAGNOSIS. 689 
 
 same reason the usual form of tonsillar diphtheria is a mild disease. On 
 the other hand, the large number and size of the lymphatic ducts of the 
 Schneiderian mucous membrane, as well as their 'direct communication 
 with the lymphatic glands of the neck, accounts for the dangerous cha- 
 racter of nasal diphtheria. 
 
 Diphtheria of the intestinal canal is characterized by fibrinous deposits 
 on the surface and in the tissues of the intestine, with subsequent granu- 
 lar degeneration. It is mostly preceded by a catarrhal process. The 
 same condition is found in the urinary organs. 
 
 There are but few autopsies of cases which have died of, or during, 
 diphtheritic paralysis. In some instances there was considerable thicken- 
 ing of the spinal nerves at the junction of the posterior and anterior roots, 
 with hemorrhages. The superficial connective tissue in these places exhib- 
 ited a diphtheritic exudation (Buhl). There was in the sheath of the 
 nerves of the cerebral and spinal meninges and in the gray substance 
 of the cord voluminous nuclear infiltration ; in one case there were exten- 
 sive hemorrhages in the spinal meuinges, with nuclear proliferation in the 
 gray substance of the cord (Oertel). Disseminated meningitis with peri- 
 neuritis of the neighboring roots, characterized by infiltration of nuclei 
 between the uerve-fibrillse was found by Pierret ; and degeneration of the 
 palatine nerves and fatty degeneration of the palatine muscles by Charcot 
 and Vulpian. Dejerine, in five. autopsies, records an atrophy of the ante- 
 rior roots secondary to a myelitic degeneration of the ganglia of the anterior 
 horns. E. Gaudier found the same in the case of a boy who died with 
 paralysis of the muscles of deglutition, of the extremities, and of the 
 trunk. In a child of two years with paralysis of the palate and 
 extremities the autopsy was negative. In two cases Dejerine reports 
 finding changes in the intramuscular nerves, such as liquefaction of 
 my el in and loss of axis cylinders. 
 
 'Thus, Buhl, Charcot, Vulpian, and Dejerine are unanimous about an 
 aifection of the peripheric nerves and muscles. Oertel, Dejerine, and 
 Gaucher believe in a disease of the spinal cord. It is true that a 
 disease of the gray substance would fully explain the symptoms of the 
 bad cases, but what we know of poliomyelitis anterior, with which this 
 aifection would be identical, precludes the idea of the rapid and almost 
 certain complete recovery. Therefore, in most cases, diphtheritic paral- 
 ysis consists of a trophic affection of the motor system, almost always seated 
 peripherally in the nerves and muscles, seldom, if ever, in the centres. 
 This aifection must be compared, in most of its relations, with the degen- 
 erative processes taking place in the muscular tissue after typhoid fever, 
 or in the renal epithelium after infectious diseases, both of which give 
 rise to serious results, with usually a favorable termination. 
 
 DIAGNOSIS. The characteristic sign of diphtheria is either the mem- 
 brane or the gray infiltration, with more or less injection of the surround- 
 ing parts. In regard to this greater or less injection, I will say that 
 pharyngeal congestion, when it is uniform, may or may not point to 
 imminent diphtheria. When it is local, confined to one side mainly, it is 
 either traumatic or diphtheritic. White spots which are easily washed 
 away, or which can be removed with a brush, or squeezed out of the follicles 
 of tiie tonsils, into which a probe can be introduced sometimes to the 
 depth of one-half inch, soon announce their true character viz. either a 
 
 VOL. I. 44
 
 690 DIPHTHERIA. 
 
 simple catarrhal secretion or suppuration. Even though the superficial 
 deposit contain oidium or leptothrix in considerable numbers, it can easily 
 be removed ; I have only known the totally inexperienced to mistake 
 muguet (thrush) for diphtheria. In the larynx muguet is, moreover, 
 very rare indeed, and always circumscribed. It is sometimes seen on the 
 true vocal cords. The gray discoloration of superficial follicular ulcera- 
 tions, as observed in the ordinary form of stomatitis follicularis, can 
 hardly fail to be recognized. Such patches are very numerous in the 
 fauces and on the lips and cheeks never on the gums, except in ulcerous 
 stomatitis (which is not follicular). They are accompanied, too, by 
 vesicles containing more or less serum which have not yet ruptured. It 
 must be remembered, however, that the mucous membrane, when deprived 
 of its superficial covering, is liable during an epidemic of diphtheria to 
 become infected, like every other wound. I have seen cases in which 
 stomatitis and diphtheria existed side by side, the latter having invaded 
 the surfaces exposed by the former. The examination of the entire 
 throat is not always easy. Very young children vomit frequently and 
 persistently before the whole surface is exposed to view, and not infre- 
 quently repeated examination with the spatula is absolutely necessary. 
 In general, however, the slight attempts at vomiting suffice to cause a 
 great part of the swollen posterior portion of the tonsils to become visible. 
 I have heard that the pale surface of old hyperplastic tonsils has been 
 mistaken for diphtheria ; I merely mention the fact. When a discolora- 
 tion happens to be the result of a deposited flake of mucus, a drink of 
 water will remove it. 
 
 Fever is not always a prominent symptom; as a rule, simple diphthe- 
 ria of the tonsils is accompanied by very little fever. Still, there are 
 plenty of exceptions. But the differences of temperature are not more 
 striking than in most other infectious diseases, whose either mild or 
 severe invasion may offer an obstacle to immediate diagnosis. As the 
 height of the fever does not absolutely determine, or even indicate, the 
 character of the subsequent course of the disease, but little importance is 
 to be attached to the temperature unless there be a very marked eleva- 
 tion. A sudden rise frequently occurs with lymphadenitis. High fever 
 in the beginning may render the diagnosis difficult or may postpone it. 
 
 The absence of glandular swelling does not exclude the diagnosis of 
 diphtheria, for when the tonsils are affected by the disease there is usually 
 little or no swelling of the neighboring glands. Swelling of the glands 
 enables us to locate the affection in a mucous membrane richly endowed 
 with lymphatic vessels. It is very marked when the nose is affected. 
 A few hours' duration of nasal diphtheria suffices for the development 
 of a severe lymphadenitis, especially at the angles of the jaw. When 
 the latter condition is found to exist, the throat should be examined with 
 the idea of finding a membrane extending upward ; nasal diphtheria is 
 very liable to complicate an affection of the uvula and arches of the 
 palate. The membrane cannot well be seen by looking through the nos- 
 trils ; highly serviceable for this purpose is a very short, broad rhino- 
 scope reaching upward to the bony structure of the nose. However, 
 nasal diphtheria may frequently be diagnosticated some days before the 
 membrane becomes visible, by the rapid development of lymphadenitis ; 
 this may be done even where the sweetish, musty odor of certain forma
 
 DIAGNOSIS. . 691 
 
 of diphtheria is absent. Still, nasal diphtheria may occur without much 
 lymphadenitis ; as, for instance, when the blood-vessels are very numerous 
 and superficial, and thereby give rise to slight hemorrhages at the very 
 beginning of the sickness. In such cases the lymphatic vessels are little, 
 if at all, required to transmit the poison, the open blood-vessels replacing 
 them in the function of absorbing. Naturally, there are cases in which an 
 ocular examination cannot be satisfactorily made. In the journals we read ol 
 brilliant results of rhmoscopic and laryngoscopic examination ; in practice 
 we see but few. This holds good especially for the cases of dyspnoea accom- 
 panying laryngeal diphtheria, where the diagnosis may be doubtful when 
 no membrane can be detected in the fauces ; even if membrane be observed 
 there, symptoms of suffocation may still arise from a laryngeal stenosis 
 independent of membranous deposits in the larynx. If aphonia and diffi- 
 culty of both inspiration and expiration be present at the same time, there 
 is certainly membranous occlusion. If aphonia appear late, or even toward 
 the very last, and only inspiration be impeded while expiration is com- 
 paratively free, there is an cedematous saturation of the ary-epiglottideau 
 folds and of their copious submucous tissue, and consequently of the 
 posterior attachment of the vocal cords. Although a general oedema 
 glottidis in connection with diphtheria is of exceedingly rare occurrence, 
 the above condition is not at all uncommon, and has forced me to trache- 
 otomize many times ; but, again, a comprehension of the true condition, 
 where it occurred in not very severe cases, has on several occasions 
 enabled me to avoid an operation. This local oedema may sometimes be 
 detected by palpation in the region of the swollen posterior wall of the 
 pharynx. 
 
 One of the diagnostic symptoms of membranous laryngitis, believed 
 in and referred to by Kronlein, does not exist viz. the swelling of 
 the lymphatic glands, which in his opinion is pathognomonic. Not 
 only 'is that not the case, but the absence or scarcity of lymphatics 
 on the vocal cords and in their neighborhood renders the absence of 
 glandular swellings a necessity, provided the latter do not depend on 
 complicating diphtheria in other localities. In uncomplicated diphthe- 
 ritic laryngitis I expect no lymphadenitis. The character of the laryn- 
 geal pseudo-membrane does not depend at all on the condition of the 
 pharynx. The latter may have membranes of any description or con- 
 sistency without permitting the diagnosis of the condition of the larynx. 
 I lay stress on this fact because no less a writer than Kronlein believes 
 that where there is but little or no membrane in the pharynx, that in the 
 larynx is rather loose and movable. 
 
 One of the diagnostic symptoms of diphtheritic laryngitis, or mem- 
 branous croup, is the relative absence of fever. Catarrhal laryngitis,_ or 
 pseudo-croup, is a feverish disease. A sudden attack of croup with high 
 temperature, provided there is no pharyngeal or other diphtheria present, 
 vields a good prognosis ; without much fever, a very doubtful one. 
 
 The diagnosis of diphtheritic paralysis offers very little difficulty in 
 most cases. Its occurrence after an attack of diphtheria, its beginning in 
 the fauces or in the muscles controlled by the ciliary nerves, the immunity 
 of the sphincters, the gradual development, the irregularity of its prog- 
 ress, are good diagnostic points. Examination by the interrupted 
 or continuous current is not conclusive. Very frequently m the begin-
 
 692 DIPHTHERIA. 
 
 ning the response to the interrupted current is normal, sometimes deficient ; 
 to the continuous current, exaggerated. After some time the power of 
 both to excite contraction is diminished. When we reflect on the numer- 
 ous causes which may underlie diphtheritic paralysis, and that we have not 
 to deal with one and the same anatomical change in all cases, it becomes 
 apparent that no reliable conclusions can be based upon electrical exam- 
 ination. 
 
 PROGNOSIS. In general, the prognosis in diphtheria is favorable when 
 the affected surface is of small extent and where such parts are the seat of 
 disease as have little communication with the lymphatic system. To the latter 
 class belongs simple diphtheria of the tonsils. Marked glandular swelling, 
 particularly if arising suddenly, is always an unfavorable sign, and calls 
 for the utmost caution in prognosis, especially if the region of the angles of 
 the jaw be speedily and markedly infiltrated. . This, as we have seen, is par- 
 ticularly apt to occur with nasal diphtheria, whether developed primarily, 
 (and then accompanied by a thin fetid discharge), or, as is more commonly 
 the case, secondarily from an affection of the pharynx and palate which 
 ascends into the posterior nares. With the appropriate local disinfection 
 this form of the diease is neither so alarmingly dangerous as Oertel 
 depicts it, nor so assuredly fatal as Roger but a few years ago taught in 
 his clinique, or as Kohts appears to believe, 1 yet it is ever grave. With 
 energetic treatment many cases will, however, get well. Diphtheria of 
 wounds, complicating diphtheria of the pharynx, is always an unfavor- 
 able sign ; that of the mouth and angles of the mouth, associating itself 
 with a previously existing diphtheria, having an indolent course, and 
 producing more frequently a deep impregnation of the tissues than a 
 thick deposit, causes a painful and serious condition. Diphtheria 
 of the larynx, whether it be of primary origin or the result of exten- 
 sion from the fauces, is nearly always fatal. In severe epidemics the 
 mortality is 95 per cent. Tracheotomy, too, saves but few of those 
 who take the disease at such a time. In fifty consecutive tracheotomies 
 from 1872 to 1874 I did not see one recovery. In the last few years I 
 have seen few good results. In average epidemics tracheotomy will save 
 20 per cent. A pulse of 140 to 160, and high fever immediately after 
 the operation, render the prognosis bad; so does absence of complete 
 relief after the operation. An almost normal temperature the day after 
 the operation is an agreeable symptom, but does not exclude a downward 
 extension of the diphtheritic process, and hence cannot be looked upon as 
 assuring a favorable prognosis. A marked elevation of temperature is 
 apt to indicate a renewed attack of diphtheria or a rapidly-appearing 
 pneumonia, and is an unfavorable symptom. A dry character of the res- 
 piratory murmur some time after tracheotomy indicates the approach of death 
 within from twelve to twenty-four hours from descent of the membrane; 
 so does cyanosis, whatever be its degree of intensity. Diphtheria of the 
 trachea, which ascends to the larynx, is positively fatal. It has a rapid 
 course, and tracheotomy only postpones the end for a little while, if at all. 
 The general health and strength of the little sufferer have no influence 
 whatever. 
 
 Thick, solid deposits need not of themselves render the prognosis so 
 unfavorable as do septic and gangrenous forms. Even in the nose they 
 
 1 Gerhardt, Handb. d. Kinder/cr., iii., 2, p. 20, 1878.
 
 PROGNOSIS. 693 
 
 are not of as serious import as the thin, putrid discharge. I have seen 
 recovery ensue in cases where I was obliged to bore through the occluded 
 nasal cavities with probes and scoops. Fetid, putrid discharges are 
 unfavorable, but in no wise fatal; conscientious disinfection accom- 
 plishes a great deal. Slight epistaxis indicates the possibility of rapid 
 absorption through the blood-vessels; but here, too, the final result 
 depends on whether the disinfection be equally rapid and thorough. 
 The same holds true for the sweetish, fetid odor of the breath, whether 
 of the nose or mouth, which, on the one hand, demonstrates the signif- 
 icance of the disease, while, on the other hand, it indicates the possibility 
 of infection by inhalation. 
 
 The height of the fever is not in proportion to the danger in any indi- 
 vidual case; some have a favorable, some an unfavorable termination, 
 without fever of any account. Simple catarrh of the pharynx and larynx 
 frequently begins with a sudden and marked rise of temperature; diph- 
 theria in the same parts but rarely. There are cases, however, in which 
 the height of the fever and the deposited membranes are in inverse pro- 
 portion to each other. In these cases the fever may subside rapidly, 
 owing to a speedy elimination of the poison. Young children only are 
 in danger of death from convulsions or a rapid tissue-degeneration due 
 to hyperpyexia. If the temperature rise suddenly after some days of 
 sickness, cither a complication or a fatal termination is to be appre- 
 hended. Yet, there are as many deaths in cases with comparatively 
 low as with very high temperatures. Whether collapse has resulted 
 rapidly or slowly, the patient dies often with low temperature. Thus, 
 a rapid elevation is hardly a more unfavorable sign than a rapid fall. 
 The pulse, too, may be very variable. True, a small, rapid, and irregu- 
 lar pulse is always unfavorable, because it indicates a weakening of the 
 cardiac function ; yet as long as it retains an approximately normal rela- 
 tion to the frequency of respiration a rapid pulse gives no cause for alarm. 
 Moreover, the pulse is not always rapid when the strength gives way. 
 It occasionally becomes slower, and sometimes very slow, and may then 
 become a dangerous symptom. 
 
 Every complication adds to the danger. Bronchitis and pneumonia 
 are not infrequent, yet I have seen cases of laryngeal diphtheria recover 
 in which I had suspected pneumonia before performing tracheotomy, and 
 was enabled to diagnosticate it after operating. Albuminuria in the early 
 part of a diphtheritic attack with high fever is of little significance ; 
 nephritis, later in the course of the disease, partakes of the character of 
 scarlatinous nephritis; cases of acute diffuse renal disease are fortunately 
 infrequent, and the remainder are very submissive to treatment. I he 
 cases of diphtheria complicated with endocarditis in my practice have 
 ended fatally. An early affection of the sensorium, not dependent on 
 pressure upon the jugulars by greatly swollen glands, is an unfavorable 
 symptom. Purpura, with profuse hemorrhages and a livid hue of the 
 skin, is ominous; icteric discoloration, together with marked glandular 
 and peridaudular tumefaction, is absolutely fatal. 
 
 Most cases of diphtheria of the pharynx and of the tonsils have a 
 favorable termination, yet a positive prognosis can in no case be given 
 with certainty. Still, even in malignant epidemics the mortality is not 
 very great, for even though there be a large number of severe cases in
 
 694 DIPHTHERIA. 
 
 any one epidemic, yet it is greatly overbalanced by the number of 
 moderately severe and mild ones. True, not a few cases end fatally in 
 several days, owing to the high fever, or to septic absorption, or nephritis, 
 or croup, but the majority of cases end in recovery in one or two weeks. 
 Yet diphtheria does not always take so regular a course ; not infrequently, 
 after the pulse has become stronger, the appetite improved, and the phar- 
 ynx cleared, and the patient is apparently on the high road to recovery, 
 another attack occurs accompanied by fever, as before, and a rapid form- 
 ation of membrane. Occasionally two or three such relapses may occur 
 in the course of three, four, or five weeks ; not to speak of the fact that 
 those who have once suffered from diphtheria are more susceptible to the 
 action of the poison than those who never suffered before. 
 
 TREATMENT. Every case should be treated on general principles ; 
 thus, it is not possible to lay down a routine treatment for every indi- 
 vidual case. High feyer should be reduced by sponging and bathing, 
 quinia, and sodium salicylate ; collapse speedily treated, and severe reflex 
 symptoms, as vomiting, etc., checked at once. Whether to employ for 
 this purpose ether, wine, cognac, champagne, or coffee must be decided by 
 the physician in individual cases. The administration of the remedy, 
 whether by mouth, by injection into the bowels, or subcutaneously, as I 
 have employed cognac, ether, alcohol, and camphor dissolved in ether or 
 alcohol, in some cases with decided and rapid success, must depend on the 
 condition of the organs and on the urgency of the case. However, all 
 the above remedies are frequently of no service, because adminis- 
 tered too late and in too small doses. If I have ever had cause to 
 feel contented with the results of treatment in diphtheria, it is owing 
 to the fact that I lost no time. No medicines, however, must be resorted 
 to which are apt to derange the digestion of the patient ; alcoholic stimu- 
 lants must be given in fair dilution only, for that reason. The nourish- 
 ment of the patient is a matter of very great importance. On general 
 principles it is true that care must be taken in regard to food administered 
 to febrile patients, but we must bear in mind that, when the lymphatic 
 vessels are kept empty and no new and proper material is introduced into 
 them, the absorption of locally-existing poisonous substances is pro- 
 portionately increased. Hungry lymph-vessels are the organism's fiercest 
 enemies. 
 
 I dwell particularly on the foregoing remarks for the reason that in 
 diphtheria, unlike certain diseases having a typical course and those of a 
 simple inflammatory character, expectant treatment should not be indulged 
 in. Oertel's advice, that when neither high fever nor complications are 
 present we should quietly wait, and "act only when new and most 
 alarming symptoms present themselves," is decidedly perilous. A mild 
 invasion does not assure a mild course. Never has a " possibly super- 
 fluous" tonic or stimulant done harm in diphtheria, but many a case has 
 a sad termination because of a sudden change in the character of the 
 disease, putting the bright hopes of the physician to shame. Only the 
 philosopher may be a passive spectator ; the physician must be a guard- 
 ian. When I again read, in the work of the same meritorious author, 
 " that when in exceptional cases, in children and young people, death is 
 imminent, not from suffocating symptoms in the larynx and trachea, but 
 from septic disease and blood-poisoning, it is necessary to resort to power-
 
 TREATMENT. 695 
 
 ful stimulants," it strikes me that he is frequently too dilatory with his 
 remedies, and, furthermore, that his experience concerning the terrible 
 septic form of diphtheria which is so frequently met with in some epi- 
 demics must have been very limited at the time he was writing. In New 
 York, during the past twenty-five years, for every death from diphtheritic 
 laryngeal stenosis (membranous croup) there have been three from diph- 
 theritic sepsis or from exhaustion. 1 
 
 In regard to the dose of stimulants, it is a fact that there is more 
 danger in diphtheria from giving too little than too much. When the 
 pulse barely begins to be small and frequent they must be administered 
 at once. A three-year-old child can comfortably take thirty to one 
 hundred and fifty grammes (f j v) of cognac, or one to five grammes of 
 carbonate of ammonium, or a gramme of musk or camphor (gr. xv) and 
 more, in twenty-four hours. In the septic form especially the intoxicat- 
 ing action of alcohol is out of the question ; the pulse becomes stronger 
 and slower, and the patient enjoys rest. In those cases in which the pulse 
 is slow, together with a weak heart's action, the dose can hardly be too 
 large. The fear of a bold administration of stimulants will vanish, as 
 does that of the use of large doses of opium in peritonitis, of quinia in 
 pneumonia, or of iodide of potassium in meningitis or syphilis. I know 
 that cases of young children with general sepsis commenced immediately 
 to improve when their one hundred grammes (fiij) of brandy were 
 increased to four times that amount in a day. 
 
 The remarks I have made in reference to the general treatment of 
 diphtheria naturally render superfluous a discussion of the value of 
 abstraction of blood. To be sure, it could only be a question of local 
 bleeding. For nobody would dare to resort to jugular venesection, as our 
 predecessors did in the last century. It may be safely asserted of the 
 latter that it has no influence on the process, but frequently increases the 
 local swelling and makes the patient more anaemic. There is no case in 
 which a resort to it would not be criminal. I can distinctly recall the 
 time when bleeding and calomel formed the groundwork of the treat- 
 ment. Until the year 1862 the death-rate in Rupert, Vermont, from 
 diphtheria was 90 per cent., according to the reports of the local physi- 
 cians, and particularly of my pupil, Dr. Guild, who at that time finished 
 his studies in New York and commenced practising. When, in the same 
 epidemic, bleeding and calomel were replaced by stimulants and iron, 
 with the chlorate of potassium, 90 per cent, recovered. 
 
 That attention must be paid to the general condition mainly during a 
 
 1 We have to improve somewhat on the plan of Thomas Wilson, though his general 
 instructions be good (as laid down in his Tentamen medicum inaugurate de cynanche 
 rnaliqna, Edinb, 1790, p. 24) : " Cum hactenus nullum inventum est remedium quod co: 
 tagionem in corpus receptam suffocare possit; cum medicamentapleraquequfe putredme 
 corrigere dicuntur, corpus ejusque function* manifesto robor t demue cum hun 
 morbum comitantur virium prostratio, et, etiam ab mitio, su 
 qualis evacuantia omnigena prohibet, indicationem curandi u 
 bus obviam ire, proponam. Hinc corporis conditioni obviam itur 
 lantia adminisirando . (As no remedy has yet been found which can Anguish the con 
 tagion after it has been received into the body; as most , medicine* wh ^ have the 
 reputation of correcting putrefaction are roborants.for the body and f unrtion^ and 
 lastly, as this disease is attended with great prostration and such ***Z*?ffZ 
 t/i nreplnde the use of all sorts of evacuauts, -I propose but this one indication 10 treai 
 ment-vT, to meet the effects of debility. Wis fulfilled by the administrate mainly 
 of tonics and stimulants.)
 
 696 DIPHTHERIA. 
 
 retarded convalescence from previous sickness is self-evident. Any 
 complications, too, must be subjected to early treatment. Diarrhoea 
 must be mentioned among these ; it reduces the patient's strength very 
 quickly ; likewise, the early appearing nephritis, which may suddenly 
 end life. 
 
 In this connection I must allude to the great danger of self-infec- 
 tion, which may occur in every variety of cases, severe or mild. The 
 poison is diffused by expiration and expectoration. Though care 
 may have been taken to disinfect the linen, towels, handkerchiefs, 
 the bedstead and bedding, chairs and wall-papers, and carpets and 
 curtains, even the clothing of the attendants will be infected. While 
 the patient is getting well he will be infected again, and have a more 
 serious relapse ; and a third one, and succumb! I have met with such 
 cases often, and with some which went from one attack into another, and 
 would certainly have perished but for their removal to a distant part 
 of the town. Where there are vacant rooms the indication is to change 
 rooms every few days and to thoroughly disinfect (with sulphurous acid) 
 that which has been used and infected. 
 
 One important axiom must be borne in mind namely, that preven- 
 tion is easier than cure. I do not refer simply to the removal of the 
 healthy members of the family beyond the danger of infection or to the 
 isolation of the patient. If the latter becomes necessary, the first indi- 
 cation is his removal to the top floor of the house. There are, in addition, 
 however, certain prophylactic measures which will prove valuable in the 
 hands of every good physician. It is necessary under all circumstances 
 that the mouth and pharynx of every child be constantly kept in a 
 healthy condition. Eruptions of the scalp must be treated at once, and 
 glandular swellings of the neck caused to disappear. Some cases of 
 laryngeal diphtheria have been traced directly to the presence of suppu- 
 rating bronchial glands, with or without perforation. 1 The same rule 
 applies to nasal and pharyngeal catarrhs, the treatment of which should 
 be commenced in warm seasons, when general or local remedies yield 
 better results. Enlarged tonsils should be resected, or, where that can 
 not be done, scraped out with Simon's spoon, at a time when no diph- 
 theritic epidemic is raging. It is important that this take place at a 
 time when, even though sporadic cases of diphtheria occur, the danger 
 of infection is not great; for during the height of an epidemic every 
 wound will give rise to general or local infection. This holds good for 
 any part of the body as well as of the mouth. I avoid, therefore, an 
 operation at such a time, provided it can be postponed. 
 
 Prevention, after all, is not the business of the physician only, but just 
 as much that of the individual or the complex of individuals viz. the town, 
 the state, and the nation. Those sick with diphtheria must be isolated, 
 though the case appear ever so mild, and, if possible, the other children must 
 be sent out of the house altogether. If that be impossible, let them remain 
 outside the house, in the open air, as long as feasible, with open bedroom 
 windows during the night, in the most distant part of the house, and let 
 their throats, and those of their nurses, be examined every day. The 
 watching eye of a father or mother will discover deviations from the 
 norm, so that the physician can be notified. Let the temperature* 
 1 Weigert, in Virch. Arch., vol. Ixxvii., p. 294, 1879.
 
 TREATMENT. 697 
 
 of the well children be taken once a day, toward evening. Ten 
 minutes of a mother's time are well paid by the discovery of a slight 
 anomaly which may require the attention of the physician. Happfly, 
 there are now many mothers who keep and value a self-registering ther- 
 mometer as an important addition to their household articles. The attend- 
 ant upon a case of diphtheria must not get in contact with the rest of 
 the family, particularly the children, after his visiting and handling the 
 patient, for the poison may be carried, though the carrier remain well 
 or apparently well. Unnecessary petting of the patient on the part of 
 the well ought to be avoided, and kissing must be forbidden ; the bed- 
 clothing and linen should be changed often and disinfected, the air of the 
 sick-chamber should be cool and often changed, and if possible the cham- 
 ber itself should be changed every few days. 
 
 The well or apparently well children of a family that has diphtheria 
 at home must not go to school nor to church. The former necessity is 
 beginning to be recognized by the authorities and teachers, and also, in 
 consequence of partially enforced habit, by parents ; the latter will be 
 resisted longer. Schools ought to be closed entirely when a number of 
 cases have occurred. Even when the school-children have not been 
 affected to a great extent, but an epidemic of diphtheria has commenced in 
 earnest, it will be better to close the schools for a time. If that be not 
 advisable, the teacher ought to be taught to examine throats, and directed 
 to examine every child's throat each morning, and to send home every one 
 with even suspicious appearances. 
 
 In times of an epidemic every public place, theatre, ball-room, dining- 
 hall, or tavern ought to be subjected to supervision. Where there is a large 
 conflux of people there are certainly many who carry the disease with them. 
 Disinfection must be enforced by the authorities at regular intervals. Public 
 vehicles must be treated in the same manner. That it should be so when 
 a case of small-pox has happened to be carried in them appears quite 
 natural. Hardly a livery-stable keeper would be found who would not 
 be anxious to destroy the possibility of infection in any of his coaches. 
 He must learn that diphtheria is, or may be, as dangerous a passenger 
 as variola. And what is valid in the case of a poor hack is more so in 
 that of railroad-cars, whether emigrant or Pullman. They ought to be 
 thoroughly disinfected in times of an epidemic, at regular intervals, for 
 the highroads of travel have always been those of epidemic diseases, and 
 railroad officers and their families have often been the first victims of the 
 imported scourge. Can that be accomplished ? Will not railroad com- 
 panies resist a plan of regular disinfection because of its expensiyeness ? 
 Will there not be an outcry against this as despotic and as a violation 
 of the rights of the citizen? Certainly there will be. But so there 
 was also when municipal authorities began to compel parents to keep 
 their children at home when they had contagious diseases in the 
 family, and when a small-pox patient was arrested because of endan- 
 gering the passengers in a public vehicle. In such cases it is not 
 society that tyrannizes the individual; it is the individual that endangers 
 society. And society begins at last, even in America, to believe m the 
 rights of the commonwealth, and not in the rights of the democratic 
 person only. The establishment of State and National Boards of Health 
 proves that the narrow-hearted theories of the strict construction^
 
 698 DIPHTHERIA. 
 
 have not only disappeared from our politics, but also from the conscience 
 and intellect of society. 
 
 The sick room must be kept cool, the windows kept open more or less 
 by night as well as by day, the floor frequently washed, the linen soaked 
 at once, the excrements removed. Dead bodies ought to be kept moist, for 
 infectious material, chemical or otherwise, will spread more easily when dry. 
 Attendants must not talk unnecessarily over the mouth or diphtheritic 
 wounds of the patient, and will do well to carry a little dry loose cotton 
 to be changed often in each of the nostrils, for it aids in protecting 
 those who are necessarily exposed to infection. 1 
 
 A very important mode of prevention consists in disinfection. The 
 experiments of Schotte and Gaertner, and of Sternberg, prove the 
 inefficiency of small doses of most of the disinfectants in common use. 
 The popular idea, sometimes even shared by physicians, that the faint 
 odor of chloride of lime or of carbolic acid in a sick room or in a foul 
 privy is evidence that the place is disinfected, is entirely erroneous. Par- 
 ticularly in regard to the latter agent, it may be stated at once that its 
 employment for disinfecting purposes on a large scale is impracticable, 
 both on account of the expensiveness of the pure acid and the enormous 
 quantities, required to produce the desired effect. For in regard to its 
 efficiency it does not rank very high in comparison with a great many 
 other articles, as may be seen from a table of the disinfectant properties 
 of different chemicals published by Miquel in the Semaine M6dicale. 
 
 For practical purposes I know of no better or simpler rules for disin- 
 fection than those published by the National Board of Health. In its 
 Bulletin No 10, of September 6, 1879, the following instructions for dis- 
 infection were published : Deodorizers, or substances which destroy smells, 
 are not necessarily disinfectants, and disinfectants do not necessarily have 
 an odor. 
 
 " Disinfection cannot compensate for want of cleanliness nor of ventila- 
 tion. 
 
 " I. Disinfectants to be employed : 
 
 "1. Roll-sulphur (brimstone) for fumigation. 
 
 "2. Sulphate of iron (copperas) dissolved in water in the proportion of 
 one and a half pounds to the gallon ; for soil, sewers, etc. 
 
 "3. Sulphate of zinc and common salt, dissolved together in water in 
 the proportion of four ounces sulphate and two ounces salt to the gallon ; 
 for clothing, bed-linen, etc. 
 
 Carbolic acid is not included in the above list, for the following 
 reasons : It is very difficult to determine the quality of the commer- 
 cial article, and the purchaser can never be certain of securing it of proper 
 strength ; it is expensive when of good quality, and experience has shown 
 that it must be employed in comparatively large quantities to be of any 
 use ; it is liable by its strong odor to give a false sense of security. 
 
 " II. How to use disinfectants : 
 
 "1. In the sick-room. The most available agents are fresh air and 
 cleanliness. The clothing, towels, bed-linen, etc. should, on removal from 
 the patient and before they are taken from the room, be placed in a pail 
 or tub of the zinc solution, boiling hot if possible. 
 
 "All discharges should either be received in vessels containing copperas 
 1 Wernich, in F. Cohn's Beitr., iii., 1859, p. 115.
 
 TREATMENT. (599 
 
 solution, or, when this is impracticable, should be immediately covered 
 with copperas solution. All vessels used about the patient should be 
 cleansed with the same solution. 
 
 "Unnecessary furniture especially that which is stuffed carpets and 
 hangings, should, when possible, be removed from the room at the outset ; 
 otherwise they should remain for subsequent fumigation and treatment! 
 
 "2. Fumigation with sulphur is the only practical method for disin- 
 fecting the house. For this purpose the rooms to be disinfected must be 
 vacated. Heavy clothing, blankets, bedding, and other articles which 
 cannot be treated with zinc solution should be opened and exposed during 
 fumigation, as directed below. Close the rooms as tightly as possible, 
 place the sulphur in iron pans supported upon bricks placed in wash-tubs 
 containing a little water, set it on fire by hot coals or with the aid of a 
 spoonful of alcohol, and allow the room to remain closed for twenty-four 
 hours. For a room about ten feet square at least two pounds of sulphur 
 should be used ; for larger rooms proportionately increased quantities. 
 
 " 3. Premises. Cellars, yards, stables, gutters, privies, cesspools, water- 
 closets, drains, sewers, etc. should be frequently and liberally treated with 
 copperas solution. The copperas solution is easily prepared by hanging a 
 basket containing about sixty pounds of copperas in a barrel of water. 
 
 " 4. Body- and bed-clothing, etc. It is best to burn all articles which 
 have been in contact with persons, sick with contagious or infectious 
 diseases. Articles too valuable to be destroyed should be treated as 
 follows : 
 
 "A. Cotton, linen, flannel, blankets, etc. should be treated with the 
 boiling-hot zinc solution ; introduce piece by piece ; secure thorough 
 wetting, and boil for at least half an hour. 
 
 " B. Heavy woollen clothing, silks, furs, stuffed bed-covers, beds, and 
 other articles which cannot be treated with the zinc solution, should be 
 hung in the room during fumigation, their surfaces thoroughly exposed 
 and pockets turned inside out. Afterward, they should be hung in the 
 open air, beaten, and shaken. Pillows, beds, stuffed mattresses, uphol- 
 stered furniture, etc. should be cut open, the contents spread out, and 
 thoroughly fumigated. Carpets are best fumigated on the floor, but 
 should afterward be removed to the open air and thoroughly beaten. 
 
 " 5. Corpses should be thoroughly washed with a zinc solution ^of 
 double strength ; should then be wrapped in a sheet wet with the zinc 
 solution, and buried at once. Metallic, metal-lined, or air-tight coffins 
 should be used when possible ; certainly when the body is to be trans- 
 ported for any considerable distance. 
 
 " It might have been added here that no public funeral must be 
 permitted." 
 
 In this connection I have to speak of a remedy which I class among 
 the prophylactic agents namely, the chlorate of potassium or the ^chlo- 
 rate of sodium. I cannot say that I rely on either of these remedies as 
 curative agents in diphtheria, and yet I employ them in almost every case. 
 The reason lies in the fact that the chlorate is useful in most cases of 
 stomatitis, and thereby acts as a preventive. 
 
 There are very few cases of diphtheria which do not exhibit larger 
 surfaces of either pharyngitis or stomatitis than of diphtheritic mem- 
 brane. There are also a number of cases of stomatitis and pharyngitis.
 
 700 DIPHTHERIA. 
 
 during every epidemic of diphtheria, which must be referred to the epi- 
 demic, sometimes as kindred diseases, and sometimes as introductory 
 stages only, which, however, do not, or do not in the beginning, show the 
 characteristic symptoms of the disease. 
 
 When, in I860, 1 I wrote my first paper on diphtheria, I based it upon 
 two hundred genuine cases, and at the same time enumerated one hundred 
 and eighty-five cases of pharyngitis, which 1 considered to be brought on 
 by epidemic influences, but which, the membrane being absent, could not 
 be classified as bona fide cases of diphtheria. 
 
 Such cases of pharyngitis and stomatitis, no matter whether influenced 
 by an epidemic or not, furnish the indication for the use of chlorate of 
 potassium. They will usually get well with this treatment alone. The 
 cases of genuine diphtheria, complicated with a great deal of stomatitis 
 and pharyngitis, also indicate the use of chlorate of potassium ; not, how- 
 ever, as a remedy for the diphtheria, but as a remedy for the accompany- 
 ing catarrhal condition in the neighborhood of the diphtheritic exudation. 
 For it is a fact that, as long as the parts in the neighborhood of the 
 diphtheritic exudation are in a healthy condition, there is but little 
 danger of the disease spreading over the surface. Whenever the 
 neighboring surface is affected with catarrh or inflammation, or injured 
 so that the epithelium gets loose or thrown oft', the diphtheritic exudation 
 will spread within a very short tinie. Thus chlorate of potassium or 
 sodium, the latter of which is more soluble and more easily digested than 
 the former, will act as a preventive rather than as a curative remedy. 
 Therefore it is that common cases of pharyngeal diphtheria will recover 
 under this treatment alone ; and these are the cases which have given its 
 reputation to chlorate of potassium as a remedy for diphtheria. 
 
 The dose of chlorate of potassium for a child two or three years old 
 should not be larger than half a drachm (2 grammes) in twenty-four 
 hours. A baby of one year or less should not take more than one scruple 
 (1.25 grammes) a day. The dose for an adult should not be more than a 
 drachm and a half, or at most two drachms (6 or 8 grammes), in the 
 course of twenty-four hours. 
 
 The effect of the chlorate of potassium is partly a general and partly a 
 local one. The general effect may be obtained by the use of occasional 
 larger doses, but it is better not to strain the eliminating powers of the 
 system. The local effect, however, cannot be obtained with occasional 
 doses, but only by doses so frequently repeated that the remedy is in 
 almost constant contact with the diseased surface. Thus, the does, to 
 produce the local effect, should be very small, but frequently adminstered. 
 It is better that the daily quanity of twenty grains should be given in 
 fifty or sixty doses than in eight or ten ; that is, the solution should be 
 weak, and a drachm or half a drachm of such solution can be given 
 every hour or every half hour or every fifteen or twenty minutes, care 
 being taken that no water or other drink is given soon after the remedy 
 has been administered, for obvious reasons. 
 
 I have referred to these facts with so much emphasis because of late 
 an attempt has been made to introduce chlorate of potassium as the main 
 remedy in bad cases of diphtheria, and. what is worse, in large doses 
 (Seeligrnuller, Sachse, L. Weigert, C. Kiister, Edlefsen.) 
 1 Amer. Med. Times, Aug. llth and 18th.
 
 TREATMENT. 701 
 
 Large doses of chlorate of potassium (2 drachms daily to an adult I 
 claim to be a large dose, particularly when its use is persisted in for many 
 days in succession) are dangerous. In several of my writings I have given 
 instances of its fatal effects. 1 I have seen fatal cases since, and scores have 
 been published in different journals. The first effects of a moderately 
 large dose are gastric and, more especially, renal irritation ; the latter it 
 was which I experienced when I took half an ounce twenty-five years 
 ago. Fountain of Davenport, Iowa, experienced the same before more 
 serious symptoms developed, of which he died. 2 The symptoms are 
 those of acute diffuse nephritis, with suppression of urine, or scanty secre- 
 tion of a little black blood, and uraemia deepening toward death in 
 fatal cases. My earlier cases I considered as primary diffuse neph- 
 ritis, and I have even been inclined to attribute the frequent appear- 
 ance of chronic nephritis, amongst all classes and ages, in part to the 
 influence of the chlorates, which have become a popular domestic remedy 
 and are found in every household. But the experimental researches of 
 Marchand 3 and others prove that, at least in many instances, the exten- 
 sive destruction of blood-cells is the first and immediate result of the 
 introduction into the circulation of the chlorate, and that the visceral 
 changes are due to embolic processes. 
 
 Special Treatment. The first axiom in the treatment of diphtheria is 
 that there is no specific ; the second, that in no other disease the individ- 
 ualizing powers of the physician are tested more severely. 
 
 The treatment is both internal and external. The local remedies are 
 either such as dissolve the mucous membrane, or such as thoroughly 
 modify the mucous membrane from which the pseudo-membrane has been 
 removed, or real antiseptics, with the power of destroying either chemical 
 or parasitic poisons. 
 
 The number of remedies recommended in diphtheria is immense. No 
 other proof of its dangerous nature is needed. In the following I shall 
 review those which I consider it worth while either to reject or to recom- 
 mend. 
 
 Steam is used partly to soften the membranes, but principally to increase 
 the secretion from the mucous membrane, and thereby throw off the 
 superjacent membrane. This can be done to advantage only where there 
 is a natural tendency to it ; that is, where there are a great many mucip- 
 arous follicles under a cylindrical or fimbriated epithelium. This is the 
 condition on part of the pharynx, but not on the tonsils ; and in a small por- 
 tion of the larynx, in the trachea and bronchi, but not on the vocal cords. 
 Wherever there is pavement epithelium on the normal surface, and where 
 the membrane is imbedded into the tissue, steam can hardly be expected 
 to do good. In the other cases it will. Thus, the locality of the diph- 
 theritic process determines to a great extent whether steam is indicated or 
 not. If it be used, the necessity of a full supply of atmospheric air 
 must not be disregarded. Steam, with an overheated room and without 
 pure air, is liable to be as injurious as steam in pure air is beneficial in a 
 number of cases. 
 
 1 C. Gerhardfs Handbuch der Kinderkrankheiten, vol. ii., 1876 ; Ned. Record, March, 
 1879 ; Treatise on Diphtheria, 1880. 
 
 2 Still, Therap. and Mat. Med., 2d ed., 1874, p. 922. 
 
 8 Sitzungsber. d. Naturforsch. Ges. h. u. Halle, Feb. 8, 1879, and Virch. Arch., vol. IMVU.
 
 702 DIPHTHERIA. 
 
 There can be no better proof for the necessity of individualizing, and 
 the impossibility of treating all cases alike, than the fact that many will 
 do well under steam treatment, and others are certainly injured by it. I 
 have repeatedly had the joy of seeing children with croup become less 
 cyanotic after their removal from an atmosphere of vapor, and I can 
 readily see that pure atmospheric air would be more agreeable and whole- 
 some to a child with stenosis of the larynx than an atmosphere laden 
 with steam. Of course this remark does not apply to cases of pseudo- 
 croup and bronchitis, which are generally benefited by a warm, moist 
 atmosphere. Those, however, who deem it judicious to employ steam as 
 a vehicle for carbolic acid, salicylic acid, chloride of sodium, chlorate of 
 potassium, or lime, had best resort to the atomizer for applying these 
 remedies. It can be used without trouble ; most children are sufficiently 
 intelligent to allow the spray to be directed upon the fauces and larynx 
 every ten or fifteen minutes in case of necessity. When it is deemed 
 advisable to administer steam, I warn against the use of gas stoves. 
 They require a great deal more oxygen than an alcohol lamp, which 
 ought to be preferred when a stove or slaking lime or hot iron or bricks 
 immersed in water are not available. 
 
 Water may be made serviceable in different ways. Its effect on the 
 skin, when taken in large quantities, under normal or abnormal circum- 
 stances, is a matter of daily experience. Copious perspiration is its 
 immediate result. The very same effect is produced on the mucous 
 membranes. In diphtheria, besides professional hydropathists, I know 
 of but one 1 who favors the plentiful use of water, 100-200 grammes 
 (36 ounces) every hour or oftener, either by itself or mixed with an 
 alcoholic beverage. 
 
 Severe inflammatory symptoms, such as redness of the throat, great 
 pain, swelling of the glands, require cold applications, either an ice-bag 
 or ice-cold cloths well pressed out and frequently changed. They must, 
 however, be placed where they can do most good in laryngeal diphtheria 
 around the neck, in pharyngeal diphtheria with glandular swelling over 
 the affected part. In the latter, therefore, the flannel cloth which covers 
 the whole of the application must be tied over the head, and not behind. 
 When ice-bags are used, care is to be taken lest they should be too large ; 
 if so, they will not affect the desired spot at all. Small pieces of ice 
 frequently swallowed are greatly relished by the patient ; water-ices in 
 small quantities will render the same service ; ice-cream, in half-teaspoon 
 or teaspoon doses every five or ten minutes, adds to the necessary nutri- 
 ment. When the fever is high and the surface hot, sponging with tepid 
 or cold water, or water and alcohol, will mitigate both. For the cold 
 bath or the cold partial pack (trunk and upper part of the thighs) the 
 general indications hold good. As a rule, I favor the latter, for many 
 cases have such a tendency to debility and collapse that sometimes the 
 circulation of the surface of the body is badly interfered with by cold 
 bathing. Therefore, a contraindication to cold bathing must be found at 
 once in cold feet, either before or after a bath. When, unfortunately, the 
 feet do not recover their normal temperature in a very short time, they 
 ought to be warmed artificially, and the cold bath not repeated. In such 
 cases the cold pack, however, is still indicated. A linen or cotton cloth, 
 1 C. Rauchfuss, in C. Gerhardfs Handb. d. Kinrlerkr., iii. 2, 1878.
 
 TREATMENT. 7Q3 
 
 large enough to cover the trunk and half of the thighs, is dipped in cold 
 water, well pressed out, and the body of the patient wrapped tightly in 
 it. The arms remain outside ; the whole body is then wrapped up in a 
 blanket ; the feet may be warmed meanwhile when necessary, and the 
 cold pack repeated as often as required to reduce the temperature viz. 
 once every five minutes, every half hour, every hour. 
 
 The contraindications to the use of cold have in part been alluded to. 
 Very young infants bear it but to a limited extent. The beginning of 
 recovery contraindicates it, unless for some local cause ; for instance, an 
 inflamed gland. The extensive use of cold water or ice is also forbidden 
 when there is no fever, where there is perhaps an abnormally low temper- 
 ature, where we have to deal with the septic or gangrenous form of diph- 
 theria, where the vitality is low and the mucous membranes pale or even 
 cyauotic. In such cases, on the contrary, while unlimited internal stimu- 
 lation is required, the hot bath, or hot pack and hot injections into the 
 bowel, will be found beneficial. 
 
 Lime-water, glycerine, lactic acid, pepsin, ueurin, papayotin, chino- 
 lin, and pilocarpine are all solvents of pseudo-membrane, but whether 
 there is sufficient time and opportunity to produce a curative effect 
 by every one of them is a question open for discussion. Of lime-water 
 and glycerine I have employed a mixture of equal parts in considerally 
 more than a hundred cases after the completion of tracheotomy, directing 
 the remedy through an atomizer into and below the canula, but cannot say 
 that the descent of the membrane into the trachea or bronchi was pre- 
 vented by it. Lime-water may be used in the nose and throat as an 
 injection, spray, or gargle, but its solvent effect is greatly diminished by 
 the action of the carbonic acid of the breath on the lime. I have no 
 doubt that if water alone was used with the same persistence as lime- 
 water, its effects \A ould be nearly the same. Still, what little effect the 
 minute dose of lime (1 : 800) in the lime-water may have may just as 
 well be utilized. What I object to is the omission of more powerful 
 agents. If lime is to be used, slaking lime frequently in the presence 
 of the patient is attended with vastly more benefit, inasmuch as by^that 
 proceeding a large amount of powdered lime is projected into the air of 
 the room and the mouth and respiratory organs. 
 
 Lactic acid also, in from ten to twenty-five parts of water, has yielded 
 no better results in my hands. Those cases of tracheotomy which J 
 afterward treated with lactic acid spray terminated no better than such as 
 were treated with lime-water and glycerine. Of the solvent effect of pepsin 
 I have not been able to convince myself so as to recommend it. I he 
 accounts of neurin have not encouraged me to try it at all. Chmolm 
 (tartrate) has been used locally by O. Seifert, 1 Miiller, and others. 
 It is said to remove the membranes and relieve the fever. or a 
 gargle it is dissolved in five hundred parts of water, or it is mixed with 
 ten parts of water and alcohol each, and applied by means of a sponge. 
 To relieve the burning sensation ice is swallowed afterward, ihe 
 applications of alcohol have the same drawback. There are 
 patients who do not suffer intensely from its local contact. 
 
 Papayotin has been recommended by Rossbach for the purpose^ oi 
 dissolving membranes in a one-half per cent, solution. It peptomzes 
 i Berl. Uin. Woch., Nos. 36, 37, 1883.
 
 704 DIPHTHERIA. 
 
 albuminoids, and macerates meat, intestinal worms, and croup mem- 
 branes in both neutral and feebly alkaline solution. In concentrated 
 solutions it has a caustic effect. It is recommended, not as an anti- 
 diphtheritic, but merely as a solvent remedy. 1 Whatever reliance may 
 have been placed upon it has, however, been jeopardized by Rossbach's 
 remarks 2 on the variability of the preparations in the market. Not only 
 are the specimens very unequal, but each of them is variable, easily 
 spoiled, and particularly affected by moisture. 
 
 Muriate of pilocarpine was recommened for this purpose three years 
 ago. It was praised by Juttmann as a specific, and has failed. The 
 quackish recommendations of the drug have, indeed, earned for it a 
 certain amount of distrust which it does not deserve in all cases. It is 
 expected to increase the secretion of the mucous membranes to such an 
 extent as to float the pseudo-membranes. It sometimes succeeds in so 
 doing, but only in those cases in which the membrane is deposited upon 
 the mucous membranes. When the tissue is impregnated the drug fails. 
 It also fails in septic cases, and mostly for the reason that it diminishes 
 and paralyzes the heart's action. It ought, therefore, never to be given 
 unaccompanied with large amounts of stimulants. Where the patient is 
 strong, and the heart healthy, it may be tried ; I know that a few cases 
 of moderate laryngeal diphtheria improved with pilocarpine, steam, and 
 turpentine inhalations. The dose is -$ grain, dissolved in water, every 
 hour. 
 
 Turpentine inhalations were recommended by C. Edel. 3 Fifteen drops 
 of oil of turpentine are inhaled from a common inhalation apparatus, 
 which is placed at a distance of three inches from the mouth of the 
 patient, for a period of ten minutes every hour. He claims recoveries in 
 from twelve to forty-eight hours. I allow the patient to remain in his 
 bed, and keep water boiling constantly on an alcohol lamp, on the stove, 
 or over the gas. A tablespoonful of turpentine, more or less, is poured 
 on the water, care being taken that nothing is spilled in the fire. Thus 
 the room is constantly filled. with a penetrating odor of turpentine, 
 which is not at all disagreeable, even when in great concentration. The 
 effects are very satisfactory indeed. Where circumstances allowed or 
 required it I have raised a tent over the bed, large enough not to give 
 inconvenience to the patient and to admit either the whole apparatus or 
 the tube containing the mixed vapor of water and turpentine. 
 
 Ammonium chloride may sometimes be used to advantage for its 
 softening and liquefying effects. Its internal administration in bronchial 
 and tracheo-laryngeal catarrh is so old that it has several times been 
 obsolete. Of late, more stimulant effects have been attributed to it than 
 it actually possesses. But its liquefying action, in cases where the secre- 
 tion of mucus is defective and expectoration scanty and viscid, is 
 undoubted. Thus it proves valuable in many cases of simple catarrh, 
 both when administered internally and inhaled. The latter mode I 
 have often resorted to, and believe that its macerating influence has 
 been of service to me in cases of laryngeal diphtheria. Half a tea- 
 spoonful of the pure salt is spread on the stove or burned over alcohol 
 
 1 Berl. klin. Woch., March 10, 1881. 
 
 ' Transactions of (he Congress for Int. Medicine, 1883, p. 162. 
 
 1 Med. Rev., Jan. 19, 1878.
 
 TREATMENT. 705 
 
 or gas. It evaporates immediately, and fills the room or the tent with a 
 white cloud, which, when dense, excites coughing. But it does not 
 irritate to any uncomfortable degree, and the process may be repeated 
 in an interval of an hour or more 
 
 Not all cases of diphtheria are septic or gangrenous, nor are all the 
 cases occurring during an epidemic of the same type. Some have the 
 well-pronounced character of a local disease, either on the tonsils or in the 
 larynx. The cases of sporadic croup met with in the intervals between 
 epidemics present few constitutional symptoms, and assume more the 
 nature of an active inflammatory disease very much like the sporadic 
 cases of fibrinous tracheo-bronchitis. These are the cases in which mer- 
 cury deserves to have friends, apologists, and even eulogists. Calomel, 
 0.5-0.75 gramme (gr. viij-xij), divided into thirty or forty doses, of which 
 one is taken every half hour, is apt to produce a constitutional eifect very 
 soon. Such doses, with minute doses, a milligramme or more (gr. -g^), of 
 tartar emetic, or ten or twenty times that amount of oxysulphuret of 
 antimony, have served me well in fibrinous tracheo-bronchitis. But the 
 mucous membrane of the trachea and bronchi is more apt to submit to 
 such liquefying and macerating treatment than the vocal cords. The 
 latter have no muciparous glands like the former, in which they are very 
 copious. And while the tracheal membrane, even though recent, is apt 
 to be thrown out of a tracheal incision at once, the pseudo-membrane 
 of the vocal cords takes from six days to sixteen or more for complete 
 removal. Still, a certain effect may even here be accomplished, for mace- 
 ration does not depend only on the local secretion of the muciparous 
 glands, but on the total secretion of the surface, which will be in constant 
 contact with the whole respiratory tract. Thus, either on theoretical 
 principles or on the ground of actual experience, men of learning and 
 judgment have used mercury in such cases as I detailed above, with a 
 certain confidence. 
 
 If ever mercury is expected to do any good in cases of suffocation by 
 membrane, it must be made to act promptly. That is what the blue 
 ointment does not. In its place I recommend the oleate, of which ten or 
 twelve drops may be rubbed into the skin along the inside of the forearms 
 or thighs (or anywhere when their surface becomes irritated) every houi 
 or two hours. Or broken doses will be useful, such as given above, 
 or hypodermic injections of corrosive sublimate in J or 1 per cent, solu- 
 tion in distilled water, four or five drops from four to six times a day, or 
 more, either by itself or in combination with the extensive use of the 
 oleate, or with calomel internally. Lately, the cyanide of mercury has 
 been recommended very strongly. I hardly believe that it will _ work 
 more wonders than any other equally soluble preparation. Within the 
 past few years the internal administration of bichloride of mercury has 
 been resorted to more frequently and with greater success than ever before. 
 My own recent experience with it has been encouraging, and so has that 
 of some of my friends. Wm. Pepper 1 gave ^ grain of corrosive sub- 
 limate every two hours in a bad form of diphtheritic croup, with favor- 
 able result. But in this very bad case, desperate though it was child 
 of five years, resp. 70, pulse 160 large membranes, "evidently from the 
 larynx," had been expelled before the treatment was commenced on the 
 1 Tram. Am. Med. Ass., 1881. 
 
 VOL. I. 45
 
 706 DIPHTHERIA. 
 
 seventh day of the disease. The remedy ought to be given in solution 
 of 1 : 5000, and in good doses. A baby a year old may take one-half 
 grain every day for many days in succession, with very little if any intes- 
 tinal disorder and with no stomatitis. 1 A solution of the corrosive chloride 
 of mercury in water is frequently employed of late as a disinfectant. It 
 acts as such in a dilution of 1 : 20,000* As healthy mucous membranes 
 bear quite well a proportion of 1 : 2000-3000, any strength between these 
 extremes maybe utilized. A grain of the sublimate in a pint or more of 
 water, with a drachm of table-salt, will be found both mild and efficient. 
 As a gargle or nasal injection it will be found equally good. But it 
 has appeared to me that frequent applications give rise to a copious 
 mucous discharge; hourly injections into a diphtheritic vagina became 
 quite obnoxious by such over-secretion, which ceased at once when the 
 injections were discontinued. Thus, w"heu it is desirable not only to dis- 
 infect but also to cleanse the diseased surface, the injections with corro- 
 sive sublimate appear to yield a result inferior to less irritating applica- 
 tions. 
 
 Chloride of iron is undoubtedly a valuable remedy in diphtheria, but 
 in its administration it must by no means be forgotten that small doses at 
 long intervals are out of the question. I have not the least doubt but 
 that the failure of the remedy may be attributed in most cases to the fact 
 that the doses were too small and administered too seldom. A dose of 
 from five to fifteen drops, properly diluted, every fifteen minutes, half 
 hour, or hour is indispensable for a proper estimation of 'its effects. 
 Gargles are not of much service, for the simple reason that they do 
 not come into sufficient contact with the affected parts, and reach at 
 the utmost to the anterior pillars of the soft palate. A direct appli- 
 cation of the remedy to the mucous membrane of the pharynx may also 
 be desisted from, thereby avoiding any irritation, the internal administra- 
 tion at short intervals causing the pharynx to be sufficiently influenced 
 by local contact with the remedy. It must, of course, not be expected 
 that the chloride will remove the membrane, but it can frequently be 
 seen to reduce the hypersemia and swelling and prevent the reproduction 
 of exuded material. The chloride of iron exerts a decided influence on 
 the vital contractility of the blood-vessels. This increased contractility 
 certainly assists in diminishing the rapidity of absorption of putrid fluids 
 through the blood-vessels, which constitutes the principal source of dan- 
 ger from the disease. 
 
 It cannot yet be positively asserted that the chloride of iron exerts a direct 
 effect on the lymphatic vessels. Naturally, this was claimed when the rem- 
 edy was recommended, in the treatment of diphtheria, on account of its 
 therapeutic effects in erysipelas, with the accompanying inflammation of 
 the lymphatic vessels of the skin. Although we know of no direct com- 
 pression of the lymphatic vessels due to the action of the chloride, yet it 
 may be assumed that perhaps the compression of the blood-vessels exerts 
 a similar influence upon the neighboring lymphatics. In consequence of 
 this there would be an impediment to the absorption and further devel- 
 opment of poisonous substances in the lymph. The chloride, like the 
 sulphate of iron, is a tolerably powerful disinfecting agent. If this 
 observation be correct, it may go very far toward explaining the action 
 
 1 Med. Record, May 24, 1884.
 
 TREATMENT. 70? 
 
 of the chloride of iron in septic diseases, which are accompanied by an 
 exalted activity of the lymphatic vessels and an increase of the white 
 blood -corpuscles. Furthermore, Saase has endeavored to show that the 
 ferrous salts possess the power of converting oxygen into ozone. 
 They share this power with the blood-globules exclusively, and 
 could hence, to a certain degree, supply a deficiency of the latter. 
 Pokrowsky, too, has shown that iron increases the process of oxida- 
 tion in the body by demonstrating that in health there is an eleva- 
 tion of temperature and an increase of the percentage of urea in the 
 urine during its administration. In anaemic persons, to whom iron has 
 been given for the purpose of increasing the amount of blood, the above 
 phenomena* may be observed before this object is accomplished. Thus 
 iron appears to replace the blood-corpuscles to a certain extent. Now, in 
 infectious disorders of the blood, where the red globules are perpetually 
 menaced with destruction, it seems plausible that the preparations of iron 
 should exert an antiseptic action. 
 
 Finally, it has been found that of all the preparations of iron the chlo- 
 ride possesses the greatest power of stimulating the nervous system. Pos- 
 sibly this effect may be traced to an increase of the arterial pressure in 
 the nerve-centres. It has been said that this effect has been vividly 
 illustrated in certain forms of chlorosis. If this be true, iron would be 
 all the more indicated in diphtheria, since it would act as a prophylactic 
 against a series of nervous phenomena that so frequently present them- 
 selves, both during and subsequently to the diphtheritic process. Thus 
 it is that for many years the muriate of iron has constituted the main ele- 
 ment, with me, of internal medication in most cases of diphtheria, both 
 of the mild and the most dangerous septic type. A common formula is, 
 for a child of two years, 
 
 fy Tinct. Ferri Chloridi f gij ; 
 Potass. Chlorat. gr. xx; 
 
 Aquae f 3v ; 
 
 Glycerin. Pur. f3j. M. 
 
 S. A teaspoonful every fifteen, twenty, or thirty minutes. 
 
 Carbolic acid exerts a powerful influence on the vitality of all living 
 elements, and hence also on rapidly proliferating epithelium, which 
 constitutes a part of the diphtheritic membrane. It is of great advan- 
 tage for local use. Its local effect, undiluted or diluted with equal or 
 larger parts of glycerine or alcohol, in shrinking and removing mem- 
 branes, is sometimes very useful; in mild solutions in water (J, 1, or 2 per 
 cent.) it is very efficient in nasal injections or for external applications 
 or mouth-washes. Rothe's prescription for external use is carbolic acid 
 and alcohol each 2 parts, water 10, tincture of iodine 1. Its internal 
 administration to the extent of five to twenty grains daily, given largely 
 diluted, in small and frequent doses, is of less positive value. 
 
 Salicylic acid, in a solution of 1 : 30-50, is caustic. A milder solu- 
 tion, 1 : 200-300 relieves or removes foul odor from the nose or throat, 
 but it does not detach membranes or shorten the duration of the disease, 
 apparently. Internally, it acts no longer as a disinfectant, but is changed 
 into a salicylate and is an antipyretic. It is then better to replace it by 
 the sodium salicylate. With its administration (for a child of 2 years t 
 grains every hour until 20 or 25 grains are taken) it ought not to be f
 
 708 DIPHTHERIA. 
 
 gotten that serious brain troubles, collapse, and irregular and paralytic 
 breathing, as well as gastric and intestinal disturbances, may follow its 
 use. It ought not to be given without careful watching and the simul- 
 taneous free use of alcoholic stimulants. 
 
 Binz found, as the result of experiments with solutions of pure 
 quiuia varying from one part in a hundred to one in a thousand, that 
 the latter sufficed to prevent the development of bacteria in fluids 
 capable of undergoing putrefaction ; but even estimated thus, a patient 
 with eighteen pounds of blood would require one hundred and thirty- 
 eight grains of quinia circulating therein in order to satisfy the condi- 
 tions of Binz's experiment. If Binz considers two grammes (half a 
 drachm) of quinia per day sufficient for an individual weighing one hun- 
 dred and twenty pounds, his calculation is founded on experiments with 
 dogs, in which septicaemia was avoided by the injection of quiuia. It is 
 also necessary to bear in mind that Binz makes a distinction with regard 
 to the preparations of quinia employed. He warns against the use of 
 the bisulphate as being the most inactive. No matter which preparations 
 are used I prefer the muriate I have come to look upon quinia as of 
 no great service in reducing the temperature in infectious fevers. The 
 main indication for its use can only be found in inflammatory fevers. 
 When it is given, however, salicylate of sodium may be added for a short 
 time to obtain a speedier effect. 
 
 On the part of bromine Wra. H. Thompson claims the following 
 advantages: 1. When applied locally, it promptly arrests fetor by 
 arresting directly the gangrenous process, and thus lessens risk from 
 absorption. 2. It acts as an anti-putrefactive likewise in the fluids of the 
 body generally i. e. blood, interstitial circulation, and secretions owing 
 to its high rate of diffusibility, equal to that of sodium chloride itself. 
 3. It locally destroys the communicable property of the discharges, 
 shown by the immunity of attendants from any sore throat when it 
 Is used, and from its checking the spread of the disease in the locality. 
 He orders two solutions to be used: the first of equal parts of Lawrence 
 Smith's solutio bromiui and of glycerine, applied with a hair pencil to the 
 membrane, as gently as possible. Sometimes he uses the solution full 
 strength. The brush should be washed at once in water, and does not 
 last more than one day, owing to the action of the bromine on the hair. If, 
 however, the membrane be very extensive and the parts much swollen or 
 difficult to reach, he resorts instead to douching with a Davidson syringe, 
 using half a drachm to one drachm of the solution to a pint of warm 
 water. By beginning gently with the stream directed against the buccal 
 mucous membrane, the child soon becomes accustomed to the current and 
 allows it then to play against the deeper parts. 
 
 Internally he orders from six to twelve drops of the solution in a half 
 ounce of sweetened water, every hour, two, or three hours, according to 
 the urgency of the case, and continuously. 
 
 The most convenient way of making Smith's solution is: Take two 
 ounces of a saturated solution of potassium bromide in water; add to this, 
 very slowly, in a bottle and with constant shaking, one ounce of bromine. 
 It is better to add a part, and then let it stand a while before adding the 
 rest; then fill up gradually, and with constant shaking with water, until 
 it measures four ounces.
 
 TREATMENT. 709 
 
 Ozone has been used as an anti-fermentative in inhalation during three 
 or five minutes every hour or two, by Jochheim. 
 
 Boric (boracic) acid, in saturated (1 : 25) or milder solutions, has some 
 antiseptic effect. It is mild, and not very injurious when swallowed by 
 necessity or mistake. In diphtheritic conjunctivitis it is valued highly, 
 and in nasal injections I have found it very useful. It is less repugnant 
 than most other substances administered in that way. 
 
 Sodium benzoate cannot be relied on either as an an ti -diphtheritic nor 
 as an anti-febrile. The doses which were recommended were two scruples 
 or a drachm daily for a child a year old. 
 
 Sulphur has been used locally. It gives rise to coughing and vomit- 
 ing. 
 
 Cubebs have been given in incredible doses, two drachms of the powder 
 to a child a year old. The drug disorders the stomach and kidneys. 
 
 Local Treatment. The mechanical removal of the membranes is not 
 permissible unless they are almost detached. It is best to avoid their 
 being cast off, unless partly loosened membranes in the larynx or trachea 
 afford an indication for an emetic. Scratching and eroding the mucous 
 membrane of the neighborhood give rise to new deposits. Even after 
 spontaneous elimination of a membrane a new one may be formed within 
 a few hours. 
 
 To cauterize a diphtheritic membrane or infiltration I consider wrong, 
 unless I shall be able to do so thoroughly and to limit the action of the 
 caustic to the diseased surface. Therefore potassa or chromic acid cannot 
 be utilized, because of the impossibility of limiting their effect. Nitrate 
 of silver and mineral acids can be restricted in their effects, but these are 
 not sufficiently thorough, particularly as but few patients will consent to 
 have the remedy applied properly. When I do cauterize, I prefer a mix- 
 ture of equal parts of carbolic acid and glycerine or the undiluted acid. 
 The membrane crumbles and falls off in pieces. Force must never be 
 used. Where it would be required in the case of obstinate children mild 
 washes must be employed instead of the caustic. Besides, the internal 
 medication detailed above meets every indication. When there is a slight 
 swelling of the lymphatic glands, cold water or ice applications are usually 
 all that is needed. The latter should be made according to general indi- 
 cations. The glandular and peri-glandular swellings are less the result 
 of an actual filling up with foreign matter than of secondary irritation. 
 Ice has a happy effect in such cases, both on internal administration, in 
 the form of frequent small quantities of ice-water, ice-pills, ice cream, 
 and iced medicaments, and also externally by ice-cold cloths or india- 
 rubber bags filled with ice. 
 
 In general, the treatment of the swelled glands must be both based en, 
 its causes and adapted to the present condition. The adenitis and pen- 
 adenitis is of secondary nature, the irritation being in the mouth, pharynx, 
 and nares. In these localities is where the main treatment is required 
 The sooner the primary affection is removed or relieved or renderc 
 innocuous, the better it is for the secondary complaint Frequent doses 
 of chlorate of potassium or sodium, or biborate of sodium in mil 
 doses frequently repeated, according to the principles laid down in an- 
 other part of this article, mouth-washes, gargles nasal injections with 
 water salt water, or solutions of disinfecting substances, are not only
 
 710 DIPHTHERIA. 
 
 indicated, but highly successful. When the case is recent, cold applica- 
 tions are required, but uo washes. When it is of older date, stimulant 
 embrocations are in order. Iodine ointments are absorbed but slowly ; 
 mercurial plasters do good in some cases ; iodide of potassium dissolved 
 in glycerine (1 : 34), frequently applied, iodine in oleic acid (1 : 812), 
 iodoform in collodion or flexible collodion (1 : 1215) applied twice daily, 
 the latter frequently with very good result, are beneficial. Copious sup- 
 puration is very rare. Cases in which a free incision meets with an 
 abscess ready to heal are very uncommon. But numerous small abscesses 
 with gangrenous walls and pus mixed with a sero-sanguinolent or 
 sero-purulent liquid, are more frequently found. In such cases a probe 
 introduced into the lancet wound enters easily into the broken-down 
 tissue in every direction, to a distance even of three to six centimetres, 
 (several inches), according to the size of the tumefaction. I have 
 seen fatal hemorrhages from such gangrenous destructions ; therefore 
 the treatment must be both timely and energetic. The incision must not 
 be delayed too long. When the skin assumes a purplish hue or is simply 
 discolored, it is time to incise and to apply concentrated or nearly concen- 
 trated carbolic acid to the interior, unless the neighborhood of very 
 important blood-vessels or nerves yields a contraindication to concentrated 
 applications. In that case a milder preparation is advisable, but the 
 application should be repeated often, until the suppuration becomes more 
 normal. Then mild disinfectant injections into what has now become a 
 cavity will be found satisfactory, particularly when meanwhile the general 
 condition of the patient has been improved. 
 
 Treatment of Nasal Diphtheria. Especially during the prevalence of 
 an epidemic of diphtheria must we be careful not to allow a nasal catarrh 
 to have its own way ; we must likewise guard against considering the thin' 
 and flocculent discharge in infected cases as a mucous secretion. What- 
 ever be the origin of nasal diphtheria, whether primary or the result of 
 a similar affection in the throat, local treatment should at once be insti- 
 tuted, and if this be done the great majority of cases will terminate favor- 
 ably. The danger in this form of disease consists in an excessive absorp- 
 tion of putrid substances and in the breathing of contaminated air. 
 The interior of the nasal cavities must be thoroughly cleaned and disin- 
 fected. If this be commenced early, the original seat of the aifection may 
 be reached, and the disinfectant process will, as a rule, have good results. 
 It is not necessary to select very energetic disinfectants ; a solution of 
 twelve to twenty-five centigrammes (two to four grains) of carbolic acid 
 in thirty grammes (an ounce) of water is at once mild and effective, and 
 hardly gives rise to more discomfort than lukewarm water. Nasal injec- 
 tions must be made very frequently, until each time the stream of fluid 
 has a free exit through the other nostril or through the mouth. They 
 must be made at least every hour, and even oftener if necessary ; at the 
 same time it is advisable to be careful that the fluid does not enter the 
 Eustachian tube. This can be prevented, to a certain extent, by compel- 
 ling the patient to keep the mouth open during the procedure. I have sel- 
 dom seen evil or even disagreeable results from the administration of nasal 
 injections in diphtheria. It is likely that the mucous membrane of the 
 pharynx is swollen as far as the openings of the Eustachian tubes to such 
 a degree as to render the entrance of fluids into the latter improbable
 
 TREATMENT 711 
 
 The hardness of hearing, which is of so frequent occurrence in the course 
 of a severe catarrh or of a diphtheritic attack, seems to indicate that the 
 mucous membrane of that part is in a state of swelling. An ordinary 
 syringe will suffice. However, when administered by parents or nurses 
 the blunt nozzle of au ear syringe is preferable. Occasionally here, as in 
 local applications to the mouth and pharynx, the atomizer may be used 
 to advantage, but the tube must be properly introduced into the nostrils. 
 There are cases of nasal diphtheria, however, which are far more trouble- 
 some to manage than the foregoing would seem to indicate. I have seen 
 cases in which the nasal cavities, from the anterior to the posterior nares, 
 were filled and completely occluded by a dense, solid membranous mass. 
 I was then compelled to bore a passage with a silver probe, to gradually 
 introduce a larger-sized one, and then to apply the pure carbolic acid, in 
 order to remove the densest and thickest masses, and finally was able to 
 make injections ; even in such cases I have had the gratification of 
 being able to give a favorable prognosis. The dangerous secondary swell- 
 ing of the glands will often subside after a steady employment of disin- 
 fectant injections for from twelve to twenty-four hours. It will be found 
 that children frequently do not object to this method of treatment ; I 
 have even met with some who, after convincing themselves of the relief 
 afforded thereby, asked for an injection. When we are about to bring 
 each injection to a close it is well to press together the nasal cavities for 
 an instant with the fingers. By this procedure the fluid is forced back- 
 ward to the pharynx, and is swallowed or ejected through the mouth, and 
 thus washes the pharynx and mouth at the same time. Frequently, 
 however, this latter object is obtained with every injection ; for, the palate 
 being swelled, cedematous, and paretic, the fluid is not prevented from 
 reaching the pharynx, even in the average case. In regard to the choice 
 of a disinfecting agent, I have but a few words to say. I believe that 
 no one of them has important qualifications above the others. I avoid 
 those which stain or which produce firm coagula. For the latter reason I 
 do not use the subsulphate and perchloride of iron; for the former, ^the 
 permanganate of potassium. I employ, as a rule, carbolic acid in solution, 
 of the strength above mentioned. Where there is but a slightly fetid odor 
 I have frequently employed lime-water or water with glycerine, or a 
 solution (1 : 100, 1 : 50) of chloride of sodium, or of bicarbonate of soda 
 or of borax, or a saturated solution of boric acid. Disinfecting agents 
 and antiseptics, whether carbolic acid, salicylic acid, or iron, are of no 
 service when administered internally only, unless the seat and cause of 
 the septic infection be attended to previously. Under the local employ- 
 ment of antiseptics, as described, or by simply washing out with water 
 or salt water, most cases recover ; without them, death will result. Of 
 late, in many cases, the local applications, injections, etc. of the corrosive 
 chloride of mercury in water (I : 5000-10,000) has proved very effective. 
 It has this advantage over carbolic acid, that the swallowing of the former 
 is not so dangerous. This much, after all, my experience has assured me 
 of, that there is a certain number of cases which terminate fatally ; but 
 is likewise true that the mortality need not be excessively great. 1 cannot 
 grant that it is hard to carry out the exact and apparently barbarous treat- 
 ment necessary for a favorable result, for it is certainly more barbarc 
 sacrifice than to save life.
 
 712 DIPHTHERIA. 
 
 It is a positive fact that when children suffering from nasal diphtheria, 
 with its peculiarly septic character, are permitted to sleep much and 
 they are apt to be drowsy under the influence of the poison they will 
 certainly die. To allow them to sleep is to allow them to die. 
 
 The first symptom of improvement is often a rapid diminution of the 
 glandular swelling wherever it exists. It is not present in all cases, 
 but chiefly in those in which a bloody serum was discharged in an early 
 period of the disease. In these the blood-vessels appear to be very vul- 
 nerable, superficial, and apt to absorb ; these are also the most dangerous 
 cases, and require the greatest attention and care, and also prompt disin- 
 fection. 
 
 Treatment of Laryngeal Diphtheria. The severest form of diphtheria 
 is that located in the larynx, constituting membranous croup. Its gene- 
 ral treatment, whether the disease has originated primarily in the larynx 
 or trachea or has been communicated from the pharynx, does not differ 
 from that laid down for diphtheria in general. Naturally the larynx calls 
 for special treatment on account of the symptoms of suffocation which 
 result from its stenosis. The main indication of removing viscid mucus 
 or partly-detached membranes is best met by the administration of an 
 emetic. Such is their only indication in my experience. The selection 
 of the emetic, when indicated, is of great importance. Antimonials ought 
 to be avoided because of their depressing and purgative effect. Ipecac- 
 uanha is but rarely effective. The sulphates of zinc and copper, and 
 particularly the latter, deserve preference. Turpeth mineral acts promptly 
 and satisfactorily. When no emesis can be obtained the prognosis is 
 decidedly bad. Recourse must then be had to tracheotomy, the good 
 results of which are however only too often delusive and transient. 
 
 "When, after the operation, there is scarcely any relief, and particularly 
 when the case takes a very rapid course, it is probably one of ascending croup 
 which commenced in the trachea. Mechanical relief by pushing down a 
 hen's feather or a bundle of them, and turning it about and twisting, 
 must be tried. It is a much better instrument than pincers of all sorts 
 and shapes. But what relief will be accomplished is but of very short 
 duration. When fever sets in within a few hours it means very much 
 more frequently pneumonia than diphtheritic fever. It is apt to be soon 
 complicated by that disproportion between pulse and respiration so cha- 
 racteristic of inflammatory diseases. Then quinia in larger doses, 0.25 
 or 0.5 (grs. iv viij) every two, four, eight hours, at the same time doses 
 of sodium salicylate 0.25-0.40 (grs. iv vj) every hour or two hours until 
 the temperature goes down, and small doses of digitalis where the heart 
 requires it, must be given at once. Procrastination is dangerous; the 
 patients want careful watching ; many of them die within two days after 
 the operation. 
 
 Diphtheritic conjunctivitis requires great attention and permits of no 
 loss of time. Cold applications to the affected eye must be made con- 
 stantly. Pieces of linen or lint kept on ice (better than in ice-water) of 
 little more than the size of the eye, must be changed every minute or two 
 day and night. The danger to the cornea is so imminent that constant 
 watchfulness is required. Boric acid in concentrated solution should be 
 dropped into the eye once every hour. Care must be taken that the 
 well eye shall not get infected ; for that purpose it is best to cover it
 
 TREATMENT. 713 
 
 with lint and collodion, or with lint or cotton held in place by adhesive 
 plaster. 
 
 Cutaneous diphtheria requires the destruction of the membrane or of the 
 infected surface by carbolic acid, either concentrated or somewhat diluted 
 with glycerine, or the application of the actual cautery. After that the 
 use of ice or iced cloths, or diluted carbolic acid, is indicated. As soon 
 as the surface is no longer diphtheritic the local and general treatment 
 is to be continued on general principles. 
 
 Diphtheritic paralysis is invariably complicated by ansemia and debility, 
 and the diet and medical treatment must be regulated accordingly. How- 
 ever, neither overfeeding nor a sameness of diet are to be permitted, for not 
 rarely the muscular coat of the stomach suffers with the rest of the mus- 
 cular ^tissue, and the secretion of gastric juice is very deficient in anaemic 
 individuals. While, therefore, iron is indicated, we must not neglect to 
 pay particular attention to nutrition and digestion, and to aid the latter 
 with pepsin and moderate amounts of muriatic acid, well diluted. Qui- 
 nia in small doses and stimulants are appropriate whenever there is no 
 contraindication to their employment. The treatment of the paralysis 
 itself will naturally depend on the diagnosis of the condition present 
 in each individual case, which we have seen to differ considerably. This 
 alone can explain why various modes of treatment, the electric current 
 among others, after being recommended by some authors, are branded by 
 others. Where we have to deal with those rare changes in the brain and 
 spinal cord, the utmost care is necessary in order not to make the con- 
 dition still worse ; and in such cases there would be a contraindication to 
 the use of the faradie current, though this would not hold true with 
 regard to the use of the galvanic current in short sittings. Besides, 
 central paralyses are by no means so frequent as peripheral ones. In 
 most cases there is not the slightest elevation of temperature during the 
 course of the paralytic phenomena. I lay great stress upon this point, 
 for I am aware that many cases of central congestion and even of inflam- 
 mation exhibit but very insignificant elevations of temperature. But, 
 as the diagnosis will depend on a positive knowledge of whether there 
 have been changes of temperature, I rely on the rectal temperature only, 
 for many a myelitis runs its course with no greater elevation above the 
 normal than one-half or one degree. In all cases in which the tem- 
 perature is normal or subnormal, I do not hesitate for a moment to 
 employ the faradie or the galvanic current. In addition to the internal 
 administration of iron I advise by all means the employment of 
 strychnia. When there is no necessity for haste, we may give^ mode- 
 rate doses, gradually increasing them, and using iron in combination. 
 When there is danger in delay, recourse ought to be had to subcuta- 
 neous injections of the sulphate of strychnia, once or twice daily. 
 They are mainly indicated in paralysis of the muscles of deglutition and 
 of respiration. Of course, where the former are affected it is necessary 
 to nourish the patient artificially, partly perhaps by nutrient enemata, 
 but principally by means of the stomach-tube. In using the latter it is 
 unnecessary to introduce it into the stomach, as it only requires to be 
 passed a few inches below the affected parts, when the oesophagus will 
 usually be found able to undertake the further disposal of the food. 
 In these cases strychnia should be injected subcutaneously in the neck,
 
 714 DIPHTHERIA. 
 
 once or twice daily. In a similar manner it should be injected in the 
 region of the chest, diaphragm, or neck in paralysis of the respiratory 
 muscles or of the glottis. In paralysis of the muscles of accommodation 
 (in which Scheby-Buch claims to have seen the process cut short by the 
 use of the Calabar bean, considered as inert by Hassner) they may be 
 given in the forehead or temples. 
 
 Frictions dry and alcoholic, hot bathing, friction with hot water, 
 kneading of the affected parts, will be found beneficial and pleasant.
 
 CHOLERA. 
 
 BY ALFKED STILLE, M. D., LL.D. 
 
 DEFINITION. Cholera is an epidemic disease, characterized by the 
 transudation of serum into the stomach and bowels, and usually by the 
 profuse discharge by vomiting and purging of a liquid resembling rice- 
 water, followed by a tendency to collapse. It is endemic in India, but 
 has been conveyed thence to almost every part of the world. 
 
 SYNONYMS. Cholera algida, C. asiatica, C. asphyxia, C. maligna, C. 
 spasmodica. In English it is generally spoken of as Asiatic cholera. 
 
 HISTORY. It is sometimes stated that Hippocrates, Galen, Celsus, 
 and the Greek, Roman, and Arabian medical writers generally record 
 " the fact of the presence of cholera in the various countries in which 
 they lived" (Macnamara). Nothing could be more contrary to the 
 truth. All of these writers describe " cholera morbus " in nearly iden- 
 . tical terms ; they all include bilious discharges among its symptoms, and 
 no one of them speaks of it as a mortal or even as an epidemic disease. 
 (Compare, especially, Celsus, Aretaeus, Cselius Aurelianus, and Paulus 
 TEgineta.) Their description of sporadic cholera morbus is very precise. 
 For example, Cselius Aurelianus says : " Cholericam passionem aiunt 
 aliqui nominatam a fluore fellis, per os et ventrem effecto." 1 
 
 Asiatic epidemic cholera is a very different disease. It seems to have 
 been known in India from a very remote period, but no detailed account 
 of it was published until the beginning of the sixteenth century. ^ Dur- 
 ing that century many successive descriptions of the disease exhibited its 
 extreme violence and mortality. It is believed to have occurred repeat- 
 edly, if not annually, in the same localities down to the present time. 
 The invasion of India by the Portuguese, and afterward by the English, 
 contributed to spread the disease throughout the Peninsula, partly by 
 military occupation and partly through commercial channels, by which it 
 was also carried to the islands in the Indian Ocean. It prevailed iu 
 Batavia in 1629. Between 1768 and 1790 numerous epidemics of cholera 
 occurred. About the former date no less than 60,000 persons are said to 
 have perished near Pondicherry, and in 1783 it is reckoned that 20,000 
 victims to the disease fell in a single week during the religious gathering 
 at the sacred city of Hurdwar, where, as will be seen hereafter, it became 
 in later years more fatal still. The English armies extended their con- 
 quests in Hindostan, and established commerce between that country and 
 Western Ask and Europe, and by the year 1817 opened new channels of 
 1 Acul. Morb., lib. iii. cap. xix- 
 
 715
 
 716 CHOLERA. 
 
 communication in every direction, both within and beyond the Peninsula. 
 Along them the disease was carried; it invaded Ceylon and the Burmese 
 empire, and extended to Batavia, Java, and China on the east, and 
 advanced westward to Persia in 1821. In that year also it was carried 
 from Arabia into Africa, and at various later periods penetrated more and 
 more deeply into the Dark Continent, always following the track of pil- 
 grims returning from Mecca, the routes of armies engaged in war, or 
 those of trading caravans. 1 
 
 In these cases, as in others elsewhere, the spontaneous origin of the dis- 
 ease has been assumed by certain writers, but at every stage of its progress 
 careful investigation led uniformly to the conclusion that it was propagated 
 directly or indirectly from pre-existent cases of cholera. From Persia it 
 moved northward as far as the shores of the Caspian Sea, and westward 
 to the Levant in 1823, and there for a time its ravages were stayed. 
 Meanwhile, it prevailed at various places throughout Hindostan, and, 
 assuming a greater degree of violence in 1826, it advanced steadily in a 
 north-western direction across Afghanistan and Persia in the following 
 year. In 1829 it reached Orenburg, to the north of the Caspian Sea, and 
 was speedily conveyed into the interior of the Russian empire, where it 
 raged with great violence in 1830. In 1831 it prevailed at Mecca among 
 the pilgrims, who had brought it from India, and so virulently that one- 
 half of them are computed to have perished. Hence it speedily passed 
 with returning pilgrims to Alexandria and Constantinople, and was car- 
 ried to St. Petersburg, to Sweden, to Hamburg, and other places in 
 Northern continental Europe. From Hamburg and other seaports it 
 was conveyed to commercial towns on the eastern coast of England, 
 whence it extended to Edinburgh in the north and London in the south: 
 
 In 1832 cholera prevailed in France, and within the year caused 120,000 
 deaths, 7000 of which occurred in Paris in the space of eighteen days. 
 In the spring and summer of that year it was reproduced in England, 
 and extended to Ireland. From Liverpool, Cork, Limerick, and Dublin 
 five vessels filled with emigrants sailed for Quebec, Canada, and they, 
 together, lost 179 passengers by cholera during the voyage. 
 
 The immediate results of this importation and first appearance of 
 cholera on the American continent are described by Dr. Peters as follows : 
 "All these ships and their passengers were quarantined at Grosse Isle, a 
 few miles below Quebec. On June 7th the St. Lawrence steamer Voya- 
 geur conveyed a load of these emigrants and their baggage, some to Que- 
 bec, but the majority to Montreal on the 10th. The first cases of cholera 
 occurred in emigrant boarding-houses in Quebec on the 8th, and the same 
 pest-steamboat, the Voyageur, landed persons dead and dying of cholera 
 at Montreal, a distance of two hundred miles, in less than thirty hours. 
 Over this long distance, thickly inhabited on both shores of the St. Law- 
 rence, cholera made a single leap, without infecting a single village or a 
 single house between the two cities, with the following exceptions. A 
 man picked up a mattress thrown from the Voyageur, and he and his 
 wife died of cholera; another man, fishing on the St. Lawrence, was 
 requested to bury a dead man from the Voyageur, and he and his wife 
 and nephew died. The captain of a passing boat requested an Indian to 
 bury a man from on board ; this man and five other Indians were attacked 
 1 Christie, Cholera Epidemics in Africa, 1876.
 
 HISTORY. 717 
 
 and died The town of Three Rivers, halfway between Quebec and 
 Montreal, forbade steamers to land, and escaped for a long time. From 
 Montreal the great influx of emigrants were forwarded away, by the Emi- 
 grant Society, as fast as they arrived, and by them the pestilence was 
 sown at each stopping-place. Kingston, Toronto, and Niagara soon 
 became affected. In the end, over 4000 persons died of cholera in Mont- 
 real, and more than an equal number in Quebec. The epidemic reached 
 Detroit in the same way, .... and continued west along the Great Lakes, 
 until in September it reached our military posts on the Upper Mississippi. 
 . . . .^Fort Dearborn, near Chicago, was temporarily reoccupied in 1832, 
 and it was here that epidemic cholera displayed its most fatal effects 
 among our troops. Out of 1000 men, over 200 cases were admitted into 
 
 hospitals in the course of seven or eight days When these troops 
 
 again marched for the Mississippi, they appeared in perfect health, yet 
 the cholera broke out again on the way, and when the command reached 
 the Mississippi it had been as fatal as it had been at Fort Dearborn." 
 
 Meanwhile, an emigrant ship with cholera on board reached New 
 York, whence the disease spread up the Hudson River, and was also car- 
 ried southwardly to Philadelphia and the West. The mortality in New 
 York City from this epidemic is stated at 3500. In 1833 the disease 
 broke out in the cities of Havana and Matanzas in Cuba, and is said to 
 have destroyed one-tenth of the entire population. Hence it was carried 
 to Mexican and American towns on the Gulf of Mexico, and up the 
 Mississippi and Ohio as far as the western border of Pennsylvania. In 
 the following year it was again introduced at the port of Quebec by a 
 vessel filled with emigrants, of whom many had died during the passage. 
 It prevailed in Canada and the State of New York and spread over the 
 whole country in 1835 and 1836. In the former of these two years it 
 was confined to several Southern cities, whither it was brought, as on a 
 former occasion, directly from Cuba. It then gradually subsided, and at 
 last disappeared for the space of nearly ten years. 
 
 But in 1845 it was known to be advancing on its former path, which it 
 steadily pursued, and entered England in October, 1848, at Sunderland, 
 the very town at which it first appeared in 1831. "During the second 
 epidemic in Europe, in 1848, two vessels sailed from Havre, where cholera 
 prevailed one, the New York, for New York, and the other, the Swan- 
 ton, for New Orleans. Both contained large numbers of German emi- 
 grants. On one vessel the cholera appeared when it was sixteen days out, 
 with fourteen deaths; on the other, in twenty-six days, with thirteen 
 deaths. The New York arrived at Staten Island Dec. 2,^1848, and a 
 severe epidemic broke out, but was confined to the quarantine grounds. 
 The Swanton arrived at New Orleans Dec. llth; no quarantine was insti- 
 tuted, and in two days its sick were taken into_ the Charity Hospital. 
 This was the beginning of a severe epidemic, which increased in power 
 all winter, till, in June, 1849, 2500 died of it in New Orleans. Decem- 
 ber 20, 1848, it reached Memphis by steamboat from New Orleans, 
 and for twenty-five days was confined to the landing-place of the former 
 city, whence it afterward spread. In the spring it was carried to St. 
 Louis and Cincinnati and the whole Mississippi Valley. In October ii 
 reached Sacramento, Cal., by means of overland emigrants, and, almost 
 at the same time, San Francisco, by the U. S. steamer Northerner from
 
 718 CHOLERA. 
 
 Panama. The Chinese of California suffered most severely" (Peters). 
 In April, 1849, cholera reappeared in the public stores at the quarantine 
 station, Staten Island, N. Y., and in the city of New York, where it was 
 fatal to 5000 persons. 
 
 A pause now took place in the ravages of the disease which lasted until 
 1853. In that year it destroyed no less than 11,000 persons in the Per- 
 sian citv of Teheran. At Messina its victims numbered 12,000, in 
 France 114,000, and in England about 16,000. In 1854 it was intro- 
 duced by emigrant ships into New York, causing a mortality of 2000 
 persons, and was carried to Philadelphia, where its victims numbered 
 500. It extended to many towns in New England and westward along 
 the great channels of emigration. In Montreal the deaths were 1300, 
 and in the then small town of Detroit, 1000. 
 
 After an interval of quiescence longer than any previous one the cholera 
 again broke out among the pilgrims to Mecca in December, 1864. It 
 appeared in Alexandria during May, 1865, and thence was carried to 
 many parts of Europe, and from them to North America and the West 
 Indies. This period of exemption included that of the Civil War in the 
 United States, when, if ever, the local causes which have been erroneously 
 assigned to the disease existed in all their forms and in the most intense 
 degree. It was only when its specific germs were once more imported 
 that cholera began to prevail again. Official records show that in 1866 
 it was introduced from Europe into Halifax, N. S., the city of New York, 
 and the military posts of New York harbor. Thence it was carried in 
 troop-ships to various Southern ports, from which its progress could be 
 traced to Texas and other Gulf States, and to the towns on the Mississippi 
 and Missouri Rivers. From New York, also, the disease travelled west- 
 ward to Cincinnati and the U. S. barracks at Newport, on the opposite 
 side of the Ohio River, whence it advanced in a south-westerly direction 
 to meet the trail that, coming from the South, followed the great rivers 
 of the Mississippi Valley. During the summer of 1867 cholera again 
 prevailed, although less fatally, at most of the points, especially of the 
 Mississippi Valley, which had been invaded the previous year, and some 
 cases occurred at the military posts -around New York in recruits who had 
 shortly before arrived from places in the West where cholera prevailed. 
 Thus did the disease complete the circuit of the United States. 
 
 Meanwhile, cholera prevailed to a greater or less extent in the east of 
 Europe between 1865 and 1874. After the latter date it seems to have 
 been confined to Syria, Arabia, and the African shore of the Mediterra- 
 nean. In 187778 it existed to a limited extent among the pilgrims at 
 Mecca, and since then it has not been known in Europe. The latest 
 appearance of cholera in the United States was in 1873, when it occurred 
 at three points far distant from one another. It was introduced in the 
 effects of immigrants. The vessels that brought them were in a perfect 
 sanitary condition. The passengers themselves were healtKy, and remained 
 so after landing and until they reached the distant points of Carthage, 
 Ohio, Crow River, Minn., and Yankton, Dak., where their goods were 
 unpacked. At each place, "within twenty-four hours after the poison 
 particles were liberated, the first cases of the disease appeared, and the 
 unfortunates were almost literally swept from the face of the earth" 
 (E. McClellan).
 
 HISTORY. 719 
 
 In 1881 cholera was brought from Hindostan to Arabia by pilgrims on 
 their way to Mecca, where it soon afterward broke out and caused the 
 death of about 8000 persons. In the following year several vessels from 
 Bombay evaded the quarantine and reached Djeddah, the port of Mecca, 
 and the pilgrims on reaching the latter city disseminated the disease. 
 The unusually small number of persons who were there at the time, and 
 their prompt dispersion before the danger, limited the mortality, and 
 gradually cases of cholera ceased to appear. In 1882, the English at that 
 time carrying on war 'in Egypt, very rigid sanitary precautions against 
 the importation of cholera were enacted and successfully enforced, but in 
 the following year, the same urgent necessity no longer commanding, they 
 were considerably relaxed. At the end of June, 1883, the cholera made 
 its appearance at Damietta (at one of the mouths of the Nile), and soon 
 afterward at Rosetta, Port Said, and Mansourah. During July it spread 
 to various places in direct communication with those named. At Cairo it 
 was peculiarly fatal, and on July 20th it was reported to have caused 600 
 deaths. For several days the daily mortality varied between 500 and 600. 
 The disease prevailed somewhat in Alexandria during the height of the 
 epidemic, and near the end of October it was fatal to numerous European 
 residents of that city, and some deaths occurred in the British army of 
 occupation. In all Egypt, during the week ending Aug. 13th, the total 
 mortality is said to have been 5000, but in the following week it fell to 
 2000. It is estimated that the epidemic destroyed at least 20,000 lives. 
 The germ of this epidemic has not been accurately determined. Some 
 regard it as a survival of the cholera of the previous year a supposi- 
 tion which is at least plausible and sufficient; but certain "sanitarians" 
 have attributed the outbreak to the ordinary causes of disease intensified 
 by the civil war which had recently devastated Egypt. It is sufficient 
 here to say that while such causes liave in all ages generated typhus and 
 typhoid fevers and dysentery, they never produced cholera. Some, more 
 unwise than judicious, declared that the Egyptian disease of 1883 was 
 not cholera. It is alleged, on the one hand, that several East Indian 
 merchants from Bombay arrived at Damietta on June 18th, or three days 
 before the disease was recognized in that city. It is also said that a stoker 
 from on board an English steamer from Bombay introduced the cholera 
 into Damietta. But the judgment of Surgeon-General Murray carries 
 with it greater weight. 1 He is of the opinion that the Egyptian epidemic 
 of 1883 was simply a revival of the Arabian epidemic of 1882. He 
 shows that cholera existed in several villages on the Damietta branch of 
 the Nile in the latter part of May and during June, and that it broke out 
 in the capital itself, during a fair which had lasted for eight days, on the 
 22d of June, and was spread by the people on their return from Damiett 
 to their villages. This, adds Mr. Murray, "is a literal transcript of the 
 accounts of many of the severe epidemics that have raged over . 
 It also appears from M. Proust's narrative 2 that the Ottoman government 
 had alridy, as early as April, notified the government of Egypt that 
 certain Indo-Javanese pilgrims were on their way to Mecca^ and that 
 ought not to be allowed to land without quarantine. The French delegate 
 to the sanitary council also begged ^^.^^^S^S^ 
 Suez without previous quarantine should be isolated and kept undei 
 i Times and Gazette, Feb., 1884, p. 209. ' Le Cholera, 1*
 
 720 CHOLERA. 
 
 veillance for three days. But owing to the opposition of the English dele- 
 gates these measures were not duly enforced, the council did not meet 
 again, and no protective system was adopted. 
 
 ETIOLOGY. The essential cause of cholera is unknown, unless the 
 investigations of Koch, described below, may have revealed it. Its 
 secondary causes, or the conditions of its dissemination, are better 
 understood. Some general propositions concerning them will here be 
 laid down, and illustrated so far as the argument requires and the avail- 
 able space will allow. 
 
 Cholera is endemic in no other country than India, and more particu- 
 larly in Bengal. When it has occurred elsewhere it has invariably been 
 carried from India. The cholera poison has been imagined to be of an 
 aerial nature, but its diffusion has no relation whatever to the velocity or 
 the direction of the wind. In no instance whatever has its rate of prog- 
 ress exceeded that of man on land or water, nor has it ever taken a 
 direction different from that of commercial or military movements. On 
 land it has usually crept from place to place, and if sometimes it has 
 seemed to leap across wide spaces, and even seas and oceans, it has never 
 invaded any inland town or seaport without having been brought thithei 
 from a point already affected with the disease. Nor, having once entered 
 an inland or seaboard town, does it spread equally therein in all direc- 
 tions, but prevails chiefly in the quarter immediately surrounding the 
 place of its entrance. If appropriate sanitary measures are enforced, it 
 is sometimes confined to that quarter, and, in the case of quarantine sta- 
 tions, it has repeatedly been prevented from extending beyond them. 
 This statement may be illustrated by the fact that of fourteen epidemics 
 of cholera at Staten Island, the quarantine station of New York, all but 
 four were prevented from reaching that city. 1 When the disease does 
 overleap the barrier opposed to it, its origin and subsequent course can 
 usually be traced. 
 
 A high atmospheric temperature is everywhere associated with the prev- 
 alence of cholera. Its origin in the hot climate of Hindostan and its 
 general progress prove this conclusively. In nearly all of the places 
 where a great difference exists between the summer and the winter tem- 
 perature the disease has disappeared during the cold season, and attained 
 its greatest intensity during the hot months of the year. The only 
 apparent exception to this rule is, that cholera has prevailed in several 
 Russian, Swedish, and Norwegian cities during the winter. But these 
 very exceptions confirm the rule ; for in the countries mentioned the 
 intense cold of the winter compels the inhabitants to seal their houses 
 by every possible means, while the atmosphere within them is kept at a 
 high temperature by huge stoves, which hinder ventilation, and indeed 
 render it almost impossible. Difference of temperature likewise explains 
 the fact that of two cholera-ships .arriving from Havre, the one at New 
 York and the other at New Orleans, in December, 1848, the former did 
 not disseminate the disease, but the latter formed the starting-point of an 
 epidemic which lasted all the winter. 
 
 A good deal has been written of the predisposing causes of cholera, 
 and poverty, crowding, filth, intemperance, and depression of spirits have 
 been given prominent places in the catalogue. But to any one familiar 
 1 Peters's Notes, etc., 2d ed., p. 94.
 
 ETIOLOGY. 721 
 
 with the history of epidemic diseases it will at once be apparent that every 
 one of these conditions favors the spread of all communicable infectious 
 diseases. There is not the slightest evidence that these agencies, singly 
 or combined, can generate cholera or favor its spread apart from the pres- 
 ence of the specific poison of the disease and the facility with which it 
 is transmitted from the sick to the well whenever the population is 
 crowded, poor, of filthy habits, and weakened by dissipation. Because 
 among such people intemperance prevails, this vice has been regarded as 
 predisposing to cholera. Apart from the brutish mode of living of 
 drunkards, there is nothing to show that they are more liable to cholera 
 than the most abstemious of water-drinkers. On the contrary, it is 
 notorious that during cholera epidemics drunkards in the better classes of 
 society enjoy a certain degree of immunity from the disease ; which it is easy 
 to explain on the ground that they imbibe but little water, which is the 
 main channel through which the infectious principle of the disease is spread. 
 The specific cause of cholera is taken into the alimentary canal, and 
 acts through it to produce the characteristic symptoms of the disease. It 
 is conveyed from the sick to the well by means of the gastro-intestinal 
 discharges, either moist or dry ; in the former state, by means of drink- 
 ing-water, and in the latter through the air, whose suspended noxious 
 particles are received into the fauces and swallowed. There is reason 
 to believe that the poison does not enter the system through the lungs, 
 or through any other channel than the gastro-intestinal canal. "W. B. 
 Carpenter 1 appears to hold, however, that the poison may be ab- 
 sorbed through the lungs. To this view there are two objections : 1, 
 That whatever is taken into the mouth or throat by inspiration may 
 very well be swallowed; and, 2, that all the primary lesions of 
 cholera affect the digestive and not the respiratory apparatus. It is not 
 at all necessary to the propagation of cholera that its excreta should ^be 
 furnished by persons laboring under the fully-formed disease. A^specific 
 choleraic diarrhoea is as infectious as the evacuations which occur in com- 
 pletely developed cholera. But neither will propagate the disease through 
 the air to a distance. The tendency to its propagation in this manner 
 depends chiefly upon the concentration of the poison ; thus, it much more 
 frequently occurs in close than in well-ventilated rooms or than in the 
 open air. It has been argued that cholera is not contagious, because so 
 few, comparatively, of the attendants upon cholera patients contract the 
 disease. On the other hand, as some of them are attacked, this positive 
 fact outweighs an indefinite number of negative instances. It should also 
 be noted that different diseases enter the system and infect it through 
 different channels some through the lungs, others through the aliment- 
 ary canal, etc. Small-pox, the most contagious of all diseases, is intro- 
 duced through the air-passages, and is probably harmless when its virus 
 is taken into the stomach. That the converse of this proposition applies 
 to cholera is sustained by the whole history of the disease, 
 poison may be taken to considerable distances in either a moist or a 
 condition. In the former state it is mainly conveyed by water, as m 
 rivers, water-pipes, etc. ; in the latter, by foraites and especially by cloth- 
 ing saturated or merely soiled with cholera discharges, and which may 
 retain their infectious quality for an indefinite time. 
 1 The Nineteenth Century, Feb., 1884. 
 
 VOL. I. 46
 
 722 CHOLERA. 
 
 Great stress has been laid upon the humidity and foulness of the soil, 
 a damp atmosphere, filth, crowding, etc., as elements in the production 
 of cholera, but in reality they have no more essential relation to it than 
 to any other disease that occurs epidemically. Cholera may prevail 
 whether they are present or absent. It is evident that from the earliest 
 historical periods all of these causes of disease have existed, and in Europe 
 much more generally and excessively than during the present century, 
 and fhat they have never been removed in Asia Minor, Egypt, Arabia, 
 and Africa. Yet cholera never was known in any of these countries 
 until it was brought into them about the end of the first third of the 
 present century. 
 
 According to Pettenkoffer, cholera is most prevalent when the subsoil 
 water is lowest, and least so when the subsoil water is highest. It would 
 be more descriptive of the fact to say that, so far as cholera has any- 
 thing to do with the condition of the soil, it is most apt to be severe and 
 prevalent when very dry weather follows a very wet period. Such cir- 
 cumstances are the most favorable to putrefactive fermentation and the 
 dissemination of its products, which thus reach wells of drinking-water, 
 and even rivers, especially when sewers empty into the latter. The 
 identity of this explanation with that which is generally accepted for the 
 dissemination of typhoid fever is too evident to be insisted upon. AVe 
 might go farther, and say that, in typhoid fever as in cholera, the disease 
 is communicated, although exceptionally, by the air of the sick room and 
 by the exhalations of the soiled fomites of the patient. Now, if typhoid 
 fever resembled cholera not only in being transmitted by means of the 
 dejections, but also in its poison being derived from one primary source 
 only, the analogy betw r eeu the causes of the two diseases would be very 
 striking indeed. But, in point of fact, the typhoid-fever poison may proba- 
 bly be generated de novo by fecal fermentation and other forms of putre- 
 faction, and the disease is only exceptionally communicable ; whereas, the 
 poison of cholera, once received, is conveyed from man to man and far 
 and wide through various channels ; but, so far as is known, it has but 
 one primary source, and that is in India. Lebert states that he did not 
 find the localities that are the ordinary seats of typhoid fever peculiarly 
 liable to invasions of cholera. But it must be noted that typhoid fever is 
 very far from being exclusively a disease of the poor, squalid, and vicious. 
 Like death itself, "regum turres pauperumque tabernas sequo pede 
 pulsat ;" while cholera much more commonly plants itself and dissemi- 
 nates its seeds in the rank soil of moral and physical degradation. 
 
 All morbid causes whatever, derived from race, climate, religion, dwell- 
 ings, food, clothing, habits of living, etc., have no more to do with the 
 development of cholera than with that of the eruptive fevers, and even 
 less than with the causation of typhus and typhoid fevers and dysentery. 
 The eruptive fevers are caused, as cholera probably is, by specific germs 
 which no known combination of natural causes has ever developed, while 
 the poisons of the other diseases named appear to be generated anew 
 whenever certain more or less definite physicial conditions coexist. It 
 would seem that cholera differs radically from all of these affections by 
 the fact that its cause does not enter the circulation, but confines its direct 
 operation to the gastro-intestinal mucous membrane. In this way it 
 becomes intelligible that while, on the one hand, physicians and nurses of
 
 ETIOLOGY. 723 
 
 cholera patients, although often, in fact, yet in relation to their numbers 
 are comparatively seldom infected, provided they duly observe proper 
 sanitary rules, the disease, on the other hand, spreads like wildfire among 
 those who drink water polluted by cholera excretions, and only a little 
 less rapidly among people crowded into ill- ventilated apartments alon<r 
 with cholera patients. 
 
 The special fomites of the cholera poison are articles of clothing and 
 furniture soiled with the discharges of the sick, and the emanations from 
 privies, sewers, etc. into which these discharges have been cast. Many 
 considerations render it probable that a very small quantity of cholera 
 matter may suffice to render infectious a very large quantity of liquid, 
 and especially of matters in process of putrefactive fermentation, and 
 that the gaseous or vaporous emanations from them become diffused in the 
 atmosphere and infect all who imbibe them. But water contaminated by 
 cholera discharges is the most rapid and efficient agent in disseminating 
 the disease. Innumerable instances of this mode of action are fur- 
 nished by its history in Asia and Africa, where water is often scarce, 
 and naturally so impure that its additional defilement by cholera dejec- 
 tions is apt to pass unnoticed. From the illustrations of this proposition 
 which might be adduced only a few of the more striking will here be 
 selected. 
 
 Hurdwar is a town in Northern India at the base of the Himalayas, 
 where the Ganges begins its course in the plains. It is the seat of a 
 great Hindoo pilgrimage, which takes place annually in April, when 
 sometimes from 2,000,000 to 3,000,000 of people occupy an encampment 
 of about twenty-two square miles, comprising a low flat island in the 
 Ganges and the opposite banks of the river. Bathing in the sacred 
 stream on a certain day is the main object of the devotees ; which day, in 
 the year 1867, fell on the 12th of April. The bath was taken early in 
 the morning. From noon on that day the pilgrims began to disperse so 
 rapidly that on the morning of the 15th the encampment was quite 
 deserted. It appears that up to the former date the health of the 
 encampment was excellent, and it was the opinion of the reporter (Dr. 
 Cunningham) that cholera was introduced into the camp by pilgrims 
 from the neighboring districts going late to the fair. He believed that 
 the cholera excreta may have been buried in the trenches and carried by 
 a heavy rain into the river, and there swallowed by the pilgrims ; for to 
 drink of the water of the Ganges as well as to bathe in it is a religious 
 obligation. 
 
 Immediately after the breaking up of the camp cases occurred in the 
 surrounding districts, the epidemic widening in all directions. The pil- 
 grims were almost always the first persons attacked in any locality, and 
 the cholera attended them on their route wherever they went. In all the 
 districts where the disease prevailed no cases occurred until ample time 
 had been given for the pilgrims to reach them. In a word, " the cholera 
 first showed itself among them ; it followed their lines of route only, and 
 did not outrun them ; their progress was its progress, and their limits its 
 limits." The mortality caused by this epidemic among the whole civil 
 population of the North-western Provinces of the Punjab has been esti- 
 mated at about 117,1s!. 1 The history of the religious festival of 
 1 Brit, and For. Med. Chir. Rev., Jan., 1870, p. 137.
 
 724 CHOLERA. 
 
 was identical with that just sketched, except that the number of the pil- 
 grims was smaller and the deaths proportionally less. 1 
 
 Out of the numberless illustrations of the manner in which cholera is dis- 
 seminated by water the following may be cited : In 1865 about 100,000 
 pilgrims were assembled at Mecca, of whom from 10,000 to 15,000 
 fell victims to the disease, two-thirds of them within a period of six 
 days. Some cause acting simultaneously upon the whole number of 
 persons must be admitted to account for so extraordinary a fact, and such 
 a cause is not far to seek. At a certain sacred well " one hundred 
 thousand people had skinfuls of water poured over them at the side of 
 the well, and every one of them then drank largely of water drawn from 
 the well. Much of the water poured over the pilgrims must have found 
 its way by soakage back into the well, and if any of the pilgrims were 
 at the time suffering from cholera, or had cholera-tainted garments about 
 them, the well would be exposed to pollution." 2 
 
 In the cholera epidemics of Zanzibar the disease produced the greatest 
 havoc among the negroes, the Persians, and the East Indians ; very few 
 Europeans were attacked, and quite as few of the sect of the Banyans, 
 who drank only water drawn from their own wells. The persons among 
 whom the disease prevailed so fatally used chiefly the water of a certain 
 well which was highly prized, but which on this occasion had become 
 polluted by soakage from an adjacent cesspool into which the dejections 
 of cholera patients had been thrown. It appears, also, that in Zanzibar 
 the streams are very rarely bridged, and hundreds of negroes, in passing 
 backward and forward, wade through them and pollute them. In these 
 streams, also, the negroes wash their clothes and all the foul clothing of 
 the contiguous town. While this business is going on " a gang of negroes 
 may be at work at not many hundred yards' distance filling water-casks 
 for the shipping." Subsequently to the watering of the ships in this 
 manner sailors were attacked with cholera, and others who used water 
 drawn from the stream below the place where it became polluted were 
 attacked, and many of them died ; while Europeans living on shore, and 
 who drank the water of the same stream, but drawn from a much higher 
 point in its course and after having been filtered, escaped the disease. 3 
 
 The history of the disease in Europe furnishes a multiplicity of 
 similar cases, and even more distinctly exhibits the dissemination of 
 cholera by contaminated water. 4 In Holland not less than five epidemics 
 of the disease occurred between 1832 and 1869, all of them causing a 
 great mortality, to which the epidemic of 1866 alone contributed not less 
 than 20,000 deaths. This was about 55 deaths for every 10,000 inhabit- 
 ants. Such exceptional mortality over so wide a territory has been 
 ascribed to the extreme porosity and humidity of the soil, which is nearly 
 all below the level of the sea. Such a soil must necessarily retain longer 
 than other soils whatever it absorbs, and thus tend to render the well- 
 water habitually impure. If, then, to the ordinary impurities a specific 
 
 1 Murray, Practitioner, xxvi. 309. 
 
 2 Christie, Cholera Epidemics in East Africa, p. 488. * Ibid., pp. 320, 492. 
 
 4 It is of interest to note that on the first appearance of cholera in England, at Sunder- 
 land. in 1831, a surgeon of that place, Mr. Ainsworth, collected and published conclusive 
 proofs of the importation of the disease, of its communication from the sick to the well, 
 " and of its propagation by clothes, and even by emanations, from the dead " ( Observations 
 on the Pestilential Cholera, Lo'ndon, 1832).
 
 ETIOLOGY. 725 
 
 poison is added, its' characteristic effects may assuredly be looked for. 
 The conditions now stated explain the conclusions of Ballot of Rotter- 
 dam, drawn from a study of the several epidemics referred to. They are 
 as follows : " 1. Holland is highly affected by the cholera at every epi- 
 demic, chiefly in those parts where they drink water directly from the 
 rivers and canals or from ground saturated with sewage. 2. In places 
 where rain-water is generally drunk the disease is far less violent. 
 
 3. Places where there is no other drinkable water but rain-water are not 
 affected by the epidemic ; the single cases occurring there are imported. 
 
 4. When places affected by the cholera were supplied with pure water 
 instead of the vitiated water the disease disappeared." l In like manner, 
 we find that the cholera epidemic of 1873 in Germany seemed specially to 
 select those situations where the subsoil was impregnated with decompos- 
 ing organic matter ; and it is evident that, in cities especially, such situa- 
 tions would include the most poverty-stricken districts, while the higher, 
 drier, and at all times more salubrious localities are inhabited by the 
 classes enjoying the greatest material prosperity. 2 
 
 This mode of infection has been traced in numberless individual cases 
 of cholera. In London there was a certain well into which the liquid 
 contents of a sewer had been percolating for months. Of the water of 
 this well hundreds of persons had been drinking without obvious injury. 
 At last a case of cholera occurred hard by ; the discharges were thrown 
 into a privy which communicated with the sewer and indirectly with the 
 well, whereupon more than 500 persons who drank water drawn from 
 that particular well were attacked with cholera within three days. So 
 in 1856 cholera prevailed in the county jail of Oxford, Eug., the drain 
 from which emptied into a pool from which the water was drawn to 
 supply the city prison. In the latter institution cholera began to prevail, 
 but declined as soon as the pipes conveying the water were cut off, and 
 soon afterward ceased entirely. 3 Again, in Constantinople in 1865 the 
 clothes, mattrasses, etc. of cholera patients were washed at a fountain 
 the basin of which was divided into two parts by a wall ; one part was 
 used for washing clothes and the other for drinking purposes. Unfortu- 
 nately, the waste-pipe of the former being obstructed, the foul water of one 
 side communicated with the clean water of the other, and in one day 60 
 people died of cholera in the small portion of the city which was sup- 
 plied from the infected source. The striking case has often been cited 
 which occurred at Epping, Eng., where a woman brought the disease 
 from a distance into a perfectly healthy house 'and neighborhood, and of 
 ten persons affected with it seven died, including a physician in attend- 
 ance upon one of them. An examination of the premises "discovered, 
 below the pipes leading from the water-closet and from the eye-hole of 
 the sink through which the choleraic dejections had been passed, a leak- 
 age which extended under the foundations of the building and entered 
 the well. The sewage was distinctly traceable on the side of the well 
 corresponding with the leakage in the drain." After this discovery and 
 the disuse of the foul water not another case occurred. 4 In 1868, Dr. 
 
 Med. Times and Oaz., May, 1869, p. 459 ; June 1869, p. 626. 
 2 " Report of the German Imperial Commission," Practitioner, 
 1 Edinb. Med. Jour., i. 1122. 
 4 Trans, of the Epidemiological Soc., u. 428. 
 
 xxvt. 153.
 
 726 CHOLERA. 
 
 Farr, in his History of the London Cholera Epidemic of 1866, showed 
 that water into which cholera dejections find their way produces cases of 
 cholera all over the district in which it is distributed for a certain period 
 of time, and that if the distribution is in any way cut short the deaths 
 from cholera begin to decline within about three days of the date at 
 which the distribution is stopped. 1 
 
 Analogous instances are furnished by every cholera epidemic of which 
 the history has been accurately observed, including that which extended 
 so widely over the United States in 1873. Most of the following are 
 cited from the official reports prepared, under the direction of the Sur- 
 geon-General of the army, by Surgeon Ely McClellan and Dr. John C. 
 Peters. Several of the first cases, however, are foreign. 
 
 In 1861, at a station in India, some fresh cholera dejecta found their way 
 into a vessel of drinking-water. Early on the following morning a small 
 quantity of this water was swallowed by nineteen persons, five of whom 
 were attacked with cholera between the first and the third day afterward. 2 
 In 1876 an outbreak of cholera took place in a village in Hiudostan, which 
 followed the arrival of wedding-guests, one of whom was attacked, and from 
 whom it rapidly spread. The soiled clothes of one or more of the patients 
 were washed in a pool from which all the villagers obtained their drink- 
 ing-water, and on the discontinuance of this source of water-supply 
 cholera speedily diminished in frequency and fatality. 3 In the German 
 epidemic of 1873 many cases occurred where persons deriving their drink- 
 ing-water from special sources were attacked with cholera, while their 
 neighbors, supplied from a different source, remained free. Again, it has 
 frequently happened that outbreaks of cholera have been checked by the 
 prohibition of the suspected water and the substitution of a pure supply. 4 
 It seems probable that a very small portion of cholera discharges suffices 
 to infect a very large body of water and maintain its infectiousness for a 
 considerable time. 
 
 In December, 1871, an outburst of cholera occurred which was con- 
 fined to the inmates of three excellent houses in a fine block of buildings 
 in Calcutta. 'There had been no cholera in that neighborhood for four 
 years. Within forty-eight hours a majority of the lodgers were sick, 
 and on investigation it was found that the disease was carried in the 
 drinking-water and in the milk diluted with it. 5 The particular locality 
 in which Dr. Koch made the discovery of the microscopic representative 
 of cholera furnishes an example of the same nature : " At Saheb Ragau, 
 a locality which has repeatedly been visited by cholera during the last 
 hundred years, numerous cases of the disease were reported, and these, 
 on inquiry, were found exclusively in the huts situated round a certain 
 tank. Of the few hundred people who dwelt in these huts, as many as 
 seventeen died of cholera, though the disease was not at that time preva- 
 lent in the neighborhood, or indeed in the whole police district of Cal- 
 cutta. It was proved that, as usual in such cases, the dwellers around 
 the tank used it for bathing, and drew thence their drinking-water ; it 
 was also elicited that the linen of the first fatal case, befouled with 
 cholera dejections, had been washed in the tank." 6 In June, 1873, a new 
 
 1 Lancet, April, 186S, p. 217. 2 Macnamara, op. dt., p. 196. 
 
 * Surg.-Major Cornish, Practitioner, xxiv. 215. * Practitioner, xxvi. ] 59. 
 
 * U. 6'. Report, p. 85. Times and Gaz., April, 1884, p. 527 .
 
 ETIOLOGY. 727 
 
 hotel was opened at Vienna, and many of the guests became affected with 
 diarrhoea that was attributed to the drinking-water, which was offensive 
 to the taste and smell. After a fortnight a gentleman died of cholera in 
 the hotel, and two days later several of the guests were attacked with the 
 disease, of whom fourteen died. The gentleman who first died was 
 believed to have brought the poison with him into the hotel, so that the 
 drinking-water, which previously had been polluted with ordinary fecal 
 discharges, became specifically affected through him. 1 The discharges of 
 one ill of cholera were thrown into, and the vessels used by him were 
 washed near, a well from which all the residents of a farm-house drank. 
 The wooden curbing of the well had rotted, and the ground immediately 
 around had sunken ; a heavy rain burst the curb, overflowed the well, and 
 washed into it the entire surface-drainage of the surrounding ground. 
 No attention was paid to this, and the water was used as before. It 
 became so offensive that its use was forbidden, but too late to save the 
 family, nine of whom died of cholera. 2 
 
 At Farmington, Tenn., a man arrived who had contracted the cholera 
 at Nashville; his illness ran its course at a point just forty paces from a 
 well. Families that obtained their water from this well suffered in 
 nearly all their members; where only certain members drank of it, they 
 alone were affected. 3 At Huntsville, Ala., during an epidemic of cholera, 
 the city authorities forbade the use of well-water, and supplied pure water 
 from another source, but only for one week. During this time no new 
 cases of the disease occurred, and the negroes, thinking themselves secure, 
 resumed the use of the well-water, and within four days six fatal cases of 
 cholera occurred in the vicinity. The use of the well-water was again 
 prohibited, and again the progress of the disease was arrested. 4 
 
 It has already been intimated that the cholera poison may be diffused 
 through the air from either moist or dry sources, and especially from con- 
 taminated clothing, and then be taken into the throat and swallowed. 
 Dr. Richardson refers to a local epidemic in England in which " the per- 
 sons most constantly and fatally attacked were the women who washed 
 the clothes of the sick ;" and this circumstance has been largely confirmed 
 by other observers. 5 In a village not far from Marseilles, and in an iso- 
 lated place, a peasant and his wife who had not left the country sickened 
 and died of the disease. The woman, who was a laundress, had received 
 a bundle of linen belonging to a person recently arrived from Egypt, and 
 the husband opened the bundle and unfolded the pieces. During the 
 Crimean War many of the washermen attending to the washing of the 
 French hospitals were attacked by cholera. In the post-office at Marseilles 
 none of the clerks who handled the outgoing mails were attacked, but of 
 those who sorted the mails coming from the East, where the disease pre- 
 vailed, one after another suffered from cholera. 6 
 
 The cholera was introduced into Guadaloupe by clothing contained 
 in a trunk belonging to a person who died on the voyage thither from 
 Marseilles, where the cholera then prevailed. The woman who washed 
 the clothing died, with all her family. Attracted by the circumstances of 
 
 * Times and Oca., p, 86. * Ibid., p. 140. Ibid., P-. 172. 
 4 Ibid., p. 408. For other examples of the spread of cholera by means < 
 
 water see Macnamara, p. 149 and seq. 
 
 Trans. Epidem. fiifiL 42 9- Eead ' B StOD '
 
 728 CHOLERA. 
 
 the case, many came to her house, and of these several died. From this 
 point the disease spread over the island. 1 A sailor died at some port in 
 Europe of Asiatic cholera in 1832. A chest containing his personal 
 effects, clothing, etc. was sent home to his family, who lived in a small 
 straggling village on the Atlantic coast of the State of Maine. It reached 
 them about Christmas, and was opened on its arrival. The inmates of 
 the house were all immediately and suddenly seized with a disease resem- 
 bling Asiatic cholera in all its malignity, and died. There had been no 
 cholera in the State. The last case of cholera that occurred in the 
 garrison at Malta in the epidemic of 1865 was that of a woman who had 
 stolen a chemise the property of one who had died of the disease. She 
 put on this fatal garment, probably soiled with cholera discharges, and 
 certainly unwashed, many days after the death of its former possessor; 
 she took the disease and died. 2 
 
 It is sometimes said, and oftentimes repeated, that cholera is not directly 
 contagious is not communicated by the sick to the well. No statement 
 could be more unfounded. The whole history of cholera proves that the 
 physicians and nurses of cholera patients are often affected by the disease. 
 "In Constantinople no less than twenty-seven physicians and medical 
 assistants were attacked and died during their attendance on cholera 
 patients; and in Paris and Toulon similar results followed. At Halifax, 
 N. S., two of the physicians who volunteered in aid of the steamer Eng- 
 land, which put in there disabled by the ravages of cholera among the 
 officers and crew, as well as among the steerage passengers, took the dis- 
 ease, and one died" (Read). In 1832 the cases of cholera in Edinburgh 
 were in the proportion of 1 to every 1200 of the population of the city, 
 while among those in attendance upon the sick the proportion was 1 to 5. 
 In 184849 one-fourth of the nurses employed in the cholera hospital took 
 the disease, while in the general hospital, only a few paces distant, where 
 no cholera patients were received, not a single attendant was attacked. 
 In the London Hospital, in 1866, none of the medical officers, volunteer 
 nurses, or sisters were attacked. Of the (regular) nurses five contracted 
 the disease, and of these four died. 3 In 1849 a severe and fatal epidemic 
 broke out in the Philadelphia Almshouse. The resident physicians of 
 the hospital were abundantly occupied with the care of the sick of other 
 diseases, and it was thought prudent not to allow any, even an indirect, 
 communication between them and the cholera patients. The latter were 
 therefore removed to an isolated building in the middle of the quadrangle, 
 and attended by physicians from the city who had volunteered their aid. 
 Th ee or four of these physicians had attacks of cholera, and two of them 
 died. 4 At this time there was no cholera at all in the city, and the young 
 physicians could not have become infected outside of the almshouse. 
 They were attacked while attending the sick of cholera, but the regular 
 house-physicians, who seldom visited the cholera patients, escaped alto- 
 gether. 
 
 The importance of recognizing the communicability of cholera is so 
 great that no apology need be made for introducing the following addi- 
 tional illustrations of it furnished by Griesinger in his article on the 
 dangers of cholera to medical men. They are the more important because 
 
 1 Med. Times and Gaz., April, 1874, p. 387. 2 Lancet, Feb. 17, 1866. 
 
 3 London Hasp. Rep., iii. 439. * Pkilada. Med. Examiner, Nov., 1849.
 
 ETIOLOGY. 729 
 
 in many other instances cholera physicians have suffered little for their 
 devotion to duty : " At Moscow, in 1 840, hospital attendants contracted the 
 disease to the extent of 30 or 40 per cent., while in the general population 
 only 3 per cent, were attacked ; at Berlin, in 1831, in Romberg's hospital, 
 54 out of 115 persons were attacked : in 1837 one-fifth of the attendants 
 took the disease, and on one occasion no less than seven of them fell ill 
 on a single day. In La Charite" Hospital in Paris, in 1849, one-sixth 
 of *Jie attendants had the disease, while only one-twenty-fifth of the 
 general population of the city suffered from it ; at Mittau, in 1848, one- 
 half of the physicians took the disease ; in 1842, at Toulon, ten health 
 officers out of thirty-five were ill with cholera, and five of them died, 
 while of thirty workmen who were employed to carry the dead bodies 
 one-third succumbed ; at Stockholm, in 1853, of 536 attendants one- 
 eighth took the disease, and half of that number died; at Vienna, in 
 1854, out of thirty-six nurses, seven caught the disease, and seven men 
 employed in removing the dead became affected with a prolonged and 
 exhausting diarrhoea; in 1849, at Strasburg, five nurses out of ten were 
 attacked, etc." .... "Physicians, nurses, students, etc. are less fre- 
 quently affected, however, than patients ill with other diseases who are 
 lying in the wards where cholera patients are treated, and are therefore 
 more constantly exposed to the emanations from the discharges ; and phy- 
 sicians usually suffer less than the attendants who are constantly waiting 
 on the cholera patients." ' 
 
 It may be added that Surgeon-General John Murray, who served 
 continuously for thirty-eight years in British India, caused upward of 
 five hundred circulars to be addressed to the local governments and filled 
 up by the local medical officers. From these returns it appeared that the 
 belief in the communicability of cholera, in one way or another, was 
 practically unanimous; for of the whole number, those who believed 
 that it is conveyed from person to person were 75 per cent. ; from place to 
 place, 85 per cent.; through the atmosphere, 80 per cent.; with the drink- 
 ing-water, 85 per cent.; by the evacuations, 92 per cent.; and by cloth- 
 ing, 98 per cent. 2 This g'entleman has more recently furnished addi- 
 tional facts supporting the same conclusion. For example : Out of four- 
 teen cases that occurred at Ramleh during the Egyptian epidemic, eleven 
 occurred in patients already in the hospital for other diseases. In 185b, 
 after visiting the dead-house where the bodies of fourteen cholera patients 
 lay as he entered the cholera ward he felt a sudden shock in the epigas- 
 trium, followed by a deadening sensation that rapidly spread over the 
 whole body. On another occasion he saw a clergyman who was talk 
 to a cholera patient suddenly seized with vomiting of a watery liquid. 
 Several analogous instances are related by him. 3 
 
 It has been objected to the communicability of cholera that its dissemi- 
 nation does not always follow the deposit of cholera discharges in privies, 
 wells, etc., and also that when infection does take place, it may occur 
 between remote extremes as to time, and therefore cannot be attributed to 
 infectious germs. Such objections are frivolous, because we know i 
 ing of the nature or vitality of cholera-germs, and they are, moreojr 
 drawn from exceptional cases. The power of infected fomites to develop 
 
 ' Trait* des Maladies ivfeclieuses, 1868, p. 409. ' Practitioner, six. 470. 
 
 s Med. Times and Gaz., March, 1884, p. 281.
 
 730 CHOLERA. 
 
 the disease has been preserved, iu a journey from Arabia into Africa, 
 for at least twelve days, and for even a longer period in passing from 
 Germany to Chicago, as already related. It is true of every infectious 
 and contagious disease that it may possess one or both of these qualities 
 in various degrees that at one time it is only exceptionally communi- 
 cated, and that at another time it appears to propagate itself virulently. 
 So the phenomena of cholera may consist of little more than a watery 
 diarrhoea, which may be so mild as hardly to disable the patient from 
 working, while at other times the attack may include all those terrible 
 and fatal symptoms which have won for the disease the name of malig- 
 nant. That a certain quantity, or " dose," of the cholera poison is 
 required to develop the disease, but one that varies considerably in 
 different cases, may be inferred from these facts : 1. Out of a certain 
 number of persons equally exposed to receive the disease, only a portion 
 may be attacked at all, and these in very unequal degrees. 2. Persons 
 so slighly affected as to be ignorant of the nature of their sickness, and 
 believing it to be an ordinary diarrhoea, may nevertheless become the 
 innocent, because ignorant, disseminators of cholera. The explanation 
 of such facts may be manifold : they may depend upon the dose or upon 
 the energy of the morbid poison, on various possible conditions of its 
 recipient, and so on ; but, however explained, their reality is none the less 
 certain. The receptivity of persons exposed to the contagion of cholera 
 is very different. It is well known that some persons appear to be proof 
 against other contagious diseases, while others seem never to acquire an 
 immunity from them. On this very important point the conclusions of 
 Fauvel directly bear. 1 They include the following propositions: The 
 East Indian ports where cholera exists as an endemic disease are never 
 the seat of an extensive epidemic among the native population. But 
 strangers to these localities are liable to the disease, and such are the 
 Mussulman pilgrims who come to Bombay to take ship for Mecca. A 
 severe epidemic of cholera confers upon the locality in which it has taken 
 place an immunity which in India appears to be of several years' dura- 
 tion. Such an epidemic in any country is a proof that the cholera is not 
 endemic there. 
 
 If a contagious disease preserved its virulence undiminished, it might- 
 continue to prevail indefinitely. But we know that all other contagious 
 epidemics do come to an end sooner or later, and hence we must conclude 
 that their specific cause progressively loses its virulent qualities. There 
 is every reason, therefore, to believe that the same is true of cholera. Its 
 commuuicability, and therefore its diffusion, may vary with climatic, sea- 
 sonal, local, personal, and other conditions ; but of what nature those 
 conditions are, and especially of the last and most important, the personal, 
 hardly anything is known. Nor need we too curiously investigate them, 
 so long as the fact remains that outside of, and independent of them all, 
 there is but one essential cause of cholera a morbid poison as specific in 
 its nature as that of any of the eruptive fevers a poison which no deter- 
 minable conjunction of circumstances has ever engendered, and which was 
 unknown in Europe and America before it was carried to them from 
 India. In just such a way did small-pox first arise in the Western 
 World. It had never appeared in Europe until the latter part of the 
 1 Memoire lu & I' Academic des Sciences, 1883.
 
 SYMPTOMATOLOGY. 731 
 
 sixth century, when for a short time it prevailed in Marseilles ami the 
 neighboring country. Afterward it was not heard of until it was rein- 
 troduced by the Crusaders on their return from Palestine in the twelfth 
 century, since which period it has hardly ever ceased. The history of the 
 diffusion of cholera is closely analagous to this in several particulars, and 
 we may reasonably expect that what was in the last generation a new 
 disease will henceforth be liable to prevail again and again as the inter- 
 course increases between the nations of the West and the immemorial 
 source of cholera in Hindostan. 1 
 
 In the preceding discussion of the origin and dissemination of cholera 
 the broad facts of its specific nature and its contagion by means of excreta 
 have been chiefly insisted upon. Little has been said either of the nature 
 of the contagium or of the conditions that modify its activity. These 
 points will be considered hereafter. But it is proper in this place to 
 state that, in the opinion of most investigators, the contagious element 
 has the power of multiplying itself, not only within the body, but wher- 
 ever it is in contact with decomposing organic matter, provided that the 
 degree of heat and amount of moisture present are adapted to promote 
 such a change, which is certainly analogous to fermentation, if not iden- 
 tical with it. And the facts already mentioned may be recalled, which show 
 that the contagium cannot be a light and subtle substance, since, as hah 
 been stated, the immediate attendants upon cholera patients are not as 
 apt as might be expected, on that hypothesis, to contract the disease, 
 while washerwomen inhaling, and probably swallowing, the moist fumes 
 from cholera fomites much more frequently do so ; that fomites saturated 
 with the dried discharges are very infectious ; and that water is the prin- 
 cipal vehicle by which cholera-germs are carried into the stomach. 
 
 SYMPTOMATOLOGY. Like other diseases, cholera occurs under very 
 dissimilar aspects and with various degrees of gravity. Like those 
 especially which are caused by specific morbid poisons, it _ may be_so 
 insignificant as to escape recognition, or, on the other hand, _ it may give 
 rise to violent and distressing symptoms which come on without warn- 
 ing and hurry the patient to inevitable death. Whenever epidemic dis- 
 eases present such opposite extremes of severity in their symptoms, it 
 may reasonably be inferred that the differences depend mainly upon the 
 quantity of the poison that has been received into the system, precisely 
 as the dose which has been taken of a narcotic or acrid poison may be 
 estimated by the gravity of its effects. Individual peculiarities, consti- 
 tutional or acquired, may modify the characteristic phenomena, and 
 sometimes a careful inquiry may be necessary even to detect their exist- 
 ence but a study of cholera in all its grades shows that its symptoms 
 are all the effects of one and the same cause, and that the cholera poison 
 acts primarily upon the gastro-intestinal mucous membrane. It follows, 
 as a matter of course, that, being thus applied, it will occasion symptoms 
 differing in degree and in kind according to the energy of its action and 
 that this, again, will depend partly upon the inherent virulence of the 
 agent and partly upon its quantity. In fact, this feature in the cimica 
 history of the disease can be explained only by the operation of a specia 
 irritant acting with different degrees of power upon the gastro-mte; 
 
 * Additional illustrations of the communicability of cholera are contained in the Brit, 
 and For. Med. Cliir. Rev., July, 1872, p. 56.
 
 732 CHOLERA. 
 
 mucous membrane. In other words, the different forms under which it 
 is convenient clinically to recognize and describe cholera are nothing 
 more than different degrees of the operation of one and the same poison, 
 modified more or less by the peculiarities of individual patients. In the 
 most typical of the fully-formed cases of cholera there is a stage of diar- 
 rhoea, a stage of cholera morbus i. e. of vomiting and purging with 
 more or less evidence of stagnation of the blood, which is followed either 
 by reaction and recovery or collapse and death. The phenomena of those 
 several stages will now be described, after which certain symptoms will 
 be more particularly considered. 
 
 It has more than once been pointed out that, however mild an attack 
 of cholera may be, the dejections accompanying it are infectious, and may 
 produce in other persons the gravest types of the disease. Hence the 
 importance, not only to the patients, but also to others, of recognizing it 
 in the earliest stage ; for while this knowledge may suggest measures for 
 preventing an extension of the disease, it leads to the prompt use of 
 remedies at the only period in which their success can at all be counted 
 upon. The characteristic of this stage, which has generally been called 
 either choleraic diarrhoea or cholerine, is a diarrhoea remarkable for its 
 profuseness and the frequency and serous quality of the stools, which are, 
 however, of a more or less yellow color. They are preceded by rum- 
 bling and gurgling noises in the abdomen, are voided without colic or 
 tenesmus, and are followed by a remarkable sense of exhaustion or faint- 
 ness, which is sometimes also accompanied with nausea, and, if they are 
 very frequent and copious, cramps are apt to be felt in the calves of the 
 legs. In this variety or stage of the attack, as a rule, there is not any 
 vomiting; there is complete anorexia, but urgent thirst, a white and 
 clammy tongue, and a peculiar alteration of tone, a huskiness, faiutness, 
 or hoarseness of the voice. The stools vary from six to twelve a day, 
 and, as above stated, are slightly yellow ; they are also alkaline, and on 
 standing deposit a granular sediment which consists largely of the debris 
 of intestinal epithelium. Unless the attack is very severe the tempera- 
 ture is not lowered by much more than 1 F. The symptoms now 
 described, especially in their milder grades, may last for a week or even 
 longer, and then, according to circumstances, end either in cure or in 
 fully-developed cholera ; but under appropriate treatment they usually 
 subside in a day or two, and more or less rapidly according to the degree 
 of damage done to the digestive mucous membrane. 
 
 Between the above, which is the mildest type of epidemic cholera, and 
 the fully-developed disease must be placed that grade of the disease 
 which is more appropriately called cholerine, comprising cases in which 
 vomiting occurs as well as purging, with increased debility and a tend- 
 ency, more or less decided, to collapse. The matters vomited, after the 
 rejection of undigested food, are at first bilious, but they gradually 
 become less and less so the longer the attack lasts, and, together with the 
 stools, assume the appearance of rice-water i. e. they consist of a pale 
 grayish, semi-transparent liquid in which white flocculi are suspended. 
 Its reaction is alkaline, and it has a faint albuminous or spermatic smell. 
 Along with these symptoms the other effects of serous depletion arise 
 debility with pallor, duskiness, coldness, profuse perspiration, and a 
 sodden condition of the skin, while the secretion of urine is diminished,
 
 SYMPTOMATOLOGY. 733 
 
 and all the symptoms that belong to the first stage of cholera are present 
 in an aggravated degree. 
 
 A curious feature of this disease is that sometimes the onset even of 
 its graver forms is not attended by any evacuations, although the stom- 
 ach and intestine may be filled with liquid. It is perhaps chiefly in such 
 cases that the patient experiences a rapid depression of all the mental 
 and physical faculties. The senses are irritable, the head aches and is 
 confused, there is a disinclination to sleep, the limbs totter under the 
 weight of the body, the pulse is frequent and feeble, occasionally fainting 
 takes place ; the skin is cool and bedewed with perspiration. In other 
 cases, again, the attack is sudden ; the patient is smitten with an unac- 
 countable feebleness, speedily followed by profuse vomiting and purging 
 and general spasms, and dies without any suspension of the symptoms or 
 any tendency to reaction. 
 
 But more usually the attack begins with the diarrhoea and vomiting 
 described above, which then assume, more or less rapidly, a high degree 
 of violence, expressed by their frequency and excess. The stools with 
 proportionate rapidity lose all their fecal qualities and acquire the rice- 
 water appearance before mentioned, and the liquid rejected by vomiting 
 in all respects resembles them. It is poured forth less by an ordinary 
 act of vomiting than by gushes, as if it overflowed from the throat and 
 mouth ; and it often escapes from the stomach and the bowels at the 
 same instant. Such profuse evacuations necessarily occasion an urgent 
 thirst which cannot be satisfied, for liquids are thrown up immediately 
 on being swallowed. Sometimes a distressing hiccough accompanies these 
 symptoms. It is indeed only one of the many spasms which may affect 
 the muscular system. They generally begin in the fingers and toes, 
 which become bent and stiff; they seize upon the muscles of the calves 
 of the legs, and render the muscular wall of the abdomen as hard as a 
 board. The pain they produce is extremely severe, and unless the patient 
 is exceedingly prostrated he endeavors to assuage it by a constant change 
 of position. 
 
 At this period the debility is very great, and progressively increases, 
 and the patient is unable to rise, or even to move at all except under the 
 stimulus of the painful spasms. The features are shrunken ; the nose 
 is sharp and pallid, and bent to one side ; the dusky, lack-lustre, and 
 sunken eyes, the thin lips, the hollow cheeks, and the contracted muscles 
 that stand out like cords under the tense and clammy skin, present a 
 physiognomy that belongs to no other disease in the same degree. The 
 hands and feet grow cold, and steadily the coldness creeps upward toward 
 the trunk; the temperature falls to 94 or 95 F. ; the feeble and even 
 flickering pulse ranges from 100 to 120. The integuments of the limbs 
 are shrivelled and damp, and look as if they had been macerated in 
 water ; and if a fold of the skin is pinched up it subsides very slowly 
 indeed. The eyes grow dull and dry, the tongue has a pasty or sticky 
 feel, and the urine is almost suppressed. If any of this excretion can be 
 obtained for examination, it is found to contain both albumen and sugar. 
 As the attack advances the patient falls into a dull, listless, and motion- 
 less state, which may be mistaken for insensibility or even unconscious- 
 ness but is really due to exhaustion of all the faculties of mind and 
 body He may express no interest in anything, and hardly notice the
 
 734 CHOLERA. 
 
 attention or the distress of his friends, yet he will generally give clear, 
 although languid, answers to questions, and fall again into an inert and 
 unobservant state. 
 
 As these symptoms continue and the fluids of the body decrease, the blood 
 accumulates and stagnates in the veins, giving to the hands and feet, the 
 nose and lips and other features, to the neck, and even to the entire sur- 
 face of the body, a bluish, leaden, or violet tint, precisely like that of 
 cyanotic children. The pulse, that was already weak and thready, is no 
 longer perceptible ; the carotids even and the impulse of the heart cease 
 to be felt, and the second sound of the latter becomes inaudible. The skin 
 is everywhere cold ; the hands, feet, and face are sometimes of an icy 
 coldness, and yet the patients seldom perceive that they are so ; indeed, 
 complaint is more apt to be made of suffering from internal heat. Even 
 the breath as it issues from the nostrils' feels cold. The blood no longer 
 circulates, and the heart seems still. If a vein is opened a few drops of 
 black and viscid blood will trickle from the wound, which if it coagulates, 
 yields but little serum, and in place of a firm clot only a diffluent jelly. 
 The voice has sunk _ to a mere whisper or is quite extinct. The fea- 
 tures assume a distorted and frightful expression ; the temples and cheeks 
 are hollowed ; the nose is twisted and pointed, and the nostrils are 
 obstructed with dry and powdery crusts ; the eyes are also dry, dull, and 
 sunken behind the half-closed and purple lids ; the conjunctiva is no 
 longer moistened by its secretion and becomes bloodshot ; the tempera- 
 ture in the mouth may fall to 79 or 80 F. ; a viscid exhalation bedews 
 the icy and marbled skin ; and the whole body is so shrunken from its 
 natural proportions as to lose all the marks by which its identity has been 
 recognized. From this pulseless, exhausted, cold, and cyanotic condition 
 there can be but one step to death. It generally comes on gradually, the 
 patient sinking into the state of apparent insensibility before mentioned ; 
 on the other hand, he may expire suddenly on attempting tq make some 
 unusual effort. 
 
 At any period in the progress of cholera, except that of complete 
 asphyxia, the contest between the system and the disease may be decided 
 in favor of the former. If this occurs before profuse evacuations have 
 taken place or blueness of the skin appeared, the recovery may be gradual 
 and present no special phenomena. The pulse regains by degrees its 
 natural force ; the skin grows warm again, first upon the trunk and after- 
 ward upon the extremities ; the breathing becomes easy, and, the diar- 
 rhea having already ceased, convalescence is established. But in pro- 
 portion to the severity of the symptoms, the intensity and duration of 
 the cold stage, the cramps, and the evacuations, will there be a tendency 
 to febrile reaction, with more or less passive congestion of the internal 
 organs, and therefore a slower return to health. If the attack has been 
 very severe, and particularly if the algid stage has been prolonged, fever 
 of a low type is apt to occur, and indeed may terminate fatally. This 
 fever presents all the characters of the typhoid state, and is marked by 
 dryuess of the tongue, a brown crust upon the teeth and gums, jerking 
 of the tendons, delirium, and coma. These symptoms are partly evi- 
 dences of exhaustion, of inability of the system to resume its normal 
 action, and perhaps also they denote the retention of the effete products 
 of nutrition in the blood ; but sometimes they appear to be associated
 
 COMPLICATIONS AND SEQUELS. 735 
 
 with and caused by, a local and latent inflammation of low grade, estab- 
 lished usually in the lungs. Again, the nervous system seems to bear 
 the brunt of the reactionary effort, and the patient is attacked by convul- 
 sions or perishes in an apoplectic fit. These phenomena appear to be du t 
 m most instances, if not in all, to renal obstruction, and, as it is supposed 
 that their immediate cause is the retention of urea in the blood they 
 have received the title of ursemic. In other cases a wasting diarrhoea due 
 probably to the damaged state of the intestinal mucous membrane is 
 superadded to the already existing typhoid state. Occasionally the parotid 
 glands become enlarged and painful, and sometimes a measly or roseolous 
 eruption appears upon the skin. 
 
 It frequently happens that the convalescence from cholera is slow and 
 irregular. The system seems to be shattered by the trial it has passed 
 through the nervous susceptibility is for a long time morbidly increased, 
 or, what is still more usual, the digestive function is greatly impaired. 
 The appetite is capricious and the digestion feeble. The mouth is pasty, 
 the abdomen tympanitic, the bowels are irregular and alternately confined 
 and relaxed. Finally, patients who leave the bed too soon or indulge 
 prematurely in their ordinary diet are liable to a relapse, perhaps fatally, 
 into the original disease. It has sometimes happened that such a relapse 
 has taken place several days after an apparent restoration to perfect health. 
 
 COMPLICATIONS AND SEQUELAE. In a small proportion of cases, as 
 above stated, cutaneous eruptions have been observed during the attack 
 of cholera, or gather during its decline, for they coincide with the reac- 
 tion or follow it, and may be regarded as indications of increasing vitality. 
 They belong to the exanthematous class, and comprise roseola, erythema, 
 urticaria, and rarely vesicular eruptions. 1 But, instead of them, there 
 may occur destructive tissue-lesions in the form of abscesses or ulcers. 
 These affections are more usual on the limbs than on the trunk or face, 
 but some of them may appear even in the mouth or fauces. Profuse 
 sweats have been noticed elsewhere, and the important fact that they 
 carry off large quantities of urea, which they deposit upon the skin. 
 Diphtherial exudation has also been met with upon tender parts of the 
 skin and in the fauces, as well as in the stomach and intestine. In some 
 epidemics of cholera suppuration of the parotid gland is occasionally 
 observed, while in others it may be entirely absent. Instances have been 
 reported of double parotitis, and in several of them the termination of 
 the attack was fatal. Still more rarely suppuration of the submaxillary 
 or the cervical glands has been met with. Another sequela of cholera is 
 a tetanic contraction of the flexor muscles of the limbs. Between the 
 tenth and fifteenth days of convalescence the patient is attacked with a 
 tearing, rending pain in the hands and forearms, the legs and feet, followed 
 by tonic contraction of the flexor muscles of these parts. The sensibility 
 is not impaired. The attack lasts for one or several days, and seems 
 always to end in recovery (Guterbock). 
 
 Some of the individual symptoms of cholera call for a more detailed 
 notice than they have received in the foregoing epitome, in which the con- 
 tinuity of the narrative could not be interrupted by a description of varia- 
 tions depending upon the stage and grade of the disease. 
 1 Compare London Hosp. Reports, iii. 457.
 
 736 CHOLERA. 
 
 The first to be considered is the temperature. The animal temperature 
 in cholera varies according to the part of the body at which it is taken 
 more than in any other disease. In cases of average severity it rarely 
 falls below 95 F. in the axilla. The temperature under the tongue does 
 not furnish trustworthy indications. In the stage of asphyxia it seldom 
 exceeds 87.8 F., and even in cases that recover it may fall to about 78.8 
 F. (Wunderlich). In the cold stage it is not uncommon for a difference 
 of temperature to be noted of nearly ten degrees between the axilla and 
 the rectum. In a female aged thirty-two the temperature in the axilla 
 wa,s 93 F., and that in the vagina 102.8 F. (Mackenzie). In other 
 cases a vaginal temperature of 104 F., and even of 108.32 F., has been 
 reached (Guterbock). Such high temperatures furnish an unfavorable 
 prognosis. As Wuuderlich has pointed out, during the algid stage tem- 
 peratures taken in the mouth do not give an accurate idea of the general 
 temperature ; the rectal and vaginal temperatures are more nearly correct. 
 The following are some results of thermometry in 74 cases of cholera : 
 Lorain found the minimum rectal temperature in 1 case 93.2 F., in 2 
 cases 95, and in 10 cases 96.8. In 47 cases the normal temperature 
 was preserved; in 27 it rose to 100.4; in 15 cases to 102.2; and in 1 
 to 104 F. Leubuscher gives the average temperature in the armpit 
 92.7 F. ; under the tongue, 90.5; upon the tongue, 81.5, in the nos- 
 trils, 79.2 ; and on the palm of the hand, 84 F. These numbers, how- 
 ever, only represent averages. It should be noted that the low temperature 
 of the mouth and nostrils is caused not only by the evaporation from the 
 surface of those cavities, but also by the relative coldness of the expired 
 air, due to the partial suspension of the passage of blood through the 
 lungs, and therefore to the heating of the air contained in them. Accord- 
 ing to Leubuscher also, the lowest temperature is found in the nostrils, 
 and next under the tongue, and at the latter point it may vary from 79 
 F. to 90.5 F. In death by asphyxia the vaginal and rectal tempera- 
 tures may rise to 104 108 F. The axillary fluctuates less than the 
 internal temperature. It is remarkable that during the algid stage the 
 patients, at least before the temperature has reached its minimum, are not 
 conscious of their coldness, but, on the contrary, complain of internal 
 heat, precisely as happens in the congestive forms of periodical fever. 
 When the febrile reaction assumes a typhoid type the temperature in 
 many cases is normal or only slightly elevated, and it is of serious import 
 if the temperature then sinks again below the normal grade (Wunderlich). 
 On the whole, the maintenance of a uniform temperature, neither much 
 above or below 90 F. in the axilla or under the tongue, may be regarded 
 as favorable, yet recoveries have taken place even when the temperature 
 at these points has fallen to 79 F. If the temperature of the parts just 
 mentioned should rise rapidly to 104 F., it may be regarded as a very 
 unfavorable sign. 
 
 The skin, as has elsewhere been described, is pallid, bluish, shrunken, 
 and cold, and quite destitute of its natural firmness and elasticity, so that 
 when it is pinched into folds they subside very slowly, as if they had 
 been made on the skin of a corpse. It is curious that, although the drain 
 of liquids through the bowels is so great, the skin not only remains moist, 
 but generally is bathed in a profuse cold sweat. Although the secretion 
 of urine is reduced or quite suspended, that of milk is said to be not
 
 COMPLICATIONS AND SEQUELAE. 737 
 
 always so. Large quantities of urea have been found in the urine, and 
 in some cases it has been visible upon the skin in the form of white scales. 
 During convalescence the skin may be the seat of the various eruptions 
 already enumerated. Of a graver nature, but, fortunately, of rarer occur- 
 rence, are erysipelas, boils, abscesses, ulcers, and gangrene. These several 
 affections seem to result from the alternate obstruction and freedom of 
 the cutaneous circulation. They commonly appear first upon the limbs, 
 and afterward upon the face or trunk ; they may affect even the cavity of 
 the mouth. Some observers have noted a relatively frequent occurrence 
 of diphtheria! exudations in this disease, while others do not allude to 
 their existence. The former describe the false membrane as affecting not 
 only the mouth and fauces, but also the stomach, the intestine, and the 
 female organs of generation. A case is reported by Joseph of a young 
 man who, after an attack of cholera, was affected with a blenorrhcea, due 
 to a diphtherial inflammation of the urethra. 
 
 The character of the heart- and pulse-beats in this disease is quite 
 peculiar. Their rate does not increase indefinitely, as it does after hem- 
 orrhage ; the pulse usually varies from 90 to 1 10, and indeed seldom 
 exceeds 120, but its volume, tension, and force progressively decline until 
 the beats become imperceptible at the wrist, and even in the brachial and 
 femoral arteries. At the same time, the rhythm of the heart is inter- 
 rupted, the energy of its impulse declines until it can no longer be felt, 
 and its sounds grow weaker and weaker until they become quite inaud- 
 ible. Sometimes, it is said, a pericardial friction sound may be heard, 
 which is attributed to the dryness of the pericardium. That the decline 
 and suspension of the heart's sounds and impulse are due not only to the 
 weakness of the cardiac muscle, but also to the lessened volume of the 
 circulating blood, is proved by the fact that they persist, sometimes for 
 many hours, after reaction has commenced, and only become audible 
 again when the arteries have been replenished with blood. 
 
 In the description of the symptoms of cholera it has been mentioned 
 that the cyauotic color of the skin is produced by an accumulation of 
 blood in the veins. Many years ago Magendie, and after him Dieffen- 
 bach, on examining the arteries of persons in the advanced stage of 
 cholera, found those vessels empty of blood. It might be supposed that, 
 under the circumstances, not only the right side of the heart, but also the 
 lungs, would be gorged, with blood, and that extreme dyspnoea would 
 result. But, in point of fact, the respiration in cholera is hurried and 
 shallow rather than oppressed and labored, while after death the lungs 
 are not engorged with blood, but rather in a bloodless condition. The 
 pulmonary artery and its branches are also empty, although the right 
 side of the heart may be filled with dark and soft coagula. These singu- 
 lar conditions seem to be due, on the one hand, to the greatly diminished 
 mass of the blood in the vessels, and to its accumulating and stagnating 
 in various parts of the venous system, and, on the other hand, to the 
 weakness of the heart, which is shown by its suppressed impulse and 
 sounds, and which lessens its power to propel the venous blood into the 
 lungs. The infarction of the systemic veins and the threatening suspen- 
 sion of the circulation necessarily impair the activity of all the functions, 
 including those of nutrition and disintegration, so that the effete detritus 
 of the economy tends to accumulate in the blood. This tendency is 
 
 VOL. I. 47
 
 738 CHOLERA. 
 
 doubtless counterbalanced not only by the diarrhoea, but also, more or 
 less, by the almost total suspension of nutrition, due to the inability of 
 the cholera patient to digest or even to retain food, as well as by the 
 diminished oxidation of the blood in the lungs. It has already 
 been observed that, to a certain extent, the impediment to the passage 
 of the blood from the right side of the heart into the ramifications of the 
 pulmonary artery tends to prevent congestion and infarction of the lungs. 
 But this obstruction is precisely what occurs during the stage of reaction 
 in many cases, which then terminate fatally by asphyxia, as in the pre- 
 vious stage still more perish by apnoea. 
 
 In the milder attacks of cholera vomiting may not occur, and in the 
 most severe it not unusually is suspended for some time before death, 
 although the diarrhoea may continue. In the most malignant cases, 
 indeed, there may be no vomiting at all, in consequence of the extreme 
 muscular exhaustion, although the stomach may be distended with 
 liquid. When rejected, the liquid has the general aspect of rice-water, 
 which the stools also present. Its reaction is alkaline or neutral, and it 
 is said to contain a less proportion than the stools of solid matter, but a 
 larger proportion of urea. The act of vomiting is strictly one of regur- 
 gitation, which is performed without effort or pain. Sometimes, indeed, 
 it seems to relieve the sense of weight caused by the accumulated con- 
 tents of the stomach. It is readily excited by attempts to drink, and 
 even by slight changes of posture. The vomited liquid at first contains 
 the various articles of food the patient may have eaten. Their half- 
 digested remains have sometimes suggested the announcement of strange 
 specific forms of cholera germs. The liquid, after ceasing to be colored 
 brownish or greenish, becomes gray, and subsequently, in favorable cases, 
 more or less green again ; while during the stage of reaction in grave 
 and ultimately fatal cases it is more or less reddened by an admixture of 
 blood. Its most usual and characteristic appearance is that of a grayish 
 liquid containing whitish flocculi. The nature of this liquid, whether 
 discharged by vomiting or by purging, has been variously estimated. 
 Formerly, some persons held the white granules to be leucocytes, but the 
 greater number agree that they are mainly epithelial fragments. When 
 the vomited liquid is allowed to stand, a sediment forms in it which is 
 composed almost entirely of epithelial scales, more or less modified in 
 their appearance by the accidental contents of the stomach, and a film 
 covers its surface in which- globules of fat and phosphatic crystals may 
 be detected. They are frequently associated with sarcina?, produced by 
 fermentation in the contents of the stomach, and after standing for some 
 time the liquid becomes crowded with vibrios (Lindsay). 
 
 Although the propensity of the sick to discover a cause for every 
 symptom often leads cholera patients to attribute their diarrhoea to some 
 particular exposure to cold, error of diet, etc., yet, in fact, this symptom, 
 so far as it belongs to cholera, is primarily an effect of the cholera poison 
 alone, although it may be aggravated by causes like those mentioned. It 
 is of great practical importance to bear in mind that a specific choleraic 
 diarrhoea that is to say, a diarrhoea produced by the cholera poison 
 alone may continue to be very slight as long as it lasts, which may be 
 for several weeks ; and hence, as elsewhere insisted upon, a person who is 
 not suspected of being affected with cholera may, quite ignorantly, sow
 
 COMPLICATIONS AND SEQUELS. 739 
 
 the seeds of a deadly epidemic of the disease. The danger in cholera is 
 proportioned to the volume of the discharges rather than to their frequen- 
 cy, just as a single profuse hemorrhage is more serious than the loss of 
 an equal amount of blood divided among several successive days. The 
 special danger, however, is not, as in hemorrhage, from syncope, "but from 
 the progressive loss by drainage of the water of the blood, rendering it 
 unfit to circulate, and therefore causiug it to stagnate in the veins. The 
 spoliative operation of the diarrhoea has occasionally been productive of 
 benefit instead of injury, as in the following case of Barlow : A man 
 suffering from dropsy was attacked with cholera, " and passed gallons of 
 liquid by stool, had cramps, and became livid and clammy, but his pulse 
 did not disappear, as in profound collapse, and he eventually rallied, and 
 left the hospital apparently well. When he began to recover from cholera 
 his appearance was almost ludicrous, from the manner in which the integu- 
 ment hung loosely about him." 
 
 The stools pass through a series of changes corresponding to those of 
 the matters vomited, being fecal at first, and then becoming colorless and 
 watery. During reaction, if that Occurs, they regain more or less of their 
 proper color, but if typhoid febrile symptoms prevail they are usually 
 bloody. Decomposed blood sometimes renders them dark, tarry, and 
 fetid ; this 'condition has caused them sometimes to be described as being 
 composed of vitiated bile, which is, however, a product not of the liver, 
 but of the imagination. 
 
 In the intestine after death considerable quantities of epithelium are found 
 floating in the contained liquid or else loosely adherent to the mucous 
 membrane. It is usually in flocculi, but sometimes in fragments large 
 enough to form a continuous membrane. A microscopic examination of 
 cholera stools shows that their turbidness depends chiefly upon desqua- 
 mated epithelium, with which is mixed white corpuscles and bacteria. 
 It is remarkable that although the stools are drained directly and so 
 rapidly from the blood-vessels, they nevertheless contain but little albu- 
 men, indeed hardly more than a trace of it. If, however, blood is mixed 
 with the stools, as happens in rare instances, more albumen is present. 
 Oil-globules are most abundant in cases that have passed beyond the 
 stage of collapse into that of reaction with fever. In these it is said that 
 oily matter may be found either in concrete masses or as a scum of liquid 
 oil. Of inorganic constituents they contain crystals of the triple phos- 
 phate of ammonium and magnesium and chloride of sodium in greatest 
 abundance, but the proportion of ammonium and potassium salts is small. 
 Indeed, the total amount of solids does not exceed 2 per cent. As the 
 quantity of water in the blood and solids is limited, and as in this dis- 
 ease the stomach will not receive nor retain any liquid, it follows that the 
 more profuse the evacuations are, the shorter must be the duration of the 
 attack, for the sooner then does the blood become too thick to circulate. 
 
 It has several times been stated that in cholera the urine is diminished, 
 and that, therefore, the blood retains a larger proportion of effete prod- 
 ucts than in health. But it has also been remarked that the amount of 
 these products is abnormally small, on account of the interference with 
 nutrition of the abnormal state of the circulation. Doubtless, as in other 
 cases of renal obstruction, an increased proportion of effete matter is 
 eliminated by the skin, if not by the bowels. When the amount of
 
 740 CHOLERA. 
 
 urine excreted is only diminished, its specific gravity may vary between 
 remote extremes, as 1.012 and 1.030. Usually, however, when its 
 quantity is very greatly reduced, symptoms which are described as uraemic 
 are apt to arise, and the urine is found to contain the usual products of 
 renal congestion viz. albumen, sometimes traces of blood, hyaline and 
 granular casts, and epithelial scales, with less chloride of sodium and 
 more urea than normal. It is remarkable that at the beginning of con- 
 valescence the urine, which had been suppressed or greatly diminished, 
 may become for a time abnormally abundant. Rarely, if ever, does the 
 derangement of the kidneys now described denote or produce an organic 
 lesion in those organs. Like the disorders elsewhere, these are due to the 
 loss of balance between the arterial and the venous sides of the circula- 
 tion ; both, indeed, have lost their functions more or less, the one by lack 
 of blood, the other by an excess of blood unfit for circulation. 
 
 The occurrence of cramps in cholera, which has bestowed upon the dis- 
 ease one of its titles, spasmodic, has, however, no distinctive relation 
 to the Asiatic disease. Spasmodic phenomena occur in many cases of 
 poisoning by corrosive and irritant agents and in ordinary cholera morbus, 
 and in cholera iufantum they are among the most alarming symptoms, 
 assuming, as they often do, the character of general convulsions. In 
 most of these cases they are clonic and general, and therefore probably of 
 central origin, primary or reflected ; but the spasms of cholera are tonic, 
 and affect the muscles of the upper and lower limbs, and most frequently 
 the flexor muscles of these pails, and especially those of the fingers and 
 toes, which become rigidly bent. The larger muscles contract into hard 
 lumps, and even those of the chest and abdomen do not escape the terri- 
 ble spasms. When they are severe they extort cries from patients who 
 at other times seem quite apathetic. It is stated by Macnamara that the 
 natives of Southern Bengal and other people of relatively loose fibre are 
 much less apt to be attacked by them than the natives of the upper 
 country or than Europeans. It may be debated whether their immediate 
 cause is a reflex irritation emanating from the gastro-iutestiual mucous 
 membrane; or whether it is due to the rapid diminution of the supply 
 of blood to the nervous centres, or to the infarction of those centres 
 with thick and imperfectly oxygenated blood ; or, finally, whether it is 
 occasioned by a diminished supply of blood, and that blood of bad 
 quality, to the muscles themselves. Probably all of these factors are 
 associated causes in producing the spasmodic phenomena of cholera. It 
 is well worthy of notice, however, that spasms, which are so frequent in 
 all infantile diseases, and especially in those affecting the stomach and 
 bowels, rarely attack children suffering from cholera. This would seem 
 to prove that the spasms in question are not reflex, but either central and 
 spinal, or else muscular an inference which is strengthened by their being 
 tonic and not clonic. As stated, the spasms, or cramps, frequently affect 
 the limbs, but comparatively seldom involve the muscles of the chest or 
 abdomen, and those of the face hardly ever. They are almost the only 
 causes of pain in the disease, which in not a few instances runs its whole 
 course, even to a fatal termination, without their occurrence. 
 
 As a rule, the abdomen is not so much retracted as might be ex- 
 pected from the profuse discharges. Probably in some degree its form 
 is maintained by the constantly recurring accumulation of liquid in the
 
 MORBID ANATOMY AND PATHOLOGY. 741 
 
 gastro-intestinal cavity. In protracted cases, however, the abdomen 
 becomes sunken and hollowed. At all stages of the disease it is some- 
 what sore under pressure, especially at the epigastrium, and it generally 
 has a doughy feel. As to the functions of the digestive organs, they are 
 completely suspended during a typical attack of the disease. Not only 
 are these organs incompetent to digest food, but they cannot even 
 retain it. 
 
 Throughout such an attack not only rs sleep apt to be prevented by 
 the^ pain of the cramps and the frequent evacuations, but, as a rule, the 
 patient is wakeful, and yet, apart from the restlessness which accompanies 
 the paroxysms of pain, there is, on the whole, a tendency to a placid 
 quietness. ^ Mental excitement and delirium are probably unknown dur- 
 ing the primary attack, but sometimes a degree of somnolence or of apa- 
 thetic tranquillity exists, which, however, is quite distinct from coma. 
 When the attack is prolonged, and especially when it merges into a 
 typhoid state, the eyes become inflamed by their exposure to the air. The 
 conjunctiva then grows blood-shot, and occasionally the cornea is ulcer- 
 ated. 
 
 MORBID ANATOMY AND PATHOLOGY. The appearance after death 
 of a person who has died in the collapse of cholera is very characteristic. 
 It comprises a shrunken aspect of the whole body, its prevalent grayish 
 or leaden pajlor contrasting with the livid hue of the abdomen and back, 
 the fingers and toes, the lips and eyelids, and ears; the eyes are sunken 
 deeply in their orbits ; the nose is sharp and bent, the temples are hollow, 
 and the skin seems to cling tightly to the bones beneath it. The connec- 
 tive tissue is very dry, and the muscles are hard as well as dry, and, 
 owing to the wasting of the softer parts, stand prominently out. In con- 
 sequence of the absence of moisture decomposition takes place very slowly. 
 Cadaveric rigidity is very marked and persistent. A very notable phe- 
 nomenon is the occurrence of muscular contraction after death. It may 
 be excited mechanically or may occur spontaneously. A case is related 
 (Eichhorst) in which three hours after death the fibres of the biceps were 
 observed to move tremulously, and then the entire muscle contracted, 
 causing flexion of the forearm. Even the fingers performed movements 
 like those made in piano-playing. The lower jaw has also been observed 
 to move, causing the mouth to open and shut repeatedly. The late Sir 
 Thomas Watson long ago described this singular phenomenon as follows : 
 "A quarter or half an hour, or even longer, after the breathing had ceased, 
 and all other signs of animation had departed, slight, tremulous, spas- 
 modic twitchings and quiverings and vermicular motions of the muscles 
 would take place, and even distinct movements of the limbs, in conse- 
 quence of these spasms." 1 It was carefully studied by Barlow, from 
 whose narrative the following is taken : The patient was a strong man ; the 
 course of his attack was rapid, and he suffered most cruelly from cramps. 
 " Within two minutes of his ceasing to breathe muscular contractions began, 
 becoming more and more numerous. The lower extremities were first 
 affected. Not only were the sartorius, rectus, vasti, and other muscles 
 thrown into violent spasmodic movements, but the limbs were rotated 
 forcibly and the toes were frequently bent. The motions ceased and 
 returned ; they varied also : now one muscle moved, now many. Quite 
 
 1 Lectures, Am. ed. of 1872.
 
 742 CHOLERA. 
 
 as remarkable were the movements of the arm : the deltoid and biceps 
 muscles were peculiarly influenced; occasionally the forearm was flexed 
 upon the arm flexed completely, and when I straightened it, which I 
 did several times, its position was recovered instantly. The fingers and 
 thumbs were now and then contracted, and at times the thumbs were 
 separately moved. The fibres of the pectoral muscles were often in full 
 action; distinct bundles of them were seen at intervals beneath the skin. 
 .... After I had taken leave-of the body the nurse was horrified by a 
 movement of the lower jaw, which was followed by others ; and I thought 
 for a moment that the man was alive. The facial muscles became gen- 
 erally affected, and at length all was still." * These muscular contractions 
 succeed one another in a regular order, beginning in one lower extremity 
 and extending to the other, then to the upper limbs, and finally to the 
 face. Their degree varies from a slight quivering to a powerful contrac- 
 tion, and their duration from a minute or less to an hour and a quarter. 
 Cases have occurred in which the legs were so forcibly retracted that they 
 could with difficulty be straightened again. In one case, six hours after 
 death movements took place in one leg, and the hand was drawn across 
 the chest; in another, "the forearms were powerfully flexed, and the 
 hands, approximating, gave the attitude of praying to the body." 2 
 Again, Mr. Ward reports: "I saw the eyes of my dead patient open and 
 move slowly in a downward direction. This was followed, ,a minute or 
 two subsequently, by the movement of the right arm (previously lying by 
 the side) across the chest." In the same paper Barlow says : " Mr. Law- 
 rence mentioned to me that a gentleman who died in 1832 of rapid chol- 
 era was turned after death completely on the side by a strange and forcible 
 combination of muscular contractions." 3 These muscular phenomena 
 after death form an interesting feature in the history of cholera, but they 
 are by no means peculiar to that disease. They have been observed in 
 other diseases, and especially in yellow fever an affection in which the 
 pathological condition is quite unlike that of cholera. In both diseases 
 they have been manifested in robust persons and when the course of the 
 fatal attack was both rapid and severe. Thus, Dr. Dowler of New Orleans 
 not only found that they could be developed in such cases of yellow fever 
 by striking the muscles, but he observed their spontaneous occurrence in 
 several, of which the following is a remarkable example: "Not long after 
 the cessation of the respiration the left hand was carried by a regular 
 motion to the throat, and then to the crown of the head ; the right arm 
 followed the same route on the right side ; the left arm was then carried 
 back to the throat, and thence to the breast, reversing all its original 
 motions, and finally the right hand and arm did exactly the same." 4 In 
 1860, Drasche alleged that not unusually the skin covering the contract- 
 ing muscles became reddish, while the local temperature rose f , and that 
 a.*; soon as the contractions ceased the temperature fell below the normal 
 and cadaveric rigidity set in. According to the same observer, analogous 
 contractions affect the unstriped muscular fibres, in those of the skin 
 producing a projection of the papillte, and in the genital organs a discharge 
 of semen. This phenomenon is said to have occurred an hour and a half 
 after death. 
 
 1 London. Med. Qaz., Nov., 1849, p. 798. 2 Ibid, Jan., 1850, p. 185. 
 
 * Ibid., pp. 185, 186. 4 Experimental Researches, 1846.
 
 MORBID ANATOMY AND PATHOLOGY, 743 
 
 On opening the abdominal cavity of persons who have died in the col- 
 lapse of cholera one is struck by the general pink or rose tint of the peri- 
 toneal coat of the intestines. It is produced by a repletion of the minute 
 branches of the portal venous system. Sometimes the color is rendered 
 very dark by the pitchy blood contained in the veins. The surface of 
 the peritoneum, like all the tissues, is singularly dry, and often has a soapy 
 or sticky feel, caused by a layer of albuminous matter, which forms a 
 lather when rubbed between the fingers, and causes the intestinal folds to 
 adhere to one another. If death takes place during the stage of reaction, 
 these appearances are less distinct, and the intestines, which in collapse 
 are usually retracted, are then somewhat distended. 
 
 The stomach generally contains a thin, partially transparent liquid of a 
 greenish or grayish color, and occasionally reddish, holding in suspension 
 portions of coagulated mucus and an unctuous substance of an albumin- 
 ous nature, which adheres to the walls of the cavity. Fatty globules 
 may be observed floating in the liquid, which under the microscope 
 reveals epithelial debris, granular corpuscles, and fragments of gastric 
 glands. Under heat and nitric acid coagulation of the liquid occurs, and 
 on chemical examination it is found to contain urea. The gastric mucous 
 membrane is of a dark violet or pale pink color, according to the stage 
 of the disease ; its follicles are enlarged, and patches of superficial abra- 
 sion may be observed on it. 
 
 The intestinal canal of those who die during the collapse of cholera is, 
 in the majority of cases, partially filled with liquid which has the 
 aspect of turbid serum, more or less mixed with the previous contents of 
 the bowel if death has taken place very rapidly, but otherwise it is 
 almost colorless. On the whole, however, it is less pale and watery than 
 the stools. It contains, like these discharges, more or less epithelial 
 flocculi, and generally more than were observed during life in the 
 dejections. The mucus scraped from the lining membrane of the 
 intestine and mixed with water renders it turbid with epithelial debris. 
 The same mucus examined microscopically contains fragments, larger or 
 smaller, of epithelium. These conditions are said to predominate in the 
 large intestine. Indeed, the proportion of liquid increases from above 
 downward. Hence in the more prolonged cases the contents of the bowel 
 at its upper part are less liquid and are darker in color. There is, indeed, 
 a striking contrast between the appearance of the intestine in cases which 
 have terminated in collapse and its aspect in persons who have died during 
 the stage of reaction. It has been clearly presented by Dr. Sutton. 1 
 When death took place in " the cold stage the mucous membrane was 
 unusually pale in three cases ; in two it .was healthy-looking ; in other 
 two it was pale throughout, excepting that one or two of Peyer's patches 
 were congested ; and in the remaining three there was more or less con- 
 gestion of the mucous membrane. When the mucous membrane was 
 pale throughout the entire intestine, the valvulse conniventes looked 
 swollen and oedematous, and the color of the membrane was dead white. 
 The solitary glands were very distinct and prominent.' Those of the 
 duodenum were remarkably so. In cases of imperfect reaction the 
 mucous membrane of the intestine was usually found very much con- 
 gested and ecchymosed. The congested portions were sometimes granu- 
 
 1 I,ondon Hasp. Clin. Lect. and Reports, iv. 497.
 
 744 CHOLERA. 
 
 lar, and apparently denuded of epithelium. The mucous surlace had 
 often a dark port-wine color, due to the extravasated blood and the 
 hypersemia, and here and there the surface was covered with a dirty gray 
 membranous substance, likened to a diphtheritic deposit. I have, how- 
 ever, seen no decided false membrane, such as could be peeled off, as in 
 diphtheria. The surface was also occasionally bile-stained, and the 
 greenish-yellow color of the bile and the deep red color of the congested 
 surface presented a very striking appearance. The solitary glands were 
 very prominent, and in some cases apparently enlarged." The general 
 paleness of the intestinal mucous membrane in the stage of collapse, and 
 its congestive redness whenever the signs of reaction have existed before 
 death, have a very important bearing upon the pathology of this disease, 
 for they demonstrate conclusively that the gastro-intestmal evacuations 
 in cholera have no relation whatever to inflammation. On the other 
 hand, they render it altogether probable that the serous flux is in the 
 nature of a sweat, an intestinal ephidrosis. 
 
 The nature of the exfoliation found in the intestinal canal has been 
 the subject of much discussion. As long ago as the first American 
 epidemic of cholera (1832-35) Dr. W. E. Horner, Professor of Anatomy 
 in the University of Pennsylvania, described an exfoliation of the epi- 
 thelial lining of the alimentary canal, whereby the extremities of the 
 venous system of the part are denuded, as being characteristic of cholera 
 alone. In 1849, Dr. Samuel Jackson, Professor of the Institutes of 
 Medicine, and Dr. John Neill, Demonstrator of Anatomy in the Univer- 
 sity, in conjunction with Dr. William Pepper and Dr. Paul B. Goddard, 
 presented a report to the College of Physicians of Philadelphia, in which 
 they, too, showed that the " epithelial layer of the intestinal mucous mem- 
 brane was either entirely removed or was detached, adhering loosely." 
 This important fact the most important, perhaps, in the mechanism of 
 cholera was confirmed seventeen years later by the eminent pathologist 
 Dr. Lionel S. Beale, 1 who, when referring to " the remarkable characters 
 of the matter discharged from the intestinal tube, and to the fact that the 
 small intestines almost always contain a considerable quantity of pale 
 almost colorless gruel-, rice-, or cream-like matter," added : " This has 
 been proved to consist almost entirely of columnar epithelium, and in very 
 many cases large flakes can be found, consisting of several uninjured 
 
 epithelial sheaths of the villi In bad cases it is probable that 
 
 almost every villus, from the pylorus to the ilio-csecal valve, has been 
 
 stripped of its epithelial coating during life These important 
 
 organs, the villi, are, in a very bad case, all or nearly all left bare, and 
 a very essential part of what constitutes the absorbing apparatus is com- 
 pletely destroyed It is probable that the extent of this process 
 
 of denudation determines the severity or mildness of the attack 
 
 It seems probable also that the epithelium may become detached in con- 
 sequence of the almost complete cessation of the circulation in the capil- 
 laries beneath, but the death of the cells may occur in consequence of 
 their being exposed to the influence of certain matters in the intestine 
 or in the blood, in which case they would simply fall off." 
 
 In this connection, and as complementary of the statements now made, 
 should be considered the further description by the same author viz. : 
 1 Med. Times and Gazette, Aug., 1866, p. 109.
 
 MORBID ANATOMY AND PATHOLOGY. 745 
 
 " Remarkable changes have occurred in the smaller vessels, especially in 
 the capillaries and small veins of the villi and submucous tissue. The 
 blood-corpuscles appear to have in a great measure been destroyed in the 
 smaller vessels, and in their place are seen clots containing blood-coloring 
 matter, minute granules, and small masses of germinal matter evidently 
 undergoing active multiplication. Some of the arteries are contracted, 
 but here and there small clots destitute of blood-corpuscles may be seen 
 at intervals." Hence, the gastro-intestiual lesions in cholera, according 
 to their extent and degree, they remove the natural obstacles to exhala- 
 tion in the mucous membrane, and also, and in the same degree, pre- 
 vent the absorption of the contents of the alimentary canal. It must 
 not, however, be forgotten that this lesion is not altogther peculiar to the 
 intestinal mucous membrane. Dr. Beale long ago called attention to the 
 fact that in this disease there seems to be a tendency to the removal of 
 epithelium from the surface of all soft, moist mucous membranes, but not 
 from the follicles of the glands. The first statement appears to be explic- 
 able by the shrinkage of all the mucous membranes during cholera col- 
 lapse, for by this merely mechanical agency the inelastic epithelium must 
 necessarily become detached. As to the second statement, the remark 
 may be made that the whole follicular structure furnished with columnar 
 epithelium is an absorbing and not an eliminating apparatus, and that, 
 since its functional activity is from the beginning of the disease dimin- 
 ished by an inadequate blood-supply, it can have but a small and indirect 
 share in generating the phenomena of the disease. 
 
 In 1884, Dr. Koch, during his investigations of cholera in India, 
 found bacilli in the bowel which he believed to be peculiar to the disease, 
 and which presented the following characters : they were not straight, 
 like other bacilli, but curved or comma-shaped ; they proliferated rapidly 
 and displayed very active movements. Bodies of persons who died of va- 
 rious other diseases did not present them, although abounding in different 
 bacteria. The bacilli were not found, or only exceptionally, in the 
 stomach, but abundantly in the intestine, and most so in the diarrhoeal 
 discharges that occurred at the height of the disease. As soon as the 
 stools began to be fecal the specific bacilli disappeared from them. After 
 death at the height of the disease they were most abundant in the intes- 
 tinal contents, and especially in the lower part of the small intestine. 
 "When death took place at a later period none of them might be detected 
 in the liquids in the bowel, but they would still be present, in consider- 
 able numbers, in the tubular glands. They were not found at all in 
 cases fatal from some sequela of the disease. 1 
 
 Other abdominal lesions in cholera possess a very subordinate import- 
 ance. The isolated and the agminated glands are both prominent, chiefly 
 because they are swollen by the liquid imbibed from the bowel. A 
 whitish substance which they sometimes contain may perhaps be the 
 albumen or fat which they have taken from the intestinal liquid. _ A 
 very similar condition of the mesenteric glands is probably due to a like 
 cause. The liver is pale and flaccid when death takes place in collapse, 
 and it is also described as presenting a " dirty grayish-red, homogeneous 
 appearance, and indistinctness of the lobular structure, as if some glu- 
 tinous matter had been poured throughout the tissues of the organ " 
 1 Times and Gaz., Mar., 1884, p. 398.
 
 746 CHOLERA. 
 
 (Sutton). This appearance would seem to be due to the total suspension 
 of the blood-supply through the portal vein. 
 
 At all stages of the disease the gall-bladder is usually found full of 
 bile, which is apt to be dark during the collapse and more watery after 
 reaction has commenced. 
 
 The spleen is small, pale, and, as a rule, firm, but occasionally it is 
 soft. 
 
 The kidneys present no marked changes when death has taken place 
 early in the attack, or at most only exhibit a lighter color than usual of 
 the cortical substance and a darker one of the pyramids. They show 
 that the arteries are comparatively empty and that the veins are con- 
 gested. Similarly contrasted appearances are met after death from 
 obstructive disease of the heart and other causes that produce obstruc- 
 tion of the venae cavse. In the tubules, later on, fatty degeneration of 
 the epithelium has been observed, and some cylindrical casts. These 
 alterations, especially of the tubules, are most marked when death occurs 
 in the stage of reaction, and are then apt to be accompanied by more or 
 less hemorrhagic trausudation. The urinary bladder is always contracted 
 after death in collapse ; after febrile reaction its mucous membrane may 
 be more or less coated with false membrane. 
 
 The brain and the spinal marrow offer nothing peculiar ; their venous 
 systems are everywhere more or less engorged, and sometimes effused 
 blood has been found in the spinal canal. 
 
 In the state of the respiratory organs the most important facts are that 
 in algid cholera the lungs are always more or less collapsed, " shrunk 
 and small, and lying back in the chest, toward the spine," and that, so 
 far from being congested, they are (with the exception of a small portion 
 of their posterior part rendered dense by hypostasis) singularly bloodless, 
 dry, and tough. As might be inferred from these conditions, they are 
 also lighter in weight than natural. To Dr. Parkes belongs the credit 
 of having first described this very important fact in the morbid anatomy 
 of cholera, as follows : " In fourteen cases the lungs were completely 
 collapsed, appearing in some cases like the lungs of a foetus. In three 
 cases they were considerably, in eight slightly, collapsed, and in the 
 remaining fourteen cases the collapse was in some altogether, and in some 
 partially, prevented by old adhesions." 1 So Dr. Sutton found that the 
 average weight of the two lungs during collapse was about twenty 
 ounces, and after reaction that is, after the passage of the blood into 
 the pulmonary artery had become completely re-established about forty- 
 five ounces. In the latter condition also the lungs presented the usual 
 signs of congestion of those organs, being dark-red throughout or in 
 portions only. Sometimes also they contained masses or nodules of 
 apparent hepatization, and of these some may have undergone partial 
 softening. 
 
 In absolute conformity with the condition of the lungs that has been 
 described is that of the heart. If the lungs are bloodless, it follows 
 necessarily that the left side of the heart must be empty, and almost as 
 necessarily that the right side of the heart must be distended with blood. 
 All careful investigators of the subject agree that such is the condition 
 of the heart when death takes place in cholera during the stage of 
 
 1 Med. Times, 1848, p. 378.
 
 MORBID ANATOMY AND PATHOLOGY. 747 
 
 asphyxia. All report that the pulmonary artery is either empty 01 that 
 it contains a small quantity of dark and usually of thick blood ; that 
 the right side of the heart and the coronary veins are distended with 
 blood of the same description, while numerous ecchymoses exist along 
 the course of the coronary veins ; that the venae cavae are filled with 
 half-coagulated blood of a tarry aspect ; and that even the femoral and 
 splenic veins contain similar blood. On the other hand, the left ventricle 
 of the heart is usually contracted, and contains a very little semi-fluid 
 blood, with perhaps a small and pale clot. This engorged condition of 
 the right cavities and emptiness of the left cavities of the heart diminish 
 very slowly during the passage from collapse to reaction, during which 
 time the pulmonary blood-vessels are being gradually replenished. Be- 
 sides the thick and tarry aspect of the blood above described, it has been 
 observed that when the blood is withdrawn by means of a pipette, its glob- 
 ules rapidly subside and are surmounted by a transparent serum, and that 
 such blood may remain for a long time uncoagulated. The red corpuscles 
 are said to be pale and viscous, but not adhesive, and the white corpus- 
 cles abnormally numerous and easily crushed. In the free intervals are 
 observed " very pale little objects, slightly elongated and constricted in 
 their middle," which multiplied in blood kept for one or two days at a 
 temperature of 38 C. (100.4 F.). 1 If death does not take place until 
 reaction is far advanced or has merged into a febrile condition, the left ven- 
 tricle is usually found not contracted, and it contains a quantity of blood. 
 The term " usually " is employed to show that even to this rule there are 
 some exceptions, and that, as in all other diseases, the issue does not 
 depend absolutely and exclusively upon a definite degree of any anatom- 
 ical lesion, but upon the aggregate condition of all the functions upon 
 which life depends. The pericardium, like the pleura and the perito- 
 neum, may be covered with a saponaceous film which is albuminous. 
 
 In looking now over the field that has been traversed in the foregoing 
 pages, and searching for some link that will unite in a consistent whole 
 the causes, symptoms, and lesions of cholera, it is evident that only one 
 factor can possibly be so described. That factor is the gastro-intestinal 
 flux. This it is that produces the vomiting and the purging ; that pros- 
 trates the patient and wastes away in a few hours the fullest and the firm- 
 est form ; that chills the limbs and afterward the trunk ; that thickens 
 the blood so that the capillary vessels can no longer convey it, and that 
 spreads a cyanotic shadow over the whole surface of the body ; that cuts 
 off the supply of blood from the lungs and heart ; that paralyzes the 
 nervous system, ganglionic as well as cerebro-spiual ; that obstructs the 
 kidneys and arrests their secretion ; and that, acting through the several 
 links of this pathological chain, becomes the cause of death. But the 
 question still recurs, What is the cause of the gastro-intestinal flux ? To 
 this also, in the light of observation, it is possible to give only one 
 answer. It is a specific poison which originates in Hindostan, and, 
 being taken into the stomach and bowels, not only produces in the indi- 
 vidual the symptoms and lesions of cholera, but is capable of multiply- 
 ing itself and rendering infectious the discharges from the stomach and 
 bowels of the subjects of the disease, so that it may be transmitted from 
 1 Rapport sur le Cholera d'figypte en 1883, par M. le Dr. Strauss, etc.
 
 748 CHOLERA. 
 
 one person to another round the whole circumference of the globe. Re- 
 garding the form and nature of that poison little or nothing is definitely 
 established, beyond what has already been stated as the result of Koch's 
 observations. As far as they go, they harmonize with a long-prevalent 
 opinion that the cholera poison consists of certain microscopic germs, 
 which, on being received into the bowels, propagate their kind and 
 destroy the epithelium. It is believed by some that these bodies are 
 products of the rice-plant on the banks of the Ganges, and that, having 
 once originated the disease, the germs contained in the discharges become 
 mixed with water or are borne upon the wind, and enter the system of 
 new victims, who, in their turn, disseminate the plague. This theory 
 will be further considered below. 
 
 Another view, that of B. W. Richardson, is that, " as pus undergoes 
 changes which convert it into a septic poison, so the excreted matter from 
 the alimentary canal is equally capable, under peculiar conditions of oxi- 
 dation, of producing an alkaloidal organic poison, which, soluble in water, 
 but admitting of deposit on desiccation," becomes the agent for dissemi- 
 nating the disease. In these theories a false datum and a hypothesis are 
 offered us in place of the fact which we seek. The cryptogamous nature 
 of the essential cause of the disease has no positive proof, but only the 
 probability of coincidence in its favor. There is no proof, because one 
 after another organic form has been alleged to be the essential generator 
 of the disease, and each has been proved to be either not peculiar to 
 cholera or has been shown to be present in other diseases than 
 cholera. 
 
 At the present time (1884) it is the fashion to trace every disease to 
 specific bacteria or analogous organisms. But it may be that the 
 occurrence of cholera only furnishes the occasion for the development 
 of these organisms, just as a certain temperature, hygrometric condi- 
 tion, and deficient light and air will cause mould to form on bread and 
 other organic substances. The judgment pronounced by Dr. Beale 
 in this question as long ago as 1866 appears now, as it did then, to ap- 
 proach the truth upon this point : " There is no good reason for suppos- 
 ing that the bacteria in such numbers in the alimentary canal in cholera 
 have anything to do with this disease or with the falling off of epithe- 
 lium from the intestinal and other mucous membranes. Bacteria are 
 developed in organic matter which is not traversed and protected by the 
 normal fluids of the body, and they invade the cells and textures in 
 cholera after those cells and textures have undergone serious prior changes, 
 just as they would invade textures removed from the body altogether. 
 Nor would it be in accordance with known facts to infer that cholera was 
 due to the invasion of some peculiar form or species of bacterium." l 
 
 We repeat, then, that while nothing can be simpler than the mechan- 
 ism of cholera viewed as a gastro-intestinal hyperidrosis, nothing is more 
 mysterious than the mechanism of the primary cause which gives rise to 
 it. That its real nature has been correctly described is rendered all the 
 more probable by the fact, presently to be insisted upon, that sporadic 
 cholera morbus, which is always the consequence of a direct irritation of 
 the gastro-intestinal mucous membrane, is often with difficulty distin- 
 guishable from Asiatic cholera, which, indeed, differs from the former 
 1 Times and Gazette, Aug., 1866, p. 167.
 
 MORBID ANATOMY AND PATHOLOGY. 749 
 
 disease chiefly by the intensity of its cause as measured by the gravity 
 of its symptoms and by the nature of the special agent that produces it. 
 The above views regarding the essential cause of cholera were substan- 
 tially indited before the Egyptian epidemic of 1883, but they are in 
 accord with the more definite conclusions arrived at by the German and 
 French commissions on the subject. Before their reports appeared, how- 
 ever, a communication was made by Dr. Kartulis of the Greek hospital 
 in Alexandria, setting forth that the drinking-water and the stools and 
 blood of the cholera patients contained, the first a mass of micro-organ- 
 isms, and the others bacteria and micrococci, which, however, presented 
 no distinctive characters. 1 The German report was prepared by Dr. Koch, 
 the French by Dr. Strauss. 2 The former, alluding to the enormous quan- 
 tity of micro-organisms found in the contents of the bowels and in the 
 stools, did not perceive any connection between them and the phenomena 
 of the disease. On the other hand, he did assign this relation to a species 
 of bacterium found in the walls of the intestine, and which he compared 
 to the bacilli of glanders. They were lodged in great quantities within 
 the intestinal glands and behind their epithelium, as well as upon the sur- 
 face of the villi and within them, and sometimes even in the muscular 
 coat. They were most numerous at the lower end of the small intestine. 
 Dr. Koch concluded that although these bacilli, beyond doubt, are in 
 some manner associated with the development of cholera, they are by no 
 means shown to be its cause, and may indeed be themselves the product 
 of the morbid conditions belonging to cholera. All his attempts at that 
 time to develop cholera in animals by inoculating them with the organisms 
 gave only negative results. The conclusions of Dr. Strauss were in entire 
 conformity with those of Dr. Koch, but involved an additional and very 
 important statement viz. that the shorter and the more violent were the 
 fatal attacks of cholera the fewer were the bacteria found in the intestine. 
 It is evident that this fact is the very opposite of what should have been 
 found had bacteria been essential in the causation of cholera. The more 
 recent investigations conducted in Calcutta by Dr. Koch, which have 
 already been cited, led him, however, to attribute to bacilli of a specific 
 form the absolute origination of the disease. He poses the question in 
 the following manner: Either these "comma bacilli" are a product of 
 the cholera process, or "the disease only arises when these specific organ- 
 isms have found their way into the bowel." The former alternative he 
 rejects, because, in his judgment, it assumes that the bodies in question 
 must be pre-existent in every person who becomes affected with the dis- 
 ease a hypothesis which he rejects, because they have never been found 
 except in cholera. He therefore concludes that they are the cause of 
 cholera. He points out that their first appearance coincides with the com- 
 mencement of the disease, that they increase with it, and that they disap- 
 pear with its decline. 3 The statement of Strauss quoted above does not, how- 
 ever, appear to harmonize with this conclusion, since the bacteria are said by 
 him to have been fewest in the more violent and fatal attacks of the disease. 
 Another of Dr. Koch's remarks is also open to criticism. After showing how 
 rapidly the cholera bacteria multiply when kept moist, he states that they 
 die after drying more quickly than almost any other form of bacteria, "As 
 
 1 Medical News, xliii. 377. ' Archives gen., Dec., 1883, pp. 713, 722. 
 
 3 Times and Gaz., Mar., 1884, p. 398.
 
 750 CHOLERA. 
 
 a rule, even after three hours' drying every vestige of life has disappeared.'' 
 It is evident that this statement is not in harmony with the numerous 
 facts, several of which have been cited, that cholera fomites have pre- 
 served their infectious qualities after several weeks. Dr. Koch endeav- 
 ored to produce in animals, artificially, with these bacteria, a disease 
 analogous to cholera, but without success; and he adds, "If any species 
 of animal whatever could take the cholera, it would surely have been 
 observed in Bengal, but all inquiries directed to this point met with a 
 negative result." Dr. Vincent Edwards, who, however, is of opinion 
 that the cholera poison is " not an organism, but of the nature of a chemical 
 compound of comparatively unstable nature," reports that he produced 
 fatal cholera in pigs by giving them the dejections of cholera patients. 1 
 But the Times and Gazette inclines to question that the pigs employed in 
 Dr. Edwards' experiments were affected with true cholera. 
 
 DIAGNOSIS. The most characteristic symptoms of Asiatic cholera 
 have repeatedly been mentioned in the foregoing pages. They are rice- 
 water evacuations by vomiting and purging, rapid emaciation of the 
 whole body, a cadaverous hollowness of the cheeks and eyes, a livid color 
 of the face, hands, and feet, a feeble, thready, and at last absent pulse, an 
 icy coldness of the extremities, face, and even the breath, a loss of the 
 elasticity of the skin, a thin and feeble voice, and intense thirst. But 
 every one of these symptoms may occur in cholera morbus produced by a 
 direct irritation of the stomach and bowels. It is rathor their nature, we 
 repeat, than their phenomena that distinguishes these two affections 
 from each other. In attempting to separate Asiatic cholera from other 
 forms of cholera we must endeavor to dismiss from the mind the erro- 
 neous notion that the term cholera denotes a definite disease identical in its 
 cause, phenomena, and results. It is no more a disease than dropsy or 
 fever is a disease. It is a complex group of symptoms which have in 
 common the fact that they proceed directly from gastro-intestinal irrita- 
 tion, whose degree of severity i. e. the presence or absence of certain 
 grave symptoms and, above all, its issue, depend chiefly upon the nature 
 and intensity of the cause of the attack, and also, necessarily, upon the 
 degree of resistance opposed to it by the subjects of the disease. Noth- 
 ing has led to more error in regard to epidemic cholera than the ignor- 
 ance of this pathological fact by some and the disregard of it by others. 
 
 In the first portion of this article it was shown that the Greek, Roman, 
 and Arabian conceptions of cholera morbus included a discharge of bile, 
 the very symptom for the absence of which Asiatic cholera is notorious ; 
 and also that the classical cholera, or cholera morbus, ended in recovery 
 even more frequently than Asiatic cholera terminates in death. But 
 local epidemics of cholera morbus sometimes take place which are of a 
 severe and even of a grave type, and which also appear to originate in 
 some peculiar atmospheric influence, for they prevail to a limited extent 
 and in connection with vicissitudes of weather. Still more circumscribed 
 epidemics have been traced to unwholesome food and drink, and innu- 
 merable instances of individual attacks have been caused by irritants that 
 are ranked as poisons and others which are reckoned as food or medicines. 
 Now, under these various circumstances, which have in common gastro- 
 intestinal irritation, there may be produced, if the irritation is excessive, 
 
 1 Notes on ihr Poison contained in Choleraic Atomic Discharges.
 
 DIAGNOSIS. 75] 
 
 a series of symptoms closely resembling, if not identical with, those of 
 Asiatic cholera. 
 
 In illustration may be cited the comparatively familiar description of 
 Sydenham. 1 These are his words : " There is vomiting to a great degree, 
 and there are also foul, difficult, and straining motions from the bowelh. 
 There is intense pain in the belly, there is wind, and there are distension, 
 heartburn, and thirst. The pulse is quick and frequent, at times small 
 and unequal. The feeling of sickness is most distressing, and is accom- 
 panied with heat and disquiet. The perspiration sometimes amounts to 
 absolute sweating. The legs and arms are cramped and the extremities 
 cold. To these symptoms, and to others of a like stamp, we may add 
 faiutness." . ..." As the summer came to a close the cholera morbus 
 raged epidemically, and, being promoted by the unusual heat of the 
 weather, it brought with it worse symptoms, in the way of cramps and 
 spasms, than I had ever seen. Not only, as is generally the case, was 
 the abdomen afflicted with horrible cramps, but the arms and legs, indeed 
 the muscles in general, were afflicted also." .... At the risk of repeti- 
 tion an additional passage may be quoted from Sydenham's later defini- 
 tion of cholera morbus : " This is limited to the month of August or the 
 first week or two of September. Violent vomiting, accompanied by the 
 dejection of depraved humors, difficulty on passing them, vehement pain, 
 inflation and distension of the bowels, heartburn, thirst, quick, frequent, 
 small, and unequal pulse, heat and anxiety, nausea, sweat, cramps of the 
 legs and arms, faintiugs, and coldness of the extremities, constitute the 
 true cholera and it kills within twenty-four hours." 
 
 In spite of the general likeness between this description and the symp- 
 toms of Asiatic cholera, there are differences of considerable importance 
 which have been italicized in the quotations. These differences are such 
 as may be attributed to the action of a harsh irritant in the case of 
 cholera morbus, while in the epidemic (Asiatic) disease the distinctive 
 phenomena are the result of a sudden and profuse intestinal flux. Mac- 
 pherson, who had a long and extensive experience of epidemic cholera in 
 India, after contrasting in detail its phenomena with those of cholera nos- 
 tras, sums up the discussion in these words : " Cholera indica is essentially 
 a very fatal disease, while cholera nostras is usually a mild affection and 
 is seldom fatal, although it was called atrocissimus et peracutus, and has 
 undoubtedly killed in from eight to twenty-four hours." 2 In regard^to 
 the individual symptoms this very competent reporter does not recognize 
 a single one as being absolutely peculiar to either disease ; Even the 
 ancients, already referred to, after describing bilious evacuations as being 
 characteristic of cholera nostras, add that sometimes also they are whitish ; 
 and modern writers, both before and since the advent of Asiatic cholera 
 in Europe, have made a similar observation. Thus, Quinquaud, in his 
 description of cholera nostras, of which a slight epidemic occurred in 
 1869 at the Hospital St. Autoine in Paris, says : " The principal symp- 
 toms were vomiting and purging, sometimes of a bilious and sometimes 
 of a rice-water liquid ; a shrivelled and cyanotic skin, the latter appear- 
 ance being sometimes strongly marked ; anxiety, coldness, cramps, altered 
 voice, and suppression of urine. 3 In 1875 thirty-three cases of this 
 
 * Works, Sydenham Soc. ed., i. 163 ; ii. 8, 266. 
 
 8 Times and Gaz., Dec., 1870, p. 725. 8 Archives gen., Mars, 1870, p. 308.
 
 752 CHOLERA. 
 
 disease occurred at Valenciennes, near Paris, and its symptoms were thus 
 summarized by Manouvriez r 1 " Repeated vomiting, first of food, and 
 then of a dark-green liquid ; diarrhoaa, which was at first fecal and then 
 bilious, but afterward serous and like rice-water; painful tension of the 
 epigastrium and tenderness of this part ; headache, cramps in the legs, 
 suppression of urine; pallor, coldness, and dryness of the skin, especially 
 of the limbs; pinched features, a blue circle around the eyes, a small and 
 scarcely perceptible pulse, and a faltering and whispering voice." Yet 
 of the thirty-three cases only two were fatal the one a child of four 
 years and the other an infant of as many months. The substantial 
 identity of nature of these two local epidemics, and the almost equally 
 close relation of their symptoms to those of epidemic cholera, must be 
 quite apparent. 
 
 Yet the contrasts are neither slight nor unimportant; and the most 
 striking and significant is the trifling mortality of the European as com- 
 pared with the Asiatic disease, notwithstanding the grave symptoms 
 present in the former. It may be regarded as certain, we think, that the 
 reason of this difference of danger lies in a corresponding difference in 
 the nature of the causes of the two forms of disease. The rapid recovery 
 from cholera morbus produced by changes of weather, acid fruits, and 
 indigestion renders it certain that no material lesion of the gastro-intes- 
 tinal mucous membrane has been produced ; while, on the other hand, 
 inspection after death from epidemic cholera or by corrosive poisoning 
 renders it equally certain that the damage to that membrane is substantial 
 and widespread, as well as often irreparable, and that, therefore, "the 
 powers of life that resist death " must be engaged in a very unequal and 
 often fruitless struggle. The cramps in cholera nostras are, as a rule, 
 less severe than in epidemic cholera, while the colicky, and in general the 
 abdominal, pains are greater in the former than in the latter disease. 
 The reason of this difference appears to be that muscular spasm is the 
 natural result of depletion, whether sanguine or serous, while colic is an 
 effect of irritation of the surface of the mucous coat of the bowel, and 
 not of its destruction, such as occurs in epidemic cholera. 
 
 It is true only in a limited degree, and indeed only upon a super- 
 ficial survey of the symptoms, that the effects of irritant poisoning are 
 like those produced by Asiatic cholera. The analogy between the two 
 was pointed out, among others, by Sedgwick in 1867. 2 The resem- 
 blance appeared so striking to the vulgar eye that in Paris, and per- 
 haps elsewhere, a popular tumult followed the first violent outbreak 
 of epidemic cholera, and it was charged that the wells had been poisoned. 
 The cases that most resemble cholera are the following : " Acute poison- 
 ing by corrosive sublimate, by arsenic, and by mineral acids, especially 
 nitric acid ; the effects which follow the eating or drinking of poisonous 
 animal matters, such as tainted or simply unwholesome meat or fish, and 
 milk which has undergone some injurious but yet unknown change, 
 decomposing vegetables and some of the poisonous fungi, and the exces- 
 sive action of certain drugs, for the most part belonging to the class of 
 drastic purgatives," as elaterium and croton oil. The effects produced by 
 these agents constitute a cholera morbus, and therefore resemble cholera, 
 and have been occasionally, and almost unavoidably, mistaken for it. It 
 
 1 Archives g&n., Sept., 1877, p. 298. 2 Med.-Chir. Trans., li. 1.
 
 PROGNOSIS. 753 
 
 is remarkable that suppression of urine may occur among them, as well 
 as _ vomiting, purging, and collapse. As Griesinger and others have 
 pointed out, the order in which the symptoms occur is a valuable, and 
 generally an available, ground of diagnosis. In cholera, diarrhoea always 
 occurs before vomiting, while in the various irritant poisonings mentioned 
 vomiting precedes diarrhoea. In irritant poisoning also there is generally 
 severe abdominal pain not so much colicky and paroxysmal as constant 
 and burning ; the stools are not so copious as in cholera, and they do not 
 possess the rice-water aspect, but are rather dark, bloody, and fetid, and 
 are voided with teuesmus or with heat in the anus ; and even when the 
 urine is suppressed it is less persistently and completely so than in 
 cholera, and attempts to void it are attended with vesical tenesmus and 
 strangury. In a doubtful case it is important to ascertain whether a 
 metallic or other unpleasant taste is perceived in the mouth, whether 
 this cavity or the throat bears marks of corrosion, whether any unusual 
 article of food has been used, etc. Moreover, it is of extreme importance 
 to learn whether Asiatic cholera prevails, not merely in the immediate 
 neighborhood, but at any place from which diseased persons or infected 
 goods may have arrived. The instances should not be forgotten in which 
 cholera-infected clothing from Europe has developed the disease in the 
 valley of the Mississippi. Nor should those still more numerous cases 
 be overlooked in which travellers affected with choleraic diarrhoea have 
 disseminated the disease at great distances from their starting-point, 
 although unconscious of the nature of their own ailment, whose seed 
 they were sowing along their route. 
 
 PROGNOSIS. Like the diseases called septic, of which the eruptive 
 fevers may be taken as examples, and also like the eifects of irritant poi- 
 sons, the gravity of cholera must mainly depend upon the amount and the 
 activity of the specific poison that is received into the system. It is most 
 probable that the cholera poison is organic, and that it has a limited power 
 of reproduction and term of existence, a period also of intense activity 
 and a period of exhaustion ; in a word, that either by progressive dilution 
 as an inorganic substance or by organic senescence it finally ceases to exist. 
 By no other theory is it possible to explain the numerous degrees of sever- 
 ity which cholera exhibits, from a mild indisposition to a malignant and 
 rapidly fatal disease. On the one hand, the patients, if they may so be 
 called, are hardly prevented from attending to their customary occupa- 
 tions. They may even be able to travel and carry the disease to distant 
 places, and so appear to justify the erroneous and irrational doctrine of 
 the atmospheric or spontaneous origin of cholera. On the other hand, 
 the entire apparent duration of an attack may not exceed two or three 
 hours, during which all the distinctive symptoms of the disease may be 
 crowded together in the most appalling forms. Such grave cases are 
 always most numerous at the commencement of an epidemic. These 
 statements are true not only in regard to individual cases in the greater 
 number of epidemics, but they represent the distinctive character of par- 
 ticular epidemics, some of which are as remarkable for their benignity as 
 others are for their extreme malignity. For such contrasts no plausible 
 reason can be suggested, unless it be a difference either in the essential 
 virulence of the morbid poison or in the dose of it imbibed. That they 
 are due to the activity rather than to the quantity of the poison seems to 
 
 VOL. I. 48
 
 754 CHOLERA. 
 
 be proved by the progressive weakening iu the gravity of the cases ; for 
 if the quantity of the poison remained the same some malignant cases 
 might be expected to occur even during the decline of an epidemic. 
 
 These considerations help to explain the extreme diversities of mortal- 
 ity in different epidemics. The extremes may be stated at 10 and 90 per 
 cenl., and they would perhaps be still wider apart if all the mild cases, 
 which are never reported many of which, indeed, do not even fall under 
 medical observation were included in the reckoning. The general or 
 average mortality of cholera is about 50 per cent. According to Allbu, 
 the epidemics in Berlin from 1831 to 1873 gave a total of 28,753 cases 
 and 18,916 deaths; that is, a mortality of 65.8 per cent. (Eichhorst). It 
 should be noted that, as in other epidemic diseases, there is no uniform 
 proportion between the extent and the mortality of cholera epidemics. 
 Some of very limited extent have been proportionally the most destruc- 
 tive. It should also be remembered that the disease is far more fatal 
 in infancy and old age than at any other period of life, and for a similar 
 reason it is very dangerous to all who are weakened by any cause, such 
 as an inherited morbid diathesis, a chronic debilitating disease, etc. There 
 seems to be a doubt whether its male or female victims are the more 
 numerous. In this connection it may be suggested that while males are 
 more likely to contract the disease by drinking contaminated water, etc., 
 more women are exposed to its contagion by their intimate relations with 
 the sick, by their handling and washing infected fomites, by carrying 
 away the cholera discharges, etc. 
 
 Undoubtedly, the class of society to which cholera patients belong is 
 not without influence on its prognosis. Not only is the total mortality 
 greater among the laboring classes, but the individual belonging to those 
 classes has a less chance of recovery, because he is not apt to resort to 
 treatment on the appearance of the premonitory signs of the disease, and 
 because the treatment he receives is less intelligently and sedulously pur- 
 sued by his physicians and friends. 
 
 In regard to the particular symptoms which, are favorable or unfavor- 
 able, nothing need be added to what has already been stated in detail, 
 unless it be that during the height. of the attack the danger is to be meas- 
 ured by the degree of prostration and of the stasis of the blood, and, 
 during reaction, by the grade of the typhoid state. Gradual reaction, as 
 denoted by the state of the skin and the pulse and a more natural aspect 
 of the stools, is generally indicative of improvement. 
 
 Finally, a word of caution may be given to those who are apt to attri- 
 bute all the favorable changes in the conditions of an epidemic to the 
 sanitary or medicinal measures they have instituted. Cholera epidemics 
 are remarkable for the comparatively short period of their duration, which 
 may be stated at less than a mouth in the same place. Doubtless, judi- 
 cious sanitation and timely treatment save a great many lives, but the 
 qualifying fact, already insisted upon, must not be overlooked, that the 
 mortality occasioned by the disease in a given place is greatest during the 
 first period of its prevalence, and that thenceforth it gradually declines. 
 Yet it is of essential significance that the disea.se rarely attacks a large 
 number of persons simultaneously; the epidemic proper is usually pre- 
 ceded by a few scattering cases which are apt to become foci of ignition 
 that presently unite to form a widespread conflagration. The recognition
 
 PREVENTION. 755 
 
 of these cases, their isolation, and the proper treatment of the localities 
 where they occurred have frequently stamped out what might have l>een 
 the commencement of a deadly epidemic. 
 
 PREVENTION. The history of cholera demonstrates conclusively that 
 since the disease, outside of India, never arises spontaneously, it must be 
 more or less preveutible, partly by excluding its seeds and partly by ren- 
 dering the soil in which they are planted more or less unfit 'for their 
 development ; in other words, by quarantines and sanitary cordons and by 
 various measures of local sanitation. 
 
 In regard to the former there would be comparatively little difference 
 of opinion, at least theoretically, if both measures were "alike efficacious. 
 But there would seem to have prevailed a tendency in official quarters to 
 undervalue the efficiency of both. Those who made and administered 
 the sanitary laws relating to cholera seem to have forgotten the emphatic 
 question, "What will not a man give for his life?" or at least to have 
 considered that whatever value some men may set upon their own lives, 
 the Jives of other men become of no account when balanced against the 
 needs, or even the conveniences, of commerce. The ethics which justi- 
 fied the introduction of opium into China by the English and the Ameri- 
 can gift of alcohol to the Indian to gratify a lust for lucre or for land is 
 only paralleled by those contained in the official protests against cholera 
 quarantines. At the International Medical Congress held in 1873 at 
 Constantinople, it was almost unanimously resolved that "the practice 
 of (laud) quarantine as now carried out ought not to be maintained, 
 because, on the one hand, it does not constitute a real protection, and, on 
 the other hand, it is directly opposed to the interests of commmerce and 
 industry." A leading critic, in commenting upon this, remarks that 
 if a quarantine were possible it would give no real security, because it 
 would be evaded, just as customs laws are evaded by smuggling. 1 A logi- 
 cal deduction from this curious argument would be that customs laws 
 should be abrogated. In 1880 was published the report of the German 
 Imperial Commission on the cholera epidemic of 1873 in Germany, edited 
 by Hirsch, from which we learn that "all the German medical experts 
 agree in condemning the employment of quarantine, for, while largely 
 detrimental to the interests, welfare, convenience, and happiness of a com- 
 munity, it is quite inert and inefficient as a safeguard against the further 
 diffusion of cholera." 2 Whether this opinion refers only to land quaran- 
 tine or not is left in doubt, but the spirit of subordinating the lives of the 
 people to the commercial interests of a country is just the same as, and 
 is not less worthy of condemnation than, the spirit which has more than 
 once blinded customs officials to the disease on board of vessels from which 
 it has afterward issued to destroy thousands of lives. 
 
 It seems to be overlooked that in national as well as in personal affairs 
 "honesty is the best policy," and that if, instead of concealment or false 
 statements regarding the sanitary state of ships, their passengers, and 
 cargoes, and equally false assertions respecting the contagiousness of chol- 
 era, and a contemptuous neglect of well-tried preventive measures, if, 
 instead of this delusive and disastrous policy, all nations had honestly 
 carried out the rules prescribed by experience for the exclusion of the 'dis- 
 ease, and for its management after it had passed the frontiers of a country, 
 
 1 Practitioner, xii. 226. 2 Ibid., xxvi. 159.
 
 756 CHOLERA. 
 
 there can be little doubt that its ravages would ere this have been confined 
 to the region in which it originated. As we have seen, there is urged 
 against the enforcement of a rigid quarantine by land or sea the singular 
 argument that it has not always excluded the disease. A more logical 
 inference would seem to be that since it succeeded, not completely, but yet 
 partially, its inefficiency should be charged to its imperfect execution ; or, 
 even granting that the absolute exclusion of cholera is impracticable in 
 every instance, including cases of choleraic diarrhoea, contaminated cloth- 
 ing and merchandise, does it therefore follow that the transit of men and 
 things should be unimpeded? As well might it be maintained that because 
 one or more houses cannot escape destruction by fire, therefore no effort 
 should be made to save the remainder of a threatened city; as well might 
 it be argued that because some men must be killed in battle, no precau- 
 tions should therefore be used to preserve the rest of the army ; as well 
 abstain from all local sanitation intended to mitigate the ravages of the 
 disease, because, do what we may, some victims it will surely have. This 
 is taking counsel from despair; is a stupid fatalism which one might 
 imagine to have been imported with the disease from the East ; or it may 
 be a sign of the unconscious blindness of Mammon-worshippers, who, 
 neither fearing God nor regarding man, have as little pity for the victims 
 of cholera, permitted, if not invited, by them to scourge the nations, as 
 devout Christians once felt for the negroes who were bought or kidnapped 
 in Africa to toil and die under the lash of the slave-driver. 
 
 Probably no sanitary cordon nor any quarantine will invariably and 
 completely exclude cholera, since it is transmissible by living men and by 
 water and by fomites of various descriptions, and, worst of all, by men 
 who neither exhibit its characteristic symptoms nor are conscious of the 
 poison which they conceal and disseminate. But, as has already been 
 urged, it is no argument against preventive measures that they are not 
 absolutely perfect in their efficiency. If they sometimes succeed in arrest- 
 ing the progress of cholera, and if they always, when honestly executed, 
 lessen the number of channels through which the infection can be con- 
 veyed, and thereby reduce to a minimum its fatal effects, they ought to be 
 maintained and perfected, and not decried or abolished. It is difficult to 
 characterize that state of mind which concludes against the use of a salu- 
 tary measure because its efficiency is not absolute, the more so when it is 
 admitted that its inefficiency is not intrinsic, but due to negligent, and 
 even fraudulent, administration. The preponderance of official and per- 
 sonal authority is altogether on the side of the necessity of a quarantine, 
 not in its literal, but in its technical, sense. The International Medical 
 Congress of 1874 declared as follows: "Quarantine ought to be limited 
 to the time requisite for the examination and disinfection of the ship, the 
 crew, and the passengers ; and if there be no disease on board the latter 
 should be released immediately after disinfection. But if there be chol- 
 era or sickness of a doubtful nature on board, it will be necessary to iso- 
 late and disinfect the ship also." The same congress, however, wholly 
 condemned land quarantines, apparently upon the sole ground of the 
 extreme difficulty of rendering them efficient an argument, as before 
 remarked, that touches not the principle of the measure, but only the 
 manner of its execution. In this respect the congress occupied a lower 
 position than its predecessor of 1866, which held that the futility of quar-
 
 PREVENTION. 757 
 
 antine in "arresting the march of cholera" arose "rather from the unin- 
 telligent application of the measure than from any fallacy in its prin- 
 ciple." l 
 
 It would burden this narrative even to enumerate the instances in which 
 a strict quarantine has protected places to which cholera has been carried 
 by sea. In the United States numerous examples might be given of 'sea- 
 ports into which cholera was brought from foreign countries, and within 
 whose quarantine stations it was confined by rigid sanitary regulations ; 
 but it is sufficient to cite the case of New York, through whose quaran- 
 tine at Staten Island nine-tenths of all emigrants to America have passed. 
 Writing in 1867, Dr. Peters said: "There have been fourteen epidemics 
 of cholera at Staten Island, and only four have reached New York." 
 A large number of illustrations has been collected by Dr. Smart, Inspec- 
 tor-General, R. N., 2 who sums up the matter as follows: "Believing that 
 cholera has frequently been excluded from islands by quarantine, and as 
 often introduced by its non-observance, I regard it as a truly preventive 
 measure ; but, recognizing the impracticability of exacting it under many 
 circumstances, I would insist on the most strict isolation of all the first 
 cases or units of disease, whether introduced from without or originating 
 from relationship to introduced cases, or persons or goods imported from 
 infected countries." 
 
 While experience demonstrates the efficacy, and therefore the necessity, 
 of quarantine against cholera in seaports, it has also shown that the same 
 agent of prevention need not be invariably and rigidly applied. When 
 quarantine meant literally a detention, and almost an incarceration, for 
 forty days, it often failed through its very rigor at a time when proper 
 methods of disinfecting ships, cargoes, crews, and passengers were either 
 unknown or inefficiently applied. It is now certain that quarantine 
 may be reduced to a fraction of its original duration, and yet possess a 
 much greater degree of efficiency, its length depending upon the number 
 and the sanitary condition of the crew, etc., the nature of the cargo, etc. 
 It is evident that a ship carrying only cabin passengers is less open to 
 suspicion than one crowded with filthy emigrants, although both may 
 have sailed from the same cholera-infected port. A more liberal rule 
 may govern the one than the other; and in the second case a rigid inspec- 
 tion and cleansing of luggage may be imperative which would be super- 
 fluous as well as vexatious in the first case. The importance of such a 
 treatment of emigrants' effects has already been illustrated by cases in 
 which they caused an outbreak of cholera after having been carried from 
 a seaport into an interior town many hundreds of miles distant. 
 
 In regard to the time during which a vessel that has had cholera on 
 board within a week or ten days should be detained under sanitary inspec- 
 tion and treatment, including a thorough cleansing of the passengers and 
 their effects, no absolute rule can be laid down ; but it would appear that 
 if no suspicious cases arise within a week, there need be little apprehen- 
 sion that any will occur. 
 
 The sanitary measures which should be undertaken wherever there is 
 reason to fear an invasion of cholera are, in the first place, such as are 
 
 1 Practitioner, xxviii. 393. 
 
 7 Lancet, April, 1873, pp. 555, 659; Times and Gazette, April, 1874, p. 387. Compare 
 also Colin, Brit, and For. Med.-Chir. Rev., July, 1874, pp. 42-44.
 
 758 CHOLERA. 
 
 equally appropriate in anticipation of any infectious and contagious epi- 
 demic disease, and relate especially to the removal of all sources of putrid 
 emanations, whether in stagnant ponds, in streets, markets, shambles, 
 sewers, privies, cellars, or inhabited rooms ; for these influences, although 
 they do not cause cholera, yet, by lowering the vitality of persons exposed 
 to them, create an abnormal susceptibility to disease. Many instances in 
 Europe might be cited to prove that whole cities, which in the earlier 
 epidemics were devastated by cholera, were either spared entirely in the 
 later ones or suifered in a far less degree. The measures which proved 
 most efficient were an improved water-supply and a better system of sew- 
 erage ; and this fact strongly corroborates the belief that contaminated 
 water and fecal emanations are the principal agents in propagating this 
 disease. Cleanliness is the best disinfectant, but during epidemics of 
 cholera, as of other diseases, the popular faith is very strong in numer- 
 ous articles called by that name. The real value of these preparations 
 is commercial rather than sanitary, but, indirectly, they are useful by 
 prompting those who use them to be more diligent in searching out and 
 removing many sources of air-contamination that perhaps invite and 
 intensify attacks of cholera. 
 
 The disinfectants in common use comprise chlorine gas, chlorinated 
 soda, chloride of zinc, sulphate of iron, permanganate of potassium, car- 
 bolic acid, and the fumes of burning sulphur. Some of them and espe- 
 cially the chloride of zinc, sulphate of iron, the permanganate of potas- 
 sium, and carbolic acid are supposed to be capable of destroying the 
 infectious principle of the vomit and stools. - Another method is to 
 receive such matters in vessels containing saw-dust, which, after being 
 dried, is consumed by fire ; and still another is to mix them with dry 
 earth and bury them. If they are thrown into water-closets or privies, 
 they should have added to them a portion of sulphate of iron. What- 
 ever has been used by cholera patients should be destroyed, unless of 
 value, and in that case it should be thoroughly purified by hot air or 
 boiling water and long exposure to the sun. The importance of having 
 large and well-ventilated rooms for cholera patients is very great, but 
 less, perhaps, for the patients themselves than for their medical attend- 
 ants and nurses. All persons should be excluded from them who are not 
 required by the duties of the sick chamber, and in case of death funeral 
 assemblages ought not to be allowed ; nor, during a cholera epidemic, 
 ought crowded assemblies for any purpose to be permitted. 
 
 During epidemics of cholera, as of some other diseases, the liability to 
 be attacked is greatest when the vital powers are depressed by mental or 
 by physical causes. Hence it is desirable that one's courage and con- 
 fidence should repose upon a consciousness of having done whatever is 
 recognized as proper to ward off the disease not by a minute, watchful, 
 and anxious attention to rules at every step, but by such a general care 
 of the health as good sense and experience enjoin. Undoubtedly, other 
 things being equal, the weak, sickly, careless, and imprudent are more 
 liable to suffer than the strong and cautious, and therefore it is incumbent 
 upon all to maintain as high a degree of health as possible, avoiding not 
 only all probable sources of contagion, direct or indirect, but excessive 
 fatigue, catching cold, depressing emotions, sexual excesses, etc. During 
 the first cholera epidemics in this country it was considered so dangerous
 
 TREATMENT. 759 
 
 to eat fruit and fresh vegetables that many persons lived entirely upon 
 meat, rice, and bread. Such a regimen intensified cholfraphobia, and 
 was also an unsuitable midsummer diet. There is no reason to believe 
 that any intrinsically wholesome food need be prohibited during the prev- 
 alence of cholera. 
 
 The one article of diet about which the greatest and most peculiar care 
 should be taken is water. It is the first duty of towns supplied with 
 water from a common source to be sure that it is, and continues to be, 
 uncontaminated. Well-water should be used as little as possible after 
 the disease has made its appearance, and, as an additional precaution, no 
 water should be drunken that has not previously been boiled. Where 
 ice can be procured it may be used to restore the boiled water to an agree- 
 able temperature for drinking. Filtered water, provided that it be prop- 
 erly filtered, may likewise be regarded as innocuous. 
 
 TREATMENT. If regard be had to the various methods and particular 
 medicines which have been used in the treatment of cholera, it will appear 
 that in hardly any other acute disease has a greater number or variety 
 been employed. If, on the other hand, we endeavor to learn what meas- 
 ures have been really and generally curative in cholera, and what are 
 they to which, on the occurrence of an epidemic of the disease, we may 
 turn with confidence in their power to cure, the result of the investiga- 
 tion is disheartening, and adds to the accumulated proofs that the power 
 of medical art is exceedingly restricted. To this conclusion we must 
 assent at whatever cost to a faith which is strong in proportion to the 
 ignorance out of which it grows. Nor, if we consider the matter ration- 
 ally, ought we to be surprised or humiliated on account of the compara- 
 tive helplessness of medicine in this disease, since, if w r e reflect upon it, 
 the case is by no means peculiar or exceptional. Every disease that may 
 become mortal occurs more or less frequently with phenomena which 
 place it beyond the resources of therapeutics as completely as cholera is 
 in its most malignant forms; and yet no. one lays it to the charge of 
 medicine that the various fevers, for example, are at times utterly unin- 
 fluenced by the most rational and judicious treatment. Nor does any one 
 bring a railing accusation against medicine when accident fatally damages 
 a part essential to life. 
 
 One accident of frequent occurrence presents a certain analogy to 
 cholera in its effects, and that is a burn or scald involving a very large 
 portion of the skin. In cases of this sort experience assures us that 
 death is almost inevitable, and that the duty of the physican is to avoid 
 officious and meddlesome treatment, and address himself to soothe the 
 patient's suffering and maintain his strength, if haply the powers of 
 nature may triumph over the effects of the injury. This, too, is the 
 lesson, substantially, which experience has taught respecting cholera. It 
 is certain that in this disease the function of the whole gastro-intestinal 
 mucous membrane is reversed, and that it is no longer a secreting and 
 absorbing organ, but one almost exclusively exhaling, and that through 
 it the liquid which is essential to carrying on the functions is rapidly run- 
 ning away. If the lesion on which this symptom depends is complete, 
 if the gastro-intestinal mucous membrane has entirely lost its natural 
 function, evidently it is quite futile to address any treatment to this organ. 
 But if, as probably happens in a great majority of the cases, the disorgau-
 
 760 CHOLERA. 
 
 ization takes place gradually, it is evident that there is more to hope from 
 remedies when the disease is gradually developed than when it reaches its 
 acme at a single bound and leaves no time for medical intervention. The 
 one unmistakable lesson that experience teaches respecting the treatment 
 of cholera is, that its success depends upon its prompt and early appli- 
 cation. Almost as distinctly does observation teach that subsequently to 
 the first (or diarrhceal) stage the comparative value of different methods 
 and individual medicines is very uncertain. And, finally, it would seem 
 that in this, as in other acute diseases, intelligent and careful nursing and 
 regimen are quite as important as any medicinal treatment whatever. How- 
 ever a false notion of the power of medicine may blind us to the fact, it 
 is none the less a fact, that if different methods of treatment are com- 
 pared, that method gives the best results which is least perturbative. For 
 example, in England, on board of a hospital ship, were 85 cases, of 
 which 19 treated by quinine gave 12 deaths, 12 by calomel gave 2 
 deaths, 12 by carbolic acid gave 3 deaths, and 37 by " Nil " gave 1 death. 1 
 Or, again, in 1865, at the London Hospital, 159 patients were treated 48 
 with a mixture containing logwood, ether, aromatic sulphuric acid, cam- 
 phor, and capsicum, of whom 31 died ; 56 with sweetened water, of 
 whom 28 died ; 21 with castor oil, of whom 14 died ; and 20 with " saline 
 lemonade," of whom 6 died. 2 In the last example the deaths during the 
 use of the astringent mixture were twice as great as under sugar and water, 
 and under castor oil twice as great as under " saline lemonade." 
 
 We shall first give an account of the management of cholera in general, 
 and then consider some of the particular medicines used in its treatment. 
 
 The essential elements of all plans of treatment for this disease, as for 
 so many others, are rest and abstinence. Whatever else may be done, 
 nothing avails without them. This remark applies emphatically to the 
 premonitory diarrhoea ; if it is neglected it may readily be converted into 
 the full-formed disease. It is therefore essential, during the prevalence 
 of cholera, that whoever is attacked with diarrhoea should at once give 
 up all active occupation, and confine himself to a recumbent posture and 
 to the use of food of the blandest quality, such as mucilages and similar 
 preparations, especially of rice, which, less than any other vegetable food, 
 is liable to fermentation during digestion. It is prudent to drink no 
 water that has not been boiled. If there is reason to believe that the 
 bowels retain feces from before the attack, it is generally thought advis- 
 able to administer a laxative dose of castor oil, to procure the discharge 
 of matters which would act as irritants. Except for this purpose purga- 
 tives are neither indicated nor expedient. In a large number of cases 
 nothing more is necessary than the use of means to check the action of 
 the bowels, and which should consist of absorbents or antacids, astring- 
 ents, and opiates as they are contained in the officinal chalk mixture, with 
 the addition of tincture of kino or catechu and a small proportion of 
 laudanum. This medicine should be given in dessertspoonful doses at 
 intervals of not more than an hour. 
 
 If, instead of a diarrhoea which differs from ordinary dyspeptic diarrhoea 
 chiefly by its watery character, there shoidd also be colic and profuse dis- 
 charges, it is proper to add to the medicines just suggested some which 
 are of a decidedly stimulant character, such as the essential oils of caje- 
 
 1 Times and Gas., Dec., 1866, p. 590. s London Hosp. Reports, iii. 444.
 
 TREATMENT. 761 
 
 put, cloves, cinnamon, peppermint, etc., with which chloroform, ether, or 
 Hoffman's anodyne may be associated. At the same time rubefacient 
 embrocations may be applied to the abdomen, which should also be com- 
 pressed slightly with a broad flannel bandage. Instead of these stimu- 
 lants, and perhaps more efficiently, may be used a simple epithem made 
 by dipping a large towel several times folded in cold or cool water, 
 applying it so as to cover the whole abdomen, and then enveloping it 
 and the body with a dry towel. This application is more soothing than 
 any liniment and its action is more constant. Instead of any of these 
 agents dry heat may be used, obtained from bags of hot salt or sand, or 
 moist heat from thick poultices of flaxseed meal or Indian corn meal or 
 similar substances enclosed in flannel bags and applied to the abdomen 
 while they are as hot as can be borne. It is difficult to determine which 
 of these applications is the most useful. But, on the whole, heat is pre- 
 ferable to rubefacients, and moist to dry heat. The cold-water dressing is 
 probably best suited to young and robust persons. 
 
 It must be remembered that between choleraic diarrhoea and cholera in 
 its complete form there are several grades, in one of the most common 
 of which a tendency to vomit, and even a certain amount of vomiting, 
 accompanies the diarrhoea. Anti-emetic remedies are then indicated. 
 They may consist externally of rubefacient and aromatic applications to 
 the epigastrium (especially the spice poultice) ; and it is claimed that a 
 hypodermic injection of morphia in this part is very efficient. Inter- 
 nally, the best remedies are ice swallowed in small pieces and small but 
 frequent draughts of iced carbonated water or iced champagne. Where 
 these liquids cannot be procured, effervescing powders used in the same 
 way form a very good substitute for them. If, notwithstanding such 
 remedies, the diarrhoea continues or if it tends to increase, astrin- 
 gent and absorbent medicines may be substituted for them ; for exam- 
 ple, bismuth may be given instead of chalk, and if this also fails acetate 
 of lead may be prescribed. The last may be used by the rectum as 
 well as by the mouth, but with very questionable advantage. Mean- 
 while, especial care should be taken to avoid giving so much of any 
 opiate as will induce sopor or excite nausea. 
 
 Whoever has had the care of cholera patients has probably, at first, 
 felt sanguine of success in their treatment, even after the characteristic 
 discharges and the symptoms of collapse had set in; but a little more 
 experience has proved their hope to be deceptive, and revealed the reason 
 of it in the absolute suspension of the sensibility and absorbent function 
 of the digestive canal. Hence the dismal unanimity of all medical 
 authors, who from actual observation of cholera have declared that no 
 treatment avails to arrest the fully-developed disease. And yet there is 
 some encouragement in the fact that recoveries sometimes occur from 
 even the most desperate state of collapse and under the most dissimilar 
 methods of treatment ; so that the physician is warranted in not yielding 
 to discouragement and in cheering his patients with hope even to the end 
 of life. The popular dread of this, and indeed of all epidemics, is sure 
 to be exaggerated, and it therefore behooves the physician to combat the 
 fears of his patients, and by a cheerful manner as well as encouraging 
 words administer the cordial of hope, which often proves stronger than 
 phannaceutic elixirs.
 
 762 CHOLERA. 
 
 It may be well to enumerate, as many do, the indications of treatment 
 in the active stage of cholera, but they really need no such specification. 
 It is evident that they consist in combating the symptoms the vomiting, 
 the purging, the debility, the cyajQOsis, the cramps, etc.; and the only 
 means by which the carrying out of such indications can even be 
 attempted are neither more nor less than would be used to relieve the 
 same symptoms in other affections. If the evacuations could be con- 
 trolled, evidently the cramps and the collapse would not occur ; but this 
 essential and preliminary step cannot be secured. The medicines intro- 
 duced into the stomach or rectum are not absorbed, but are speedily 
 rejected ; those which are administered subcutaneously are not taken up 
 by the stagnant blood as freely as in other diseases ; the nervous system 
 gives little or no response to the mechanical and physiological stimulants 
 applied to the skin. Yet, in spite of these obstacles, the physician must 
 persist in the use of rational methods, in the hope, however faint it may 
 be, that he may succeed in restraining, and possibly in arresting, the fatal 
 course of the attack. For this end he has hardly any means at command 
 except those, or such as those, which were recommended in the first stage 
 of the disease the anti-emetic and anti-diarrhoeal medicines, which he is 
 only too likely to see rejected as soon as administered. Yet he must not 
 cease to allay the thirst by the repeated administration of small quantities of 
 carbonated and cold liquids, water, or champagne wine, or morsels of ice 
 swallowed whole. The application of pounded ice in a bladder to the 
 epigastrium is a measure of an analogous sort, and is sometimes as 
 efficient as generally it is soothing. In other cases the aromatic poultice 
 seems to answer better. Of irritants little can be said that is favorable, 
 but the combined irritant and anaesthetic action of chloroform is useful, 
 and morphia should be applied to the epigastrium as well as given hypo- 
 dermicaUy. 
 
 If the vomiting tends to become less frequent, acetate of lead may be 
 prescribed, in the hope that it will exert some constringing action upon 
 the gastro-intestinal mucous membrane. The distressing symptom, hic- 
 cough, cannot with any certainty be controlled by medicine, but perhaps 
 the inhalation of chloroform is more efficient than any other remedy, as 
 it also is for the cramps in the limbs. For the latter purpose it is prefer- 
 able to the frictions with flannel or with stimulating liniments which are 
 generally employed. If such liniments are used, care should be taken 
 that they do not contain ingredients that may disorganize the skin either 
 immediately or subsequently. A dangerous compound of the latter sort 
 introduced during the first epidemic of cholera in this country became 
 officinal under the name of liniment of cantharides. 
 
 The loss of the water and of the salts it holds in solution in the blood 
 is. as has now been frequently repeated, the chief pathological element of 
 the disease, next after the conjectural cause which injures the mucous mem- 
 brane of the stomach and bowels. It was rationally indicated, and there- 
 fore a method was early practised, to supply this loss by injecting into the 
 veins a solution of sodium salts. The method was seductive as well as 
 rational, for its primary effects were extremely encouraging; it neverthe- 
 less failed, and probably for the very reason that suggested its use. 
 Indeed, there is no more reason, if there is as much, to suppose that a 
 liquid artificially introduced into the blood-vessels will be retained when
 
 TREATMENT. 763 
 
 the natural liquor sanguinis cannot be so. Necessarily, the one will 
 escape where the other has escaped. 
 
 Certain systematic writers prescribe a method intended, on the one 
 hand, for reviving the animal heat x and on the other for restoring the 
 movement of the circulation. It need hardly be remarked that the two 
 form essentially but one and the same indication. If the circulation is 
 restored the animal heat will revive, but not otherwise. The same treat- 
 ment leads to both ends, and it consists partly, as already stated, in the 
 use of stimulants, such as alcohol, camphor, coffee, ether, etc. ; but their 
 efficacy depends upon their being taken into the blood, and with it reach- 
 ing the various nervous centres upon which the renewal of functional 
 activity depends. Little, therefore, can be expected from them at the 
 height of the disease that is, in the stage of collapse but as soon 
 as any signs of reaction are manifested they tend to promote it, and 
 hence may enable the functions to revive. For this reason they are 
 adapted to persons who are feeble by reason of their tender or their 
 advanced age, or who have previously suffered from ill-health. But if 
 they act at all, and the more they tend to act, they must be employed 
 with circumspection, lest they outrun the purpose of their adminis- 
 tration and produce a violent or excessive reaction. Instead of, or in 
 conjunction with, these internal remedies the local stimulants of the- 
 skin, already enumerated, may be used with the due precautions, and, in 
 addition, baths at a temperature of 105 F. of water alone or with the 
 addition of salt or mustard ; but all such remedies are of little avail until 
 reaction has commenced. Before that event there is reason to believe that 
 the cold bath is preferable, or, still better, frictions of the whole body with 
 cold water, or even with ice, after which the patient should be wrapped 
 in dry and warm blankets. Yet the efficacy of this powerful agency is 
 by no means comparable to that which it produces in the algid forms, of 
 malarial fever. The two conditions, although apparently analogous, are, 
 in reality, very different. In the cold stage of fever the mechanism is 
 indeed paralyzed, but none of its mechanical elements are wanting; but 
 in algid cholera there is an actual subtraction of water from the blood, 
 that turns it from a liquid capable of circulating through the narrowest 
 channels into one that stagnates even in the largest vessels. In the one 
 case force is wanting to circulate the blood ; in the other there is no nor- 
 mal blood to circulate. 
 
 The treatment of the stage of reaction when it does not exceed a mod- 
 erate degree, consists simply in strictly enforcing the rules for the patient's 
 repose; that is to say, in intelligent' nursing. Mental excitement must be 
 forbidden, and neither medicine nor food allowed that is likely to interfere 
 with the gradual and steady progress of convalescence. Of all articles 
 of food, cool water is not only the most urgently desired, but is the most 
 imperatively necessary for replenishing the emptied blood-vessels and 
 restoring the normal functions. But unless great caution is observed it 
 will be taken too freely and provoke a renewal of the discharges. If any 
 food besides water is allowed, it should be of the simplest sort of whey 
 first, and then of milk in small quantities at a time, with lime-water if it 
 provokes nausea or retching. Afterward thin broths may be given, also 
 in great moderation, and by degrees farinacea in milk and in animal 
 broths. Only when the strength is much improved should even the mosi
 
 764 CHOLERA. 
 
 digestible meats be permitted. In proportion as convalescence is marked 
 or interrupted by symptoms of undue reaction is it necessary to prolong and 
 render stringent this regimen; and if those symptoms unfortunately arise 
 which oftener, perhaps, dej)end upon an over-zealous stimulant treatment 
 than upon the natural reaction of the system, they must be combated by 
 measures which will lessen the local congestions, especially of the brain 
 and the lungs, and also by such as will tend to prevent the system from 
 falling into a typhoid state. For the former dry cups applied to the back 
 of the neck, and cold lotions and affusions upon the scalp, are to be recom- 
 mended, and for the latter dry cups and warm stimulating poultices upon 
 the chest near the affected region. It is probable that the general warm 
 bath, with -cold affusion upon the head at the same time, would prove as 
 efficient as it does in analogous states of typhoid affections. If the uri- 
 nary secretion is suspended or remains scanty, there is not usually an 
 urgent need of using means for its restoration ; for that will generally 
 occur when the blood-vessels become replenished. It should, however, 
 be mentioned that, according to Macnarnara, if the patient does not pass 
 any urine within thirty-six hours of reaction coming on, ten minims of 
 the tincture of cantharides in an ounce of water should be given every 
 half hour until six doses have been taken, and the patient encouraged to 
 drink freely of water. If this treatment does not cause urine to pass, we 
 must, after the sixth dose, discontinue the medicine for twelve hours, and 
 then repeat it in precisely the same way. The dose here referred to is of 
 the British preparation, and if the use of it were not recommended by so 
 competent an authority its propriety might very properly be challenged. 
 
 After the cholera patient has become convalescent his restoration is very 
 apt to be retarded by dyspeptic disorders, for which, perhaps, the best 
 remedy is a judicious use of condiments with the food and of bitter 
 tonics, especially quinine, Colombo, quassia, etc., before meals. If there 
 is constipation, it should be corrected by the cautious use of fruits, and, 
 if these prove insufficient, of mild saline laxatives or small doses of castor 
 oil or rhubarb. On the other hand, if there is a tendency to diarrhoea, 
 it should be met by the use of a mild laxative, such as castor oil, magne- 
 sia, or rhubarb, followed by chalk or bismuth, and the use for a time of 
 simpler food and in less than the usual quantities. 
 
 Having thus furnished a sketch of the plan of treatment of cholera 
 which we regard as dictated by experience, it may be not without some 
 interest to consider certain elements of the method a little more fully, 
 and criticise, in passing, some other remedies which have from time to 
 time been proposed. The first of these is venesection. There was a 
 time when certain physicians, carried away by conceptions of the disease 
 evolved from their inner consciousness, maintained that it consisted essen- 
 tially of a spasm of the blood-vessels, and that the natural and legitimate 
 cure for it was to be found in bleeding. No theory is so gratuitous or 
 absurd but cases may be found which appear to justify it, and in this 
 instance also examples were not wanting to illustrate at once the truth of 
 the theory and its successful application. Longer experience, however, 
 and a more correct conception of the disease, have long since condemned 
 this method, which was almost as dangerous as it was irrational. If any 
 additional argument against it were required, it would be found in the 
 condition of the lungs after death. These organs, we have seen, are not
 
 TREATMENT. 765 
 
 only not engorged, but they are empty of blood, and death is due not to 
 asphyxia, but to apno3a, when it takes place in collapse. 
 
 If ever there existed any reason for the administration of an emetic 
 and ipecacuanha has generally been used at the commencement of an 
 attack of cholera it must be looked for, not in any clinical experience 
 of its virtues, but simply in the deplorable routine that required the 
 administration of an emetic at the commencement of nearly all acute 
 diseases, so that, whatever else was prescribed, the lancet and an emetic 
 seldom failed to be so. In this case also the proofs of the successful 
 administration of ipecacuanha were not wanting, and one might be 
 tempted to suppose, in view of the alleged facts in its favor, that it was 
 useful by causing an evacuation of the material cause of the disease. 
 Physicians were even to be found, of high station and character, who 
 contended that cholera is a species of fever, and to be treated by an 
 emeto-cathartic composed of tartar emetic and epsom salts. If the treat- 
 ment had been efficient, the absurdity of the reasons for it might have 
 been overlooked ; but the one was as disastrous as the other was false. 
 But, as usual, the facts had been misstated or misinterpreted, and emetics 
 ceased to form a part of the systematic treatment of cholera. The idea 
 which possessed those who advocated the use of evacuants was that 
 there was either a poison to be eliminated from the blood or one to be 
 expelled from the bowels. Apparently, the method was not efficacious, 
 for the latest phase of it, the use of castor oil in acute stage of cholera, 
 was of short duration. 
 
 When cholera first appeared in Europe the tendency naturally arose to 
 follow in its treatment the example of the British practitioners in India. 
 It then appeared that one of the most eminent among them, Annesley, 
 gave a scruple of calomel, with two grains of opium, at the commence- 
 ment of the attack, and repeated the dose in six or eight hours, and again 
 upon the following day. In the decline of the disease he ordered scruple 
 doses of calomel for the removal of a " cream-colored, thick, viscid, and 
 tenacious matter exactly like old cream cheese, which glues the gut 
 together and obstructs its passage." Three, four, and even five, scruples 
 of calomel were usually taken before this effect was produced. "When it 
 is added that this practitioner held depletion to be the capital element of 
 the treatment, and that he was equally lavish of his patient's blood and 
 of his own drugs, we can only wonder that any subjects of his heroic 
 method survived. It is now conceded by all enlightened physicians that 
 mercurials in large or in ordinary doses are worse than worthless in epi- 
 demic cholera. In 1832, Dr. Ayre of Hull, Eng., proposed another 
 method of using calomel, to which he adhered in treating this disease. 
 It consisted in the administration of very small doses of calomel at short 
 intervals, and with each of the first doses a few drops of laudanum. 
 Such a method, if not carried too far, certainly has the merit of sparing 
 the patient a great deal of the perturbative treatment against which we 
 have, in the preceding pages, protested. But that was not at all the 
 notion of its proposer. He claimed for it positive and active virtues. 
 Ho stated, as the fundamental ground of his plan, that "the primary and 
 leading object of the treatment must be to restore the secretion of the 
 liver." He did not in the least doubt that he was able to do this by the 
 administration of mercury not, indeed, by a direct action upon the liver
 
 766 CHOLERA. 
 
 itself, but indirectly and sympathetically through the stomach, and by 
 the healthy and specific stimulus imparted to it, by which the due secre- 
 tion of the bile is promoted. It is, indeed, difficult to conceive of any 
 -tinmlus that calomel could impart to the stomach that would not be 
 equally given by any other non-irritant and insoluble powder subni- 
 trate of bismuth, for example. Indeed, Ayre himself relates the case 
 of a man who in an attack of cholera took during three days no less than 
 five hundred and eighty grains of calomel, and recovered without any 
 soreness of the mouth. But the plan which he finally elaborated was 
 different. It was to give small doses of calomel repeatedly in the pre- 
 monitory stage one grain every half hour or hour for six or eight suc- 
 cessive times, or, if this failed, every five or ten minutes and in the stage 
 of collapse one grain and a half every five minutes. In a few cases of 
 extreme severity two grains of calomel were given every five minutes for 
 an hour or two, and then the ordinary dose of one grain was resumed. 
 But this was not all : with every dose of calomel was associated one, two, 
 or three drops of laudanum, so that if these doses were repeated fre- 
 quently the patient received a very efficient amount of the narcotic dur- 
 ing the attack. Indeed, Ayre attributed to it the virtue of sustaining 
 the vital powers under the depressing influence of the disease, and of 
 removing or abating the cramps, as well as of detaining the calomel in 
 the stomach. 1 From the preceding account it follows that the treatment 
 of cholera by small doses of calomel with laudanum is founded on an 
 erroneous assumption of the mode of action of calomel, and that what- 
 ever efficacy the plan of treatment may possess may with more justice be 
 attributed to the opium, whose effects we know, than to the calomel, 
 whose action, so far as it is known at all, has no conceivable relation to 
 the disease for which it was given. However this may be, if the results 
 of Ayre's treatment are compared with those of other plans, it exhibits 
 very little if any superiority. In the report of the cholera committee of 
 the College of Physicians, London, made in 1853, we find the statement 
 that in 725 unequivocal cases treated on Ayre's plan the deaths were 365, 
 or about 50 per cent., and also the following commentary : " In general, 
 no appreciable effects followed the administration of calomel, even after a 
 large amount in small and frequently-repeated doses had been adminis- 
 tered. For the most part, it was quickly evacuated by vomiting or purg- 
 ing, or, when retained for a longer period, was passed from the bowels 
 unchanged. Salivation but very rarely occurred, and then only in the 
 milder cases. We conclude that calomel was inert when administered in 
 collapse, and that the cases of recovery following its employment at this 
 period were due to the natural course of the disease, as they did not sur- 
 pass the ordinary average obtained when the treatment consisted in the 
 use of cold water only." 2 It is of interest to ceiupare the mortality of 
 50 per cent, above stated to have occurred under this sort of calomel 
 treatment with the mortality noted at the London Hospital under various 
 kinds of treatment, including the administration of calomel in doses 
 varying " from five to ten and twenty grains every quarter, half, one 
 hour, two, four, etc." Out of 509 cases, 281 were fatal, or 54.9 per cent. 2 
 Every disease in which exhaustion and coldness occur is sure to be 
 
 1 A Report on the Treatment of the Malignant Cholera, Lond., 1833. 
 
 * Dr. Gull's Report, p. 177. 3 Lond. Hosp. Report*, iii. 43?, -41.
 
 TREATMENT. 767 
 
 treated more or less actively with alcohol, but iu the collapse of cholera, 
 as in tlue cold stage of fevers, it is generally useless, and sometimes hurt- 
 ful. We believe that the following protest of Macnamara is sustained by 
 almost universal experience : " I would here enter an earnest protest 
 against the use of brandy or any alcoholic stimulant in this [the second] 
 stage of cholera. I believe these, both theoretically and practically, to 
 be the cause of unmitigated evil. I simply, therefore, mention brandy, 
 champagne, and the like in order to condemn their use most emphatically 
 in cholera ; according to my ideas and experience, it is almost impossible 
 to hit on a more detrimental plan of treatment than that usually known 
 as ' the stimulant ' in this form of disease." l It is true that apparent 
 dissidents from this judgment may be found, like Play fair, a deputy 
 inspector of hospitals in Bengal, who even circulated printed directions 
 for the treatment of the first stage of the disease by means of brandy 
 or strong rum, cayenne pepper, and laudanum, and had entire confi- 
 dence in the efficacy of the method. 2 Dr. Macpherson, inspector-general 
 of hospitals, also, after comparing the results of a stimulant treatment with 
 those of other methods, reaches the conclusion that the mortality-rate of chol- 
 era is affected neither by the moderate nor by the excessive use of alcohol. 3 
 Upon no other point in the treatment of cholera is the agreement of 
 physicians more complete than upon the use of opiates in the early stage 
 of the disease. The premonitory diarrhoea has always been treated by 
 opiates alone or associated with astringents. Probably the best rule is to 
 give from twenty to thirty drops of laudanum, or an equivalent dose of 
 some other liquid preparation of opium, in a little brandy and water, and 
 repeat the dose as often as a stool is voided. Opiates have also been 
 generally employed to mitigate the symptoms of the fully-developed disease. 
 But, like all other medicines introduced into the stomach or rectum, they 
 are apt to be rejected, and even if they are not, their absorption is very 
 doubtful, so that at the height of the attack they must be considered as 
 nearly if not quite useless. When the vomiting and purging begin to 
 subside and reaction is about to commence, small and repeated doses of 
 opiates undoubtedly tend to lessen the evacuations; but great caution 
 must be observed not to exceed the due degree of stimulation, lest a 
 dangerous state of narcotism or collapse be induced. It might be sup- 
 posed that the hypodermic use of morphia would be less open to objec- 
 tion than its- administration by the stomach; but it is to be remembered 
 that the suspension of gastric absorption is only a part of the similar con- 
 dition affecting the whole circulatory system, and that the stagnation of 
 the blood in the systemic veins prevents the absorption of medicines 
 administered subcutaneously perhaps as completely as the state of the 
 gastric blood-vessels interferes with their absorption from the stomach 
 itself. In point of fact, the utility of opiates at any stage of cholera 
 after the first is not easily determined, for nearly always they are asso- 
 ciated with other medicines, and especially with astringents. In this dis- 
 ease, as in others that involve life, we are seldom at liberty to test the 
 powers of individual medicines, but are bound to endeavor to save life by 
 associating those which seem to be required for the purpose. Opiates, then, 
 are nearly always given in conjunction with astringents or stimulants dur- 
 
 1 Op. cit., p. 456. * Edinburgh Med. Jour., xix. 471. 
 
 8 Med. Times and Qaz., Jan., 1870, p. 62.
 
 768 CHOLERA. 
 
 ing the first (or diarrhceal) stage of the attack, but after vomiting is added 
 to diarrhoea and a tendency to collapse is manifested they are at least useless. 
 
 The patient, it has already been said, should be disturbed as little as 
 possible, and hence, if he becomes restless, and especially if he is ren- 
 dered so by pain, he should be tranquilized by means of anaesthetics. 
 Chloroform has generally been employed, and is best administered on the 
 first accession of cramps. Much pain, with muscular fatigue and depres- 
 sion, is thus saved, and the inhalation of the medicine may be repeated as 
 often as the pain threatens to return. No doubt other anaesthetics, and 
 especially ether, would answer the same purpose. 
 
 Camphor has been claimed to be a valuable medicine in cholera, but 
 there is no clinical evidence that it is so. Indeed, the only series of cases 
 in which it was mainly depended upon gave a large mortality. 
 
 Acids have been employed in cholera, but chiefly on theoretical grounds, 
 " in the hope of destroying the specific cholera process going on in the 
 intestinal canal " (Macnamara). It is hardly necessary to discuss so vague 
 a reason. What specific process is going on ? What relation to it has the 
 administration of acids? And, after all, only the hope is held out of 
 destroying the hypothetical morbid process. The reaction of normal 
 stools is usually acid, but sometimes it is neutral or even alkaline. In 
 other acute bowel complaints with profuse diarrhoea they are acid, as in 
 cholera infantum, but in epidemic cholera they are alkaline, because they 
 consist chiefly of the water of the blood. It is far from proven that 
 mineral acids can be useful -merely by reversing the reaction of the stools. 
 Far more probable is it that, in so far as they are of use, it is because they 
 act as astringents upon the digestive mucous membrane. This may be 
 inferred from the fact that, according to the advocates of these medicines, 
 it is always difficult, and is often impossible, to acidify the stools in 
 cholera. Moreover, it must be remembered that, like other medicines, 
 the greater part of them are rejected by vomiting. If, then, mineral 
 acids tend to lessen the diarrhoea of cholera, they act by their astringency 
 and not by their acidity. Diluted or aromatic sulphuric acid may be 
 given in the dose of from two to thirty minims, at intervals of an hour, 
 in acid water or carbonated water, or diluted nitric acid, in^doses of from 
 twenty to fifty minims, at the same or somewhat longer intervals. 
 
 Intravenous injections were used in England during the first epidemic 
 of cholera in 183233, but their results were regarded as unfavorable ; sub- 
 sequently, in 1849, they were tried with somewhat better success, and in 
 1867 the effects were still more encouraging. The liquid employed on the 
 last-mentioned trial consisted of chloride of sodium 60 gr., chloride of 
 potassium 6 gr., phosphate of sodium 3 gr., carbonate of sodium 20 gr., 
 alcohol 2 drachms, and distilled water 20 ounces. The alcohol was added 
 only when the liquid was about to be used, and the temperature of the 
 latter was not allowed to exceed 110 F. or fall below 100 F. The 
 liquid was contained in a zinc vessel holding about eighty ounces, with a 
 lamp underneath, a thermometer hanging within, and a tap near the bot- 
 tom, from which proceeded an india-rubber tube four feet long, with a 
 silver nozzle at its end. The fluid was allowed to enter the vein by the 
 force of gravity. If difficulty was experienced in introducing the nozzle, 
 the vein was freely exposed, supported on a probe, and incised longitudi- 
 nally. It was found that the success of the operation depended greatly
 
 TREATMENT. 769 
 
 upon having an ample supply of the solution prepared, so as to repeat 
 the injection as often as might be found necessary. Mr. Little, who prac- 
 tised this method in numerous cases, stated as follows : " When a patient 
 has been long pulseless clots form in the heart, and, as I have seen, 
 extend into the larger veins. In one case the fluid would not flow in, 
 and only distended the veins of the arm injected. After death clots were 
 found extending from the heart into the axillary vein. 1 Five out of 
 twenty apparently hopeless cases recovered under this treatment. The 
 first effect of the injection was to revive the pulse, which had ceased to be 
 felt; the voice also was restored, the color and expression improved, the 
 cramps were relieved, the temperature rose, and the patients became con- 
 vinced that their recovery was assured. A profuse perspiration and a 
 severe rigor accompanied these symptoms. The rigor was evidently a ner- 
 vous phenomenon, and not a chill, for it occurred when the temperature was 
 rising. Other cases might be cited which unquestionably owed their 
 recovery to this mode of treatment. It is true, however, that much more 
 frequently it failed of success ; and probably not only because the injec- 
 tion could not reach the heart, but because, having permeated the blood- 
 vessels of the whole body, it escaped, as the serum of the blood had done, 
 from the damaged intestine. Nevertheless, it would seem that an expedient 
 which in a certain proportion of cases has been quite successful might yet be 
 rendered more certain in its results if the operative procedure were perfected. 
 
 Cramps in the limbs may be lessened by active friction and sham- 
 pooing, but there is no clinical reason for believing that these measures 
 tend to restore the circulation. Equally ineffectual are other means used 
 for communicating heat to the algid body and thereby reviving its func- 
 tions. It is true that some physicians found that warm baths, at from 
 90 to 104 F., gave relief to the cramps and restored the failing pulse. 
 In most cases the calming influence of the bath was noted, but it does not 
 seem to have been curative or to have diminished the mortality-rate. 2 It 
 should not be forgotten that the patient has no perception of his coldness. 
 In all analogous conditions, as has already been remarked, such as frost- 
 bite and the cold stage of periodical fevers, cold, and not heat, promotes 
 reaction. Still more injurious, if possible, than hot applications are irri- 
 tants and stimulants after the stage of collapse has set in. Not only are 
 they absolutely futile for restoring the animal temperature, but they are 
 liable, unless very cautiously used, to produce intractable sores upon the 
 skin if recovery ensues. It should also be remembered that the cholera 
 patient's exhaustion is exceptionally great, and is apt to be increased by 
 the officiousness implied in the use of many stimulating agents. 
 
 As early as 1832 a marked advantage was ascribed to the use of cold 
 affusions in cholera. 3 One of the physicians of the cholera hospital of 
 Berlin said: "In these living corpses which are struck with asphyxia, 
 lying cold and powerless, external and internal medicines cease to stimu- 
 late; no steam apparatus, no warm bathing, no friction, no irritant, avails." 
 The condition is comparable to that in approaching death by cold, in which 
 friction with snow is well known to be the proper remedy. Cold affusions 
 were employed in the second stage of the disease. If the pulse revived, 
 the affusions were continued in a tepid bath, after which the patient was 
 
 1 London Hosp. Reports, iii. 470. 2 Tbid., iii. 445 ; St. Bartholomews Reports, iii. 190. 
 "Ainsworth, Pestilential Cholera, 1832. 
 VOL. I. -19
 
 770 CHOLERA. 
 
 put to bed and gently rubbed with cold flannels. Internally, ice-water 
 was freely administered. Labadie-Lagrave 1 refers to forty cases treated 
 in this manner, with only seven deaths. Yet the cold-water treatment 
 does not appear to have commended itself to physicians generally. Evi- 
 dently it does not meet the prime indication, which is to restore the 
 wasted waters of the blood and retain it in the blood-vessels. 
 
 Cold water ought to be given as freely as possible to assuage the thirst 
 that exists in every stage of cholera, and especially in collapse. Nor 
 should it be withheld because it will presently be rejected, for not only 
 does it produce a grateful sensation in the mouth and throat, but it ren- 
 ders the act of vomiting easier. Yet, to some extent at least, the thirst may 
 be allayed by rinsing the mouth and throat with cold water. Iced water 
 is preferable to ice used for the same purpose, for the latter, by its rela- 
 tively intense coldness, irritates and dries the mouth. Fragments of ice 
 swallowed whole allay the burning heat in the stomach. 
 
 On the hypothesis that the cholera poison consists of organic germs 
 various antiseptics have been employed in this disease. Permanganate of 
 potassium was fortunately excluded from the list, on account of its corro- 
 sive action, but, unfortunately, carbolic acid was conceived to possess vir- 
 tues that rendered it an eminently suitable remedy, and creasote, which 
 resembles it very closely, was presumed to possess corresponding virtues. 
 Then sulphurous acid and the sulphites, which for a time were warranted 
 to destroy every species of germ, were confidently appealed to to stay the 
 progress of cholera, and it was at one time even a matter of dispute whether 
 sulphite of sodium or sulphite of potassium was the more efficacious. In truth, 
 all of these medicines were useless, even when they were not mischievous. 
 
 Cholera has never prevailed in any country without giving rise to extra- 
 ordinary theoretical and practical divagations. One physician in the 
 earliest American epidemic gravely proposed, as the best mode of check- 
 ing the diarrhrea, to plug the anus with a soft velvet cork. Another, in 
 England, suggested that the "blood may be kept circulating by putting 
 the patient on his back on a board and keeping up a rocking, see-saw, to- 
 and-fro movement from eighty to one hundred times a minute." Another 
 had the revelation that the disease is essentially a " paralysis of the sym- 
 pathetic nerve and want of performance of the organic functions, with 
 deficient vitality of the mucous membranes," and that its proper remedies 
 are " bleeding, turpentine, and cool drinks, without heat and stimulants ; " 
 and to this remarkable doctrine a well-known physician gives his adhe- 
 sion, thus: "The cause, I firmly believe, is an union of the poison with 
 the sympathetic." 2 Still another discovered that the disease is a spinal 
 disorder, and is to be treated by the application of ice-bags to the spine. 
 Were not the evidence so palpable, it would hardly be believed that such 
 irrational ideas should have been published concerning a disease which had 
 then been under observation by the whole medical profession in Europe and 
 America for more than thirty years, and in Asia for a much longer period. 
 
 The most important lesson to be drawn from this history of the treat- 
 ment of epidemic cholera is, that the arrest of the disease in the diarrhreal 
 stage is comparatively easy, and that in the stage of collapse its cure by 
 any means whatever is altogether an exceptional occurrence. 
 
 1 Du Froid en Therapeutique, 1878. 
 
 'Times and Gazette, Aug., 18G6, p. 209; ibid., Nov., 1866, p. 555.
 
 THE PLAGUE. 
 
 BY JAMES C. WILSON, M. D. 
 
 DEFINITION. An acute specific fever of short duration and very 
 fatal, endemic in certain Oriental countries, and frequently epidemic ; it 
 is characterized by buboes, carbuncles, and petechiae. 
 
 SYNONYMS. (/T^T?, plaga, a stroke); the Pest; Pestilence; the 
 Bubonic, Glandular, Inguinal Plague ; the Oriental, Levantine, Levant 
 Plague ; the Indian, Pali Plague ; Mahamari ; Septic or Glandular Pes- 
 tilence ; Pestilential Fever, Adeno-uervous Fever ; Typhus Pestilentialis, 
 Gravissimus, Bubonicus, Anthracicus, etc. Gr. 6 loi/wt; ; Lat. Pestis; 
 FT. La Peste ; Ger. die Pest, Beulcnpest. 
 
 CLASSIFICATION. The plague, pest, pestilence, and their equivalents 
 in various tongues, are terms that have been used from the earliest his- 
 torical times to designate every epidemic disease attended by great mor- 
 tality. As knowledge of diseases becomes clearer the terms by which 
 they are designated become more definite ; those which did service for a 
 class are restricted to particular groups, and new names are found for 
 other maladies only allied to such groups by superficial resemblances. 
 Hence by degrees the term plague has become more restricted in its use. 
 To-day it is understood as designating exclusively the specific affection 
 defined above, the bubo plague. 
 
 The student of medical history meets with insurmountable difficulties 
 in attempting to classify the recorded epidemics which have been described 
 under this term. Even when used in its more restricted signification, 
 difficulties as to the propriety of its application to certain epidemics arise. 
 Thus, nosologists are not in agreement as to whether the great plague 
 the black death which swept over Europe in the fourteenth century and 
 destroyed in three years twenty-five millions of inhabitants, was a modi- 
 fication of the bubo plague or an essentially different disease. A like 
 difference of opinion exists in regard to the relationship between the 
 Indian or Pali plague which has from time to time prevailed in North- 
 western India during the present century and the true plague. 
 
 The black death of the fourteenth century and the Pali plague, though 
 presenting many of the characteristics of bubo plague, differ from it, 
 while they resemble each other, in one important particular. Among the 
 earlier and more common symptoms of note are those dependent upon 
 gangrenous inflammation of the lungs, a lesion, according to Hirsch, 1 
 extremely rare in bubo plague. This author informs us that recent 
 observations have fully confirmed the early opinion that the Pali plague 
 
 1 Handbuch der historisch-geographischen Pathologic, Dr. August Hirsch, 1860. 
 
 771
 
 772 THE PLAGUE. 
 
 differs from that of the Levant chiefly in this modification, and cites 
 Pearson and Francis as saying of the former disease that " the collective 
 symptoms are more like those of plague than of any other known 
 
 disease We believe it to be in all essential particulars identical 
 
 with the plague of Egypt." 
 
 The three forms of plague (a) the grave (or ordinary), (6) the ful- 
 minant (pestis siderans), and (c) the larval or abortive, observed in epi- 
 demics and hereafter to be described do not represent distinct varieties 
 of the disease, but are merely expressions of differences in the intensity 
 of the action of the infecting principle upon different groups of individ- 
 uals in given communities differences to be explained here, as in the other 
 infectious diseases, in part by variations in the activity of the poison itself, 
 in part by the individual peculiarities and susceptibilities of those exposed 
 to it. 
 
 HISTORICAL, SKETCH. Upon the authority of Rufus of Ephesus, 
 quoted by Oribasius, 1 it is stated that the bubo plague prevailed as 
 an endemic, and at times as an epidemic disease, in Libya, Egypt, and 
 Syria prior to the beginning of the Christian era. 
 
 In the year 542 A. D., according to Procopius, 2 the plague appeared in 
 Egypt, at Pelusium ; extended westward to Alexandria ; eastward to 
 Palestine, Syria, and Persia ; passed from Asia Minor to Europe, where 
 it first invaded Constantinople, whence it spread in all directions with 
 such fury that before the close of the sixth century one-half the inhabit- 
 ants of the Eastern empire had perished, either of the plague itself or of 
 the universal destitution that followed in its train. 
 
 With this epidemic, known in history as the Justinian plague, this 
 disease established itself for the first time in Europe, where it maintained 
 foothold for more than a thousand years. 
 
 About the middle of the seventeenth century the wide prevalence of 
 the plague in Europe began to draw to an end. In Spain it was epi- 
 demic for the last time from 1677 to 1681 ; in Italy the last general epi-. 
 demic came to a close in 1656, although local outbreaks continued to 
 occur till the beginning of the following century. In France it still pre- 
 vailed in several provinces in 1668, although it had for the most part dis- 
 appeared some years before. In Switzerland we encounter it for the last 
 time in 1667-68 ; in the Netherlands in 1677 ; from England the plague 
 disappeared with the great outbreak of 1665. In the early part of the 
 eighteenth century two important epidemics occurred within the bound- 
 aries of Europe. The first spread from Turkey, through Hungary and 
 Poland, to Russia, thence to Norway and Sweden, and along the shores 
 of the Baltic Sea to the Low Countries. This epidemic came to an end 
 in 1714. Six years later the last great outbreak of the plague on 
 European soil took place. It prevailed with great fury in Marseilles in 
 1720-21, and overran the whole of Provence. From this date till the 
 close of the century Europe remained free from the plague, with the 
 exception of Turkey and the contiguous countries. During the second 
 and third decades of the present century repeated epidemics occurred in 
 the Balkan Peninsula and the regions bordering on the Lower Danube 
 and the Black Sea. The plague appeared also in Malta in 1813, and pre- 
 vailed till 1815, and in 1816 it reached certain of the Ionian Islands. 
 1 ifedicinalia Collecta. * See Ilirsch.
 
 HISTORICAL SKETCH. 773 
 
 Only twice has this pest shown itself during the present century in 
 Western Europe once, during the epidemic at Malta in 1815, at Noja, 
 a town of the Neapolitan province of Bari ; the second time, in 1820, at 
 Majorca, whither it was carried over from the coast of Barbary. 
 
 Between 1552 and 1784 the plague prevailed twenty-six times in 
 Tunis and Algiers. Some idea of the importance assumed by this 
 scourge in the countries of North-western Africa may be found from the 
 fact that many of these epidemics lasted continuously for years, that 
 which came in 1784 not ceasing for fifteen years. Between 1816 and 
 1821 the plague again prevailed in Tunis and Algiers, and again in 
 1836-37. 
 
 During the first half of the present century a change took place in 
 the prevalence of the disease elsewhere. Shortly before its complete dis- 
 appearance from Europe it ceased to prevail in Western Africa (with the 
 exception of the Nile countries), in Mesopotamia, and in Persia. It dis- 
 appeared from Asia Minor, Syria, and Palestine in 1843, from Egypt in 
 1844. 
 
 For a short period the plague seemed to have disappeared altogether. 
 Those who cherished this hope were, however, destined to disappoint- 
 ment. In 1853 an outbreak occurred in the Assyr country, Western 
 Arabia ; and from that time till the present unmistakable local epidemics 
 of the bubo plague have occurred in isolated regions of Africa and Asia ; 
 thus, in 1858 at Benghazi in Tripoli ; in 1857 in Mesopotamia; in 1863 
 in the district of Maku, Persian Kurdistan; in 1867 in the marsh dis- 
 trict on the right bank of the Euphrates ; in 1870 in Persian Kurdistan ; 
 in 187173 in the Yunnan province, Western China; in 1873 in the 
 marsh district on the left bank of the Euphrates. During four years 
 following the outbreak of 1873 the disease continued to prevail over an 
 extensive area in the countries bordering on the northern banks of the 
 Persian Gulf. In 1874 it reappeared also in the Assyr district, Western 
 Arabia, and in Benghazi, Northern Africa. In 1876, whilst still infest- 
 ing the regions about the Lower Euphrates, the plague appeared in South-' 
 eastern Persia, and during this and the following years it appeared at 
 several isolated points on the borders of the Caspian Sea. Early in 1878 
 the disease was reported as prevailing in the district of Souj-Bulak, Per- 
 sian Kurdistan, and it appeared in October of the same year at tjie Cos- 
 sack village "Vetlanka, on the Lower Volga, district of Astrakhan, Russia, 
 after an absence from Europe of thirty-seven years. It has more recently 
 prevailed in the Assyr district, Western Arabia, and there have been 
 rumors of its reappearances in Persian Kurdistan. 
 
 The Indian or Pali plague (Mahiimari) has prevailed in local epidemics 
 of great severity on several occasions during the present century in the 
 North-western provinces of India. This fever was first recognized in 
 Kutch in May, 1815, after a season of great scarcity of food. It spread 
 rapidly over an extensive territory, and appeared in the spring of the 
 following year at various points in Guzerat, next in Merawi, later in 
 Rhadenpur, spreading thence westward to Siudh. Not until the follow- 
 ing year (1817) did the pest reach the British possessions. This epidemic 
 continued to prevail until 1821. The disease did not reappear until July 
 6, 1836, when it broke out in Pali, the principal depot of traffic between 
 the coast and North-western India. It spread with great rapidity to the
 
 774 THE PLAGUE. 
 
 adjoining provinces. Toward the close of the year 1837 the disease 
 broke out anew in Pali, and raged until the spring of the following year. 
 In 183435, again in 1837, there were outbreaks of this pest in Gurwal, 
 and in 1846 and 1847 in Karmoun, provinces of the southern slopes of 
 the Himalayas. This destructive pest has raged at an altitude of 10,300 
 feet, and we learn from Hirsch that it has never wholly disappeared from 
 the mountain-districts of the Himalayas since 1823, and that its ravages 
 in these regions have been so great that certain settlements have been 
 wholly destroyed. 
 
 The fever was remittent in type, with a great tendency to become con- 
 tinued ; it was characterized by rapidly developing extreme prostration, 
 and was very fatal. In most cases there were glandular swellings in the 
 groins, armpits, and neck. Carbuncles and petechiae are not mentioned 
 as having been observed. Dyspnoea, cough, and bloody expectora- 
 tion were frequent symptoms. Vomiting, at first of bilious matter, later 
 of dark, coffee-colored fluid, was likewise common. 
 
 The plague has never appeared in the western hemisphere. 
 
 ETIOLOGY. 1. Predisposing Influences. Whilst the present views as to 
 the causation of the specific diseases compel us to assume a specific infecting 
 principle as the real cause of every outbreak of the plague, there are 
 certain circumstances which are recognized as so favoring the develop- 
 ment and action of that principle that they have come to be looked upon 
 as indirect or auxiliary causes of particular epidemics. It is more in 
 accordance with the facts to speak of them as predisposing influences. 
 Chief among these circumstances is that combination of physical and 
 social wretchedness which goes hand in hand with poverty and over- 
 crowding. The plague has been termed by a recent observer (Cabiadis) 
 miseries morbus, and he has thus reproduced in 1878 a name applied to 
 the great plague of London in 1665 the poor's plague. All observers 
 of recent epidemics unite in ascribing to poverty the foremost rank 
 among the predisposing influences of plague epidemics. It is only nec- 
 essary to enumerate the evils which form the train of poverty, whether 
 in cities or in villages, to complete the list. 
 
 With poverty come ignorance and neglect of all sanitary laws ; over- 
 crowding and ill ventilation; personal filthiuess; improper as well as 
 insufficient diet ; indifference as to the location of dwellings and their 
 surroundings. The condition of the villages which have been the scene 
 of some of the recent epidemics beggars description. All observers 
 unite in testifying to such accumulations of filth in and around the 
 houses as requires to be seen to be believed. In these communities 
 latrines are unknown, and no such thing as organized scavenging has 
 ever existed. 
 
 The accumulation of unburied or imperfectly buried corpses has been 
 looked upon as the real cause of the plague, and some of the recent epi- 
 demics have followed the prevalence of distinctive epizootics. Whilst 
 it is not difficult to disprove that under ordinary circumstances the efflu- 
 via from exposed and rotting carcasses can give rise to outbreaks of the 
 plague, it is more than probable that an atmosphere charged with such 
 emanations (together with other causes) can so unfavorably influence a 
 community as to increase its susceptibility to the specific cause of this 
 or any other infective disease. There can be but little doubt that the
 
 ETIOLOGY. 775 
 
 dead bodies of the victims of the plague are capable of disseminating 
 the disease, and that the reopening of graves containing such bodies^ 
 even after a long period of time, has given rise to fresh outbreaks of the 
 disease. 
 
 The season of the year does not appear to exert any very marked 
 influence upon the development of epidemics, if we base our deductions 
 upon _ observations made in different countries. In northern countries 
 the disease has prevailed as severely in mid-winter as in summer. The 
 epidemics of London showed a rise during July and August, their furi- 
 ous prevalence in September, and a gradual decline during October and 
 November. In Constantinople the disease has commonly remained dor- 
 mant during the winter months, and become active as the weather grew 
 hotter. In Egypt, on the contrary, the activity of the outbreaks has 
 developed in winter, increased with the advance of spring, and suddenly 
 abated upon the advent of the summer. Such also has been the case 
 with the three general epidemics' in Mesopotamia studied by Tholozan. 1 
 "Their beginning took place in winter, their development during the 
 spring, their decline and their extinction in summer. Their recrudes- 
 cences obeyed the same laws : after an incubation during the summer 
 season .... revivification took place in winter and in spring." It is 
 added in this writer's account that the exceptional hot weather of sum- 
 mer in that country, and especially that of the shores of the Persian 
 Gulf, has always moderated or directed the course of epidemics of this 
 pest. In Cairo the epidemics have usually ceased upon the recurrence 
 of intense summer heat in June. Dampness, and particularly a thor- 
 oughly wet soil, are favorable to the development and spread of the 
 disease. The marshy regions of the Lower Euphrates, the shores of the 
 Caspian and the Black Seas, the valley of the Nile, have been the scenes 
 of repeated visitations. On the other hand, the plague has maintained 
 its foothold in the mountainous districts of Western Arabia, in Yunnaia, 
 on the slopes of the Himalayas at a great elevation, and upon a dry, non- 
 alluvial soil even more firmly than in the low and humid plains of Meso- 
 potamia. 2 
 
 Individual predisposition to contract the disease seems to be increased 
 by all depressing influences, among which may be mentioned excessive 
 bodily or mental exertion, intense and prolonged anxiety, fear, and the 
 like. Previous debilitating disease also increases the liability to the 
 attack. Neither sex nor age exerts an influence in this respect, save that 
 after the age of fifty few contract the disease. Occupation confers no 
 immunity. Physicians, nurses, and others occupied in the care of the 
 sick, and those who bury the dead, have especially suffered in recent 3 as 
 well as in the older outbreaks. Oil-carriers and dealers in oils and fats, 
 and to a less degree water-carriers and the attendants at baths, are said 
 to enjoy a comparative immunity from attack. Those who have suffered 
 from the disease and recovered also enjoy a relative immunity. Second 
 attacks are usually of less intensity than the first. 
 
 2. The Exciting Cause. The exciting cause of the plague must, in 
 
 Histoire de la Peste Bubonique en Mesopotamie, 2d Mdmoire, Paris, 1874: 
 2 Tholozan, Histoire de la Peste Bubonique en Perse, 1st Me"moire, Paris, 1874. 
 8 See summary of a report addressed by Dr. G. Cabiadis to the Constantinople Board 
 
 of Health on the outbreak in Astrakhan in Kussia, 1878-79, by E. D. Dickson, M. D., 
 
 Medical Times and Gazette, 1881, vol. i. pp. 4, 32, 119.
 
 776 THE PLAGUE. 
 
 the present state of our knowledge, be assumed to be a specific infecting 
 principle. Upon no other hypothesis can the continued existence of a 
 disease so specific in its characters, unchanged through the course of cen- 
 turies, disappearing when the influences favorable to its presence cease, 
 reappearing in certain regions when they again arise, be explained. 
 Capable of being transmitted by the vehicles of commercial intercourse, 
 of control by quarantine and cordons sanitaires, of spreading from lim- 
 ited foci of contagion into overwhelming epidemics, the plague is the 
 very typo of the infective diseases. The nature of this infecting prin- 
 ciple is wholly unknown. It is probably a microphyte capable of devel- 
 opment within the human organism capable also of a prolonged inde- 
 pendent existence under favorable circumstances outside of the body, and 
 of again giving rise to the disease. The plague is properly to be classed 
 as a contagious-miasmatic disease (Liebermeister) with cholera, dysentery, 
 and enteric fever. It continues to exist by the continuous propagation 
 of its cause, and it spreads by the transportation of that cau.se. 
 
 It is conceded on all hands that the plague has never arisen autochtho- 
 nously in Europe, but has in every instance been conveyed thither. 
 Those who regard its reappearance after long intervals of time in those 
 countries where it still occasionally prevails as spontaneous are compelled 
 to ignore difficulties in reasoning far greater than the supposition of an 
 equally prolonged condition of quiescence or an inexplicable or unsus- 
 pected reintroductiou of the cause. 
 
 As to the disputed question of the contagiousness of the plague, to set 
 forth the arguments and examples adduced in favor of either view would 
 far exceed the limits of the present article. All the facts are to be 
 .explained upon the theory that the exciting cause of the plague, like 
 that of cholera and enteric fever, consists of a miasm that must undergo 
 certain changes outside the body before acquiring its virulent properties, 
 and that the time required for these changes is exceedingly brief. But 
 what the physical properties of this miasm are, or how it finds access to 
 the body, or how it is eliminated, are alike utterly unknown to us. 
 
 It is certain, however, that it is incapable of being freely transmitted 
 to great distances in the air. Whether or not it is conveyed or retained 
 by the discharges from the bowel is not known. The history of recently 
 observed outbreaks, from which alone definite and trustworthy facts are 
 to be obtained, goes to show that the exciting cause of the plague clings 
 closely to the patients and their immediate belongings. The closer the 
 relation between those sick and the healthy, the greater the risk that the 
 latter will contract the disease. Those in the house with the patients are 
 more liable to fall sick than those in the adjoining houses those who are 
 constantly in .their presence than those who occasionally see them. Thus, 
 nurses much more frequently contract the plague than doctors, though the 
 latter have in all epidemics been largely numbered among the victims. 
 Among 357 deaths in the outbreak in Vetlanka, already referred to, 
 were a priest, his wife and mother, three doctors, six assistant medical 
 officers, and two Sisters of Mercy. Dr. Cabiadis remarks that the 
 information obtained "shows that the malady propagated itself, in the 
 first instance, from the sick to their relatives and to those who lived with 
 them or who assisted them during their illness. If, on the one hand, 
 these facts showed its contagious character, on the other hand evidence is
 
 SYMPTOM A TOLOG Y. 777 
 
 still wanting to prove whether this transmission of the malady was 
 caused by contact with the sick and their clothing, or by breathing an 
 atmosphere impregnated with the deleterious particles emanating from 
 their morbid bodies." 
 
 The period of incubation is from two to seven days. In the report of 
 the commission of the French Academy of Medicine, drawn up by Prus 
 in 1844, the statement appears that the plague has never shown itself 
 among compromised persons after an isolation of eight days. The recent 
 outbreaks tend to confirm this conclusion. L. Arnaud concluded from 
 observations made at Benghazi in 1874 that the mean duration of this 
 period was five or six days, and that the maximum did not exceed eight 
 days. Cabiadis sets this stage down as three days as the rule, but as 
 occasionally not exceeding twenty-four hours. He found no data, how- 
 ever, to show the longest period to which it could extend. Hirsch, from 
 information collected in his investigation of the same epidemic (that of 
 Astrakhan), concluded that the minimum period of incubation observed 
 was from two to three days, the maximum more than eight, and that the 
 average was five days. He states that very short or very long periods 
 were seldom observed. 
 
 SYMPTOMATOLOGY. Individual cases of the plague, as of other epi- 
 demic diseases, differ in their onset and progress under different circum- 
 stances and at different periods of particular outbreaks. Besides the 
 ordinary form, to which as a type the greater number of the cases more 
 or less closely conform, there are, on the one hand, others so severe that 
 death takes place before the characteristic manifestations have time to 
 appear, and, on the other hand, cases so light that such manifestations are 
 but partly developed, and the nature of the malady is only to be recog- 
 nized in the light of the prevalent epidemic influence. 
 
 Hence among the cases three forms are recognized : (a) The grave or 
 ordinary form ; (6) the fulminant form ; and (o) the larval or abortive 
 form. 
 
 (a) Grave or Ordinary Form. The plague in typical cases is a febrile 
 malady of the most acute kind, with localizations in the form of buboes 
 or carbuncles. 
 
 The course of the attack may, for convenience of description, be 
 divided into four stages : 1, the stage of invasion ; 2, the stage of intense 
 fever ; 3, the stage of fully-developed localizations ; and 4, the stage of 
 convalescence. 1 
 
 1. The stage of invasion is marked by a feeling of lassitude, by pains 
 in the loins and extremities. There is extreme bodily and mental weak- 
 ness, headache, fulness and throbbing of the head, dizziness. The 
 patient's expression is dull, stupid; he replies to questions slowly or 
 awkwardly, his face is pale, his eyes languid, his gait feeble and stagger- 
 ing. The appearance in this stage has been compared by several observers 
 to that of a drunken man. Shivering occurs, but if fever be present it 
 is slight. Nausea, vomiting, and diarrhoea are symptoms sometimes 
 
 1 This formal division of the description is suggested in some of the older accounts. 
 (See ' Loimologia ; or, An Historical Account of the Plague in London in 1665, by Nathan 
 Hodges, M. D., and Fellow of the College of Physicians, who resided in the City all that 
 Time, Lond., 1721.") 
 
 The appearance of the plague in France in 1720 was the occasion of a great number 
 of curious and interesting publications on this subject.
 
 778 THE PLAGUE. 
 
 observed. This stage begins suddenly. It is often imperfectly devel- 
 oped, and it may last only a few hours or a day or two. 
 
 2. The second stage is characterized by fever of the most intense kind. 
 It is ushered in by a chill, sometimes slight, commonly severe. The 
 lassitude continues, the headache increases, the dulness deepens to stupor 
 or gives way to delirium. The temperature rises to 102 104 F., or 
 even to 107.6 F. The pulse quickly mounts to 120 or 130. The skin 
 is hot and dry ; the patient complains of burning inward heat and of 
 great, sometimes unbearable, thirst. The eyes are sunken and injected ; 
 the tongue moist, pale, and thickly covered with a chalk-white or grayish 
 pasty coating ; the vomiting often continues. The delirium is commonly 
 active or noisy, and accompanied by great restlessness ; it may, however, 
 be mild, tending to sopor or coma. The progress of the disease now 
 rapidly advances. The patient falls into the so-called typhoid state. His 
 tongue becomes dry, hard, and fissured ; sordes collect upon the teeth 
 and lips, bloody crusts about the nostrils. At this time the evidences of 
 failure of the forces of the circulation become conspicuous. The pulse 
 grows feeble, small, often irregular sometimes it can scarcely be felt ; 
 the lips become bluish, the extremities cold. There is tendency to col- 
 lapse. During the course of this stage buboes begin to make their 
 appearance. Sometimes the enlargement of the superficial lymphatics is 
 preceded by tenderness or pain of more or less intensity; often the 
 glands are found to be enlarged only upon search. 
 
 The termination of this stage is marked by a sudden fall of the tem- 
 perature to subnormal ranges (93.2 F. has been observed); at the same 
 time copious strong-smelling sweat not infrequently occurs. The pulse 
 grows feebler, and falls to 100 or below it, and the mind becomes clearer. 
 
 3. These changes lead up to the stage of fully-developed local mani- 
 festations. The enlarged lymphatics are most commonly situated in the 
 groins or on the upper part of the thighs at a point below that commonly 
 the seat of venereal buboes ; less often they are to be found in the arm- 
 pits or the region of the angle of the jaw; as a rule, they occupy only one 
 or two of these positions in the same patient. They vary in size from a 
 little mass or kernel, only to be discovered after careful search, to the 
 bulk of a hen's egg or a mandarin orange. The swelling of the gland 
 takes place at times with great rapidity. Suppuration is followed by the 
 discharge of an ichorous pus, and not rarely by ulcerative destruction of 
 the surrounding tissues. Suppuration occurs more frequently than reso- 
 lution, but is comparatively rare in fatal cases. Hence it has come to 
 be popularly regarded as a favorable prognostic sign, whilst the early 
 subsidence of the swelling has been looked upon as an omen of grave 
 import. 
 
 The time of the appearance of the buboes varies greatly. In the 
 greater number of cases they have shown themselves on the second, third, 
 or fourth day of the attack, occasionally within six or eight hours of the 
 beginning of the attack, and occasionally they have been observed to pre- 
 cede the general manifestation of the disease; rarely they have appeared 
 as late as the fifth day. In many cases they are absent altogether. 
 
 Carbuncles demand attention as being among the characteristic local 
 manifestations of this stage. They are less common than buboes. Their 
 usual position is upon the lower extremities, the buttocks, or the back of
 
 SYMPTOMATOLOGY. 779 
 
 the neck. In favorable cases the gangrene after a few days becomes lim- 
 ited and the slough separates. Boils also occasionally appear. 
 
 PetechifB occur in the worst cases, and often at an early period in the 
 course of the disease. Their appearance usually indicates a fatal issue. 
 They occupy at times extensive areas of the body or the greater part of 
 its surface; at times they appear only in the neighborhood of the buboes. 
 They vary in size from a mere speck to spots several lines in diameter. 
 When very numerous they give a livid hue to the skin, and that appear- 
 ance to the cadaver to which, together with the high mortality, was doubt- 
 less due the term black death by which severe epidemics were known in 
 the Middle Ages. 
 
 Vibices and extensive ecchymoses sometimes appear shortly before 
 death. 
 
 4. The stage of convalescence sets in between the sixth and tenth days. 
 It is often protracted by prolonged suppuration of the bubonic enlarge- 
 ments. Both relapses and distinct second attacks have been noted by 
 recent as well as the older observers. 
 
 In addition to the foregoing sketch of the course of the disease in its 
 ordinary form it is necessary to describe certain other symptoms. 
 
 The attack has sometimes begun with a convulsive tremor, at other 
 times with a prolonged shaking, which has lasted from six hours to three 
 days, the patient remaining free from fever and not complaining of cold. 
 This condition has terminated in coma, followed speedily by death. 
 
 Sometimes the attack has come upon the patient with great confusion 
 of mind, so that he appears dazed, or else a curious distraction has befallen 
 him in the midst of his ordinary avocations. If absent from home, such 
 patients commonly at once set out to return, either trembling and stagger- 
 ing as though tipsy, or else rushing wildly through the streets with frantic 
 gestures and outcries. 
 
 The vomited matters are usually at first gastric mucus with bile, after- 
 ward dark coifee-colored fluid ; in certain cases blood is vomited. Bleed- 
 ing from the nose, lungs, bowels, vagina, and urethra have also been 
 observed. Cases attended by hemorrhages have in almost all instances 
 terminated fatally. 
 
 Constipation has been, as a rule, present during the acute stages; later 
 in the attack diarrhoea has occasionally occurred. It has been looked 
 upon as a favorable symptom. 
 
 The urine has been diminished and suppressed in grave cases. Trust- 
 worthy observations, both as to its quantity and its chemical composition, 
 are wanting. It has been observed to contain blood. 
 
 As has been already pointed out, the Mtlhamari of North-western India 
 has been especially characterized by lung symptoms. Other regions also 
 have been visited by epidemics in which acute pulmonary lesions formed 
 a prominent part of the morbid complexus. 
 
 (6) The Fulminant Form. Chiefly in the early days or weeks of epi- 
 demics, but to some extent also later, cases occur in which the intensity 
 of the sickness is so great that the patient dies before its usual manifesta- 
 tions have time to develop. The duration of the whole attack, which 
 ends fatally, is often not more than a few hours; its symptoms, which 
 diifer but little if at all from those of similar cases of other epidemic dis- 
 eases such, for example, as epidemic cerebro-spinal fever in its fulminant
 
 7SO THE PLAGUE. 
 
 form are of the most aggravated character, and the patient perishes over- 
 whelmed by the infection as though struck by a thunderbolt. Profound 
 disturbance of the nervous centres, convulsions, coma, the rapid forma- 
 tion of vibices and petechiae, collapse, are the speedy forerunners of the 
 fatal issue. 
 
 (c) The Larval or Abortive Form. Toward the close of an epidemic 
 the character of the disease usually undergoes a change. It becomes less 
 malignant. The cases present the essential symptoms, but in diminished 
 intensity. Some cases terminate in an early defervescence with rapid sub- 
 sidence of beginning local manifestations; others present merely the evi- 
 dences of a slight disturbance of the general health, without any charac- 
 teristic symptoms of the prevalent disorder; others, again, are character- 
 ized by the appearance of buboes without pain or fever. These swellings 
 undergo resolution in fourteen days or thereabout. Exceptionally they 
 suppurate. 
 
 The duration of the plague is from six to ten days in typical cases 
 running a favorable course; those of fatal cases from one to twenty days. 
 Clot Bey l found the duration of the worst cases two or three days, of 
 those next in point of severity five or six days, whilst in milder cases 
 death did not occur until the second or third week. Of 534 fatal cases 
 noted by W. H. Colvill, 126 occurred one day after the attack, 80 two 
 days after it, 105 three days, 76 four days, 60 five days, 26 six days after 
 the attack. After six days the number of deaths rapidly declined; on the 
 nineteenth day 1 death, and on the twentieth day after the attack 11 deaths, 
 occurred. It is said that death after the seventh day is commonly not in 
 consequence of the disease itself, but of sequels. Of 16 fatal cases in the 
 village Prischib in Astrakhan, noted in the report of Dr. Cabiadis, and 
 of whom the names, as well as the day of their exposure, their falling 
 sick, and their death are given, 1 died in one day, 4 in two days, 6 in 
 three days, 3 in four days, and 2 in six days. 
 
 The mortality of the plague is greater than that of any other epidemic 
 disease. In all epidemics a large majority of those who contract the dis- 
 ease die. This is especially true of epidemics at their beginning, when it 
 has often happened that for a time all the cases have perished. Of this, 
 as of other epidemic diseases, it is true that the death-rate has varied in 
 different outbreaks and at different periods of the same outbreak. Colvill 
 states that in the epidemic of 1874 in Mesopotamia the mortality of stricken 
 villages during the first half of the time was 93 to 95 per cent, of those 
 attacked, but that afterward the majority of those attacked recovered. 
 The same authority states that in Bagdad in 1876 the mortality was 55.7 
 per cent, of persons attacked. Arnauld gives the mortality at Benghazi 
 in 1874 as 39 per cent, of attacks. The death-rate at Vetlanka was 82 
 per cent, of those attacked. In Tonlon in 1721, of a population of about 
 26,000 human beings, about 20,000 were attacked, and of these 16,000 
 died. It has been by no means of rare occurrence that nearly half the 
 population of towns have perished in an epidemic, or that small villages 
 have been completely depopulated by this scourge. 
 
 COMPLICATIONS AND SEQUELS. The appalling mortality of the plague 
 on its approach, the rapidity of its spread, the popular commotion upon 
 its appearance, its brief course, and the fact that its recent outbreaks have 
 1 De la Peste observee en gypte, Paris, 1840.
 
 MORBID ANATOMY. 781 
 
 taken place in regions where trained European physicians have been, 
 with a few exceptions, beyond reach, all unite in maintaining the gloom 
 that has since the Middle Ages enveloped the clinical facts of this dis- 
 ease. 
 
 Of its clinical course, beyond the brief outline already given, little is 
 accurately known, of its complications still less. In some of the recent 
 epidemics, and particularly in the outbreaks of plague in India, the evi- 
 dences of pulmonary lesions have been so conspicuous that they deserve 
 to be classed among the essential manifestations of the disease rather than 
 as complications ; in others pulmonary congestion, haemoptysis, the evi- 
 dences of crotipous or catarrhal pneumonia, have occurred in a small pro- 
 portion of the cases. Aside from this, there is nothing to be said as to 
 the complications. 
 
 Among the known sequels are protracted ulceration of the enlarged 
 lymphatics, boils, superficial or deep abscesses, catarrhal pneumonia, 
 pertussis, mental troubles, and the like. Extensive and deep cicatrices are 
 not infrequently found in the site of the ulcerating local manifestations. 
 
 MORBID ANATOMY. The existing knowledge of the morbid anatomy 
 of the plague is but scanty. The observers of the 'early outbreaks con- 
 tributed nothing ; the recent outbreaks have taken place under circum- 
 stances in which anatomical investigations were impracticable. The know- 
 ledge which we possess is almost wholly due to the investigations con- 
 ducted by the French in Egypt at the close of the last and the beginning 
 of the present century, and again during the years 1833 to 1838. 
 
 The descriptions of Bulant, 1 Clot Bey, and others point to gross 
 lesions, such as are found after death in the acute stages of the infectious 
 diseases in general. The viscera were engorged with dark fluid blood ; 
 ecchymoses were often found in the mucous and the serous membranes, 
 in the substance of the different organs, and into the connective tissue. 
 The spleen was in almost all cases enlarged, softened, and of a dark color. 
 Not rarely the kidneys were deeply engorged, and extravasations of blood 
 into their substance, their pelves, and into the surrounding connective 
 tissues were often encountered. 
 
 The only constant and characteristic changes relate to the lymphatic 
 system. The lymphatic glands were, as a rule, enlarged and deeply 
 injected with blood. Where no buboes existed the glands of the various 
 cavities of the body showed evidences of acute inflammatory processes. In 
 some instances the affection of the glands appeared to be general ; less 
 frequently it was most conspicuous in, or apparently limited to, one or 
 more great groups. Thus, the bronchial, the mediastinal, the mesenteric, 
 the lumbar, etc. were severally the seat of marked changes with or with- 
 out enlargement of superficial groups, or several of these groups were at 
 the same time implicated. 
 
 In no instance were symmetrical enlargements of the inguinal regions, 
 the axillae, or the throat met with. 
 
 According to Runnel, 2 in 2700 cases there were inguinal buboes in 
 1841, axillary in 569, maxillary in 231 ; inguinal buboes occurred 175 
 times on both sides, 729 times on the right only, 589 times on the left 
 only ; the axillary buboes were double 9 times, right only 185, left only 
 
 1 De la peste oriental d'cpres les mater naux recuil les d Alexandrie, & Smyrne, etc., pendant les 
 Annees 1S33 d 1838, Paris, 1839. *A Treatise on the Plague, London, 1791.
 
 782 THE PLAGUE. 
 
 163. Buboes of the ueck only occurred 130 times, and of them 67 cases 
 were children. 
 
 The connective tissue surrounding the affected glands was the seat of 
 an infiltration sometimes serous, sometimes cellular ; it also very commonly 
 contained more or less extensive extravasations of blood. Even where no 
 buboes appeared on the surface of the body the glands were enlarged to 
 twice their usual size or more. The substance of the glands in the larger 
 swellings was at times uniformly red or violet, again whitish or marbled 
 or pulpy or denser, or of the consistence of fat. It was also sometimes 
 soft like jelly, and rarely it contained minute collections of pus. Some 
 observers speak of dilatation of the lymph-vessels in the neighborhood 
 of the enlarged glands. 
 
 DIAGNOSIS. The difficulties attending the recognition of the plague 
 at the beginning of an outbreak speedily subside. The rapid spread of 
 the disease, its frightful mortality, the overwhelming intensity of the 
 symptoms, the prompt occurrence of cases characterized by buboes, car- 
 buncles, or petechise, are collectively considered diagnostic of this, and of 
 no other disease whatever. In regions subject to the repeated visitations 
 of this pest there exists a universal unwillingness to mention even the 
 name of a disease whose suspected presence alone is followed by conse- 
 quences of the most serious nature to the freedom of personal and com- 
 mercial intercourse. To this unwillingness, rather than to any real like- 
 ness between the plague and other diseases with which it has been com- 
 pared, are to be traced most of the difficulties as to the differential diag- 
 nosis that have been raised, especially in the regions bordering on the 
 Mediterranean Sea. 
 
 It is not, therefore, necessary in this place to discuss the diagnosis 
 between the plague and malarial and other pernicious fevers, malignant 
 typhus, epidemic dysentery, lymphadenitis, syphilitic buboes, parotitis, 
 and so forth. 
 
 TREATMENT. Preventive. The efficient treatment consists in pro- 
 phylaxis. The history of this disease indicates with singular clearness 
 the measures which, properly carried out, are capable of controlling the 
 spread of the epidemic diseases. These measures arrange themselves into 
 two groups, of which the first has to do with the removal of the con- 
 ditions familiar to the development of the disease, the predisposing 
 influences ; and the second with the restriction of the disease to the 
 locality in which it shows itself isolation, quarantine. 
 
 The conditions favorable to the development of the plague have 
 already been set forth under the heading Etiology. They relate to 
 poverty and ignorance, and their attendant evils, in communities. They 
 are those conditions which tend to disappear under the influences of 
 civilization, and in truth it may be said that at the present time the 
 plague occurs only in half-civilized countries. 
 
 Preventive medicine has achieved no other work comparing in magni- 
 tude and importance with the extinction of the plague in Europe. This 
 was, to use the words of Hirsch, " a gradual process, and kept pace in 
 great measure with the development and perfection of the quarantine 
 system with reference to the Orient and the different countries of 
 Europe." This author continues : " I cannot, in fact, understand how 
 any one criticising the facts without prejudice, and having regard to the
 
 TREATMENT. 783 
 
 state of the plague in the East, can for a moment hesitate to attribute thp 
 chief cause of the disappearance of the plague from European soil to a 
 well-regulated quarantine system." The European has by no means lost 
 his susceptibility to the disease. He is liable to attack in the East. His 
 protection at home lies in the restriction of the exciting cause of the 
 disease to its present haunts. 
 
 Any extended notice of quarantine and quarantine laws is beyond the 
 scope of this article. It may be said, however, that with reference to the 
 plague measures quite unnecessary under ordinaiy circumstances assume 
 the greatest importance when this disease makes its appearance in countries 
 bordering upon Europe, and that no amount of hardship to individuals 
 necessary to avert so great a calamity as a plague epidemic could be 
 looked upon as excessive. Indeed, we can with difficulty realize the 
 severity with which measures of isolation have been carried into effect at 
 times when the devastation produced by the plague was still vividly 
 remembered. Violation of the orders issued during an epidemic has 
 been punished with no less a penalty than death. It is related that upon 
 the appearance of the plague in the little town of Noja in Lower Italy in 
 1815, troops were despatched immediately to surround the place with a 
 cordon. The town was encircled by two deep ditches, and opposite the 
 gates three ditches were spanned by drawbridges, which served as a 
 means for the introduction of provisions, but no other communication was 
 allowed. Only letters were allowed to leave the city, and these were first 
 dipped in vinegar. Cannons were posted at the city gates. The ditches 
 were occupied by sentinels, who were ordered to shoot down any one who 
 approached and failed to stand still the moment he was hailed. A plague 
 patient who escaped while delirious and attempted to pass the lines was, 
 in fact, shot dead. Outside this cordon two others were established. 
 Those who disobeyed the orders were treated with the greatest severity. 
 An inhabitant of Noja, who had thrown a pack of cards to the soldiers, 
 together with the soldier who picked it up, was tried by court-martial 
 and shot. 1 
 
 Lower Italy, possibly Europe also, owed its escape to the rigorous 
 measures carried out in this instance; nor can it be doubted that the 
 measures of isolation practised during the outbreak on the Volga 
 1878-79 restricted the disease to the district in which it appeared and 
 brought it to a speedy end. On this occasion three efficient cordons were 
 established to isolate the infected places. The first cordon was put 
 around every place where plague prevailed, to prevent persons from 
 entering or quitting that locality until forty-two days had elapsed after 
 the last attack of the malady there. The second cordon was formed 
 around the infected area, encircling all the infected localities. Its circum- 
 ference extended 800 kilometres, and was guarded by pickets of soldiers 
 stationed at intervals of five kilometres. This cordon had four quaran- 
 tine stations. The third and outermost cordon was established lound 
 the whole province of Astrakhan. It served to control the functions of 
 the inner cordons, inasmuch as all persons coming from within its area, 
 who could not prove that they had undergone quarantine at the stations 
 of the middle cordon, were stopped. 
 
 1 Ueber die Pest zu Noja, Niirnberg, 1818, quoted by Liebermeister in Ziemssen's 
 dopedia, article " Plague."
 
 784 THE PLAGUE. 
 
 The complete disinfection of all clothing and other articles used in the 
 service of the sick is to be included among measures of prophylaxis. 
 It is no uncommon thing to destroy by fire the houses in which cases 
 have occurred, along with their contents. 
 
 Xo efficient means of protection are known for those who during an 
 outbreak cannot escape from the infected neighborhood. It would be 
 without purpose other than to amuse the reader to reproduce the quaint 
 fancies of the older physicians in this matter, or to dwell upon the amu- 
 lets and incantations, the absurd costumes, the protective power of 
 tobacco, according to Diemerhoeck, or the disbelief in its virtues on the 
 part of Hodges, who preferred " canary, of the best sort, of which he 
 frequently drank while he attended the sick." 
 
 Clinical. "The treatment of individual cases must in the present 
 state of knowledge be expectant and symptomatic. Notwithstanding our 
 acquaintance with the symptoms that characterize plague, we are utterly 
 ignorant of the treatment best suited to its cases " (Cabiadis). 
 
 Physicians who have written from personal observation unite in 
 advising a treatment of the simplest kind. Ventilation, cleanliness, a 
 liquid diet, abundant cool drinks, are to be ordered. The initial collapse 
 and the evidences of failure of the circulation call for the use of stimulants, 
 and especially of alcohol. Cold or tepid sponging, in accordance with the 
 sensations of the patient, may be resorted to. If there be high fever an 
 energetic antipyretic treatment might be carried out. Cold effusion is said 
 to have been of use in many instances. 
 
 Purging, bloodletting, mercurials, blistering, emetics, have proved 
 either positively injurious or altogether without effect upon the course 
 of the disease. 
 
 Of drugs, ammonium chloride, salicylic acid, carbolic acid, quinine, 
 have been administered without positive effect. 
 
 It is stated that the free inunction of oil from the very beginning of 
 the attack was affirmed to exert a favorable influence. 1 
 
 In early times the buboes were often incised, or even excised, as soon 
 as they began to swell. More recently they have been treated with 
 leeches or inunctions of mercurial ointment. The treatment by poul- 
 tices and the evacuation of pus as soon as it can be detected is at present 
 regarded with greater favor. Carbuncles are likewise to be treated in 
 accordance with accepted surgical procedures. 
 
 1 See Griesinger, Virchow's Handbuch der Specidlen Patholor/ie wid Tlierapie, ii. 2, a. 316
 
 LEPROSY. 
 
 br JAMES C. WHITE, M. D. 
 
 DEFINITION. Leprosy is a constitutional disease of chronic course 
 and fatal termination, characterized by peculiar changes in the tissues of 
 skin, mucous membrane, nerves, and most organs of the body. 
 
 SYNONYMS. Elephantiasis of Greek writers ; Lepra of Arabian 
 authors ; Anssatz (Germany) ; Spedalskhed (Norway). The local names 
 in use among the numerous races in which it prevails are too numerous 
 to be given here. 
 
 HISTORY. Although great confusion has existed among the most 
 ancient as well as later medical writers with regard to the defini- 
 tion of this disease, it having been confounded with several other affec- 
 tions (elephantiasis arabum, syphilis, psoriasis, morphoea, etc.), leprosy 
 has prevailed in certain parts of the world from the time of the earliest 
 records. The biblical accounts show that it existed among the Jews in 
 Egypt, although it was not accurately distinguished from other diseases 
 resembling it in some respects. It was recognized in Greece before the 
 Christian era, and in the early centuries after Christ it had extended 
 widely over Europe. In the seventh and eighth centuries special leper- 
 houses were founded in Italy, France, and Germany. The disease reached 
 its height in Europe in the twelfth and thirteenth centuries, when 19,000 
 lazarettos are said to have been in existence. Its spread was greatly 
 increased by the constant intercourse kept up between Europe and the 
 East during the Crusades. In the fifteenth century it began to diminish, 
 and in the course of the seventeenth it had almost wholly disappeared 
 from the most civilized states. It has lingered, however, in other parts, 
 and exists to-day in France and Spain and Portugal, in Norway and 
 Sweden, and in Italy, Greece, and Southern Russia. As in ancient times, 
 it is widely spread along the coasts of Africa and prevails largely 
 throughout Asia. It is found in many of the islands of the Indian and 
 Pacific Oceans, in Japan, New Zealand, Madeira, the West Indies, exten- 
 sively in some of the states of Central and South America and Mexico 
 and the Hawaiian Islands. 
 
 It may be interesting to trace its history in the United States and 
 adjacent districts more minutely. It is not known just when leprosy was 
 introduced into North America. According to the Louisiana historian, 
 Gayarr6, the Spaniards established leper hospitals in several of their 
 colonies on the Gulf of Mexico during the last century. One existed in 
 New Orleans as late as 1785. In 1776 the disease was reported as exist- 
 ing among the blacks in Florida. It seems to have died out, and with 
 
 VOL. I. 50 78S
 
 t 786 LEPROSY. 
 
 it all remembrance of its former existence amongst us, until within the 
 last few years, when its occurrence in the Southern States has again 
 attracted attention. In Louisiana the first case was discovered in 1866 
 in an old woman whose father came from the south of France ; she died 
 in 1870. In 1871 it appeared in one of her sons, in 1872 in two others, 
 and in 1876 in a nephew. A sixth case developed in a young woman 
 who was in constant attendance upon the first case. In addition to this 
 group, other cases have been observed in several parishes, amounting to 
 twenty-one in all, as collected by Salomon of New Orleans in 1878. 1 
 Two other cases, brother and sister, in Louisiana are known to the writer, 
 one of whom has recently died under his care. In South Carolina the 
 disease is reported by J. F. M. Geddings 2 to have been observed in 
 sixteen cases since the year 1846 ; four were Jews, four negroes, and 
 eight whites. In none was any hereditary taint to be traced. No new 
 cases have developed since that report. 3 
 
 In Minnesota and other North-western States leprosy has been known 
 to exist for a considerable time among the Norwegian immigrants who 
 have settled in them in large numbers. Holmboe in 1863 and Prof. 
 Boeck later made visits to these colonies while in this country, and pub- 
 lished reports concerning them after their return. 4 The latter found 
 eighteen cases among his countrymen, most of which were leprous before 
 emigration ; in others the disease developed after arrival in America. It 
 had not manifested itself in any person born in this country. The cha- 
 racter and progress of the affection seem to have been little influenced by 
 residence here. Since these observations other cases have been collected by 
 the committee on statistics of the American Dermatological Association, 5 
 showing the continuance of the disease in these States. In 1879 there 
 were fifteen cases in Minnesota. Its spread in this portion of our country 
 is slow. 
 
 Since 1871, 52 cases of the disease have been inmates of the hospital 
 for lepers in San Francisco, California. Of these, all, with one excep- 
 tion, were Chinese, and forty-five of them had been sent back to China. 
 It is presumed to have shown itself after arrival in this country, as 
 "unproductive labor would not be imported by the Six Companies." 6 
 No case of the disease known to have been acquired in this country has 
 yet been reported upon the Pacific Coast. One case IMS developed in 
 San Francisco after residence in the Hawaiian Islands. 
 
 In Oregon, too, the disease has appeared among the Chinese immi- 
 grants, steps having been recently taken to re-ship five lepers from the 
 poor-farm at Portland to China. 
 
 Since 1815, possibly earlier, leprosy has prevailed among the poor 
 French settlements along the Miramichi River, near the Bay of Chaleurs, 
 New Brunswick. It was first noticed in a woman whose mother came 
 from Normandy, and has continued mainly in her descendants since. 
 No measures were taken to control the disease until 1844, when a hospi- 
 tal was erected on Sheldrake Island. In 1849 the present lazrr*etto at 
 
 1 New Orleans Med. and Sura. Journal, March, 1878. 
 
 2 Trans. Intern. Med. Congress, Philadelphia, 1876. 
 
 3 See article on " Contagiousness of Leprosy " by writer, in Amer. Journ. of Mei, S& 
 ences, Oct., 1882. 
 
 4 British and For. Med.-Chir. Review, Jan., 1870, and Nord. Medic. Ark., Bd. iii. 
 5 Seo Transactions. Trans. Am. Derm. Assoc., 1887
 
 ETIOLOGY. 787 
 
 Tracadie was established. During the first five years (1844-49) there 
 were admitted 32 patients; from 1849 to 1863, 67 additional patients 
 were received ; and from the latter date to 1879, 30 more, making a total 
 number of 129 up to the last report. The greatest number present at 
 any one time was 37. In 1878 there were 16 patients in the lazaretto 
 6 men and 10 women. The total number of deaths in the hospital 
 has been, up to 1878, 123. A. C. Smith, who resides near Tracadie, 
 states that at the -latter date but three cases were known to exist outside 
 the lazaretto. Residence is not compulsory, and no sufficient measures 
 are taken to remove patients from their homes before they may have 
 inoculated other members of the family. The disease is more restricted 
 in locality than formerly. 
 
 Within the last two years two or three small groups of the disease 
 have been discovered in the island of Cape Breton, which are described 
 in the Canadian Journal of Med. Science, Sept., 1881. 
 
 These are all the places north of Mexico where the disease exists in 
 an endemic form. A considerable number of cases have been reported 
 within the past few years from other parts of the United States, where it 
 has manifested itself in persons who have formerly resided in leprous 
 countries or in those who have wandered from the above infected districts. 
 A very few instances have been recorded in which it has appeared in those 
 who have never visited any infected locality or have been in apparent 
 contact with lepers. Such cases, if authentic, establish the possibility of 
 a sporadic origin of the affection. The fact of so many foci already 
 established, and the penetration of a race so prone to the disease as the 
 Chinese into all parts of the country, give the study of leprosy in Amer- 
 ica a special importance. 
 
 ETIOLOGY. The study of the etiology of leprosy is intimately con- 
 nected with that of its history and geographical distribution. From the 
 earliest times it was regarded in all parts of the world as a contagious 
 affection, and efforts were made by the sternest laws of Church and State 
 to control its spread by segregation, by interdiction of marriage, etc. No 
 disease has ever been regarded with an equal degree of abhorrence by 
 mankind ; none has received greater attention from physicians of every 
 age. Within the present century it has come to be regarded, almost 
 without exception, by the profession as non-contagious. Peculiarities of 
 climate, soil, and modes of life have been looked upon as predisposing, 
 exciting, or even essential influences in its causation ; but the widespread 
 distribution of the disease, with the consequent diversity of diet and 
 customs of living, its prevalence upon the coast and in interior regions, 
 in high altitudes as well as at the sea-level, in Iceland as in the tropics, 
 show that these conditions, however they may affect the course of the 
 affection, have no direct relation to its causation. The theory of heredity, 
 as the most plausible explanation, has received its strongest support in 
 the investigations of Boeck and Danielssen in Norway, where the disease 
 can be traced for several generations in families. The same conclusions 
 readily present themselves where the disease is studied in restricted local- 
 ities, as in Louisiana and New Brunswick at the present time, where, as 
 we have seen, it manifests itself closely in families in different generations. 
 But this is a narrow point of view from which to study the etiology of 
 leprosy. It often fails to manifest itself in the descendants of lepers in
 
 788 LEPROSY. 
 
 such communities, and affects persons in whose families it has never 
 previously existed. Moreover, in countries where it does not prevail it 
 not infrequently attacks individuals who have at some time visited legions 
 where it was endemic, and in the latter places may develop in immi- 
 grants from parts of the world where it has never existed. 
 
 The same class of facts which seem to demonstrate its hereditary nature 
 may be used in support of its infectious character. The proper field for 
 observation in this regard would be a virgin region where its natural 
 course could be studied independently of theories. Fortunately for 
 science, such an opportunity is afforded in the history of the disease in 
 the Hawaiian Islands. The exact date and mode of its introduction there 
 are not definitely known. The islands have for years been the resort of 
 the whaling-fleets manned by sailors coming from leprous regions. The 
 natives also shipped as sailors, and after visiting such ports returned 
 home. The absence of any restraint in the intercourse of crews and 
 native women is well known. Isolated cases may have occurred as far 
 back as 1830, but the disease made slow headway until about 1860, when 
 it increased so rapidly that the government took stringent measures to 
 control it, all cases discovered being sent to the leper segregation upon 
 an island from which there is no escape. Since 1866, 2000 cases have 
 been received there, and at last report the asylum contained 750 inmates. 
 This by no means represents the extent of its prevalence in the islands, 
 however. As the native population by recent census was only 44,000, it 
 will be seen that the proportion affected is very large. This unwonted 
 rapidity of spread cannot be accounted for on the ground of heredity. 
 Transference from individual to individual by inoculation seems to be 
 the only possible explanation, and all resident physicians believe that the 
 disease is contagious in this sense. It affects almost exclusively those of 
 native descent, and their habits of life are such as would greatly facilitate 
 its wide dissemination in this way viz. their great licentiousness and absence 
 of all fear of the disease, which affords no bar to ordinary association or 
 cohabitation ; the crowding of large families in small huts and sharing 
 the same mats and blankets ; the eating of poi with the fingers from the 
 same dish ; passing a common drinking- vessel or pipe from mouth to 
 mouth, ete. 1 Promiscuous and compulsory vaccination with impure 
 virus, too, has been generally practised during recent epidemics of small- 
 pox. It is evident that abundant opportunity has in many ways been 
 presented for the inoculation of pus or blood into the circulation from 
 infected to healthy persons. Where immunity from contraction has 
 followed marriage with a leper, it may be assumed that the conditions of 
 au abraded surface and the contact with pus or blood have not been ful- 
 filled. The wide spread of syphilis among the natives, and a consequent 
 cachexia, have no doubt contributed to these conditions and established a 
 national lack of resistance to the ravages of the disease. Nor can we 
 overlook the proclivity of all endemic diseases to extraordinary manifest- 
 ations of virulence in insular nations not previously protected by gradual 
 inoculation. Many reliable cases are cited by resident physicians where 
 the evidence of direct communication of the disease seems to be reliable. 
 Facts of the same nature may be collected in the study of the history of 
 
 1 Dr. G. ~\V. Woods, U. S. X., in Hygienic and Med. Reports of Navy Department, vol. 
 iv- 1879.
 
 SYMPTOMATOLOGY. TUBERCULAR LEPROSY. 789 
 
 the disease in New Brunswick and in Louisiana, where, as above stated, 
 much better fields for investigating this question exist than in the Old- 
 World regions where the affection has been rife for centuries. 
 
 If we admit the fact of transference by inoculation in a single instance, 
 there is no reason why we should not regard this as the principal if not 
 the only means of extension of the disease, whether we accept or not the 
 theory of its parasitic nature. It is not inconsistent with our knowledge 
 of its laws and history to believe that leprosy is an affection communi- 
 cated with difficulty, and after a prolonged period of incubation, from 
 one person to another by contact with certain products of the diseased 
 tissue; that it has in past and present time in this way spread from nation 
 to nation ; and that its progress as an endemic affection has been checked 
 only by laws based upon this theory. All the negative facts so frequently 
 urged against this doctrine of contagion apply as strongly to that of 
 heredity, and may be interpreted in support of the former. The latest 
 investigations into its pathology afford tangible evidence in its favor. It 
 may at least be claimed that the question of contagion through inocula- 
 tion must be reopened. 1 
 
 Leprosy affects both sexes in about equal degree, and may first show 
 itself in early childhood. It is apt to produce sterility, so that marriages 
 between lepers are rarely fruitful. This result seems to limit the exten- 
 sion of the disease under the law of heredity if we admit its action. 
 There can be no doubt that cohabitation may take place for years without 
 communication of the disease where one party alone is leprous ; and such 
 immunity may be explained by the failure of favorable conditions for 
 sexual inoculation, just as in syphilis. The disease would naturally be 
 most dangerous in its ulcerative tubercular form. 
 
 SYMPTOMATOLOGY. There are two well-marked forms of leprosy 
 viz. the tubercular and the anaesthetic which are characterized by certain 
 easily recognized external manifestations, and which are accompanied by 
 symptoms indicative of disturbances of the general economy as well as of 
 special organs. These forms are not always sharply defined, and often 
 occur simultaneously or in succession in individual cases. Both are gen- 
 erally preceded by premonitory symptoms, consisting of unaccountable 
 languor of mind and body, tingling sensations in the skin, rise of tem- 
 perature in the evening, and various disturbances of digestion, or by the 
 occasional outbreak of single or several blebs. This prodromal stage 
 affords no indication of the type of disease to follow, and may last for 
 days, months, or even years, with greater or less intervals and intensity. 
 
 TUBERCULAR LEPROSY. This form may declare itself at once by the 
 characteristic tubercles, but frequently an earlier manifestation is the 
 appearance of macules or dull red spots, varying in size from a pea to two 
 or three inches in diameter. They have an indistinct margin, a glazed 
 and smooth surface, and become paler on pressure. The patches, although 
 not at all or but slightly elevated above the general surface, are firmer, 
 and penetrate more or less deeply into the cutaneous tissues. They may 
 increase in size peripherally and undergo involution in the older central 
 portions simultaneously. During the latter process the color changes 
 from a more or less dull red to a brown, yellow, or grayish tint, and 
 
 1 See article on the question of contagion in leprosy in the American Journal of Med, 
 Sciences, Oct., 1882, by the writer.
 
 790 LEPROSY. 
 
 finally may become quite white. The spots also become thinner or even 
 slightly depressed. Their seat is principally the trunk, but also the 
 limbs, and less frequently the face. This condition of the skin may pre- 
 cede any other changes in its tissues for months or years, the patches 
 appearing and disappearing or remaining as permanent stains. At last 
 well-defined tubercular elevations show themselves, varying in size from 
 a small shot to a filbert, flattened or semi-globular in form, generally 
 smooth and firm to the touch, and of a dull red or brown color. They 
 occur upon any part of the surface, but are especially abundant upon the 
 face, where they may cause great deformity of the features. The fore- 
 head and eyebrows may become very greatly thickened by general infil- 
 tration, or thrown out into very prominent folds and protuberances by 
 the massing of individual tubercles. The lips thicken, the nose broadens, 
 and the ears stand out conspicuously with their increased bulk. All these 
 changes In form, with the great darkening in tint which is often present, 
 give at times a most repulsive expression to the face. The tubercles are 
 sometimes to be felt imbedded in the skin, or considerable areas are found 
 to be uniformly thickened and scarcely at all prominent. All forms are 
 capable of involution after an existence of months, and may leave dark- 
 colored atrophic patches to mark their seat. They are rarely painful, and 
 occasionally slightly sensitive. They may be transformed into ulcers, 
 especially upon prominent positions, as the knuckles, elbows, knees, as the 
 result of pressure or injury, which are extremely indolent, although shal- 
 low, and may heal and break down repeatedly. Occasionally they give 
 rise to serious complications inflammation of the lymph-vessels-, suppu- 
 ration of the joints with loss of the attendant members, as the fingers 
 and toes. Tubercles appear also upon the mucous membrane of the nasal 
 cavities, the mouth, and larynx, often in great abundance, causing a very 
 characteristic hoarseness or loss of voice. With these changes in the 
 cutaneous tissues, which may be accompanied in their periods of greatest 
 activity by febrile disturbances, there are developed after months or years, 
 with gradual failure of strength, manifestations of changes in the internal 
 organs, the lungs, intestines, and brain, which may prove fatal at any 
 time, or the patient may die of slowly progressive marasmus. The course 
 of the tubercular form is on the average between eight and ten years. At 
 any period there may supervene manifestations of the anaesthetic type, 
 which makes the so-called mixed variety, in which either form may pre- 
 dominate. 
 
 ANESTHETIC LEPROSY. This variety is characterized by the loss of 
 sensation in the skin over areas of varying extent, which occupy no defi- 
 nite positions in relation to nerve-distribution. The anaesthetic patches 
 may appear upon the seat of old maculae or former tubercles or of a pre- 
 ceding bullous efflorescence, or upon parts not previously affected in any 
 way. They may follow a reddened and hyperaesthetic condition of the 
 cutaneous tissues, or they may be surrounded by a serpiginous border of 
 this character. The degree of anaesthesia in the affected parts is some- 
 times so complete that the skin and underlying tissues may be deeply 
 pricked or cut or burned without the patient being aware of the injury. 
 Such patches may possibly regain their sensibility. Their surface appears 
 in later stages dry, wrinkled, shrunken, and of a brownish color, and 
 atrophy, not only of the skin but of the muscles, is gradually developed,
 
 PATHOLOGICAL ANATOMY. 791 
 
 in consequence of which the expression of the face undergoes a marked 
 change. The eyelids and lips droop, the hair falls, the hands contract, 
 and the joints of the fingers and toes are laid bare, so that the phalanges, 
 or even the whole hands and feet, drop off. Ulceration or gangrene of 
 the parts may develop, and whole extremities may shrivel up. With 
 these manifestations of local derangements of nerve-action the functions 
 of the brain fail, the patient becoming stupid and incapable of action or 
 motion, the temperature and pulse are lowered, and death comes slowly 
 by marasmus or the most various complications tetanus, disease of the 
 lungs, pyaemia, etc. The average duration of this form is from eighteen 
 to twenty years. 
 
 PATHOLOGICAL ANATOMY. The structural changes which take place 
 in the tissues of parts which are the seat of the appearances above 
 described have received the special study of many excellent observers 1 in 
 recent times, and are now well understood. A section through the thick- 
 ened skin or a tubercle shows the corium and underlying connective tissue 
 infiltrated with round cells, as in lupus and syphilis ; in other words, con- 
 verted into " granulation tissue." This change first takes place along the 
 course of the cutaneous vessels and glands, penetrating more deeply and 
 forming a firmer cell new-growth in proportion to duration, the cells 
 being enclosed in a coarse meshwork of fibrous tissue, and encroaching 
 upon the various structures of the skin, so as to produce atrophy and 
 finally destruction of all its characteristic tissues. This cell-infiltration 
 may of itself undergo later changes, as fatty degeneration and softening 
 (ulceration). The lymph-glands and corpuscles assume a special fatty 
 metamorphosis. An examination of the tubercles upon the mucous mem- 
 brane reveals the same small-celled new-growth. In the nerve-tissues also 
 marked structural changes are found, both in the central and peripheral 
 systems, in the anaesthetic form of the disease. In many cases the pos- 
 terior segments of the gray cornua and the fibres of the commissure, as well 
 as the nerves of the extremities, have been found altered by inflammation, 
 which will account for the disordered sensibility and the subsequent dis- 
 turbances of nutrition, muscular atrophy, etc. The nerve-trunks are often 
 to be felt beneath the skin, thickened and sensitive on pressure. The 
 chronic cell-infiltration affects the fibrous structure of the outer sheath, 
 the neurilemma, and the septa between the nerve-bundles, producing fatty 
 metamorphosis and atrophy of the nerve-bundles. Similar cell-infiltra- 
 tions are found also in the connective tissue of all the internal organs of 
 the body, which lead to destructive processes in their respective struc- 
 tures. 
 
 Within the last two years repeated observations have been made which 
 confirm the statement published by Hansen in 1873, that a peculiar bac- 
 terium occurs in leprous tissues, which, it is claimed, establishes the 
 parasitic nature of the affection. These examinations have been carried 
 on with leprous material derived from many parts of the world, and the 
 results have been uniform. Within the round cells which characterize 
 the cutaneous neoplasms, both in the distinct tubercles and the diffused 
 
 1 Boeck and Danielssen, Traite de la Spedalskhed, Paris, 1848; Virchow, Die Krank- 
 haften Oeschwillste ; Kaposi in Hebra's Lehrbuch der Hantkrankheiten ; Monasterski, Vier- 
 teljahressch. filr Derm. u. Syph., 1879, p. 203 ; Hansen, Virchou/s Archiv, Band 79, 1880 ; 
 Neisser, Virchoufs Archiv, Band 84, 1881 ; Cornil et Souchard, Annales de Derm, et de 
 Syph., 1881, No. 4.
 
 792 LEPROSY. 
 
 infiltrations, small agglomerations of minute rod- or staff-like bodies 
 (bacilli) are found, arranged in parallel rows or placed end to end. Their 
 length is one-half or three-fourths the diameter of a red blood-globule, 
 and their breadth is one-fourth their length. With them minute granular 
 particles are seen in the cells. They occur in greatest numbers in the 
 cells of the upper layers of the true skin, which are considerably swollen 
 by their presence. They never penetrate the epithelial layer, nor are they 
 found in epithelial cells in any position. When the protoplasm of the cell 
 is interfered with by the later tissue-changes of the disease, the bacillus 
 perishes. They are found not only in the leprous cells, but also in those 
 of the connective tissue running between the agglomerated masses of the 
 former. Between the leprous cells and the filaments of connective tissue 
 but few free bacilli are seen. The neoplasms of the mucous membrane 
 and of many organs of the body have been found to contain them also. 
 In the blood they have been detected by some observers. Their presence 
 in the nerve-tissues is of importance as throwing light upon the question 
 of the specific or inflammatory nature of the morbid processes above de- 
 scribed as affecting them. If we regard the bacteria as pathognomonic of 
 leprous tissue-changes, their occurrence, recognized in the cells penetrat- 
 ing; between the fibres of the peripheral nerves, would seem to make all 
 primary structural changes identical, and the anaesthetic as much as the 
 tubercular form the direct result of their presence. Neisser draws the 
 following conclusions from his investigations : " Leprosy is a real bacterial 
 disease, caused by a special kind of bacterium. The bacilli appear in the 
 tissues as such, or more probably as spores, and remain for a longer or 
 shorter time in a state of incubation, according to circumstances, in 
 depots, perhaps in the lymph-glands. This period, much longer than in 
 other infective diseases, is in proportion to the physiological resistance of 
 the human organism compared with the feeble developing power of the 
 bacilli. It, as well as the course of the disease, is more rapid in tropical 
 countries than in Europe. From these depots the disease extends through- 
 out the body in those portions of the skin most exposed, the face, hands, 
 elbows, knees, and into the peripheral nerves. The other organs are less 
 freely invaded. The bacilli excite inflammation, and by a specific action 
 transform the migrating cell into the leprous cell. Leprosy is probably 
 an infectious disease, and its specific products are contagious viz. the 
 leprous cells of the tubercles, the tissue-fluids, and the pus containing 
 bacilli or viable spores. On the other hand, the pus may not always be 
 infectious, as the fluid contained in the bullse is not." 
 
 It must be said that the bacterial nature of leprosy, if established 
 in accordance with the above observations, furnishes a satisfactory basis 
 of explanation of all facts, historical, clinical, and pathological, which 
 have so long been awaiting solution. The inability of the parasite to 
 penetrate the epithelial layer of the skin and mucous membrane explains 
 why contagion is so difficult, and why the ulcerative tubercular form 
 would be more favorable to such transference than the anesthetic variety. 
 
 DIAGNOSIS. Leprosy in some of its early appearances may be readily 
 confounded with vitiligo, morphoea, pemphigus, lupus, and syphilis. In 
 some cases its prodromal manifestations cannot be positively diagnosti- 
 cated until other symptoms have developed, which by concurrence estab- 
 lish their true significance. Such are the pemphigus-like bullao, the
 
 * PROGNOSIS. TREATMENT. 793- 
 
 pigment-changes, and the smaller tubercular efflorescences. In regions 
 where the disease occurs only by importation, and in the so-called spor- 
 radic cases, it is not at all strange that it should fail of recognition, even 
 in well-advanced forms, unless the observer is acquainted with its whole 
 symptomatology. On the other hand, there is no disease which presents 
 more strikingly characteristic features in its advanced stages. 
 
 PROGNOSIS. Leprosy is almost uniformly a fatal affection, and its 
 course toward this termination varies but slightly under the most diverse 
 conditions of life. Its development and progress are naturally more 
 rapid under circumstances of least individual resistance, where food is 
 poor and scanty, where extremes of climate are most felt, where the con- 
 stitution of the individual or nation is debilitated by previous disease, as 
 that of the Hawaiians by syphilis, or where no proper professional care is 
 employed. It has been believed that a change of residence from infected 
 to non-leprous regions would retard its advance or avert its appearance 
 in those supposed to be hereditarily disposed ; but the former effect fol- 
 lows probably only so far as the general condition of the patient is affected 
 by the change, as in other constitutional disorders, and the latter is neces- 
 sarily a matter wholly of conjecture. No case of leprosy in the Norwe- 
 gian colony in our North-western States has ceased to progress after 
 arrival toward its fatal ending, even if this has been somewhat delayed 
 in individual cases under more generous ways of living. If it could be 
 known that a child born in Norway had escaped leprosy by removal to 
 America, we should not, if we accept the bacterial origin of the disease, 
 consider that climate or other mysterious 'influences had overcome its 
 inherited tendencies, but that it had been taken away from the chance 
 of direct inoculation. It is stated that very rarely cases cease to progress 
 beyond certain stages even in countries where the disease is endemic. 
 The course, as has been stated, varies according to the clinical form, the 
 duration of the tubercular variety being on an average but one-half that 
 of the purely anaesthetic type. Leprosy may be called the slow disease, 
 its period of incubation, so far as this can be determined, extending from 
 one to several years, its prodromal stage lasting often several more years, 
 and its well-developed forms requiring at times more than twenty years 
 to destroy the patient. Cases sometimes prove fatal, however, in a single 
 year. 
 
 TREATMENT. In a disease which affects so many of the races and 
 such great numbers of mankind, which has been for centuries the object 
 of special attention on the part of physicians, and of late years of govern- 
 ment commissions and of eminent pathologists, it is evident that every 
 remedy which the materia medica includes, as well as those of merely 
 popular reputation in the widely-diverse geographical regions in which it 
 prevails, must have been employed in its treatment. None of them exert 
 any specific action upon it ; it remains incurable. Every year some new 
 article is employed with the usual claims of success which accompany the 
 introduction of new remedies, but they merely swell the long list of fail- 
 ures in the therapeutics of the affection. Still, leprosy is influenced 
 somewhat by medical care; life may be prolonged and made more 
 comfortable. To this end we may employ remedies which are capable 
 of improving and maintaining the constitutional powers of resistance to 
 the disease, such as are found of service in other chronic wasting affections.
 
 794 LEPROSY. 
 
 The patient is to be put in as healthy ways of living as possible, removed 
 from debilitating localities, and given generous diet and tonics, as iron 
 and quinia. Several new drugs which seem to stimulate the nutrition 
 and produce temporary improvement in the local and general symptoms 
 have lately been widely employed, as Gurjun balsam and chaulmoogra 
 oil, but they have wrought no cure. Digestion is to be aided, diarrhoea 
 to be checked, and disturbances of respiration to be alleviated. Local 
 treatment is also of service. The tubercles may sometimes be made to 
 disappear partly, at least by stimulating applications, and ulcers made 
 to heal by cauterization and other well-known methods of dressing. 
 These ulcers and their secretions should be regarded as possible sources 
 of infection by attendants and members of the patient's household. For 
 the anaesthetic alterations in the tissues but little can be done locally. 
 If the bacterial origin and causation of the disease be eventually estab- 
 lished, its future extinction must be based upon studies directed to the 
 nature and mode of protection against this organism. Collectively, the 
 disease should be treated by every nation by thorough segregation, and 
 importation should be prevented by the most rigid quarantine laws.
 
 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 BY ALFRED STILLE, M. D., LL.D. 
 
 DEFINITION. A febrile, and often malignant, but non-contagious dis- 
 ease of unknown origin ; usually occurring as a local epidemic ; confined 
 hitherto to the North American and European continents, and to the vicin- 
 ity of the latter ; characterized by its rapid and irregular course, and usu- 
 ally by a tetanic rigidity or retraction of the neck, a tendency to disor- 
 ganization of the blood, and the formation of inflammatory exudates 
 beneath the membranes of the brain and spinal cord. 
 
 SYNONYMS. Spotted fever ; petechial fever ; malignant purpuric fever ; 
 malignant purpura ; pestilential purpura; black death; typhus petechialis ; 
 typhus syncopalis; febris nigra; febbre soporoso-convulsivo ; tifo apo- 
 plettico tetanico ; fievre c6rebro-spinale ; typhus cerebro-spinale ; phreni- 
 tis typhodes; epidemic meningitis; epidemic cerebro-spinal meningitis; 
 malignant meningitis ; typhoid meningitis ; m6ningite cer6bro-spinale epi- 
 demique ; m^ningite c6rebro-rachidienne ; Genickkrampf ; Genickstarre. 
 
 The names which have been given to this disease convey more or less 
 distinctly one or the other of two ideas: 1st, that the disease is essen- 
 tially a blood-disorder ; and 2d, that it is an inflammation of the cerebro- 
 spinal meniuges. Under the first head belong the following names : 
 Malignant purpuric fever; malignant purpura; pestilential purpura; 
 petechial fever ; spotted fever ; febris nigra ; black death, etc. Under 
 the second head belong epidemic cerebro-spinal meningitis ; epidemic 
 meningitis ; malignant meningitis ; typhoid meningitis, etc. As partak- 
 ing of the qualities of both categories may be cited the names cerebro- 
 spinal fever and fever with cerebro-spinal meningitis. In regard to all 
 those of the first class it is sufficient to repeat the criticism made by the 
 early American writers who described this disease after having largely 
 studied it. One only of them need be cited, because he expresses the 
 opinion of all. Miner, writing in 1822, said : " It is quite unfortunate 
 that a single symptom (petechise), and one, too, that is wanting in a great 
 majority of cases, should have been seized upon to give it the odious and 
 deceptive name of spotted fever, as that name has been applied by Euro- 
 pean writers to a. very different kind of fever." Among the names given 
 to the disease, cerebro-spinal fever is perhaps the least suitable and the 
 least in harmony with the principles of scientific nomenclature. It is one 
 of those terms which may be pardoned when used by the laity, but which 
 educated physicians ought not tolerate. Parallel examples may be found 
 in such compounds as brain-fever, lung-fever, gastric-fever, and, most 
 unfortunate of all, enteric fever. The first three of these are inflamma- 
 
 795
 
 796 EPIDEMIC CEREBEO-SPINAL MENINGITIS. 
 
 tions, pure and simple, of the brain, lung, and stomach ; and, after their 
 example, cerebro^spinal meningitis would be, what it is not, merely an 
 inflammation of the membranes of the brain and spinal marrow. The 
 name of the remaining disease has only to be turned into English and 
 called intestinal fever to demonstrate its defects. It is evident that other 
 diseases and dysentery in particular are equally entitled to be called 
 enteric fever. Moreover, there are cases of enteric fever in which death 
 takes place so early that the intestinal lesion is undeveloped, and the fatal 
 issue must be attributed to the fever-poison in the blood or else to the 
 changes it has wrought in that fluid. Analogous illustrations abound in 
 the history of the eruptive fevers. The disease we are studying presents 
 another affection in which the septic element sometimes so far overrides 
 the inflammatory as to destroy life before the latter has developed charac- 
 teristic tissue-changes. There may be no valid objection against classing 
 it among the fevers, but there can be no excuse for denominating it cerebro- 
 spinal fever. The very reasons that militate against its being regarded as 
 a meningitis forbid its being considered as a meningeal fever. But if it 
 is a meningitis, inchoate or complete, then the prefix epidemic denotes its 
 constitutional nature and its probable blood origin, and a term is employed 
 which is descriptive and accurate, and not misleading. Moreover, the 
 term epidemic indicates, or at least implies, the characteristic type of the 
 disease, which is asthenic and sometimes more or less typhoidal, just as 
 ' other inflammatory diseases become so in their epidemic form e. g. pneu- 
 monia, bronchitis (influenza)^ dysentery, etc. 
 
 There ought to be no doubt whether epidemic meningitis should be 
 classed with general diseases or with inflammations. It is excluded from 
 the latter class by the total absence of any tangible external cause from its 
 causation, as well as by its frequent fatal termination before the charac- 
 teristic signs of inflammation have had time to form, or because the pecu- 
 liar type of the disease prevents their development. It belongs to the 
 former class because it is epidemic in the largest sense, its outbreaks occur- 
 ring simultaneously in remote parts of the earth and independently of all 
 cognizable celestial or terrestrial influences. In this as in other elements 
 of its pathology the disease stands absolutely alone. While the acute 
 affections of the pulmonary and digestive organs, which were just now 
 alluded to, affect large districts, and even sweep over a whole continent 
 epidemic meningitis breaks out in limited localities, and may for years 
 prevail in a populous city within a hundred miles of another still more 
 populous which during that time may altogether escape its ravages. Of 
 this curious fact the cities of Philadelphia and New York present a strik- 
 ing illustration. Since, then, we are ignorant of the circumstances under 
 which the disease arises, and since, as will more distinctly appear later on, 
 its several forms really include quite various morbid conditions, we are 
 compelled to consider it as occupying a peculiar and exceptional nosologi- 
 cal position. 
 
 HISTORY. Previous to the present century the existence of this dis- 
 ease can hardly be demonstrated. And yet Dr. B. W. Richardson 
 believed that some faint traces of it could be discovered, as in the follow- 
 ing statement: 1 "The great plague which visited Constantinople in 543, 
 and which Procopius and Enagrius described, the plague of hallucina- 
 1 Diseases of Modern Life, p. 16.
 
 HISTORY. 797 
 
 tion, drowsiness, slumbering, distraction, and ardent fever, with eruption 
 on the skin of _ black pimples the size of a lentil, this plague, which 
 usually killed in five days, and left many who recovered with withered 
 limbs, wasted tongues, stammering speech or such utterance of sound 
 that their words could not be distinguished, this plague, which had 
 passed into mythical learning under the name of cerebro-spinal menin- 
 gitis, has also in our time reappeared." The concluding statement in 
 regard to the name of the plague is quite erroneous, and there is nothing 
 in the description which distinctively applies to the disease we are exam- 
 ining. On the other hand, we know that Procopius wrote a history of 
 the Oriental plague, which invaded Europe for the first time at the very 
 date above given. It had as a distinctive symptom the well-known 
 inguinal bubo, and there is no mention whatever, in the descriptions of it 
 that have survived, of the tetanoid symptoms belonging to epidemic men- 
 ingitis. In 1802 an epidemic occurred at Koetlingen in Franconia which 
 had a certain resemblance to the subject of this article, for it was charac- 
 terized by lacerating pains in the back of the neck. According to Hecker, 
 this was the sweating sickness which had ravaged various parts of Europe 
 during the Middle Ages, and of which limited outbreaks still recur. In 
 1 880 such a one took place at File d'Oleron in France, and many of the 
 patients were affected with tonic or clonic spasms, both general and local, 
 but not, apparently, opisthotonic. 1 
 
 If epidemic meningitis occurred before the nineteenth century, it must 
 have been confounded with other affections, but when we consider its cha- 
 racteristic symptoms such an error seems improbable. The comparatively 
 rare resort at that time to post-mortem examinations, particularly of the 
 cranial and spinal cavities, may in part account for such a confusion of 
 ideas ; and even when dissections were made, the skill to interpret the 
 discovered lesions was possessed by few. It has been thought that in the 
 latter part of the last century some cases of this disease were seen and 
 described, although their nosological value was unrecognized. Thus, 
 Stoll 2 speaks of a young soldier who was seized with a pain in the back 
 of the head and neck, and who was affected with opisthotonos before he 
 died. On examination pus was found between the arachnoid and the 
 pia mater. The first clear and unquestionable description of epidemic 
 meningitis was published in 1805, first by Vieusseux and directly after- 
 ward by Mathey. 3 The disease appeared at Geneva in the spring of the 
 year, in a family composed of a woman and three children, of whom two 
 of the latter died within twenty-four hours. A fortnight later four 
 children in a neighboring family died of it after fourteen or fifteen hours' 
 illness, and a young man in an adjoining house, being attacked, died the 
 same night, with his whole body of a violet color. The disease ceased 
 during the spring, after having destroyed thirty-three lives. Its dis- 
 tinctive features were an abrupt attack during the night, bilious vomit- 
 ing, excruciating headache, rigidity of the spine, difficult deglutition, con- 
 vulsions, nocturnal paroxysms, petechise, and death in from twelve hours 
 to five days. Vieusseux calls it "a malignant non-contagious fever," 
 .and Mathey gives as the lesions revealed by dissection a gelatinous exu- 
 
 1 Pineau, Archives gen. de med, torn, i., 1882, pp. 25, 169. 
 
 2 Quoted by Boudin, Hist, du typhus cerebro-spinal, p. 5. 
 
 8 Journ. de Med., Chirurg. et Pharm., etc., an. xiv., torn. xi. pp. 163, 243
 
 798 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 dation covering the convex surface of the brain, and a yellow puriform 
 matter upon its posterior aspect, upon the optic commissure, the inferior 
 surface of the cerebellum, and the medulla oblongata. 
 
 After its first appearance at Geneva the disease does not seem to have 
 extended in any direction from that place as a centre, but we next hear of 
 it at two points remote from it and from one another Germany and the 
 United States. From the former it extended to the conterminous 
 countries, Bavaria, Holland, and the east of France, where, however, it 
 prevailed neither extensively nor fatally, and soon died out; while in 
 America it first appeared at Medfield, Mass., in 1806. The European 
 epidemic was faintly felt in England the following year, and between that 
 time and 1816 it prevailed at several places in the east of France, and 
 slightly at Paris, while during the corresponding period it had extended 
 through New England into Canada, New York, Pennsylvania, and 
 several Western and South-western States. It is a noteworthy fact that 
 on both sides of the Atlantic it ceased in the same year (1816). During 
 the six following years we can discover no trace of its existence, but in 
 1822-23 it reappeared at Vesoul in France, and at Middletowu, Con- 
 necticut, and does not seem to have extended beyond those places. Again, 
 after an interval of five years, in 1828 it was heard of in Trumbull co., 
 Ohio, two years later at Sunderland in England, and three years after- 
 ward (in 1833) at Naples. 
 
 After four years of quiescence the disease entered upon a wider and 
 more destructive career than ever before, which was almost uninter- 
 rupted from 1837 to 1850. During the first two years of its recurrence 
 in Europe it was confined almost wholly to France. It began in the 
 southern departments, with Bayonne as a centre, and extended gradually 
 westward and northward, in some places attacking only military garrisons 
 and in others only civilians. Elsewhere the predilection was reversed, 
 or, again, civilians and soldiers were equally affected. As Boudin has 
 pointed out, " it located itself in certain districts ; in garrison-towns it 
 seemed to affect certain barracks only, and in them only certain rooms. 
 In one place it broke out in a prison and spared the soldiers ; in another its 
 victims were among the soldiers and the citizens, while the prisoners were 
 untouched." Thus the disease spread over the whole of France, and was 
 more fatal almost everywhere else than in Paris itself. Almost at the gates 
 of the capital, at Versailles, and among the garrison, it was very destruc- 
 tive in 1839, causing a mortality among those attacked of from 50 to 75 
 per cent. About the same time it occasioned a great mortality at other 
 military posts, especially at Rochefort and Metz, and in 1840-41 at 
 Strasbourg. In 1843 the disease had almost ceased to prevail in France, 
 out in 1846 it reappeared at Lyons, and in the following years, and until 
 1849, affected the garrisons of Orleans, Cambrai, Saint-tienne, Metz 
 again, Luue'ville, Dijon, Bourges, and Toulon. In some of these places 
 the military experienced five, and even seven, successive epidemics. 
 Meanwhile, the disease spread to Algeria (1839-47), and to Italy in the 
 former year not, however, on the confines of France, but at Naples and 
 in the Romagna, whence it extended to Sicily and Gibraltar, and did not 
 cease there until 1845. In 1839 it first showed itself in Denmark, and 
 remained for about three years, while in 1846 it "appeared in the
 
 HISTORY. 799 
 
 majority of the workhouses of Ireland/' and in the spring of the same 
 year it occurred in England, at Liverpool and Eochester. 
 
 While the disease was thus spreading throughout Europe, it again, in 
 1842, appeared in the United States, but at places as remote as possible 
 from Transatlantic communication and hundreds of miles distant from 
 one another e. g. in Louisville, Kentucky, in Eutherford co., Tennessee, 
 and in Montgomery, Alabama. In the following year it prevailed in 
 Arkansas, Mississippi, and Illinois. In 1848 it occurred again at Mont- 
 gomery, Ala., and simultaneously, in Beaver co., Pa. ; in 1849 it existed 
 in Massachusetts and in Cayuga co., N. Y., and in 1850 at New Or- 
 leans. 
 
 Between 1850 and 1854 epidemic meningitis ceased to be heard of, but 
 in the spring of the latter year it began to appear in the southern prov- 
 inces of Sweden, whence it rapidly spread over the greater part of the 
 kingdom, reaching an extreme degree of fatality in 1858, and not finally 
 disappearing until 1861. It is said to have caused more than four 
 thousand deaths. It was not until the height of the Swedish epidemic in 
 1858 that it invaded Norway, where it seems to have been even more 
 malignant and extensive. Between 1850 and 1860 local outbreaks of 
 the disease took place in Ireland, and isolated cases were observed in 
 various parts of England, but in that country it has never prevailed as a 
 general epidemic. This fact alone is sufficient to defeat all the attempts 
 that have been made to trace the origin of th disease to any of the con- 
 ditions associated with a crowded population. In Scotland, where such 
 conditions exist in their greatest intensity and fulness of development, it 
 has never occurred as an epidemic. During the decade under considera- 
 tion (in 1856 and 1857) epidemic meningitis again appeared in the United 
 States, and, as before, at points very remote from one another. In the 
 former year it occurred for the first time in North Carolina, and in the 
 latter year in the central portions of New York and Massachusetts. 
 
 Hardly had the disease subsided in the Scandinavian peninsula and in 
 the United Kingdom when it reappeared in Holland during the winter of 
 186061. In the following year and at the same season it occupied a 
 large extent of Portuguese territory, including the cities of Oporto and 
 Lisbon, and now for the first time it spread over Germany. Beginning 
 slightly during the summer of 1863 in Prussia, it acquired new vigor 
 during the succeeding winter, and in the two following years it devas- 
 tated almost every part of Northern Germany, and in 186465 extended 
 throughout Bavaria except in its southern and western provinces. Strange 
 to relate, the disease appears to have passed almost wholly by Austria 
 proper, and to have prevailed, although not extensively nor fatally, in 
 Hungary, and in the latter part of the decade in Istria, Greece, Turkey, 
 and Asia Minor. 
 
 The American counterpart of this epidemic first appeared in Living- 
 ston co., Missouri, in the winter of 186162, and during the same season 
 it invaded Indiana and Kentucky in the West and Connecticut in the 
 East. From about the same date, and until 1864, it prevailed in Ohio, 
 and during the last-named year in Illinois. Cases occurred at Newport, 
 Ehode Island, in 1863, and in Vermont in 1864. In the winter and 
 spring of the latter year it broke out at Carbondale, Pa., and in a popu- 
 ulatlon of 6000 caused the death of 400, principally among children and
 
 800 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 very young persons. 1 In the winters of 1863-64 and of 1864-65 it pre- 
 vailed in the U. S. ariny, and in the early part of this period in the Con- 
 federate army which at the time was stationed near Fredericksburg, Va. 
 In North Carolina also, from 1862 to 1864, the disease assumed a very 
 malignant type, and affected citizens and soldiers equally, and the latter 
 in the Union and Confederate armies alike. During the winter of 1 864- 
 5 a limited but very fatal epidemic of the disease prevailed at Little 
 Rock, Arkansas. About the same time it existed as an epidemic in Mary- 
 land, Alabama, and other Southern States, and throughout the Civil War 
 affected both whites and negroes, but showed, as in France, an excep- 
 tional gravity among the military. 
 
 The first appearance of the disease in Philadelphia took place in 1863, 
 and from that date until the present (1884) it has never failed to appear 
 among the causes of death in the reports of the Health Office. A table 
 compiled by Dr. C. F. Clark, and printed in a paper on the subject by 
 Dr. James C. Wilson, 2 exhibits the difficulties of obtaining accurate sta- 
 tistics, even from official reports, on this subject. The medical profession 
 of the city, having had but little knowledge of the disease either by 
 reading or observation, reported deaths from it which occurred in their 
 practice under various denominations. At' first it was spotted fever, 
 which continued to be used by many for a year or two, when it was 
 superseded almost entirely by cerebro-spinal meningitis. There can be 
 no doubt that both of these terms were used to designate the same dis- 
 ease, and therefore no error will be committed in merging the deaths 
 charged to each of them, and in estimating by their annual totals at least 
 the relative mortality of the disease in the successive years of the period. 
 But in the Health Office reports there are at least three other rubrics 
 that suggest doubt. One is typhus fever, which seems to have presented 
 a sudden and remarkable increase of mortality during the first years, and 
 the most fatal, of the existence of cerebro-spinal meningitis. It should 
 also be observed that typhus fever is applied by many German physicians 
 in this country, as in their native land, to typhoid fever. A second is 
 malignant fever, and a third is congestive fever, neither of which has 
 claimed many victims in the health reports of Philadelphia except while 
 meningitis was epidemic. It seems probable, therefore, that nearly all 
 of the deaths charged under these heads belong to the disease under 
 consideration. 
 
 Deatlis in Philadelphia from Cerebro-Spinal Meningitis from 1863-82. 
 
 Brought over 1136 
 
 1863 49 
 
 1864 384 
 
 1865 192 
 
 1866 92 
 
 1867 109 
 
 1868 55 
 
 1869 37 
 
 1870 36 
 
 1871 49 
 
 1872 133 
 
 1873 246 
 
 1874 82 
 
 1875 83 
 
 1876 85 
 
 1877 56 
 
 1878 90 
 
 1879 62 
 
 1880 78 
 
 1881 90 
 
 1882 41_to Sept. 23d. 
 
 1136 Total 2049 
 
 If to these deaths are added those charged to malignant fever, 111, and to 
 1 Burr, Trans. Med. Soc. State of N. York, 1865, p. 40. 2 Phila. Med. Times, xiii. 88.
 
 ETIOLOGY. 801 
 
 congestive fever, 279, we obtain a total of 2439 deaths, nearly all of 
 which may be set to the account of epidemic meningitis. It may also be 
 remarked that up to the date at which this computation was made (May, 
 1883) hardly a week passed in which the Health Office did not register 
 several deaths from this cause. Hence it would appear that the disease 
 continues to linger in this locality longer than has been reported of any 
 other place from which information has been obtained. 
 
 In the city of New York it appears to have been much more limited 
 both in extent and duration. The first recorded death from it was in 
 1861 ; in 1866 the deaths were 18; in 1867 the deaths were 32; in 1868 
 they were 34 ; in 1869, 42 ; in 1870, 32 ; in 1871, 48. In 1872 the 
 disease became epidemic, and " from January 6 to May 31, inclusive, 
 632 cases were reported to the City Sanitary Inspector, and 469 deaths 
 to the Bureau of Records of Vital Statistics" (Clymer). After this 
 period the disease seems to have declined very rapidly, and not to have 
 reappeared, since no notice is taken of its recurrence by the medical 
 journals of New York. 
 
 It Avas mentioned above that about 1870 some traces of the disease 
 were observed in Asia Minor, and in 1872 several cases are said to have 
 occurred at Jerusalem, 1 but beyond that time and place it does not appear 
 to have extended as an epidemic. In 1879, Cheevers said: "I am not 
 aware of the existence of any report of an outbreak of the disease in 
 India." He refers, however, to several cases occurring in Calcutta as 
 possibly representing this affection. 2 
 
 In 186768 sporadic cases occurred at Little Rock, Ark., and in the 
 former year in Madison co., N. Y., thirty-three cases were reported. 3 In 
 Chicago, between February and April, 1872, Dr. Davis reported forty 
 cases observed in his own practice in seventy-two days. In the same 
 year the disease occurred at Elizabethtown, Ky., 4 and at Louisville, Ky., 
 in December of the same year. It existed in Michigan between 1868 
 and 1874, but only in the latter year epidemically, and not to a very 
 great extent. 
 
 Of later occurrences of the disease the following may be mentioned : 
 Several cases were reported in London in 1867, 1871, 1876, and 1878. 5 
 In 1870 four cases were observed in Providence, R. I. 6 In 1882 cases were 
 met with in Boston, New York, Philadelphia, Pittsburg, Western Ohio, 
 Indianapolis, Detroit, Louisville, Memphis, New Orleans, Richmond, 
 Milwaukee, St. Louis, Salt Lake City, San Francisco, etc., but in none of 
 these places did the disease become epidemic. 
 
 ETIOLOGY. Epidemic meningitis has occurred in Europe and America 
 in every portion of the temperate zone, but its greatest prevalence and mor- 
 tality have undoubtedly been in the northern rather than in the southern 
 portions of that region. One of its most interesting features consists in 
 its appearing simultaneously at points very remote from one another and 
 having no connection with each other save through the atmosphere. Of 
 this statement several illustrations have already been presented. Another 
 
 1 Berlin Min. Wochensch., May, 1872. 2 Times and Gazette, Aug., 1879, p. 121. 
 
 3 Trans. Med. Soc. State of N. Y., 18G8, p. 251. 
 
 4 Richmond and Louisville Journ., Nov., 1872, p. 555. 
 
 5 Times and Gazette, July, 1867, pp. 58, 59 ; Nov., 1867, p. 511 ; Guy's Hospital Rep., 
 3d Ser., xvii. 440; St. Bart's Report*, xii. 2f>7 ; Times and Gaz., Aug., 1878, p. 167. 
 
 6 Boston M. and S. Jour., Oct., 1870, p. 261. 
 
 VOL. I. 51
 
 802 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 peculiarity of the disease consists in its occurring with hardly any relation 
 to external natural conditions or to those of its victims. It affects locali- 
 ties as diverse as possible in their geological, meteorological, and sanitary 
 states, the rich and the poor, the old and the young, and both sexes, and 
 (as it is certainly not in a strict sense contagious) its rise and spread must 
 necessarily be attributed to some occult cause pervading the atmosphere. 
 
 It is evident that the prevalence of the disease has some relation to 
 meteorological agencies, for not only is it greater, on the whole, in cold 
 than in warm climates, but it is also greater in cold than in warm seasons. 
 Thus, if we examine the epidemics in Europe and America we shall find 
 that they almost invariably were most severe in the winter and spring. 
 Yet the rule presents several exceptions on both continents. In France, 
 out of 216 local epidemics, more than one-fourth took place during the 
 warm mouths of the year, and in Sweden the proportion was about the 
 same. It is evident, therefore, that cold is not an essential cause of the 
 disease. Among the problems that remain unsolved in regard to this dis- 
 ease none is more obscure than the apparent immunity of Russia from its 
 ravages, although the climate seems adapted to favor it, and the domestic 
 habits of no people are fitter to intensify it if individual conditions entered 
 into the etiology of the disease ; but, in truth, no such causes are related 
 to epidemic meningitis. Localities of every sort, high and low, dry and 
 moist, those saturated with marsh miasmata and those fanned by pure 
 mountain-breezes, have been alike visited by this disease. It has passed 
 by large cities reeking with all the corruptions of a soil saturated with 
 ordure and populations begrimed with filth, as Vienna, Berlin, Paris, 
 London, and New York, to devastate clean and salubrious villages and 
 the families of substantial farmers inhabiting isolated spots. 
 
 By far the greatest number of the subjects of epidemic meningitis are 
 young persons. In Sweden, according to Hirsch, of 1267 fatal cases of 
 the disease, 889 occurred in persons under fifteen years of age, 328 
 between sixteen and forty years, and 50 in persons of forty years and 
 upward. In 1866, in the Krouach district (Germany), of 115 cases, 75 
 occurred under the seventh year, 22 between the seventh and twelfth years, 
 and 10 between the thirteenth and twentieth years (Schweitzer). Dur- 
 ing 1865 a local outbreak of the disease in Bavaria affected 53 persons, 
 of whom 22 were children under ten years of age, 18 between ten and 
 twenty years, and 11 between twenty and thirty years. Under the fifth 
 year few were attacked (Orth). Dr. J. L. Smith l found that, according 
 to the reports of the Board of Health of the city of New York, out of 
 975 cases, 771 occurred in persons under fifteen years of age, the greatest 
 number for any quiquennial period being 336 in children under five years. 
 Of the 469 deaths occurring in this epidemic, 216 were of children under 
 five years of age, and the next largest number for an equal period was 99, 
 which represented the deaths between the ages of five and ten years. Of 
 adults or persons beyond the age of twenty, the whole number was but 39. 
 The peculiar liability to the disease of the young recruits in the French 
 army has already been alluded to. The proportion of male victims to 
 this affection is rather larger than that of females in the civil population, 
 but in France especially the excess was greatly on the side of males, 
 owing to the prevalence of the disease in the army. In other places, as 
 1 Amer. Jour, of Med. ScL, Oct., 1873, p. 320.
 
 ETIOLOGY. 803 
 
 in Sweden and Germany, the number of deaths among females equalled, 
 or even exceeded, that of males, and in Leipsic the garrison remained 
 exempt while the disease prevailed among the citizens. In 1847 a fatal 
 epidemic of it affected the second regiment of the Mississippi Rifles, and was 
 entirely confined to that corps (Love). During the Civil War of the 
 United States the disease affected particular corps or regiments in the 
 South or in the North, yet it never became epidemic in the army, even 
 when the disease prevailed among the adjacent civil population. 
 
 Various depressing or debilitating causes, such as lowness of spirits, 
 home-sickness, mental or bodily strain, over-eating, drinking alcohol, the 
 action of excessive cold or heat, checking perspiration, etc., have been 
 enumerated as causes of this disease. It is unnecessary to dwell upon 
 such gratuitous assumptions. All of these influences are constant, but 
 epidemic meningitis is the rarest of epidemic diseases, and the agencies 
 referred to have no further operation than to lessen the resistance of the 
 body to morbid influences of every description. If there be one pecu- 
 liarity about this disease which is more surprising and inexplicable than 
 another, it is that its peculiar victims are not the feeble and delicate, 
 but the vigorous and active not the old and decaying, but the young 
 and stalwart. 
 
 No one of authority has claimed that this disease can be propagated by 
 contagion. All of its early American historians are of the same opinion 
 upon this question, and nearly all European authorities are in perfect 
 accord with them. The apparent exceptions to this all but universal 
 judgment are so insignificant in number and weight as not in the least to 
 diminish its validity. A case has been published in which a pregnant 
 woman at full term died of the disease after giving birth to an appar- 
 ently healthy child. " Two hours later the infant presented symptoms 
 of meningitis, followed rapidly by death." ] Supposing the concluding 
 statement to be accurate, the case only shows that the cause of the disease 
 which destroyed the mother's life infected the system of the child also. 
 If there is one point in the history of the disease established by the con- 
 curring testimony of American and European writers, it is the extreme 
 rarity of its attacking either the physicians and nurses in attendance 
 upon patients affected with it, or those laboring under other diseases and 
 occupying beds adjacent to persons ill with epidemic meningitis. ^ That, 
 nevertheless, there is a material morbific principle which inheres in cer- 
 tain localities, so that those who occupy them successively are liable to 
 suffer from this disease, and that also this principle may be carried from 
 place to place so as to render certain houses (barracks) infectious, seems 
 to be demonstrated by the history of the disease in the French army. 
 Between 1837 and 1850, when the disease prevailed in various parts of 
 France, it did so not indiscriminately, but it usually followed the ordinary 
 routes of communication, and especially the movements of the military 
 in their transfers from one post to another, and the course of navigable 
 streams. Strangely, also, it attacked soldiers much oftener than civilians. 
 The most curious fact of all is one already referred to viz. that although 
 the disease prevailed in almost every part of the provinces, and although 
 then as ever an incessant stream from them was flowing into the capital, 
 neither its civil nor its military population was generally affected, nor, 
 
 1 Med. Record, xxii. 547.
 
 804 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 indeed, at all so, until near the close of the period mentioned. Mean- 
 while, however, the disease extended to several countries conterminous 
 with France or in close and frequent intercourse with it to Italy (1839- 
 45), Algeria (1839-47), England, Ireland, and Denmark (1845-48). 
 These events seem to point to a certain transmissibility of the disease 
 until we examine the negative facts that bear upon the question. They 
 are such as these : The epidemic did not spread at all from France into 
 two of the adjacent countries, Belgium and Switzerland, with which the 
 first-named country maintained an incessant intercourse by travel and 
 traffic, but, on the other hand, it broke out at an early date within the 
 period mentioned at places very remote and absolutely independent of all 
 influence emanating from France or any other European source in the 
 south-western portions of the United States. It is by numerous facts of 
 this description that we are compelled to remove the disease from the 
 category of endemic and even epidemic diseases, and relegate it, along 
 with influenza, to that of pandemic affections. 
 
 There seems to be some reason for thinking that the epidemic cause of 
 this disease may affect the lower animals as well as man. It was stated 
 by Gallup in 1811 that during the epidemic of meningitis in Vermont 
 " even the foxes seemed to be affected, so that they were killed in numbers 
 near the dwellings of the inhabitants;" and of the epidemic in 1871 in 
 New York, Dr. Smith relates that " it was common and fatal in the large 
 stables of the city car and stage lines, while among the people the epi- 
 demic did not properly commence until January, 1872." It would be 
 desirable to learn more precisely the characters of these vulpine and 
 equine epidemics before associating them with the disease we are study- 
 ing, the more so that we have been unable to discover a similar relation 
 between any epizootic and other epidemics of meningitis. In this con- 
 nection may be recalled the statement of Dr. Law of Dublin, that while 
 he was attending a lady suffering from cerebro-spinal meningitis " nine 
 rabbits, out of eleven which her son had, died, all in the same way : their 
 limbs seemed to fail them, they fell on their side, and then worked in 
 convulsions, and died." On examination of the bodies of several of 
 them congestion of the vessels of the base of the brain was found, and 
 also "vascularity of the membranes of the spinal marrow, indicating 
 inflammation." 1 
 
 TYPES. No disease presents a greater variety and, indeed, dissimi- 
 larity of symptoms than epidemic meningitis. Some of its epidemics 
 are sthenic and even inflammatory in their type, while others have the 
 malignant aspect of rapid blood-poisoning. These contrasts have been 
 exhibited on a large scale, for while upon the continent of Europe the 
 disease for the most part has presented sthenic phenomena, it has been 
 more generally astheuic and adynamic in Ireland. One might be inclined 
 to attribute the latter peculiarity to the permanent prevalence of typhus 
 fever in the latter country, or rather to the special causes producing 
 typhus, were it not that in the United States both types of the disease 
 have been observed at different times and in different places. Such con- 
 trasts of type are, however, not unusual in other diseases that occur as 
 epidemics, including not only the eruptive fevers, but inflammations, or 
 affections involving inflammation, such as pneumonia, dysentery, diph- 
 1 Dublin Quarterly Journ., May, 1866, p. 298.
 
 TYPES. 805 
 
 theria, etc. Hence it is evident that certain epidemics, and certain cases 
 in each epidemic, may exhibit on the one hand a predominance of inflam- 
 matory, or on the other of adynamic or ataxic, symptoms, and each of 
 them in every conceivable degree and combination. It is this variation 
 of type that has led to such different conceptions of the nature of epi- 
 demic meningitis, many physicians regarding it as a fever, and many 
 others as an inflammation, while, as we believe, it is both the one and 
 the other, and acquires from either element, according to its ascendency, 
 the typical character of the particular epidemic under observation. 
 
 As illustrative of these statements we may mention in this place the 
 several forms of the disease as they have been seen and interpreted by 
 different observers. Forget classified them as follows: (A) CEREBRO- 
 SPIXAL ; 1, Explosive (foiidroyante) ; 2, Comatose-convulsive; 3, Inflam- 
 matory ; 4, Typhoid; 5, Neuralgic; 6, Hectic; 7, Paralytic. () 
 CEREBRAL: 1, Ceplialalgic ; 2, Cephalalgic-delirious ; 3, Delirious; 4, 
 Comatose. In the first of these divisions three-sevenths belong to the 
 first and fourth varieties. But " there were slight and severe cases ; vio- 
 lent and hectic forms ; cerebral symptoms predominant in some and spinal 
 in others, etc." 
 
 In his excellent paper on the epidemic of 1848 in New Orleans, Ames 
 arranged his cases in two categories the Congestive and the Inflammatory, 
 subdividing the former into the Malignant and the Mild. Malignant 
 congestive cases were distinguished by prostration, coma or delirium, or 
 both; opisthotonos; and a pulse varying extremely in its degree of fre- 
 quency. In mild congestive cases a good degree of strength was preserved ; 
 the pulse was below 90 ; there were marked pain in the head and tender- 
 ness of the spine, but no coma, delirium, or stiffness of any muscles 
 besides those of the neck. The purely inflammatory cases were, in general, 
 distinguished by a temperature of the skin above that of health and a full, 
 firm pulse, but the malignant inflammatory were marked by the early 
 occurrence of delirium or coma, great irregularity of pulse, opisthotonos, 
 convulsive spasm, strabismus, and occasional amaurosis, with vomiting 
 and a rapid and fatal course ; the grave, by a slighter development of the 
 same symptoms, except coma and delirium ; and the mild, by a lower 
 grade of febrile excitement, the preservation of a good degree of strength, 
 a tendency to become chronic, and by the absence of coma, drowsiness, 
 delirium, and a cold stage. 
 
 Wunderlich adopted the simple plan of arranging the cases in three 
 categories : 1, the gravest and most rapidly fatal cases ; 2, the less grave ; 
 and 3, the lightest. The arrangement of Hirsch had more significance, 
 as well as a clinical foundation -viz. 1, the abortive; 2, the explosive (rn. 
 siderans, the same as m. foudroyante of Tourdes) ; 3, the intermittent; 4, 
 the typhoid. 
 
 Dr. Bedford Brown, 1 who observed the epidemics in North Carolina 
 from 1862 to 1864, arranged the cases under the following heads : 1, the 
 inflammatory form, in which the fever is' high, the pain very acute, and 
 the delirium furious, but which is exceedingly rare ; 2, the neuralgic 
 form, which is stated to be the most frequent and protracted, with 
 moderate fever and a pulse but slightly accelerated, and giving a favor- 
 able prognosis ; 3, the ataxic form, in which great nervous depression is 
 1 Richmond Med. Jour., ii. 1.
 
 806 EPIDEMIC CEREBEO-SPINAL MENINGITIS. 
 
 associated with a low and busy delirium, and the temperature " is gener- 
 ally much reduced below the natural standard This is always a 
 
 dangerous form ;" 4, the paralytic form, in which stupor and insensibility 
 are early and prominent features, with a very slow and feeble pulse, 
 blanched skin, and death by syncope. 
 
 Dr. Purcell of Cork * furnished a classification which is one of the 
 best for practical and clinical purposes viz. 1, the rapid variety, attended 
 with purple blotches, embarrassed respiration and circulation, followed 
 by sopor, insensibility, and coma ; 2, the cerebro-spinal form, with retrac- 
 tion of the head, pain and cramps of the muscles, hypcreesthesia of the 
 skin, delirium, etc., accompanied by fever, herpetic eruptions, etc. These 
 two forms are apt to be more or less associated in the same case. 
 
 Of the various forms admitted by different authors, and of which we 
 have seen examples, we would class together (a.) The abortive, in 
 which the characteristic phenomena are often faintly defined, and yet to 
 the practised eye distinctive. (6.) The malignant, in which the symp- 
 toms, of whatever kind, are exaggerated, the attack sudden, the course 
 short, and the issue fatal, (c.) The nervous, including 1, the Ataxic 
 viz. 1, the delirious; 2, the cephalalgic ; 3, the neuralgic ; 4, the con- 
 vulsive; 5, the paralytic; and 6, the adynamic (comatose and typhoid). 
 (J.) The inflammatory, (e.) The intermittent. Of these the abortive 
 and intermittent call for a brief explanation. Abortive meningitis is 
 observed only during the prevalence of the disease in a more character- 
 istic form. Thus, the mother of a boy who had died of the fully-devel- 
 oped disease " complained of the head and back and limbs, and of chilli- 
 ness, and presented a petechial eruption. After active purgative and 
 counter-irritant treatment she was about her work on the second day. 2 
 The late Dr. Burns of Fraukford, Philadelphia, while attending patients 
 affected with the disease suffered from headache, severe pains along the 
 spine and in every joint of the body, and a general languid feeling. 3 
 Kempf during the decline of an epidemic observed " a great number of 
 individuals, especially adults, who complained of headache, malaise, 
 neuralgic pains in various parts of the body, and pain in the nape of the 
 neck or other parts of the spine." 4 In a case observed by the writer 
 (June, 1867) most of the characteristic symptoms were present in a 
 mitigated form, and the pulse was at 60. Within five days restoration 
 was complete. 5 The intermittent and remittent types are apt to be quotidian 
 or tertian, and in fatal cases the former has been taken for malignant 
 intermittent fever, which it resembles by a periodical febrile movement, 
 with pains, cramps, delirium, etc. This type sometimes first manifests 
 itself during the decline of an attack. 
 
 SUMMARY OP THE SYMPTOMS. Like other fatal epidemic diseases, 
 meningitis is sometimes sudden and sometimes gradual in its develop- 
 ment. In the former case the patient, who has gone to bed apparently in 
 perfect health, awakes suddenly from a sound sleep about the small hours 
 of the night to find himself in a severe chill. In the case of young 
 children a convulsion attends the awakening. Or the patient, while pur- 
 
 1 Dublin Quarterly Jour., Aug., 1870, p. 243. 
 
 2 Sargent, Amer. Jwr. c,f Med. Sci., July, 1849, p. 35. 
 s Amer. Jour, of Med. Sci., April, 1865, p. 339. 
 
 4 Ibid., July, 1866, p. 55. 6 Epidemic Meningitis, p. 42.
 
 SUMMARY OF THE SYMPTOMS. 807 
 
 suing his ordinary avocations, may be seized with a chill, prostration, 
 vomiting, and headache, of which symptoms the last is often intensely 
 distressing. In this, as in other epidemic diseases, such violent seizures 
 are most common during the earlier periods of its prevalence, but later in 
 its course premonitory symptoms are more frequently observed. They 
 may last for an hour or two, or may extend to several days ; and, in 
 general, it may be stated that the longer their duration the milder will be 
 the subsequent attack. But the symptoms in either case are essentially 
 the same prostration, chilliness, feverishness, and sometimes vomiting 
 and sharp pains in the head, back, and limbs. The character of the vomit* 
 ing, as well as the absence of all gastric lesions in fatal cases, proves that 
 it is occasioned by an irritation of the central nervous system. 
 
 In the cases which are regularly developed these, phenomena more or 
 less gradually assume a graver aspect or usher in a heavy chill, which in 
 its turn is followed by alarming symptoms, and especially by an excru- 
 ciating pain in the head, a livid or pale and sunken countenance, and 
 extreme restlessness. The pulse is as often slow as frequent, and the 
 skin is rarely hot, and, indeed, is generally but little, if at all, warmer 
 than natural. The vague pains that began with the attack are now con- 
 centrated, and seem to dart in every direction from the spine, which is 
 also, at its upper part, the seat of severe aching; and in some cases hyper- 
 sesthesia of the skin is very marked. In a large proportion of cases the 
 spinal muscles become more or less rigidly contracted, so that the head is 
 drawn backward or the whole trunk is arched as in tetanus. Trismus is 
 not uncommon, and clonic spasms frequently affect the limbs. Even 
 general convulsions are occasionally observed. As these phenomena grow 
 more decided delirium of various degrees is often manifested, from mere 
 wanderings and hallucinations during the sleepless watches of the night 
 to violent maniacal ravings or incoherent mutterings, or the stertor of 
 coma. Frey and others have noted a remission of the symptoms occur- 
 ring on or about the third day in cases of a regular type. The rigidity 
 of the cervical muscles becomes relaxed, the headache subsides, and the 
 mental condition improves. But this amelioration lasts but a short time, 
 and then the normal course of the symptoms is resumed. 
 
 As the attack advances the pulse gradually or rapidly rises above the 
 normal rate, and sometimes becomes very frequent, and the skin, although 
 it grows warmer, does not often acquire the temperature observed in 
 idiopathic fevers or sustain it as they do. In many cases eruptions 
 appear upon the skin. During some epidemics the only one observed 
 is herpes labialis ; in others the eruption resembles roseola, measles, or 
 the mulberry rash of typhus, or from the first it consists of petechiae, 
 vibices, or extensive ecchymoses. The tongue presents the characters 
 which belong generally to the typhoid state. At first moist and coated 
 with a whitish fur or a mucous secretion, it afterward, if life is pro- 
 longed, grows red and shining or brown and fuliginous. There is usu- 
 ally a complete loss of appetite, and the thirst is not commonly urgent. 
 One or two liquid stools at the commencement are generally followed by 
 constipation, which continues throughout the attack, although in very 
 grave and protracted cases diarrhoea may persist, and even become colli- 
 quative. When the attack tends to a fatal issue the patient generally, 
 but by no means always, sinks into a soporose condition, in which mus-
 
 808 EPIDEMIC CEREBEO-SPINAL MENINGITIS. 
 
 cular relaxation, debility, and tremulousness, such as are common in the 
 typhoid state of fevers, are associated with paralysis of the sphincters 
 and of other muscles. But we have seen rigid opisthotonos continue 
 until within a few hours of death in a case of more than the average 
 duration. 
 
 In cases that tend toward recovery the typhoid condition is rarely so 
 grave, but patients have often survived very severe nervous symptoms. 
 It is true that the return to health may be tedious and uncertain, and not 
 unusually a perfect restoration of all the functions is very long delayed, 
 or, it may be, is never attained. 
 
 INDIVIDUAL SYMPTOMS. Pain in the head is one of the most charac- 
 teristic symptoms of epidemic meningitis. It is always present, except 
 in those malignant cases in which the morbid poison seems to spend its 
 fatal power upon the blood. In some, however, of a less rapid but still 
 malignant type, in which after death no exudation is found, but only 
 an extreme venous congestion of the membranes, or it may be an effu- 
 sion of blood beneath them, this symptom may be more or less marked. 
 It is generally an excruciating pain, sometimes darting apparently through 
 the head from the nucha? to the forehead, extorting cries and groans, and 
 is variously described by the sufferers as throbbing, boring, lancinating, 
 sharp, or crushing, " as if the head were in a vice or nails or screws were 
 being forced into the brain." Its paroxysms arouse the patient from his 
 apathetic stupor or his coma, and cause him to become restless or violent 
 or to shriek with agony. Even when this evidence of anguish is want- 
 ing the patient often attests his suffering by contortions or cries, or by 
 frequently carrying his hands to his head. That it depends upon 
 mechanical pressure upon the sensitive ganglia within the cranium and 
 upper part of the spine is shown by the relief which revulsive and coun- 
 ter-irritant measures afford when applied to the occipital region and the 
 back of the neck. Identical in cause and quality with this pain is the 
 spinal pain proper. No better description of it has been given than that 
 of Fiske in 1810. It is in these words: "Its bold and prominent 
 features defy comparison In some a pain resembling the sensa- 
 tion felt from the stinging of a bee seizes the extremity of a finger or 
 toe ; from thence it darts to the foot or hand or some other part of the 
 limbs, sometimes in the joints and sometimes in the muscles, carrying a 
 numbness or prickling sensation in its progress. After traversing the 
 extremities, generally of one side only, it seizes the head, and flics with 
 the rapidity and sensation of electricity over the whole body, occasioning 
 blindness, faintings, sickness at the stomach, with indescribable distress 
 about the prsecordia a numbness or partial loss of motion in one or 
 both limbs on one side, with great prostration of strength. The horrible 
 seasation of this process no language can describe." l These spinal pains 
 are always aggravated by pressure made on either side of the spinous 
 processes of the vertebrae, and, like the cephalic pains, are more or less 
 mitigated by revulsive applications. Accompanying the pains is a hyper- 
 sesthesia or morbid sensibility of the skin, rendering it painfully sensitive 
 to the slightest touch ; in the advanced stages of the disease, when the 
 spinal phenomena predominate, the irritation of the nerves by the press- 
 ure of .the exudation on their roots is exchanged for numbness or abso- 
 1 North, on Spotted Fever, p. 176.
 
 INDIVIDUAL SYMPTOMS. 809 
 
 lute insensibility, due to the increase and continuance of that pressure. 
 Moving the limbs or separating the closed eyelids will sometimes provoke 
 resistance, and even extort cries ; and especially is this true of attempts 
 to straighten the rigidly bent spine or the flexed extremities. Lewis 
 states that such outcries were so often excited by slowly introducing the 
 thermometer into the rectum that he was forced to believe that the anal 
 and perhaps the rectal surface was hypersensitive. 
 
 The physical causes that give rise to the pains which have just been 
 described likewise occasion the spasmodic and tetanoid phenomena that 
 are so peculiar to this disease. In general terms, they are most marked 
 in cases attended with inflammatory exudation, and least so when, instead 
 of this lesion, there is only vascular congestion of the meninges of the 
 spinal cord. But the rule is, of course, not absolute, for individuals are 
 so differently constituted that one will remain impassive under an irri- 
 tation that will throw another into convulsions. There is no doubt that 
 spinal rigidity may be produced by mere congestion of the cord, and, on 
 the other hand, that it may be absent even when plastic exudation is 
 abundant. This symptom is, however, more than any other one, charac- 
 teristic of the disease. It existed in the original epidemic at Geneva, 
 attracted the attention of the earliest American observers of the disease, 
 and elsewhere has marked a greater or a smaller proportion of the cases 
 in every epidemic. It was described by such terms as these : " a draw- 
 ing-back of the head ;" "a corpse-like rigidity of the limbs;" "the form 
 of tetanus called opisthotonos ;" " spastic rigidity of the muscles of the 
 lower jaw and the posterior muscles of the neck ;" " rigidity of the pos- 
 terior cervical muscles, retracting the head considerably backward." The 
 historians of the disease in Europe are, if possible, still more emphatic in 
 their elaborate descriptions of this phenomenon, and, on the Continent at 
 least, it seems to have been more uniformly present than it was in Ireland 
 or in this country. Tourdes, in describing the epidemic of 1842 at 
 Strasburg, said : " The decubitus of the sick was distinguished by a 
 backward flexion of the head and spine ; most frequently the neck alone 
 was affected, but sometimes the whole trunk was arched." And again : 
 "The contraction often involved all of the extensor muscles of the spine, 
 and the trunk formed an arch opening backward and resting upon the 
 occiput and sacrum." In Ireland, Gordon says of a patient, " Her spine 
 presented a most wonderful uniform curve concave backward ; her head 
 was also curved backward on the spine of the neck." During an epi- 
 demic at Birmingham in 1875 in one case " the retraction was so marked 
 that a slough formed from the occiput pressing between the scapulae." l 
 In some cases rigid flexion of the body forward or laterally has been 
 noticed. The rigidity persists, as a rule, until death, but sometimes 
 ceases a short time before that event. If recovery takes place, this 
 symptom gradually subsides, and disappears within a few days ; but, on 
 the other hand, more or less stiffness of the spine may last for several 
 weeks. In one case it continued for more than two months, and in 
 another until death on the forty-ninth day. 
 
 The same physical cause that occasions rigidity, when acting less in- 
 tensely or when a special susceptibility of the nervous system exists, also 
 excites clonic convulsions. They are oftenest observed in patients of the 
 1 Hart, St. Barfs Rep., iv. 141.
 
 810 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 age especially liable to spasmodic affections iii children before the com- 
 pletion of the first dentition. They vary in degree from twitching or 
 subsultus affecting particular muscles, as of the eyes, the face, a limb, etc., 
 to general epileptiform convulsions with loss of consciousness. They may 
 be associated with paralysis, as where the two halves of the body are, the 
 one convulsed and the other paralyzed. A case occurred in Dublin which 
 "presented the very striking phenomenon of continued and violent con- 
 vulsions during the whole of the brief course of the illness." l These con- 
 vulsions, like others occurring at the commencement of acute diseases, are 
 by no means always fatal, even when they are general. In the case of 
 a robust adult convulsions occurred repeatedly during the first two days, 
 and less frequently during the two following days, but the patient ulti- 
 mately recovered. 2 
 
 Paralysis, it may be inferred from the statements already made, is an 
 incident of this disease, for an excess of the action causing tonic or clonic 
 spasm must induce paralysis. Paralysis of an arm or leg or of the mus- 
 cles of deglutition was long ago noticed among even the initial symp- 
 toms of the attack. In Dublin (1865) it was said of a patient, "All his 
 members seemed to be paralyzed ; he could move neither arms nor legs." 
 Wunderlich describes the case of a man who " on the second day of the 
 disease lost both sensibility and motility in the lower limbs and over the 
 greater part of the trunk, while his left arm also was partially paralyzed." 
 In another case complete paralysis of the right side occurred on the third 
 day, the left side being rigid. 3 Baxa relates the case of a soldier in whom 
 paralysis of the left side persisted after recovery from the disease, 4 and 
 that of a woman in whom paralysis of the left lower limb continued along 
 with right ciliary paralysis. Ptosis, strabismus, paralysis of the bladder 
 and rectum, of the muscles of deglutition, and even general paralysis, 
 have been observed. Aphasia also has been recorded by Hirsch and b} 
 Hayden. 5 
 
 The condition of the eyes and of vision in this disease is directly due 
 to pressure of the exudation at the base of the brain upon the nerves and 
 blood-vessels that supply these organs. One of the most striking peculi- 
 arities of the countenance of a patient at the beginning of an attack is the 
 diffused and uniform redness of the conjuuctivee. In children it has a 
 light tint, but a darker one in adults, and in some cases the eye becomes 
 suffused with an extravasation of blood. The conditions of the pupil 
 are also very peculiar. Very long ago it was observed to undergo sudden 
 changes from contraction to dilatation, or the reverse. Dilatation is, how- 
 ever, its ordinary condition, especially in the fully-formed attack. Very 
 often the pupils of the two eyes are in opposite states. In cases of long 
 duration, with great exhaustion, they are almost invariably dilated. Photo- 
 phobia is not uncommon, and oscillation of the pupils and spasmodic 
 movements of the eyeball have frequently been observed. Strabismus is 
 a symptom of very ordinary occurrence, particularly when other paralytic 
 or spasmodic phenomena exist. It may be convergent or divergent, but 
 most commonly is the former, and may be either a transient or a perma- 
 
 1 Dublin Quart. Jour., xlvi. 187. 
 
 1 Boston Med. and Surg. Jour., Feb., 1884, p. 121. 
 
 8 Dublin Quart. Jour., 1867, p. 431. 
 
 * Wiener med. Presse, No. 29, p. 715. 5 Dublin Quart. Jour., xlvi. 187.
 
 INDIVIDUAL SYMPTOMS. 811 
 
 nent symptom. Like other individual symptoms, it may be present rarely 
 or frequently in a particular epidemic. 
 
 Blindness has been repeatedly observed. At first it seemed to be 
 noticed as a transient symptom only. Fish (1809) states that it was 
 sometimes the first deviation from health, and then was followed by para- 
 lytic spinal symptoms. He also observed that sight was sometimes 
 restored in a few hours, and in no case did he know it to be permanently 
 lost. American as well as European physicians, however, have met with 
 many cases in which the sight was seriously and permanently impaired or 
 altogether destroyed. In 1873 the changes affecting the eye were more 
 fully and accurately described, especially those which tend to the structural 
 injury of the organ. 'The abnormal appearances included cloudiness of 
 the media, discoloration of the iris, irregularity of the pupils, and their 
 obstruction with exudatc. In exceptional cases the cornea ulcerated, and 
 the globe collapsed after losing its contents. Ordinarily, however, says 
 Lewis, "no ulceration occurs, and as the patient convalesces the oedema 
 of the lids, the hyperamia of the conjunctiva, the cloudiness of the cornea 
 and of the humors gradually abate, and the exudation in the pupils is 
 absorbed. The iris bulges forward, and the deep tissues of the eye, viewed 
 through the vitreous humor, which had a dusky color from hypersemia, 
 now present a dull white color. The lens itself, at first transparent, after 
 a while becomes cataractous, and sight is lost totally and for ever." 
 
 Impairment or loss of hearing has been occasionally observed during 
 the successive epidemics of tjiis disease, even from the beginning of its 
 history, and it was early noticed that the symptom was often quite inde- 
 pendent of any cognizable lesion of the ear itself. It was also observed 
 that the sense of smell sometimes became impaired or was lost at the same 
 time with that of hearing. More recently, Collins reported a case in 
 which the patient lost the sight of one eye and became permanently deaf 
 in both cars. Knapp states that in all of thirty-one cases examined by 
 him the deafness was bilateral, and, with two exceptions of faint percep- 
 tion of sound, complete. Among twenty-nine cases of total deafness only one 
 seemed to give some evidence of hearing afterward. 1 This surgeon holds 
 that the deafness results from a purulent inflammation of the labyrinth, 
 and his judgment has been confirmed by Keller and Lucas. When the 
 impairment of hearing occurs simultaneously, or nearly so, in both ears, 
 it is probable that the chief cause of the deafness is the pressure of the 
 plastic exudation in which the auditory nerve is imbedded. Such deaf- 
 ness is rarely permanent. When the loss of hearing, whether complete 
 or partial, does not improve, there is reason to believe that the internal 
 ear has suffered great and incurable changes of structure. Sometimes 
 this follows a distinct attack of suppurative inflammation of the middle 
 ear ; but as complete and permanent deafness sometimes occurs without 
 being preceded by any such affection, it must be inferred that atrophic 
 changes have taken place in some portion of the nervous apparatus of 
 hearing. It is stated by Moos that of sixty-four cases of recovery from 
 cerebro-spinal meningitis, which showed disturbance of hearing as a sequel, 
 one-half manifested in addition a more less disordered equilibrium. Of 
 these twenty-nine were totally deaf on both sides, two totally deaf on 
 one and hard of hearing on the other side, and one case had merely 
 
 'Smith, loe. cit.
 
 812 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 impaired hearing iu both ears. The disturbance of locomotion had existed 
 for periods varying from three weeks to five years from the inception of 
 the disease, and was chiefly characterized by a staggering or waddling 
 gait. 1 In the deaf-mute institutions at Bamberg and Niirnberg it is 
 said that out of 91 pupils, 80 owed their infirmity to this disease 
 (Ziemssen). Salamo states that some awake out of sleep totally deaf, and 
 remain so for a long time, or, it may be, permanently (Moos). 
 
 The expression of countenance in this disease is peculiar. When the 
 pain in the head is severe and paroxysmal the features are apt to be 
 violently distorted ; when it is more persistent the face assumes a fixed or 
 rigid expression, or is at the same time dull, particularly after a long 
 continuance of the pain. In the apoplectic form the expression may be 
 set and stupid, but the features have neither the dark, dull, swollen, and 
 duskily-flushed-aspect of typhus, nor the languid, sleepy expression, and 
 circumscribed flush on the cheek which are so characteristic of typhoid 
 fever. Except during absolute insensibility in rapidly fatal cases there 
 is a look of greater intelligence than belongs to either of the diseases 
 mentioned. Indeed^ in the beginning of the attack iu regular casos the 
 distinctive facies presents pale and sunken features, with paleness of the 
 skin over the whole body. 
 
 Delirium in this disease exhibits a great many degrees and varieties. 
 It nuiy occur among the earliest symptoms in certain rapid cases not of 
 the congestive type, but is more apt to arise on the second or third day 
 ID those more typically developed. It may be mild, reasoning, hysterical, 
 or maniacal, or it may change from one to another of these forms during 
 the same attack. Fish states that it is apt to be violent if it comes on at 
 the commencement of the illness, but that when it begins at a later 
 period it is milder, and sometimes playful, the patient being sociable and 
 humorous. All good observers have furnished similar descriptions of 
 this symptom ; some have added that the mental condition is often 
 desponding and apprehensive, and others that certain patients remain 
 sombre and silent ; and it sometimes happens that the delirium comes on 
 abruptly, as when a patient " woke suddenly in the middle of the night 
 and began to hum tunes, to fancy that people were conversing with him," 
 etc. (Gordon). 
 
 Coma is met with sooner or later in nearly all fatal cases, but rarely 
 in a marked degree until the approach of death. If anything is sur- 
 prising in epidemic meningitis, it is the absence of that deep and pro- 
 longed stupor that characterizes the typhoid state, notwitlistandiug the 
 pressure of the exudation upon the brain in most cases, and in others 
 such a profound alteration of the blood that it exudes through the tissues 
 as water passes through a porous body. Another striking phenomenon 
 of the disease is that the patient after recovery has generally a complete 
 oblivion of all that happened to him between the beginning of the attack 
 and convalescence. This is true even of cases in which the brain symp- 
 toms are far from being conspicuous. 
 
 Another symptom closely related to the local lesion and the blood- 
 change in this disease is vertigo. As originally described by Miner in 
 1823, it occurred from the very commencement of the attack, and was 
 even then regarded as denoting a deficient supply of the blood to the 
 
 1 Mening. Cerebro- spinal epid., p. 1 1.
 
 INDIVIDUAL SYMPTOMS. 813 
 
 brain, so that when the patient rose to an erect posture it was felt along 
 with uneasiness in the stomach, acceleration of the pulse, dimness of 
 sight, nausea, and fainting. Tourdes, speaking of it as it occurred in 
 the Strasburg epidemic, says that it confused the mind and rendered 
 walking impossible. In two cases patients were seized with a giddiness 
 which compelled them to whirl around, when they fell and did not rise 
 again. According to Moos (1881) unilateral affections of the labyrinth 
 give rise to vertigo, and bilateral lesions to a staggering gait. Bilateral 
 hemorrhage or acnte suppuration of the ampullar terminations of the 
 auditory nerve occasions paralysis and staggering. Children, and those 
 who at the same time have the sight impaired, are apt to remain affected 
 for a long time. Otherwise, prolonged and systematic muscular exercise 
 may remove the tottering walk. 
 
 To the same causes must doubtless be attributed the debility which is 
 so early and so conspicuous a symptom in this disease, and which gave it 
 one of the names, typhus syncopalis, by which it was first known in this 
 country. It was manifested by the vertigo already noticed, by a sense 
 of sinking in the epigastrium, by a quick, frequent, freble, and irregular 
 pulse, and by a sudden and extreme loss of muscular power, so that the 
 patient found himself unable to raise his hand before he was sensible of 
 being ill. This state of asthenia is conspicuous throughout the whole of 
 the disease, and is the immediate cause of the slow and irregular conva- 
 lescence which is characteristic of it. 
 
 Of the symptoms peculiar to the digestive apparatus hardly any. 
 belong to it directly. They are nearly all the effect of reflex influences. 
 The condition of the tongue is for the most part quite unlike that which 
 belongs to the typhoid state. The fuliginous condition of the tongue, 
 gums, cheeks, and lips which characterizes that state is seldom met with 
 in epidemic meningitis. The older writers agreed that even when the 
 tongue does grow dry and brown the condition is not of long continuance, 
 and later observers have confirmed their statements. Thus, J. L. Smith 
 (1872) says, "Occasionally, in cases attended with great prostration, the 
 mr of the tongue is dry and brown, but only for a few days, when the 
 moist whitish fur succeeds." We have generally found it moist, whitish 
 in the centre and at the tip and edges. 
 
 Nausea and vomiting are very constant among the initial symptoms 
 of the disease, and, as already pointed out, are due to irritation of the 
 cerebro-spinal ganglia. Very often the vomiting is not preceded by nau- 
 sea, and is brought on by the patient's raising himself, etc. The stomach 
 itself undergoes no change. Both symptoms are usually accompanied by 
 faintness or giddiness, and are more decided in the initial than in the 
 later stages of the attack. The matters vomited, varying with the con- 
 tents of the stomach and the urgency and duration of the symptom, 
 consist of ingesta, mucus, serum, or bile, and in some grave cases of a 
 dark grumous matter taken to be altered blood. In some epidemics, 
 apparently, more than in others, this symptom is very distressing, as it was 
 at Birmingham in 1875. 1 The inability of the stomach to retain food 
 necessarily leads to a rapid wasting of the flesh, which is . aggravated by 
 the patient's suffering, restlessness, and want of sleep. Nevertheless, no 
 sooner is the vomiting appeased than a desire for food is felt, and when 
 1 Hart, St. Bart's Rep., xii. 112.
 
 814 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 it is retained it generally undergoes digestion. Indeed, in no other disease 
 is the return of a good appetite and digestion so prompt and complete. 
 It is true that the recovery of flesh and strength is not always in propor- 
 tion to the appetite. As might be expected in a disease in which fever 
 plays so subordinate a part, there is seldom urgent thirst. But epidemics 
 differ in this as in so many other respects. In that which we witnessed 
 in the Philadelphia Hospital in 1866-G7 the patients were clamorous for 
 liquids. Constipation is the rule among patients with this disease, as, 
 indeed, might naturally be expected, for no lesion affects the bowels and 
 little or no food is retained by the stomach. Yet in a few cases diarrhoea 
 accompanies persistent vomiting. 
 
 The fauces appear to have been more or less inflamed in some epi- 
 demics ; swelling of the parotid glands is an occasional occurrence, and 
 sometimes they undergo suppuration. Aphthn have also been met 
 with. 
 
 The secretion of urine is not affected in any uniform manner. Some- 
 times it is diminished and sometimes increased in quantity. The latter 
 symptom has occasionally long survived the disease. It retains its 
 normal acidity. In rare cases either albumen or sugar has been 
 detected ; the former may have been due to the action of blisters of 
 cantharides used in the treatment of the disease. 
 
 One of the most curious and unintelligible phenomena occasionally 
 met with in this disease is a peculiar affection of the joints, which first 
 was observed in this country. Jackson (1810 and 1813) wrote: "In 
 some cases swellings have occurred in the joints and limbs. They have 
 been very sore to the touch, and their appearance has been compared to 
 that of the gout. The parts so affected feel as if they had been bruised. 
 These swellings arise on the smaller as well as on the larger joints, and 
 are often of a purple color." So Collins 1 reports: "The joints some- 
 times become swollen, red, and tender ; at other times red and painful 
 without any swelling ; while, again, intense pain and rapid enlargement 
 from effusion have occurred unattended with redness. The joints most 
 usually attacked are the knee, elbow, wrist, and the smaller articulations 
 of the fingers and toes." In an epidemic which occurred in Greece in 
 1869 articular swellings similar to those of inflammatory rheumatism 
 were observed. 2 These descriptions, which apply to some cases in most 
 epidemics, are of more than casual interest, for they demonstrate conclu- 
 sively, as we think, the truth which the whole history of the disease con- 
 firms viz. that it is a systemic and not a local affection, and is depend- 
 ent for its existence upon a specific poison which is absolutely unlike 
 every other morbid poison known to pathology. 
 
 The act of respiration is variously modified in this disease, as might, 
 indeed, be expected from the seat and nature of the cerebro-spinal lesions. 
 It is sighing, labored, and interrupted. Burdon-Sanderson describes 
 its differences from the so-called Chevne-Stokes respiration ; it is, he 
 says, " marked by a slow, labored inspiration, followed by a quick expi- 
 ration and a long pause." When opisthotonos is very great and per- 
 sistent, it necessarily interferes with the dilatation of the lungs, and leads 
 to oedema of those organs, and even to sanguine'ous effusions into them. 
 
 1 Dublin Quart. Jour., Aug., 1868, p. 170. 
 
 1 Archives generates de med., Mai, 1883, p. 622.
 
 INDIVIDUAL SYMPTOMS. 815 
 
 Pneumonia is not an unusual complication of the disease when it prevails 
 in cold weather. 
 
 The distinguishing characters of the pulse are diminished force and 
 volume, and a tone so much impaired that slight causes produce extreme 
 variations in its rate and rhythm. If the disease be a fever, as is by 
 some maintained, then it is the only fever in which the pulse-rate is often 
 far below the normal, and at the same time neither full nor tense, unless 
 transiently and in altogether exceptional cases. In no other disease attended 
 with inflammation do the rate and quality of the pulse vary so greatly within 
 short intervals. It may be said, in general terms, to be variable in rate 
 and strength even in the most stheuic cases of the disease, and in those 
 which tend to a fatal issue to be small, thready, weak, intermittent, or 
 imperceptible for a longer or shorter time before death. It is no uncom- 
 mon thing for the pulse-rate at the beginning of an attack to fall as low 
 as 40, or even 27, and afterward rise to 120 or even more, in a minute, 
 without necessarily indicating a fatal issue. Muscular exertion, rising 
 from a recumbent posture, etc., will sometimes double its frequency, besides 
 producing irregularity. Read, describing the pulse as he observed it in 
 Boston in 187374, speaks of cases in which "both the rhythm and 
 the force of the beats are entirely destroyed ; . . . . one moment, while 
 
 beating very fast, it will suddenly drop to a much lower rate 
 
 These conditions also may outlast apparent convalescence." Some fatal 
 cases are attended by distressing palpitations of the heart. 
 
 Nothing is more remarkable in the early histories of this affection than 
 their unanimous statement that it is not distinguished by a febrile tem- 
 perature. It is true that the observers of those days had not the advan- 
 tage of using clinical thermometers, but they were too nearly agreed in 
 their judgments and harmonious in their descriptions to permit any serious 
 doubt of the substantial accuracy of their conclusions, which were 
 expressed in such terms as these : " A diminution of heat may be con- 
 sidered as among this most striking symptoms of this disease" (Strong); 
 or, " the temperature never exceeded the standard of health in more than 
 three or four cases, .... and a great majority of the patients had no 
 fever at all " (Miner) ; or, again, " A high febrile movement took place 
 only in a limited number " (Gilchrist) ; or, " The heat of the surface was 
 less in all cases than is usually observed in acute diseases" (Jeuks.) It 
 will be observed that these statements, and very many others which agree 
 with them, were founded upon the perception of the patients' temperature 
 by the hand, which was of course applied to the most accessible parts 
 of the body the face, neck, arms, and hands but they have more 
 real value and significance than the more recent measurements taken in 
 the mouth, axilla, rectum, or vagina, for we know that, however valuable 
 the temperatures of these parts may be for comparative studies, they do 
 not really indicate the condition of the individual who presents them. 
 It is a familiar fact that the difference of temperature in cholera when 
 taken in the rectum and the axilla may be 4 F., or even more than this. 
 Since the thermometer has been used in the study of epidemic men- 
 ingitis greater accuracy of results has been attained, and yet the general 
 statements of the earlier*observers have been confirmed. Thus, Githens 
 has shown that the temperature of the body in this disease is lower than 
 that recorded of any other fever or inflammatory affection ; the average,
 
 816 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 indeed, of his cases was lower by four or five degrees than that of typhus 
 or typhoid fever, pneumonia, etc. In 2 cases only did the thermometer 
 in the axilla reach 105. The highest temperature in 15 cases was 
 between 104 and 105; in 12, between 103 and 104 ; in 7, between 
 102 and 103 ; in 6, between 101 and 102 ; and in 2 it was below 
 100 . 1 Tourdes, Niemeyer, and others have noted the slight rise of 
 temperature during the first and second days of the attack, and Wunder- 
 lich found fever of very unequal degrees and with very variable maxima, 
 but the highest temperatures were observed by him as well as others in 
 fatal cases and immediately before death. In one instance it reached 
 107.5 F. Burdou-Sauderson and others have found that an increased 
 temperature always attended exacerbations of pain. Von Ziemsseu gives 
 the average temperature as varying from 100.4 to 103 F., but with 
 variations between higher and lower points, and particularly notes the 
 persistence of a normal temperature while the other symptoms are under- 
 going a variety of changes, as well as the fact that, unlike other febrile 
 affections, this disease has no representative temperature curve. In his 
 clinical observations Hart found for several successive days as much as 
 six degrees of difference between the morning and evening temperatures. 
 A. morning rise for several days was noticed in four cases, and usually 
 there was no relation between the pulse and the temperature, nor any 
 uniformly between the temperature and the gravity of the attack. 2 But 
 not rarely it has been noticed that the daily exacerbations, if any, did not 
 occur in the afternoon, but with great irregularity, so that the maxima 
 and minima might occur on successive days and at the same hour of the 
 day. Dr. J. L. Smith, whose thermometric observations in this disease 
 seem to have been carefully made, used the thermometer in the rectum, 
 and thus obtained temperatures higher that the average of other obser- 
 vations, such as 105. to 107.f in several cases. Yet he found the 
 fluctuations of rectal temperature remarkable, though less so than the sur- 
 face temperature, of which he states that sometimes it rose above or fell 
 below the normal standard several times in the course of the same day. 
 
 Nothing can be more irregular, uncertain, or various than the eruptions 
 and other cutaneous symptoms that have been met with in this disease. 
 When it first appeared in New England a large proportion of the cases, 
 and especially of the grave cases, exhibited petechial eruptions and ecchy- 
 motic spots, whence the disease presently received the name of spotted 
 fever. Yet even then, North and the other historians of its epidemics were 
 careful to state that spots on the skin were by no means characteristic of 
 the disease, and very often were not present at all, especially in cases that 
 terminated favorably. Woodward, for example, wrote (1808): "An 
 eruption on the skin so seldom appeared that it could no longer be con- 
 sidered a characteristic symptom of the disease." In various American 
 local epidemics an eruption of some kind seems to have existed in about 
 one-half of the cases. In one that we observed in the Philadelphia Hos- 
 pital no eruption whatever was observed in thirty-seven out of ninety- 
 eight cases. In the epidemic at Chicago in 1872, N. S. Davis says : 3 
 " About one-third of the cases presented some red erythematous spots " 
 between the third and the seventh day. In mild cases they were few and 
 
 1 Amer. Jour, of Med. Sri., July, 1867, p. 38. * St. Barfs Reports, xii. 112. 
 
 * Louisville Med. Jour., June, 1872, p. 705.
 
 INDIVIDUAL SYMPTOMS. 817 
 
 bright red ; in grave cases, darker and larger, with some swelling of the 
 skin ; and in the worst cases, purple spots one or two or more inches in 
 diameter. In that of Louisville, 1 Larrabie states that the eruption " was 
 generally herpetic in its character, and accompanied by sudamina ; but in sev- 
 eral instances an urticarious eruption suddenly appeared and disappeared." 
 Nothing is said of petechise or ecchymoses. In the New York epidemic 
 of 1873 2 the skin in grave cases presented dusky mottlings, especially 
 when the animal temperature was reduced ; also a punctated red eruption, 
 bluish spots a few lines in diameter, and large patches of the same color. 
 Herpes also was common. It is chiefly in cases of a malignant type and 
 rapid and fatal course that ecchymoses have been observed. Of this state- 
 ment illustrations will be given in the paragraph relating to the duration 
 of the disease. 
 
 In continental European epidemics of meningitis the proportion of 
 cases in which a general eruption existed seems to have been smaller than 
 it was in this country. In the Geneva epidemic of 1805 a considerable 
 number of cases at the point of death presented purplish spots, some 
 earlier than this, and some after death only. In the Neapolitan epidemic 
 of 1833, and in that which occurred in Dublin in 1867-68, ecchymoses 
 were often present, and in a very marked degree. Stokes and Banks 
 mention that in some rare instances the spots ran together and coalesced 
 over some portions of the body, so as to cover a large extent of the skin 
 and render it completely black, as though it were wrapped in some dark 
 shroud. The entire right arm and half of the right side of the chest in 
 one case, and in the other the whole of the lower portion of one leg and 
 foot, were thus affected. 3 In Strasburg, on the other hand, only three 
 cases of petechise were observed by Tourdes ; at Rochefort and Versailles, 
 in 1839, they were rarely noticed ; at Gibraltar, in 1844, they do not seem 
 to have been observed ; in 1848-49, at the Val de Grace Hospital (Paris), 
 they appear not to have attracted attention; and at Petit Bourg they 
 were not noticed, although the state of the skin was fully described. In 
 Prussia, in 1865, neither Burdon-Sanderson nor Wimderlich mentions 
 petechise or vibices as occurring during life; and Hirsch, after noting 
 their occasional presence, is obliged to draw upon American authors for 
 an account of them. 
 
 Of the eruptions other than petechise and ecchymoses, several of which 
 have already been mentioned, it is necessary to take some notice here. 
 They are, chiefly, and in general terms, exanthems, including erythema, 
 roseola, and urticaria, and in addition herpes, particularly of the lips. 
 The last has no special relation to this affection, as it is met with in almost 
 every febrile disease, but it has sometimes extended to the whole face in 
 this one. The former may be connected pathologically either with the 
 altered condition of the blood or with the irritation produced by the exu- 
 dation in the spinal nervous centres. They have frequently been com- 
 pared to measles and to scarlatina, but sometimes they have assumed the 
 form of bullse. Thus, in the case of a child four years old, described by 
 Grimshaw, 4 'an eruption of pemphigus occurred over the whole body. 
 Jackson long before had mentioned, as one of the eruptions belonging to 
 this disease, "large bullse, as if produced by cantharides." Jenks 
 
 1 Louisville Med.. Jour., Dec., 1872, p. 782. t Amer. Jour, of Med. Sci., Oct., 1873, p. 329. 
 8 Dublin Quart. Jour., xlvi. 199. * Jour, of Cutaneous Med., ii. 37. 
 
 VOL. I. 52
 
 818 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 described " large elevated spots of a very dark color, presenting outside 
 of the dark color a blistered appearance." In some cases gangrene of the 
 skin has been observed when the spots have been exceptionally dark, and 
 occasionally has been produced by pressure. 
 
 The cause of death in many of the more rapid cases is coma, which is 
 often preceded by convulsions, especially in children ; but in many others, 
 even when attended with all the marks of dissolution of the blood, con- 
 sciousness may be but slightly impaired until the actual imminence of 
 death. In many other cases, which are fatal in the midst of an attack 
 with spinal symptoms, death is due to asphyxia, partly owing to pres- 
 sure on the medulla oblongata, and partly to the interference with the 
 respiratory act due to this pressure, and occasioning excessive bronchial se- 
 cretion. Again, death may occur through a gradual exhaustion of the powers 
 of life, without marked spasm, blood-change, or complication. In these 
 cases also the intelligence remains unimpaired almost until the moment 
 of dissolution. Death is not very rarely due to pneumonia, and when 
 the disease is greatly prolonged or the convalescence from it is imperfect a 
 fatal termination by dropsy of the brain is still among its dangers. 
 
 Hirsch once declared that the duration of epidemic meningitis " is 
 between a few hours and several months," and, however hyperbolical the 
 phrase may seem, it is quite accurate. Such inequalities are more charac- 
 teristic of acute blood diseases than of inflammations, and in this case the 
 coexistence of elements of both kinds doubtless accounts for the extreme 
 irregularity of the symptoms and duration of the attack. The early 
 American writers insisted strongly on this as a characteristic feature of 
 the disease. They record an unusually large proportion of cases that 
 were fatal within the first day, and even after an illness of five hours, 
 although they agree that the most usual date of death was between the 
 fourth and seventh days a result that has been confirmed by subsequent 
 observation. Dr. N. S. Davis gives the duration of the disease, as seen by 
 him, as between twenty hours and twenty-eight days. Out of 469 fatal 
 cases in the city of New York in 1872, 334 are said to have terminated 
 within eleven days, and of this number 270 were fatal in the first six days 
 of the attack, including 52 who died on the first day, and 51 in from one to 
 two days. It is perhaps worthy of note that while from the eleventh to 
 the fourteenth day only 1 1 deaths occurred, 20 took place on the four- 
 teenth and fifteenth ; and while from the fifteenth to the twenty-first day 
 only 16 died, yet from the twenty-first to the twenty-second 12 deaths 
 were reported. This would seem to indicate a peculiar danger on the 
 days represented by multiples of seven. Of cases that recover, the 
 duration is even more indefinite than that of fatal cases, owing to compli- 
 cations that occur in many, and especially such as involve the cerebro- 
 spinal centres. When death takes place within a few hours it usually, if 
 not always, is attended with symptoms that denote a disorganization of the 
 blood. In 1864 we attended a young man previously in perfect health, but 
 who died in twenty-one hours after the first seizure. His mind was un- 
 clouded throughout his brief but fatal illness. Within seven hours of death 
 a purpurous discoloration of the skin began, and about an hour before that 
 event the surface everywhere assumed a dusky hue. The forearms and 
 hands were almost uniformly purple and the face turgid ; many ecchy- 
 motic spots on the trunk and lower limbs were nearly black and measured
 
 INDIVIDUAL SYMPTOMS. 819 
 
 one or two inches in diameter. 1 In the case of a child of five years death 
 in convulsions took place after an illness of ten hours, the skin presenting 
 purpurous spots, some of them very large and of a deep bluish livid hue! 
 On post-mortem examination there was not the slightest appearance of 
 any meningeal lesion, except a few dark spots like sanguineous eifusion 
 under the arachnoid. The heart was full of dark blood in a semi-coagu- 
 lated state, and the white corpuscles were three times as numerous as the 
 red. 2 A case is reported by Gordon 3 in which the entire duration of the 
 illness until death was five hours. This is probably the shortest case on 
 record. A lady aged twenty-two years died in sixteen hours, the skin 
 covered with livid ecchymoses, some of them measuring an inch or an 
 inch and a half in diameter. 4 
 
 The character of the convalescence from epidemic meningitis must evi- 
 dently be affected by the causes that determine its duration, the grade of 
 the disease, the development and extent of the lesions, etc. ; but it is cer- 
 tain that, except in those imperfect and, as it were, shadowy cases which 
 denote a very slight action of the morbid cause, its subjects do not recover 
 rapidly. The essential lesion of the fully-formed disease requires time 
 for its removal, just as in typhoid fever the intestinal ulcers are often 
 slow of healing, and hence become a cause of tardy recovery and even 
 of unlooked-for death. The convalescence, then, from the disease we are 
 now studying is slow and irregular, is attended often with debility and 
 emaciation, and sometimes with persistent headache, neuralgia, convul- 
 sions, stiffness of the neck and pain in moving it, hypersesthesia of por- 
 tions of the skin, palpitation of the heart, dyspepsia, etc. Relapses are 
 very far from being uncommon. 
 
 Among the causes of tardy convalescence in this disease are those 
 lesions and disorders which may be embraced by the term sequelae. 
 Impaired vision, due to various affections of the eyes, has already been 
 considered among the symptoms proper of the disease, but they are not 
 infrequently developed after the acute attack has subsided. Thus, in 
 a case reported by Larrabie : 5 " Just as convalescence seemed beginning 
 the left eye became affected in all its parts, with entire loss of vision and 
 also complete deafness. After a short remission hydrencephaloid symp- 
 toms appeared, followed by the same changes in the hitherto sound eye, 
 complete blindness and deafness, general cachexia and marasmus, rigid 
 flexion of the right limbs, and death by exhaustion at the end of sixteen 
 weeks." The impairment of hearing, which also was described as a 
 symptom of the acute attack, is apt to become more marked after the 
 acute stage has passed by, and, as before stated, is very often perma- 
 nent. Occurring in young children, it then involves deaf-mutism. * It is 
 in many cases associated with defective vision, weakness or loss of mem- 
 ory, mania, impairment of intelligence, persistent pains in the head or 
 chronic hydrocephalus. Sometimes to one or more of these symptoms is 
 added more or less general paresis or complete paralysis. Southhall 6 
 mentions the case of a chiid two years old whose attack was followed by 
 incomplete paralysis, and death at the end of eight months with softening 
 
 1 Amer. Jour of Med. Sci., July, 1864, p. 133. 2 Dublin Quart. Jour., 1867, ii. 441. 
 
 3 Loc. cit. 
 
 * Med. Press and Circular, May, 1866. For other cases see ibid., pp. 296, 298-300. 
 
 5 Richmond Journal of Med., Dec., 1872, p. 779. 
 
 8 Ibid., Aug., 1872, p. 141.
 
 820 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 of the brain. Gordon thus describes the conclusion of a case : " The 
 man has gradually passed into a state of almost organic life ; he eats, 
 drinks, and sleeps well ; he passes solid feces and urine without giving 
 any notice, yet, evidently, not unconsciously ; .... he seems to under- 
 stand, but cannot answer ; .... he can draw up his legs and arms, but 
 he cannot use his hands at all." Hirsch has remarked that disor- 
 ders of speech are met with, due apparently to an inability to articulate 
 certain sounds. Von Ziemssen regards chronic hydrocephalus as not a 
 rare consequence of epidemic meningitis, and as one not absolutely or 
 immediately fatal. Its symptoms include severe paroxysmal pain in the 
 head or neck or extremities, with vomiting, loss of consciousness, convul- 
 sions, and involuntary evacuation of excrements. Between the parox- 
 ysms, which sometimes occur periodically, the patient generally suffers 
 from neuralgic pains, hyperaesthesia, and various motor and even mental 
 disorders ; but in other cases the intervals are free, or nearly so, from all 
 morbid manifestations. Davis' (1872) and many others speak of severe 
 neuralgic pains following this disease ; according to Dr. D., they are most 
 frequent at the heads of the gastrocnemii muscles, in the abdomen, and 
 the head; a very fretful disposition, variable appetite, and disturbed 
 sleep are often observed. Relapses have been noticed in almost all 
 the epidemics, and it seems probable that they are often due to the 
 influence of accidental exciting causes, mental or physical, in renew- 
 ing the inflammation around the cerebro-spinal lesions. Miner (1825) 
 remarked that they were most apt to occur within the first week, 
 but that when the disease had once run its course there were very few 
 relapses during convalescence. But, he adds, there were several repeated 
 attacks after the most perfect recovery, and several of the patients had 
 had the disease the preceding year. 
 
 Like other epidemic diseases, meningitis presents itself with every pos- 
 sible degree of gravity between that of a slight indisposition and that of 
 a malignant and deadly malady. The mortality in a number of epidem- 
 ics compared by Hirsch varied between 20 per cent, and 75 per cent. It 
 changes with the locality. ' Thus, nearly at the same time that the death- 
 rate from this disease in Massachusetts was 61 per cent., it was but 33 
 per cent, in the Philadelphia Hospital. In 1872 the whole number 
 of deaths caused by it in Philadelphia was 133, while at St. John's 
 College, Little Rock, Ark., 21 cases out of 29 were fatal (Southhall). It 
 differs, also, at different periods ; for while ten epidemics in various 
 places, occurring between 1838 and 1848, presented an average mortality 
 of 70 per cent., a similar number, occurring between 1855 and 1865, gave 
 an average mortality of only 30 per cent. It must, however, be con- 
 fessed that such statistics cannot be relied upon as accurate, for in pri- 
 vate practice many cases occur that are never reported unless they end 
 fatally. 
 
 MORBID ANATOMY. The lesions found after death from epidemic men- 
 ingitis consist essentially of congestion or inflammation of the cerebro- 
 spinal meninges, but they also include in many cases hemorrhage, serous 
 effusion, plastic exudation, and tissue-changes in the brain and spinal 
 marrow, and in many other cases an impaired constitution of the blood. 
 As the signs of the latter, and not the former, alterations are met with 
 iri the more malignant cases, it is evident that, looking at the disease as a
 
 MORBID ANATOMY. 821 
 
 whole, it must involve a toxic element of whose operation the various 
 post-mortem lesions are only effects. These lesions, on the whole, vary 
 with the type of the disease, and also with its duration, but some are 
 chiefly met with in cases of a malignant and others in cases of an inflam- 
 matory type. 
 
 The exterior of the body after death in the early stages of this disease 
 almost always presents the marks of transudation of the contents of the 
 blood-vessels. The dependent parts of the body exhibit large livid 
 patches or a uniform discoloration of the same hue. In acute cases 
 the muscles are more deeply colored than natural, and when the attack is 
 prolonged they are said to have their cohesion impaired by fatty degenera- 
 tion. Congestion of the brain is an unfailing accompaniment of the first 
 stage of the disease ; its blood-vessels are all distended with dark blood ; 
 the sinuses of the dura inater are usually filled with coagula of the same 
 hue, though sometimes very dense. Serum abounds in the arachnoid 
 cavity and in the ventricles of the brain ; it may be clear or milky, and 
 sometimes it is quite purulent. It is alleged by one reporter that no less 
 than three pints of turbid serum escaped in a case in which, however, 
 death did not occur until the thirty-fifth day. Craig found eight and 
 twelve ounces of a limpid fluid in two cases ; and Tourdes found pus in 
 more than one-half of his cases, either unmixed or forming a milky 
 liquid. J. L. Smith refers to the case of an infant who had the disease 
 at the age of five months, and two months subsequently great prominence 
 of the anterior fontanelle, and other symptoms which indicated the presence 
 of a considerable amount of effusion within the cranium. In a case 
 in Dublin, 1 there was no meningeal lesion except in a " few dark spots 
 like sanguineous effusion under the arachnoid." White 2 mentions the 
 case of an adult that terminated fatally in thirty-six hours, in which the 
 vessels of the pia mater were very much congested, and sanguineous 
 effusions existed above and below the cerebellum, and a clot of blood 
 three inches long and external to the theca extended downward from the 
 lowest portion of the medulla oblongata. In all of these instances, then, 
 congestion, the first stage of inflammation, existed. That such was its 
 real nature is proved by what follows. 
 
 The most characteristic lesion is a fibrinous or purulent exudation in 
 the meshes of the pia mater. American physicians described it as early 
 as 1806 in such terms as these : " The dura mater and pia mater in several 
 places adhered together and to the substance of the brain ; . . . . between 
 the dura mater and the pia mater was a fluid resembling pus " (Daniel- 
 son and Mann). In 1810, Bartlett and Wilson found "an extravasa- 
 tion of lymph on the surface of the brain ;" and in the same year Jack- 
 son and his colleagues, after describing the congestion and serous effusion 
 found within the cranium " in those who perished within twelve hours 
 of the first invasion," state that the arachnoid and pia mater present an 
 effusion between them of " coagulated lymph or semi-purulent lymph " 
 both on the convexity and at the base of the brain. These descriptions 
 correspond in all respects with those of Mathey relating to the epidemic 
 at Geneva in 1805, for he says: "The meningeal blood-vessels were 
 strongly injected. A jelly-like exudation tinged with^blood covered the 
 surface of the brain ; .... on its lower surface and in the ventricles a 
 
 1 Dublin Jour., July, 1867, p. 441. * Med. Record, iii. 198
 
 822 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 yellowish puriform matter was found." Such lesions have been described 
 by a long line of observers by Wilson in 1813, Gamage in 1818, Ames 
 and Sargent in 1 848 ; by Squire, Upham, and a host of others since 
 1860 in the United States, and by Tourdes, Gilchrist, Ferrus, "VVilks, 
 Gordon, Banks, Gaskoin, Niemeyer, Burdon-Sanderson, and many more 
 in Europe. 
 
 It is evident, therefore, that in a certain number of fatal cases only 
 sanguineous congestion of the membranes of the brain and spinal cord 
 are found, and in certain others constituting, it may be added, nine- 
 tenths of the whole number evidences exist of cerebro-spinal menin- 
 gitis. Hence the natural conclusion is that the congestive lesions repre- 
 sent the first stage of a process which if prolonged and perfected occa- 
 sions the lesions peculiar to inflammation. For the development of the 
 latter two factors would seem to be essential not only a fibrinous condi- 
 tion of the blood, but also sufficient time for exudation to occur. But 
 when we come to study the actual results of examinations post-mortem, 
 it is found that the duration of the attack does not determine absolutely 
 the nature of the lesions. On the one hand, in a case which terminated 
 fatally after a week's illness there was found reddish serum between the 
 arachnoid and the pia mater and in the lateral ventricles, with intense 
 injection of the pia mater of the base, medulla oblongata, and upper part 
 of the spinal cord, but no exudation of lymph. 1 And, on the other 
 hand, numerous cases have been published in which, although death 
 occurred within twenty-four hours from the onset of the attack, coagu- 
 lated lymph and also pus were found upon the brain and spinal marrow. 
 For example, during the winter of 1861-62, in the army, that then lay 
 near "Washington, D. C., a soldier was attacked with a chill, severe fever, 
 and headache, followed by opisthotonos and repeated convulsions before 
 his death, which occurred in about twenty-four hours. No eruption or 
 discoloration of the skin is mentioned in the history. On examination 
 there was found beneath the arachnoid a thin layer of lymph and abun- 
 dant exudation over the posterior lobes of the cerebrum, and also at the 
 base of the brain and on the medulla oblongata. 2 In a case reported by 
 Gordon 3 the entire duration of the illness was under five hours, and 
 after death the cerebral arachnoid was more or less opaque, and in some 
 spots had a layer of very thin purulent matter beneath it. And, again, 
 not only may the symptoms belonging to blood-dissolution be consistent 
 with a certain prolongation of life, but also with decidedly inflammatory 
 tissue-changes. Thus, in another case of Gordon's the duration of the 
 illness was at least six days, and the patient presented all the character- 
 istic symptoms of the disease, including "a most wonderful and uniform 
 curve of the spine and head backward," " spots black as ink," " bullae 
 which rapidly became opaque and dusky," " herpetic eruption, etc." 
 After death the body had a very frightful appearance. It was still promi- 
 nently arched forward. It was of a dusky blue color, with a copious 
 eruption of black spots of various sizes, and one or two of them were 
 
 gangrenous When the theca vertebralis was opened purulent matter 
 
 flowed out, and a purulent effusion was found in patches on the brain. 
 
 1 Davis, Richmond Med. Jour., June, 1872, p. 709. 
 
 2 Frothingham, Amer. Med. Times, Apr., 1864, p. 207. 
 s Dublin Quart. Jour., May, 1867, p. 409.
 
 MORBID ANATOMY. 823 
 
 The cerebral arachnoid was all opaque, the lateral ventricles were filled 
 with serum, and the blood in all the cavities was very fluid and dark 
 colored. From all that precedes, therefore, it must be inferred that the 
 nature of the lesions in this disease depends not on the type alone, nor on 
 the duration merely, of the attack that a very brief course is compatible 
 with marked inflammatory lesions, and a prolonged one with profound 
 alterations in the condition of the blood. In other words, it seems that 
 there must be something besides the appreciable lesions that influences, if 
 it _does not determine, the issue of an attack of this affection. While 
 bringing forward prominently this proposition, and the facts on which 
 it rests, we have no intention of under-estimating the relative significance 
 of the two most conspicuous types of the disease, the purely inflamma- 
 tory and the adynamic, or calling in question the fact that the evolution 
 of the former is most usually comparatively slow and regular, and of the 
 latter rapid and irregular. In the one, when death takes place early, con- 
 gestive changes are found, and when later these have merged into exuda- 
 tive lesions ; in the other or adynamic cases congestion and liquid 
 transudation prevail, and the results of complete inflammation are seldom 
 seen. When the disease has been very much prolonged the exudation 
 becomes tough, adherent, and shrivelled. 
 
 The brain-tissue has generally been found softer than natural, and, 
 although in some cases this diminished consistence might be attributed 
 to post-mortern changes, yet on the whole it must be associated with the 
 inflammatory lesions of the meninges. As a rule, it is greater the longer 
 the attack has lasted, and is by no means equally diffused, but is more 
 marked where the meningeal alterations are greatest. Ames found soften- 
 ing in nine out of eleven cases, and chiefly in the cortical substance, but 
 also in the fornix and septum lucidum ; and Chauffard states that in pro- 
 tracted cases " the interior surface of the ventricles, the fornix, and septum 
 lucidum, were reduced to a pultaceous and creamy consistence." But it 
 is by no means true that softening is met with in all cases of long dura- 
 tion. 
 
 The lesions of the spinal marrow and its membranes correspond with 
 those of the brain. The dura mater is often very dark, its blood-vessels 
 engorged, its arachnoid cavity distended with serum more or less bloody, 
 turbid, or purulent. Two ounces of pus have been removed from it 
 through a puncture. Fibrinous and purulent exudation fills the meshes 
 of the pia mater, and is usually most abundant in the cervical and dorsal 
 portions, and generally upon the posterior rather than upon the anterior 
 surface of the organ ; but sometimes large accumulations of lymph and 
 pus are found at the lower end of the cord. Gordon 1 relates of a case 
 that " when an opening was made into the lower part of the theca verte- 
 bralis purulent matter flowed out, and the entire surface of the pia mater 
 was covered with a coating of thin purulent matter, which, like a thin 
 layer of butter, remained adherent to it." Occasionally the cavity of the 
 spinal arachnoid contains blood. Softening of the spinal cord has been 
 often noticed. Chauffard states that in some cases of particularly long 
 duration it was reduced to a mere pulp, and he adds, " in the place o? 
 portions of the spinal marrow, completely destroyed, was found only a 
 yellowish liquid, or the empty membranes fell into contact where it was 
 
 1 Dublin Quart. Jour., xliii. 414.
 
 824 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 wanting." Similar disorganization has been described by Ames, Klebs, 
 and others. Fronmuller reports the case of a girl aged fourteen years 
 in whom the central canal of the spinal cord was distended with pure 
 pus. 
 
 The lesions of the internal auditory apparatus consist of softening in 
 the fourth ventricle and of the root of the auditory nerve, yet such lesions 
 are said to have been found even when no defect of hearing had existed. 
 In other cases in which deafness did occur the lesions consisted of inflam- 
 matory changes in the cavity of the tympanum and suppuration of the 
 labyrinth. They probably arose from an extension of inflammation from 
 the pia mater along the trunk of the auditory nerve (Von Ziemssen). 
 In like manner, the inflammatory and destructive changes in the eye 
 which have been elsewhere described arise from an analogous cause affect- 
 ing the optic nerves. 
 
 It is unnecessary to dwell upon the condition in which other organs are 
 found after death from epidemic meningitis. In cases that present a 
 typhoid type, and even in such as are rapidly fatal with ecchymotic dis- 
 coloration of the skin, the various organs present no distinctive tissue- 
 change, but only such engorgement as is common to all diseases of a simi- 
 lar type. It deserves to be particularly mentioned that in this affection 
 the spleen is not enlarged, as it always is in a greater or less degree in 
 diseases whose primary stage involves an altered condition of the blood. 
 This fact becomes all the more important in view of the remarkable con- 
 trast which the constitution of the blood presents in epidemic meningitis 
 and in various typhous affections. 
 
 The state of the blood in this disease is one of peculiar interest, domi- 
 nating as it does its whole pathology and determining its nosological posi- 
 tion. It is the blood of a phlegmasia rather than of a pyrexia. This 
 fact was early established by American physicians who observed the dis- 
 ease, and the opportunities for doing so were not wanting, since venesec- 
 tion was used by every one who treated it. In 1807-09 a rapidly fatal 
 case or two was found in which the " blood was darker and had a larger 
 proportion of serum than usual," but in others " it did not present any 
 uncommon appearance, and no inflammatory buff, nor was it dissolved" 
 (Fish). In 1811, Arnell stated that "the blood drawn in the early stage 
 appeared like that of a person in full health ; there was no unusual buffv 
 coat, neither was the crassamentum broken down or destroyed." In the 
 epidemic studied by Mannkopff (1866) he found that blood obtained by 
 venesection gave a clot with a thick buffy coat. Andral, seeking to estab- 
 lish the law that in every acute inflammation there is an increase in the 
 fibrin of the blood, remarks that in a case of cerebro-spinal meningitis it was 
 very marked. 1 Ames states that " the blood taken from the arm and by 
 cups from the back of the neck " " coagulated with great rapidity." " Its 
 color was generally bright in a few cases nearly approaching to that of 
 arterial blood ; it was seldom buffed ; in thirty-seven cases in which its 
 appearance was noted it was buffed in only four." Analyses were 
 made in four cases, "the blood being taken early in the disease 
 from the arm, and was the first bleeding in each case. They fur- 
 nished the following results : 
 
 1 Path. Hcematoloyy, p. 73.
 
 MORBID ANATOMY. 825 
 
 Fibrin. Corpuscles. 
 
 1 6.40 140.29 
 
 II 5.20 112.79 
 
 HI 3.64 123.45 
 
 IV 4.56 129.50 
 
 The first was from a laboring man thirty-five years old ; the second from 
 a boy twelve years old, while comatose ; and the two others from stout 
 women between thirty and thirty-five." 1 Tourdes, whose analyses follow, 
 states that " blood drawn from a vein was rarely buffed ; if a buify coat 
 existed, it was thin, and generally a mere iridization upon the surface of 
 the clot." 2 
 
 Fibrin. Corpuscles. 
 
 1 4.60 134.0ft 
 
 II 3.90 ] 35.54 
 
 III 3.70 143.00 
 
 IV 5.63 137.84 
 
 Maillot gives, as the result of an analysis of six cases, an increase of fibrin 
 to six parts and more in a thousand. This summary represents, as far as is 
 known, all of the analyses of blood taken from living patients in this disease, 
 and it shows that in every case the proportion of fibrin exceeded that of 
 healthy blood, and corresponded exactly to that observed in the blood of 
 inflammatory diseases, while the proportion of red corpuscles varied within 
 the normal limits. How different is this condition of the blood from that 
 of typhus fever, in which there is a marked diminution of fibrin, and a 
 falling off in the red corpuscles as well, or from that of typhoid fever, in 
 which neither element declines until the disease affects the body by inani- 
 tion ! (Murchison). 
 
 In regard to the condition of the blood after death the historians of 
 the disease are not so well agreed ; nevertheless, the preponderance of the 
 testimony is in favor of the statement that the blood presents appearances 
 resembling those belonging to the continued fevers rather than to the 
 inflammations. It is true that even in this the agreement is neither 
 general nor complete. Tourdes, for example, states that in an autopsy 
 " the blood was remarkable for the abundance and toughness of the 
 fibrinous clots," but the greater number have reported it as being dark 
 and liquid. Such was its condition in the epidemic which we studied at 
 the Philadelphia Hospital in 1866-67, and it has been correctly described 
 by Dr. Githens as follows : " The blood was fluid, of the color and 
 appearance of port-wine lees ; under the microscope the corpuscles were 
 shrivelled and crenated, and there was a space apparent between them as 
 they were arranged in rouleaux. There were in two cases white, firm, 
 fibrinous heart-clots extending through both ventricles and auricles and 
 into the vessels leading to and from the heart." 3 It may be added that 
 the red corpuscles are often crenated and shrivelled when the case has 
 been protracted, and it has been stated from limited observation, indeed 
 that "the white corpuscles are three times more numerous than the 
 red." 4 The blood has been scrutinized to discover, if possible, some of 
 those bodies which are judged by Koch and his disciples to differentiate 
 
 1 New Orleans Med. and Surg. Jour., Nov., 1848. " Epidemic de Strasbourg, p. 160. 
 
 3 Amer. Jour, of Med. Set., July, 1867, p. 23. 
 
 4 Dublin Quart. Jour., May, 1867, p. 441.
 
 826 EPIDEMIC OEREBEO-SPINAL MENINGITIS. 
 
 general diseases, but it is stated that the investigation has been without 
 definite result. 1 
 
 It does not seem difficult to reconcile the conflicting statements now 
 given of the condition of the blood in epidemic meningitis. One of 
 them points to an excess and the other to a loss of the spontaneously 
 coagulable element of the blood. It is evident that venesection, which 
 was necessary for procuring the living blood for analysis, would only be 
 performed when the type of the disease authorized it that is, when the 
 type was sthenic ; whereas the blood examined after death had necessarily 
 undergone changes which tended to, if they did not actually, occasion 
 death. Hence we find among the former cases, when fatal, the most 
 extensive and massive exudation, and always among the latter less evi- 
 dence of inflammation, but, on the other hand, a greater or less manifes- 
 tation of those appearances which denote a loss of the vitality and organiza- 
 tion of the blood. In the one case death may fairly be attributed, above 
 all other causes, to the pressure upon, and the disorganization of, the 
 cerebro-spinal organs essential to life ; in the other, primarily, to the 
 death of the vital elements of the blood produced by the specific cause 
 of the disease. It is probable that the post-mortem fluidity of the blood 
 exists under two conditions. In the one the morbid cause is powerful 
 enough from the very commencement rapidly to destroy the life of 
 that fluid, and in the other it acts less violently, but continuously, to 
 exhaust the powers of life. 
 
 Our conception of the pathology of epidemic meningitis is implicitly 
 contained in the foregoing discussion. Of its essential cause and of the 
 conditions that call it into existence nothing whatever is known. The 
 disease is most probably due to some atmospheric agency that is capable 
 of acting at the same time upon widely separated localities. Its specific 
 cause appears to enter the blood first of all, and doubtless through the 
 lungs, and to be capable of destroying life by its action upon the blood 
 alone. Failing this effect, its force is spent upon the cerebro-spinal pia 
 mater, and it may become fatal by the mechanical interference of the prod- 
 ucts of inflammation with the nutrition of those parts of the central 
 nervous system which are essential to life. An inflammatory and a septic 
 element together constitute the fully-developed disease ; either may be in 
 excess and overshadow the other. According to the relative predomin- 
 ance of one or the other, the disease assumes more of a typhoid or more 
 of an -inflammatory type, and it is doubtless this diversity in- its physiog- 
 nomy, as well as in the lesions that attend it, which has led to the most 
 opposite doctrines respecting its nature and its nosological affinities. 
 
 DIAGNOSIS. The most distinctive phenomena of epidemic meningitis 
 are suddenness of attack and rapidity of development of the following 
 symptoms : acute pain in the head, neck, spine, and limbs ; faintness, 
 vomiting ; stiffness or spasm of the cervical or spinal muscles ; hyper- 
 sesthesia of the skin ; delirium, alternating with intelligence and merging 
 afterward into dulness or coma ; occasional convulsive spasms ; paralysis 
 of the face or of one side of the body. The evidences of associated 
 blood-poisoning are, the epidemic prevalence of the disease, various erup- 
 tions upon the skin (herpes, roseola, petechise, etc.), ecchymoses, debility 
 out of proportion to the evidences of local disease, redness of the eyes, 
 
 1 Jaffe. Phila. Med. Times, xii. 599.
 
 DIAGNOSIS. 
 
 827 
 
 foulness of the tongue and mouth, and more or less of the other condi- 
 tions which characterize the typhoid state. To these features must be 
 added the rate of mortality, which is greater in most epidemics of menin- 
 gitis than that of any disease with which it is liable to be confounded. 
 
 It is distinguished from sporadic meningitis by the fact that the latter 
 disease is never primary, but is always either an epiphenomenon of some 
 other and previous malady (various levers and chronic blood diseases) or 
 is traumatic in its origin. The thermometer readily distinguishes it from 
 various functional nervous affections, chiefly hysterical, in which the tem- 
 perature remains normal. 
 
 From typhoid fever it differs as widely as possible by its rapid onset, 
 the exquisite pain in the head, the neuralgic pains, the opisthotonos, and 
 the convulsions. The alternate delirium or coma and clearness of mind 
 in meningitis contrast with the persistent hebetude, stupor, or muttering 
 delirium and the muscular relaxation in typhoid fever. The sordes on 
 the tongue, the diarrhoea, the meteorism, the intestinal hemorrhage of the 
 latter, instead of the moist or merely dry tongue and the transient vomit- 
 ing and torpid bowels of the former ; high or continuous fever on the 
 one hand, slight or variable increase of temperature on the other; difflu- 
 ence of blood in the one and an increase in the proportion of its fibrin in 
 the other; in the one suppurative inflammation of the cerebro-spinal 
 meninges, in the other specific lesions of the intestinal and mesenteric 
 glands, these, as well as the very different modes of origin of the two 
 affections, draw a broad and manifest line of distinction between them. 
 
 It would scarcely be necessary to point out the contrasts between epi- 
 demic meningitis and typhus fever were it not that, notwithstanding the 
 abundance of instruction on the subject in medical treatises and lectures, 
 a large number of physicians confound typhus fever, typhoid fever, and 
 the typhoid state of inflammatory diseases with one another. The con- 
 fusion was intensified at one time by designating the disease we are study- 
 ing as spotted fever a term originally applied and properly belonging 
 to typhus fever (typhus petechialis). It is true that New England phy- 
 sicians soon became aware of their error, which was distinctly pointed out 
 and condemned by North, Strong, Miner, Foot, Fish, and others in the 
 early part of this century. A similar error was at first committed both 
 in Ireland and England, but was corrected by maturer experience. In 
 order to contrast the two diseases as strongly as possible, we place their 
 distinctive features side by side in the following table : 
 
 TYPHUS FEVER. 
 
 An endemic disease, due to local causes 
 and spreading by intercommunication. 
 
 EPIDEMIC MENINGITIS. 
 
 A pandemic disease. Occurs simulta- 
 neously in places remote from one an- 
 other and without intercommunica- 
 tion. 
 
 Attacks all classes of society. Is never 
 primarily developed by destitution, 
 squalor, or defective ventilation. 
 
 Is not contagious. 
 
 Attacks more males than females. 
 
 Attacks more young persons than adults. 
 
 Generally occurs in winter. 
 
 Eruptions are absent in at least half of 
 the cases ; they occur within the first 
 day or two. 
 
 Attacks the poor, filthy, and crowded 
 alone. 
 
 Contagious in a high degree. 
 Both sexes equally affected. 
 More adults than young persons. 
 Epidemics irrespective of season. 
 Eruption rarely absent, and appears 
 about the fifth day.
 
 828 
 
 EPIDEMIC CEREBRO-SPINAL MENINGITIS. 
 
 TYPHUS FEVER. 
 
 Eruption always roseolous, and then 
 petechial. Ecchymoses are rare. 
 
 Headache dull and heavy. 
 
 Delirium rarely absent ; usually mutter- 
 ing. Rarely begins before the end of 
 the first week. 
 
 A slow pulse exceedingly rare, 
 usually between 90 and 120. 
 
 Its rate 
 
 EPIDEMIC MENINGITIS. 
 
 The eruptions are various ; they include 
 erythema, roseola, urticaria, herpes, 
 etc. Ecchymoses are common. 
 
 Headache is acute, agonizing, tensive. 
 
 Delirium often absent ; often hysterical, 
 sometimes vivacious, sometimes mani- 
 acal. Generally begins on the first or 
 second day. 
 
 Pulse very often not above the natural 
 rate; often preternaturally frequent 
 or infrequent. Is subject to sudden 
 and great variations. 
 
 " The temperature is lower than that 
 recorded in any other typhoid or in- 
 flammatory disease." It is also very 
 fluctuating. 
 
 The body has no peculiar smell. 
 
 The tong*ue is generally moist and soft, 
 and if dry is not foul. Sordes on teeth 
 rare. 
 
 Vomiting is an almost constant and 
 urgent symptom, especially in the first 
 stage. 
 
 Pains in the spine and limbs of a sharp 
 and lancinating character are usual. 
 
 Tetanic spasms occur in a large propor- 
 tion of cases and within the first two 
 or three days. They are due to an 
 exudation on the medulla oblongata 
 and spinalis. 
 
 Cutaneous hypersesthesia is a prominent 
 symptom. 
 
 Strabismus is common. 
 
 The eyes, if injected, have a light red or 
 pinkish color. 
 
 The pupils are often variable and un- 
 equal. 
 
 Deafness and blindness are often com- 
 plete and permanent. 
 
 Duration very indefinite, but generally 
 
 from four to seven days. 
 Relapses are common. 
 The blood is often fibrinous. 
 The lesions, except in the most rapid 
 
 cases, consist of a plastic or purulent 
 
 exudation in the meshes of the cerebro- 
 
 spinal pia mater. 
 Mortality from 20 to 75 per cent. 
 
 PROGNOSIS. In the section relating to the mortality of epidemic men- 
 ingitis it has been seen that its death-rate varies at different times and 
 places between widely remote extremes. This fact must be borne in 
 mind in estimating the influence of various circumstances in controlling 
 the issue of the disease. The relative as well as the aggregate mortality 
 is far greater in childhood than in adult life. After the age of thirty or 
 thirty-five it decreases rapidly until old age, when recovery from the dis- 
 ease is quite exceptional. A sudden or rapidly developed attack is gener- 
 ally unfavorable, especially when the symptoms are adynamic and there 
 is a purplish discoloration of the skin. Indeed, even apart from evidences 
 
 The temperature is always elevated, and 
 does not fall until the close of the 
 attack. "The skin is hot, burning, 
 and pungent to the feel." 
 
 The mouse-like smell is characteristic. 
 
 The tongue is generally dry, hard, and 
 brown, and the teeth and gums fulig- 
 inous. 
 
 Vomiting is rare and not urgent. 
 
 The pains, if any, are dull, and appa- 
 rently muscular. 
 
 Tetanic spasms are unknown in typhus. 
 Convulsions sometimes occur, due to 
 pyaemia. 
 
 The sensibility of the skin is generally 
 
 blunted. 
 
 Strabismus is rare. 
 The blood in the conjunctival vessels is 
 
 dark. 
 The pupils are equal and contracted. 
 
 Deafness almost always ceases with con- 
 valescence. Blindness never follows 
 typhus. 
 
 Duration from twelve to fourteea days. 
 
 Relapses are rare. 
 
 The blood is never fibrinous. 
 
 In typhus no inflammatory lesions exist. 
 
 Mortality from 8 to 40 per cent.
 
 TREATMENT. 829 
 
 of blood-change, cerebral are, on the whole, of graver importance than 
 spinal phenomena, and the more so the more typhoidal their type. Of 
 still more serious significance is a want of perception of the gravity of 
 the situation or unconcern about its issue. A preternaturally slow and 
 compressible pulse implies danger, and so does coolness of the skin, 
 especially if it grows purplish from a diffusion of blood beneath it or 
 even from venous stasis. The various eruptions that have been described 
 including petechiae, are not necessarily dangerous signs. Profuse sweats 
 during a soporose state, bullae and gangrenous spots, obstruction of the bron- 
 chia with mucus or serum, pneumonia or pericarditis, these are all grave 
 indications. So, too, are a dry, fissured, shrivelled, and pale tongue or a 
 fuliginous state of the mouth, swelling of the parotids, obstinate vomit- 
 ing, and profuse diarrhrea at an advanced stage of the disease. Among 
 the most unfavorable nervous symptoms are great restlessness, rigid retrac- 
 tion of the head, spasms of other than the spinal muscles, general convul- 
 sions, extensive hypersesthesia, deep coma, dilatation and insensibility of 
 the pupils or their rapid change from a dilated to a contracted state, reten- 
 tion or incontinence of urine, and all cerebral paralyses, including that of 
 the muscles of deglutition. The favorable indications comprise a general 
 mildness of the symptoms, a moderate loss of strength, a slight degree of 
 pain and muscular stiffness, the absence of petechise or vibices (although 
 in many grave epidemics they are of rare occurrence), a desire for food 
 and the ability to digest it. Yet it is imprudent to make an absolute 
 prognosis in any grave case of this disease. Recovery has sometimes 
 occurred when it appeared impossible, and some have died when the 
 period of danger seemed to have passed on the sudden accession of cerebral 
 or spinal nervous symptoms. 
 
 TREATMENT. The difficulties that attend the solution of therapeutical 
 questions regarding diseases which are comparatively regular in their 
 evolution, and are produced by definite causes acting in an intelligible 
 manner, are very numerous and often insuperable. They become multi- 
 plied in relation to a disease which, like this one, stands alone in many 
 respects ; whose causes, phenomena, and lesions in a word, whose laws 
 are specific ; and whose varieties of type are as numerous as can be 
 formed 'by the combination, in a constantly varying proportion, of a spe- 
 cial (hypothetical) alteration of the blood, deranging the molecular actions 
 of the economy, and at the same time of an inflammation of the cerebro- 
 spinal meninges, and even of the substance of the great nervous centres. 
 These reasons are sufficient to account for the diverse and often opposite 
 methods of treatment that have been applied to the disease. As in 
 almost all other cases, the methods have consisted in using remedies to 
 counteract certain symptoms now a stimulant or tonic regimen to com- 
 bat the debility which conferred the name of "sinking typhus" on the dis- 
 ease ; now an antiphlogistic course to allay the inflammation of the brain 
 and spinal marrow denoted by the neuralgic pain and the tetanoid phe- 
 nomena ; and, again, large doses of narcotics to blunt the pain and sub- 
 due the spasm. Still other medications have been used with a similar 
 purpose, and some, as we shall see, with more or less theoretical views. 
 It may be said, with Yon Ziemssen, " that we are far from having it in 
 our power to decide whether a rational treatment of the symptoms has 
 cured the disease or lessened its mortality ; " but a review of the methods
 
 830 EPIDEMIC CEREBBO-SPINAL MENINGITIS. 
 
 that have been employed and their results leads to no doubtful conclusion 
 that some are mischievous and others more or less salutary. 
 
 Emetics were among the first medicines used in the treatment of this 
 affection, and were probably suggested by the vomiting which is one of its 
 most constant initial symptoms. But we can readily understand why 
 they failed to afford relief. The vomiting and retching are not gastric 
 symptoms at all, but, as already stated, are due to the irritation of the 
 congestive or inflammatory process at the base of the brain. These medi- 
 cines may therefore be omitted. The employment of purgatives is even 
 less rational ; they debilitate without affording any relief. 
 
 Venesection was probably employed as a part of a routine treatment 
 which neither sound reason nor clinical experience justified. It was gen- 
 erally found to fail of its curative purpose, and often induced, especially 
 in young persons, dangerous exhaustion. No better illustration is needed 
 to show that the disease we have been studying is far more than a local 
 inflammation of the cerebro-spinal meninges. On the other hand, local 
 depletion is often of marked utility. Our own experience would lead us 
 to conclude that in the more sthenic cases scarified cups, applied to the 
 nape of the neck and along the cervical vertebrae, are of essential service 
 in mitigating and generally, indeed, in wholly removing the neuralgic 
 pains which form so prominent and severe a symptom in many cases of 
 this disease. When any abstraction of blood appears to be contraindi- 
 cated by the patient's debility, even dry cups will afford him signal relief. 
 Leeches have been applied to the parts mentioned, and over the mastoid 
 processes have sometimes been used with advantage, but their depletory 
 surpasses their revulsive action, and is, so far, injurious. Cold to the 
 head and spine is among the most efficient means of relieving certain 
 symptoms. In the Massachusetts Medical Society's Report of 1810 we 
 read : " Cold water, snow, and ice have been applied to the head when 
 there was violent pain in that part with heat and flushed face, and when 
 there was violent delirium. They afforded great comfort to the patient, 
 and mitigated or removed those important symptoms." It is probable, 
 however, that the value of the remedy is almost entirely restricted to 
 the forming or at least the early stage of the attack, when the 
 pain in the head is most intense. Its soothing influence is then very 
 marked, as well as its indirect action in promoting sleep. Heat of 
 head is not an essential condition for its use, for even in the most violent 
 cases it is rarely extreme, and is often entirely wanting. Pain calls more 
 distinctly for the application, and when that symptom has subsided cold is 
 apt to be more annoying than grateful to the patient. Cold is best 
 applied to the head in the form of pounded ice enclosed in a bladder or 
 rubber bag ; but cold affusions are also very valuable, especially for chil- 
 dren. For the application of cold to the spine the most efficient apparatus 
 is the long, flat rubber bag, either single or double. 
 
 From the earliest history of epidemic meningitis in this country blis- 
 ters formed a conspicuous element in the treatment. They were used, as 
 they had been in other forms of meningitis, to relieve the pain and dimin- 
 ish the congestion in the cerebro-spinal centres. The results of their 
 use were by no means uniform, for not only were they employed in 
 many of the cases which must almost necessarily have been fatal before 
 inflammation could be established, but even in the inflammatory cases
 
 TREATMENT. 831 
 
 they were often applied when time enough had elapsed to allow the 
 exudation to be fully formed, and when, therefore, they were too late to 
 be useful. Again, they were sometimes used so as to vesicate too deeply, 
 and thus by the pain they caused at first, and by the exhaustion that 
 resulted from the excessive discharges they maintained, the patient was 
 more injured than benefited. Our own experience proves that in the 
 early stage of the inflammatory form of the disease blisters applied 
 below the occipital ridge and upon the back of the neck, and only allowed 
 to vesicate superficially, not only remove the pain in the head, but dimin- 
 ish the delirium, spasms, and coma, and therefore contribute as directly 
 as other remedies, if not more so, to the favorable issue of the attack. 
 But such salutary effects are not to be looked for when the disease assumes 
 a malignant type nor after its constitution has become definitely fixed. 
 The application of stimulant and even vesicating agents to the spine 
 below the neck has not been generally practised because, probably, the 
 seat of the spinal lesions was known to be chiefly at the upper part of 
 the organ. Still, the neuralgic pains felt in the spinal nerves may be 
 mitigated by stimulant and anodyne liniments applied with friction to 
 the spinal column. 
 
 American physicians early recognized coolness of the skin among the 
 most striking phenomena of the disease ; and this probably suggested 
 their use of diaphoretic remedies, among which were the external applica- 
 tion of moist heat in baths and warm wrappings, as well as " bottles of 
 hot water or billets of wood heated in boiling water and wrapped in flan- 
 nel," or the patient " was wrapped in flannel wrung out of boiling water, 
 sinapisms were applied to the feet, while hot infusions were administered, 
 made from the leaves of mint, pennyroyal, and other similar plants, and 
 also wine- whey, wine and water, wine, brandy, and other ardent spirits 
 more or less diluted, camphor, sulphuric ether, and opium. It was not 
 generally thought useful to excite profuse sweating, but important to 
 maintain the activity of the skin from twenty to forty hours, and even 
 longer in some instances. Soup and cordials were at the same time admin- 
 istered. Under this treatment most commonly the violent symptoms, and 
 not very rarely all the appearances of disease, have subsided " (Jackson). 
 Beyond all doubt, this method was a rational one, for it tended to promote 
 an elimination of the morbid poison, while it depleted the blood-vessels 
 and acted revulsively upon the local inflammation of the cerebro-spiual 
 meninges. Yet it seems not to have been revived during the more recent 
 epidemics of the disease, unless, partially, by Gordon (1867), who says : 
 " What I have seen most useful in the stage of collapse is external warmth 
 applied to the entire surface by means of flannel bags containing roasted 
 salt, applied along the spine, along the chest, inside the arms, and to the 
 feet and legs and between them." 
 
 Except typhus fever, there is no disease in which a due administration 
 of alcoholic stimulants may become more important. In cases of the 
 inflammatory type they are rarely needful, and are frequently hurtful, 
 but in those which exhibit signs of blood disorder with nervous exhaus- 
 tion they are often indispensable. Nothing demonstrates their necessity 
 more clearly than the extraordinary tolerance of alcohol exhibited in 
 some cases of the disease. Among the earlier American authorities 
 may be found many illustrations of this statement. Woodward (1808)
 
 832 . EPIDEMIC CEEEBRO-SPINAL MENINGITIS. 
 
 observed that very large quantities of wine or ardent spirits may be 
 given without injury. Arnell said : " In some cases I have given a 
 quart of brandy in six or eight hours with the happiest effect," Haskell 
 maintained that "the bold and liberal use of diffusible stimuli is the 
 only safe and efficacious mode of treatment." In Ireland the habitual 
 use of alcohol in the treatment of typhus fever no doubt suggested its 
 liberal employment in this disease, but such stimulants have never been 
 in vogue among the physicians of France or Germany. This difference 
 may in part be accounted for by the generally asthenic type of the disease 
 in the first-named country and its mOre inflammatory character in the 
 others. Similar contrasts of type mark different epidemics, and indi- 
 vidual cases during the same epidemic. We have no doubt that while 
 these agents are indispensable in the treatment of cases of the former 
 type, they must even then be exhibited discreetly, for their too lavish 
 exhibition entails the gravest peril by intoxicating the patients and 
 oppressing instead of arousing their vital energies. In 1866, on taking 
 charge of the medical wards in the Philadelphia Hospital, we found that 
 the patients were using as large quantities of alcohol as are given in 
 typhus fever, but a very short period of observation showed that this 
 use of the stimulant was excessive ; consequently the dose of it was first 
 reduced, and finally it was omitted altogether unless special indications 
 for it arose. This change was followed by a manifest improvement in 
 the general aspect of the sick and the subsidence of symptoms which, it 
 then became evident, were due to a lavish use of stimulants rather than 
 to the gravity of the disease. Alcohol is no more essential to the treat- 
 ment of epidemic meningitis than of any other acute affection ; it is a cor- 
 dial to be held in reserve to meet those signs of failure of the heart and 
 nervous system which may arise in all acute diseases attended with 
 changes in the condition of the blood. 
 
 The use of opium in the treatment of this disease was strongly advo- 
 cated by nearly all of the early American writers upon the subject, and 
 by many of them enormous doses were given. It was observed not to 
 produce narcotic effects in ordinary doses. In one case, marked by 
 excruciating pain in the head and maniacal delirium, sixty drops of 
 laudanum were given every hour until nearly half an ounce had been 
 taken within eight hours (Strong). Haskell states : " We have been 
 obliged frequently to exhibit ten grains of opium for a dose in some of 
 the violent cases attended with strong spasms, and have never known it 
 to produce stupor in a single instance." Miner relates that "a few cases 
 imperiously required half an ounce of the tincture of opium in an hour, 
 or half a drachm [of opium] in substance in the course of twelve hours, 
 before the urgent symptoms could be controlled, and even some cases 
 required a drachm in the same time. All these patients recovered." In 
 Europe, Chauffard administered opium in doses of from three to fifteen 
 grains, and Boudin frequently prescribed from seven to fifteen grains at 
 a single dose at the commencement of the attack, and subsequently one 
 or two grains every half hour, until the patient grew sleepy or his symp- 
 toms subsided. This tolerance of the drug is remarkable, and so is the 
 fact that it does not cause constipation. These and many similar 
 .statements agree entirely with our personal experience. We were in the 
 habit, during the epidemic above referred to, of prescribing one grain
 
 TREATMENT. 833 
 
 of opium every hour in very severe and every two hours in moderately 
 severe cases, and in no instance was narcotism induced, or even an 
 approach to that condition. Under the influence of the medicine the 
 pain and spasm subsided, the skin grew warmer and the pulse fuller, 
 and the entire condition of the patient more hopeful. It seemed probable, 
 however, that the benefit of the opium treatment was most decided in 
 the early stages of the attack, and hence in those in which the inflamma- 
 tory and spasmodic elements predominated. The hypodermic injection 
 of morphia is to be preferred before the internal administration of other 
 preparations of opium, not only on account of its prompter action, but 
 because it avoids the rejection of the medicine by vomiting. On the 
 whole, Von Ziemssen is within the bounds of truth when he savs, 
 " Beyond all doubt morphia may be considered the most indispensable 
 medicine in the treatment of epidemic meningitis." 
 
 There is no evidence sufficient to show that epidemic meningitis has 
 ever been cured by quinia alone. In the early prevalence of the disease 
 it was treated by large doses of cinchona, but unavailingly, and subse- 
 quently smaller doses were given during the convalescence, as it was in 
 that of other acute diseases. In some parts of this country where mias- 
 matic diseases prevail, and epidemic meningitis, like all other acute, and 
 especially febrile, disorders, displayed more or less of a periodical or 
 paroxysmal type, quinia was used in large doses, but the expected result 
 was not realized. Upham states that in some instances it was given to 
 the extent of sixty, or even eighty, grains within twelve hours from the 
 beginning of the attack, but without effect. In Europe it was exten- 
 sively tried and unanimously condemned. It may very properly be left 
 out of the list of medicines suitable for this disease, particularly since it 
 is no longer probable that any physician would be rash enough to employ it 
 in the so-called antipyretic doses with or without their usual associates, 
 cold baths. According to Karl Jaffe, the medicinal antipyretics (quinia, 
 salicylic acid, and also sodium benzoate) may be entirely discarded, 
 because they ruin the already weakened digestion. 1 
 
 Common sense has also proved stronger than theory in excluding mer- 
 curials from the treatment of epidemic meningitis. At one time they 
 were extensively used, especially when it was learned that the disease in 
 its full development included a paramount inflammatory element. But it 
 was soon found that the results of their use were far from uniform, and 
 farther still from being demonstrably beneficial. In this, as in many 
 other similar cases, it is quite impossible to reach a definite judgment 
 unless it were known what was the type of the cases in which the medi- 
 cine was given, whether they were asthenic or inflammatory, and again 
 whether it was used during the active or during the declining stage 
 and toward convalescence. In the absence of any trustworthy testimony 
 upon the subject it is only possible at present to state that in the treat- 
 ment of this disease mercurials should not be used. This conclusion is 
 all the more imperative because the medicine is not an indifferent one. 
 If it is not necessary and it certainly is not it is too dangerous in its 
 immediate and ultimate effects for its employment to be warranted. ^ 
 
 Since belladonna and ergot were shown to diminish vascular action in 
 the cerebro-spinal axis by contracting its capillary blood-vessels, they have 
 
 1 Phila. Med. Times, xii. 600. 
 VOL. I. 53
 
 834 EPIDEMIC CERERRO-SPINAL MENINGITIS. 
 
 beeii put forward as having a specific virtue in this disease. If the fact 
 be so, how is that other fact a clinical one, moreover to be disposed of, 
 which is that opium, the physiological antagonist of belladonna and ergot, 
 is more efficient than they are in curing the disease? It is possible, 
 indeed, that they may have that curative power, and that opium possesses 
 it also, and that the explanation given of the action of all of these agents 
 is erroneous. Upham states that, in 1863, Haddock recommended ergot 
 upon theoretical grounds, and that during an epidemic at Newbern, X. C., 
 several cases treated by it recovered. Three cases recovered in which it 
 was prescribed by Borland. Read used it in 187374 at Boston, Mass., 
 and out of 19 cases 16 recovered and 3 died. 1 This mortality of about 
 1 5 per cent, is not more than half of that which has generally been met 
 with, and if it can be attributed to the treatment would go far to prove 
 the efficacy of the latter. One grain of ergotine, with one-tenth of a 
 grain of extract of belladonna, was administered every three hours. 
 Considering the exiguity of the dose of belladonna, it is not surprising 
 that, except in one case, it did not dilate the pupil ; and the dose of 
 ergotine is likewise far smaller than the average medicinal dose of that 
 preparation. Moreover, all of the cases except the fatal ones appear to 
 have presented the disease in a subacute, and certainly not in an aggra- 
 vated, form. 
 
 In 1872, Dr. S. N. Davis, 2 moved by the success of Calabar bean in 
 tetanus, employed it in this disease. A mixture of one ounce of tincture 
 of Calabar bean with one and a half ounces of fluid extract of ergot was 
 administered in doses of half a teaspoonful every two hours, and with 
 better results than had followed other remedies. Here, again, it is to be 
 noticed that the analogy suggesting the use of physostigraa is not a 
 logical one. That drug indeed relieves the spinal spasms of tetanus a 
 disease in which there is an irritation of the spinal axis, but no exudation 
 from its meningeal vessels, as in the aifectiou we are studying. More- 
 over, it is a disease of extraordinary power, as shown not only by the 
 spasms, but by the exceptionally high temperature, and thus again is in 
 direct contrast to epidemic meningitis. If, therefore, Calabar bean bene- 
 fits that disease, it cannot do so in the manner suggested by the author. 
 
 Bromide of potassium and hydrate of chloral have also been employed 
 to allay the spasmodic symptoms ; but the former is too feeble for the 
 purpose, and the depressing action of the latter upon the heart renders it 
 dangerous. Bromide of potassium has been given to children of two 
 and five years in doses of four and six grains every two hours ; but these 
 doses appear to be quite too small even for the purpose in view viz. to 
 prevent convulsive attacks. Whatever remedies may be suggested here- 
 after, none should be employed that tend to reduce the power of the 
 heart, which, as we have seen, is dangerously depressed by the disease. 
 
 During the decline and convalescence of the aifection it is probable that 
 iodide of potassium may be advantageously used to promote the removal 
 of the exudation-matter on the brain and spinal marrow, and probably to 
 prevent the hydrocephalus which sometimes follows the attack, and is 
 attributable to the pressure of effused lymph upon the cerebral veins. 
 
 DIET. The mildly febrile character of epidemic meningitis, and the 
 
 1 Philadelphia Med. and Surg. Reporter, Jan., 1875, p. 68. 
 1 Richmond and Louisville tied. Jour., xiii. 711.
 
 DIET. 835 
 
 remarkable debility which characterizes so many cases of the disease, and 
 which, as was before pointed out, conferred upon it the name typhus 
 syncopalis, plainly justify what experience has taught, that appropri- 
 ate food for the subjects of this affection is at once the most digestible and 
 nutritious that can be taken. It is true that this regimen is interfered 
 with by the vomiting, but, as that symptom is of cerebral and not of gas- 
 tric origin, it is more apt to be allayed by suitable food than by absti- 
 nence. It has been our custom to observe in this disease the same rules 
 respecting diet that are recognized as the most suitable in typhus fever. 
 In doing so, indeed, we did, without at the time knowing it, follow the 
 example of the early American physicians. Strong, who wrote in 1811, 
 advised " soup made from chicken, veal, mutton, and beef, richly seasoned 
 with pepper and savory herbs." These articles were prescribed by him 
 during the height of the disease. Later on he says : " The stomach soon 
 begins to crave something more solid than soup ; oysters, beefsteak, cold 
 ham, or neat's tongue are received with peculiar relish. Often I have 
 seen convalescents, when they had hardly strength enough to raise them- 
 selves in bed, make a hearty meal of the above-mentioned articles, which 
 were received with great satisfaction, sat well upon the stomach, and were 
 well digested and assimilated." This method is substantially the same 
 that was found successful in the earlier, as it has been in the later, epi- 
 demics in this country, and we have no hesitation in attributing to it 
 and the appropriate use of opium and blisters the degree of success we 
 enjoyed in the treatment of the disease in the Philadelphia Hospital and 
 elsewhere. 
 
 During convalescence from epidemic meningitis the patient should 
 carefully abstain from physical exertion and mental excitement, and 
 before this state is fully established he should even very cautiously 
 change his position from a recumbent to an erect posture. And, finally, 
 he should return to his ordinary occupations, mental or physical, as late 
 as possible, on account of the danger of a relapse, which has already 
 been described.
 
 PERTUSSIS. 
 
 BY JOHN M. KEATING, M. D. 
 
 HISTOEY. A careful study of this disease from the various writings since 
 the time of Hippocrates leaves little doubt in the mind of the reader as to 
 its antiquity, so little indeed has it changed in its various characteris- 
 tics. Whether the affection passed to continental Europe from Africa, or 
 whether its starting-point was India, are questions difficult to solve, and, 
 except for the medical historian, of little import. Desruelles probably 
 truthfully asserts that the many differences which mark the descriptions 
 of the disease, especially by the early Grecian writers, may be due, not to 
 the non-existence of the disease as we know it, but to the influence which 
 climate exerted then as now, and to the unrecognized fact that it is only 
 fatal in its complications. The writings of Hippocrates, Galen, and 
 Avicenna, though undoubtedly referring to the many affections in which 
 paroxysmal cough is a prominent symptom, contain many expressions that 
 would point clearly to the existence of a specific disease. Dr. Watt 
 believed that the disease was not known to the Greeks, and other writers 
 claim that it came from the north and spread southward over Europe 
 about the sixth century ; nevertheless, it first appears on record as a dis- 
 tinct affection, disentangled from the confused mass with which it was 
 involved for centuries, about the middle of the seventeenth centuiy. 
 Steffen mentions the first well-established accounts as coming from Baillou 
 in the year 1600, and Schenck in 1650, and Ettmiiller in 1685. Syden- 
 harn casually mentions it in 1670. Since the time of Willis the defini- 
 tion of the disease has remained unaltered, and so accurate was the descrip- 
 tion then given of it that we can but naturally conclude that for many 
 centuries at least it has varied but little. 
 
 In studying affections of this kind, occurring in epidemic form especi- 
 ally, and which are increased in intensity by whatever means the con- 
 tagious element, whether gaseous or parasitic, is made more virulent, 
 much allowance is to be made for the climate, customs, and habits of the 
 people whence our data are derived. Thus, most of the diseases of antiq- 
 uity, the descriptions of which have reached us, have been drawn from 
 types modified by mild climates where the people have led an out-door 
 life, and though the disease we see at the present day is one and the 
 same so far as its causation is concerned, the indoor life and close con- 
 finement, the bad ventilation, and the artificial existence in our large cities 
 must weaken the individual, intensify the poison, and exert an influence 
 on the disease. 
 
 DEFINITION AND DESCRIPTION. Whooping cough has been charac- 
 
 836
 
 DEFINITION AND DESCRIPTION. 837 
 
 terized as an acute contagious affection, occurring usually in childhood, 
 though it may occur at any age, and lasting several weeks. It is mani- 
 fested usually by malaise, catarrh of the respiratory tract, and subse- 
 quently by a convulsive cough occurring in paroxysms, the peculiarity 
 of which consists of a series of forcible expirations, followed by a sonor- 
 ous inspiration or whoop, which may be repeated several times. 
 
 At the beginning of these paroxysms of coughing, there are evidences 
 of slight laryngeal irritation, attended by an effort at suppressing the 
 cough ; then follow gradually increasing and more audible inspiration's, 
 which become more and more difficult. The child is agitated, the face 
 becomes pale, and the countenance has a mingled expression of suppli- 
 cation and fear. If it is old enough it will seize the nearest object for 
 support. As the spell advances, the eyes become suffused and prominent 
 and the loose tissue surrounding the orbits appears puffy and congested. 
 Finally, the paroxysm reaches its height ; the child, with a livid counte- 
 nance, with veins standing out like cords, gives a succession of violent 
 expiratory efforts, followed by a long inspiratory whoop. The same is 
 repeated several times, until finally almost complete cyanosis takes place ; 
 the spasm relaxes, a glairy, tenacious mucus runs from the mouth, the 
 contents of the stomach are vomited, and the child falls back exhausted. 
 The lividity of the countenance is succeeded by a deathly pallor ; the face 
 still appears swollen and puffy beneath the eyes ; the tears course down 
 the cheeks, and frequently hemorrhage occurs from the eyes, nose, ears, 
 or throat, owing to the terrific strain upon the circulation. As soon as 
 the child has recovered from the fatigue of the paroxysm all is apparently 
 over, and were it not for the characteristic expression of the eye, which is 
 pathognomonic in a well-advanced case, nothing would be noticed to even 
 suggest the disease when uncomplicated. The voice is clear; there is little 
 or no elevation of temperature. 
 
 The paroxysms which have given the name to this disease can only be 
 likened to an epileptic convulsion, which by gradually increasing cyanosis 
 is self-curable, the carbonized blood finally bringing about an anaesthetic 
 effect. The severity of the paroxysms is by no means in proportion to the 
 local catarrh, which latter may be superficial and slight, not to be detected 
 during life by the most careful laryngeal examinations, and only after 
 death by the aid of the microscope. The frequency and intensity of the 
 paroxysms are dependent in a measure upon the degree of excitability of the 
 nervous system, w r hich of course differs in individuals. It is evident 
 that the success of treatment must be powerfully influenced by this cir- 
 cumstance, and it is partly owing to it that there are so many opinions as 
 to the value of remedies in this disease. 
 
 The complications are usually dependent upon outside causes, and have 
 nothing to do with the poison proper of whooping cough, as far as we can 
 tell. There are some which depend on an inflammation of the mucous 
 membrane, which may be limited to any portion of the respiratory tract 
 or may extend throughout it. Complications may arise from mechanical 
 obstruction to inspiration by the swollen mucous membrane or from plugs 
 of tenacious mucus, which may cause pulmonary collapse and favor the 
 development of catarrhal pneumonia, and later even of phthisis ; or from 
 impediments to free and easy expiration, whether from spasm of the 
 bronchioles, from forcible compression of the thorax through reflex
 
 838 PERTUSSIS. 
 
 nervous irritation, or from other obstructions, all of which tend to pro- 
 duce emphysema. Disturbances of the circulation, in the brain or else- 
 where, may proceed from thrombi or emboli and give rise to complications 
 which will render fatal an otherwise mild form of the disease. The inva- 
 riable disturbance of nutrition which accompanies every disease affecting 
 the nervous system is apt to show itself in the breaking down of products 
 which are simply inflammatory. Vomiting may be a most serious com- 
 plication, both from its immediate and remote effects. It may be due to 
 gastric catarrh, or more frequently to irritation of the pneumogastric 
 nerve. 
 
 ETIOLOGY. Very numerous theories have been advanced as to the 
 nature of this interesting disease. Hufeland, Lebeustein, Pinel, Jahn, 
 Todd, Cullen and a host of others have regarded it as essentially a 
 neurosis. By many others it has been supposed to be due to a lesion 
 of the brain or of its membranes, but careful investigation has estab- 
 lished the fact that there is no lesion in whooping cough at all constant 
 or characteristic. By still others, and especially by Gueneau de Mussy, 
 it has been regarded as essentially an affection of the tracheo-brouchial 
 glands, a bronchial adenopathy, causing irritation of the pneumogastrics 
 and of their bronchial branches by pressure of the enlarged glands. We 
 have, however, seen many post-mortem examinations of the bodies of 
 children who have died of measles, where marked enlargement of these 
 glands was constantly found, but where no symptoms of whooping cough 
 had been present. There are indeed many features of the disease which 
 seem inexplicable on any other theory than that the essential cause of 
 whooping cough is a specific poison, and such is the view now generally 
 adopted. This poison is capable of being carried by fomites, though 
 as it is highly infectious it is often communicated through the 
 atmosphere, and is most frequently conveyed from individual to indi- 
 vidual. Dolan, 1 who has recently published a very interesting and valu- 
 able monograph on this affection, quotes Linnaeus, who ascribed it to the 
 irritation of insects, as the author of the modern view that whooping 
 cough is due to the presence of a peculiar microbe, though it must be 
 conceded that as yet it has not been discovered. Most observers hold 
 that the contagium is not in the blood, but that it resides in the secretions 
 of the respiratory passages, and is most virulent during that stage of the 
 disease when the secretion is abundant. Letzerich states that he has 
 
 1 Dolan, Thos. M., Whooping Cough, London, 1882. 
 
 The following brief statement of his conclusions may be quoted as presenting the most 
 important facts concerning the pathology of the disease : 
 
 1st. Pertussis depends on a specific poison or contagion ; this is universally admitted. 
 
 2d. This contagion is active and highly infectious ; this is also granted. 
 
 3d. The contagion is analogous to the contagia which produce splenic fever, measles, 
 scarlatina, variola, etc. 
 
 4th. It has a peculiar determination to the lungs. 
 
 5th. Like all other contagia, it has its period of activity and decline. 
 
 6th. The period of greatest activity is in the first and second stages. 
 
 7th. Pertussis runs a regular course like measles, scarlatina, variola, etc., and rarely 
 attacks a person but once. 
 
 8th. It may thus be classed among zymotic diseases. 
 
 ^ 9th. The fact that there is no primary pathognomonic morbid change supports this 
 view. 
 
 10th. There are various secondary lesions which are characteristic, as ulcerations of the 
 fraenum linguae. 
 
 llth. The mode of death harmonizes with this view.
 
 ETIOLOGY. 839 
 
 succeeded in producing whooping cough in rabbits by inoculating the 
 trachea with the sputa of the human subject. Dolan obtained smiilar 
 results by injecting the nasal secretions, and also by compelling rabbits 
 to inhale air impregnated with decomposing sputa and vomit of patients 
 suffering with the disease. 
 
 I do not, however, feel entirely satisfied in adopting the view that the 
 contagium of whooping cough resides alone in the mucous membranes of 
 the air-passages. 1 Children have been known to be born with the disease, 
 the mother having suffered from it some time previous to confinement. 
 
 The following case occurred under my own observation : Mrs. F , 
 
 the mother of two children, was in her eighth month of pregnancy ; the 
 two children had at the time a very severe attack of whooping cough, 
 which required the constant attendance of the mother. She, though an 
 extremely intelligent woman, belonged to the poorer classes, and had no 
 one to assist her at this trying time. One day she complained that 
 the movements of her child in utero had entirely changed. Suddenly, 
 without any previous motion, the child would become very active ; the 
 force of its movements was such as to make hazardous any attempt on her 
 part to walk in the street. The suddenness with which the movement 
 would come on would oblige her to seize the nearest object for support. 
 This continued until the child was born. Shortly after labor my atten- 
 tion was called to the infant, which had a curious attack, it became deeply 
 cyanosed, seemed asphyxiated, as it were, for a moment, had no convul- 
 sions, and within a few seconds resumed its normal breathing and the cir- 
 culation seemed once more established. I saw the child in several of 
 these attacks ; its health did not seem to be impaired, and without treat- 
 ment, within a few weeks they disappeared altogether. The mother 
 insisted upon the fact that the child had whooping cough, and the absence 
 of the characteristic whoop was the only thing that prevented the diag- 
 nosis from being positive. This would show and there are enough cases 
 on record to warrant our basing an opinion upon them that the conta- 
 gium of whooping cough is found not alone in the matters expectorated, 
 notwithstanding the statement of Dolan and others that their experi- 
 ments failed to show its existence in the blood. 
 
 It must not be forgotten, in reference to cases which seem to have 
 arisen without any exposure to the specific poison, that the characteristic 
 whoop is not always present, and that consequently the true nature of 
 mild cases of the disease which may infect other individuals may have 
 been overlooked. Childhood probably acts as a predisposing cause, though 
 the disease occurs at all periods of life, and as it usually occurs but once 
 in the same individual, it is clear that the apparent diminution of sus- 
 ceptibility in later years may be largely due to the fact that most persons 
 have had the disease in child hood. More children are attacked from one 
 to five years, and the disease is more prevalent in summer and fall months. 
 Causes which, like exposure to inclement weather, give rise to irritation 
 of the bronchial mucous membrane, or diseases which, as measles, are 
 accompanied with catarrhal symptoms and susceptibility of the bronchial 
 mucous membrane, also may serve as predisposing causes. Sex appears 
 to exert some positive influence. Of 360 cases of pertussis by Dessau,* 
 the total number of males were 154, that of females 206. Girls are more 
 1 Colson, Lancet, July 2d. 2 N, Y. Jour, of Obst., 1881, xiv. 490-503.
 
 810 PERTUSSIS. 
 
 frequently attacked than boys, in proportion of 2 to 1.50; this seems true 
 at all ages ; this statement is substantiated by Unruh of Dresden, based 
 on an analysis of 1952 cases. 
 
 SYMPTOMS. The disease begins usually with an ordinary catarrh, pre- 
 ceded by malaise and slight laryngeal irritation, which may be overlooked; 
 in fact, during the first stage there is nothing to attract special attention, 
 unless a direct history of exposure be known and suspicion be aroused 
 on that account. Meigs and Pepper state that the earliest period at 
 which they have known the distinctive whoop of the disease was three 
 days, though in a great many instances it was delayed as late as three 
 weeks. The same authors state that the ordinary duration of a paroxysm 
 or kink is from one-fourth to three-fourths of a minute. They mention a 
 case where the paroxysm lasted fifty-five minutes. Ordinarily they num- 
 ber about thirty-five or forty during the twenty-four hours at the height 
 of the disease, differing greatly in individuals. Their number is most 
 frequent in the course of the third or fourth week, after which they 
 remain stationary, and then gradually decline. The paroxysms may 
 occur spontaneously, or they may follow some irritation, either direct or 
 reflex, or they may be induced by nervous excitement. Toward the end of 
 the attack, after the catarrhal irritation has greatly subsided, or in fact 
 has entirely disappeared, the paroxysmal kinks may be provoked by 
 irritation of the fauces, and also by nervous excitement ; and there is 
 no question but that at this time they can be controlled by will-power. 
 In many cases a distinct relapse occurs after the disease has been appar- 
 ently cured. 
 
 Dolan believes the phenomena of the cough or kinks to be due, as 
 suggested by Laenuec, to a " spasmodic condition of the muscular or con- 
 tractile fibres of the bronchi and their branches." He remarks that the 
 lungs are supplied from the anterior and posterior pulmonary plexuses, 
 formed chiefly of branches from the sympathetic and pneumogastrics. 
 The filaments from these accompany the bronchial tubes upon which they 
 are lost. Irritation of these nerves is said to have the effect of producing 
 contractions of the bronchial canals sufficient to expel a certain quantity 
 of air. If this theory is true, it helps us in explaining why the large, 
 mediate, and smaller bronchi are closed during the expiratory stage of 
 the paroxysmal cough of pertussis. The general opinion seems to be that 
 the pneumogastric nerve is not inflamed, as has been asserted by some. 
 
 The highly sensitive condition of the nervous system, which is probably 
 in a great measure intensified by the anaemia, and by the interference 
 with nutrition due to the disturbance of the circulation by the cough, 
 will show itself in many ways, and even when no secondary nervous affec- 
 tions complicate the attack or follow it. Some time will elapse after the 
 disease has passed away before the child will recover its self-control, or 
 its nutrition will show the influence of a healthy nervous system. 
 The total duration of the affection is said to vary from six weeks to three 
 months in ordinary cases ; though probably, if active treatment could be 
 instituted early enough and kept up with thoroughness, there is no spe- 
 cific disease more capable of being shortened in its course than the one 
 under consideration; this remains, however, for future statistics to 
 decide. 
 
 During the second stage of the disease the symptoms are sufficiently
 
 MORTALITY. 841 
 
 marked to attract attention and render a diagnosis easy to make. Fre- 
 quently the catarrh seems to extend to the bronchioles, and gives rise to 
 symptoms that are alarming; and the intensity of the paroxysm will 
 cause the engorgement of the blood-vessels to get relief in profuse hemor- 
 rhage; this is the period for caution. Complications may arise, the 
 strength may fail, the secretions may become too abundant, and asphyxia 
 may ensue ; emphysema may show itself, or catarrhal pneumonia may 
 gradually supervene. 
 
 The period of decline is very gradual ; the secretions become less in 
 quantity and more viscid, the paroxysmal cough is less frequent, but may 
 at times be equally severe, the child's strength is usually exhausted, and 
 its nutrition is greatly impaired. The expected paroxysm throws it into 
 a state of intense nervous excitement ; it is sleepless in fact, worn out. 
 Probably at this period of the disease treatment will show the most 
 marked results, and the long lists of sedatives, tonics, etc. which are pre- 
 sented to us by their zealous advocates owe much of their popularity to 
 their value at this stage of the disease. The catarrhal symptoms are the 
 first to subside ; the nervous disturbances remain for some time, and 
 gradually fade, and the constitutional symptoms, or those from exhaus- 
 tion, are the last to leave the patient. 
 
 Strange as it may seem, the heart appears to suffer but little in the 
 long run from the great strain upon it ; the palpitation and irregularity 
 of its actions are not followed by structural changes as a rule, though we 
 may state that feebleness of the circulation has remained in most of our 
 bad cases for some months after recovery. 
 
 As regards the ulceration of the frsenum linguse, which has given rise 
 to so much discussion as to its exact value as a symptom of this 
 disease, our own experience leads- us to believe that though it is nearly 
 always present in the severe cases, its almost invariable absence before 
 dentition and in milder cases shows it to be of traumatic origin. 
 Roger's exhaustive report before the French Academy supported this 
 view, and showed how clearly it is caused by the violent rubbing of the 
 frsenum on the free border of the incisors. On the other hand, Delthil 
 of Paris and Blake of England believe that it is a pathological feature 
 of the disease. The former reported cases in which it occurred before 
 dentition. The ulcer is not always found on the frsenum linguse, but is 
 found on either side of it. Bouffier noted severe cases of ulceration in 
 children who had no teeth, but he attributed it to the injury produced 
 by the mother in detaching the mucus with the finger. 
 
 Examinations of the urine have been carefully made by many observers. 
 The appearance of sugar, about which so much has been said, does not seem 
 to be constant, or even very frequent. Out of 50 cases, Dolan found traces 
 of it in but 13. This coincides with our experience also, for we have 
 frequently tested the urine in seven cases with negative results. Since, 
 as is well known, irritation of the pneumogastric centre may cause gly- 
 cosuria, it was at one time attempted to show that the paroxysms in 
 whooping cough were due to congestion of the pneumogastric nerves, a 
 condition which is said to have been occasionally found in this disease. 
 Dolan says he has never seen hemorrhage from the kidneys during the 
 course of whooping cough, nor blood in the urine. 
 
 MORTALITY. It is an extremely difficult matter to reach, with any
 
 842 PERTUSSIS. 
 
 degree of certainty, the true mortality of this affection. Meigs and 
 Pepper say : " Of the 208 cases observed by ourselves, 143 \vere simple, 
 all of which recovered;" and, again, "Some form of complication 
 occurred in the 65 of the 208 cases observed by ourselves ; of these 65, 
 12 died." The mortality seems greater under five years; thus: Of the 
 9008 deaths attributed to it in the United States during the census year 
 ending June 1, 1870, the number of persons under one year of age was 
 4424, and 8396 were under five years. There were 1784 deaths from it 
 recorded in Philadelphia from 1860 to 1876 ; of this number, 1724 were 
 under five years of age. The census of the United States for 1880 gives 
 a return of 11,102 deaths from this disease. 
 
 Females seem more liable to die of it than males ; of the 1 784 deaths 
 in this city, 766 were males and 1018 females. As we have already 
 seen, females are more liable to the disease than males. 
 
 Robt. J. Lee, M. D., 1 says that from the Registrar-General's report of 
 1876 it is seen that in a total mortality in England of 510,315, whooping 
 cough was returned as the cause of death in 1 0,554 cases, or nearly 2 per cent. 
 
 As for the time of year, we quote the following : " Thus, according to 
 the census statistics, most deaths occur in the spring, there being a rise up 
 to the middle of May. From the middle of May the number lessens 
 largely until August, when a rise occurs and continues until October, 
 when a decline sets in and continues until December, when a rise begins 
 and goes on increasing until the middle of May. This rise in mortality 
 from August to October is attributed to the wear and tear of a hot 
 summer and the intestinal troubles then so prevalent." 
 
 The mortality statistics of this disease are uncertain. It is fatal in its 
 complications or by inducing a debilitated condition which invites degener- 
 ative processes. The severity of the symptoms is no guide for prognosis 
 as far as uncomplicated cases are concerned, and there is no doubt but that 
 at present we are able to greatly reduce the mortality-rate by care and 
 medical treatment, as well as to shorten the attack. Sporadic cases are 
 apt to be neglected until they become complicated. When the disease 
 occurs in epidemic form, measles is often prevalent simultaneously, and 
 in consequence children who become affected by both diseases have a 
 greater tendency, from debility, to become the victims of those affections 
 of the respiratory organs which are such frequent and fatal complications 
 of both maladies. 
 
 Instead of surprise at the mortality of this affection, the marvel is 
 that so large a percentage of recoveries take place, when we consider 
 that we are dealing with a disease whose lesion is a catarrh of the 
 air-passages which seldom lasts less than two months, with a tend- 
 ency to involve the lungs in one way or another, and then witness 
 the carelessness with which, among the loAver classes, the child is 
 often treated exposed to all weathers, under-clothed, under-fed, and 
 probably allowed to pass through the whole attack without medical treat- 
 ment. Taking this into consideration, the probability is that the mor- 
 tality of this disease could be reduced to a very small figure by careful 
 management, even if the investigations of those now seeking the microbe 
 of pertussis do not lead to any plan, in accordance with Pasteur's teach- 
 ings, which will still further lessen the gravity of the disease. Until 
 1 In a paper in the British Med. Jour., 1879, vol. i. p. 307.
 
 MORBID ANATOMY. PROPHYLAXIS. 843 
 
 then, we can but insist upon a rigid quarantine of schools, a registration 
 of all cases, and the seclusion of them, as we have done to-day in the 
 the case of variola and scarlatina. 
 
 MOEBID ANATOMY. Although whooping cough is a serious dis- 
 ease, the cause of death is generally found to be dependent upon its 
 complications, and there is no lesion at all characteristic of it. The chief 
 complications and sequelse are bronchitis, which may become capillary ; 
 lobular collapse, which, according to Alderson, 1 is frequently found ; em- 
 physema, usually marginal, probably due, as suggested by Jenner, to violent 
 expiratory exertions; rupture of air-vesicles, with subcutaneous emphy- 
 sema; catarrhal pneumonia, pleurisy, phthisis, acute tuberculosis, croup, cer- 
 ebral apoplexy, meningitis, etc. As any of these complications, and others 
 which may arise from debility, may be the cause of death, independent of 
 the action of the specific poison itself, it is usual to divide the post- 
 mortem appearances into those that are the result of the extension of the 
 catarrh itself and those produced by the interference with the circulation 
 and with nutrition from mechanical violence. Of the former, the usual 
 causes of death are pneumonia, gastritis and enteritis. Of the latter, 
 we have thrombosis of the cerebral sinuses, hemorrhages, emphysema, 
 and exhaustion following constant vomiting. 
 
 Tubercular disease of the lungs or of the brain is apt to be a cause of 
 death. Convulsions carried oft' 5 of the 12 fatal cases reported out of 
 208 by Meigs and Pepper. This may be due to congestion of the brain, 
 especially in teething children. Spasm of the glottis with sudden death 
 is occasionally found. In such cases there is found intense congestion of 
 the brain, also of the liver and kidneys, and at times of the mucous 
 membrane of the stomach and intestines, as well as of that of the 
 respiratory tract. 
 
 In all cases, especially at the teething age, sudden death may occur 
 because effusion into the ventricles of the brain or the formation of 
 heart-clot has taken place. It is important to know this, that active 
 treatment applied early enough may save the patient. 
 
 PROPHYLAXIS. Should the interesting and seemingly conclusive state- 
 ments of Dolan and the microscopic investigations of Carl Bruger 2 
 receive the endorsement of future workers, the subject of prophylaxis 
 will assume a degree of importance which hitherto it has only maintained 
 with the medical profession. No one has doubted that the disease was 
 contagious, and yet there is no affection which has attached to it a corre- 
 sponding fatality that is so carelessly dealt with as pertussis. 
 
 Within the past few days we have heard on two occasions in crowded 
 railway-cars the characteristic paroxysm of the third stage of the disease, 
 and yet people will endeavor to convince themselves that unless contact 
 with the child takes place the danger is little. 
 
 1 Medico-Chir. Trans., pp. 90, 91, 1830. 
 
 2 Bruger of Bonn, in the Berliner klinische Wochen., describes at length the special 
 micro-organisms of pertussis. They appear as small elongated elliptical bodies of unequal 
 length, the smallest being double "as long as broad. High powers show subdivisions in 
 the largest specimens. They are generally isolated, but may appear in groups. They 
 bear some resemblance to Leptothrix buccalis, the spores of which are often found in whoop- 
 ing-cough sputa. Occasionally the bacillus is seen inside the mucous corpuscle in the 
 sputum. They stain in the usual way, fuschin and methyl violet. This^ bacillus is 
 not found in any other kind of sputum, is very abundant in pertussis, and increases in 
 direct proportion to the severity of the disease.
 
 844 PERTUSSIS. 
 
 The atmosphere in school-rooms, railway-cars, and places of amuse- 
 ment which are badly ventilated, is an excellent medium for the propaga- 
 tion of the contagious matter, and many extraordinary cases are on record 
 of momentary exposure being sufficient to contract the disease. Believ- 
 ing that the contagium or virus resides in the mucus and air thrown off by 
 the child, and also in the vomited matters, which contain a large amount 
 of ropy mucus, and also that it gains entrance by means of the respiratory 
 organs, protection from contagion divides itself as follows : thorough 
 disinfection of the exhaled air, of the mucus remaining within the bron- 
 chial tubes and air-passages, and of the clothing, together with exposure 
 to fresh air and thorough cleansing of all furniture and household utensils, 
 including cups, silverware, and toys, used by the child. Oxygen is said to 
 have this effect, and thorough, constant ventilation, with the breathing of 
 fresh air by the child, the thorough washing of its surface, and disinfection 
 of its clothing, are the first indications ; while the impregnation of the 
 atmosphere with the spray of well-known germicides by means of the 
 steam or other atomizer and the frequent inhalation of such materials 
 by the patient are no less important. Every case of whooping cough 
 should be compelled to use two or three times daily the spray impreg- 
 nated with a substance of this sort, either carbolic acid, the oil of 
 eucalyptus, a solution of quinia, or thymol. Chlorine (from chloride 
 of lime) used thus has of late been followed by excellent results, and 
 the spray of a solution of corrosive sublimate or of ammonium chlo- 
 ride has been found very useful. The protective treatment should 
 be applied to those exposed to contagion. Such children should be 
 guarded from exposure to colds; their diet should be simple and nour- 
 ishing, their clothing warm; they should be kept as much as possible in 
 the open air. The breathing of air impregnated with such substances as 
 above mentioned will no doubt act upon the virus before it comes in con- 
 tact with the mucous membranes so as to be absorbed, and probably the 
 severity of the attack might be mitigated by modifying the germ of the 
 disease. 
 
 TREATMENT. As can be readily imagined, a disease which is so uni- 
 versal, so distressing, and at the same time so ob'scure in its pathology, as 
 the one under consideration, would have in its literature a mass of rec- 
 ommendations for treatment from zealous advocates, based upon theory 
 or experience, as numerous as the authors themselves. It would be 
 impossible for us to dwell at length upon all of these, but we will 
 confine ourselves especially to the consideration of a few of the most 
 important, It will be convenient to consider first those remedies which 
 have been used with the view of relieving the congestion and irritability 
 of the respiratory mucous membrane and of promoting more free secre- 
 tion. It will also be observed that many of these remedies may now be 
 regarded as of value for destroying the special germ which is thought to 
 be the essential cause and real virus of pertussis. Allusion has been 
 made above to the importance of inhalations as a prophylactic for those 
 who have been exposed to the contagion, as well as for the purpose of 
 rendering the secretions less contagious; and so too we find that the 
 inhalation of various substances has received favor with many as a 
 method of treatment. Thus, hyoscyamus, belladonna, ammonium bro- 
 mide have been used. Helenke and Serbaud say that bromide of potas-
 
 TREATMENT. 845 
 
 slum is best for inhalation. Letzerich recommended the insufflation of 
 quinia twice daily, using the quiuia muriate with potassium bicarbonate 
 and gum-arabic. Forchheimer 1 reports 97 cases of whooping cough 
 treated by the insufflation of the quiuia muriate ; of the 97 cases, 52 were 
 females, 45 males the youngest three weeks, the oldest nine years old. 
 Five cases gave no results, while in the others benefit was shown by a 
 shortening or amelioration of the disease. The vapor of benzole has been 
 used with good results. The vapor of carbolic acid lias of late been highly 
 recommended, either administered with the atomizer several times daily, 
 or used by saturating flannels in carbolic acid solution and placed around 
 the child's bed at night. It is said that the inhalation of the vapor of a 
 few drops of carbolic acid on some hot coals will ensure a night of free- 
 dom from violent coughing. Probaby in this way we may account for 
 the belief that proximity to gas-works is beneficial to a child with this 
 disease. As is well known, Niemeyer and others in the north of Ger- 
 many believed in the value of the inhalation of oxygen, and the experi- 
 ence of every one who has had much to do with this disease favors an 
 out-door life. We may here also mention the value of a small quantity 
 of chloroform or ether, by inhalation, in allaying the severity of the par- 
 oxysms of cough. We have also tried the nitrate of amyl, but without 
 marked result. 
 
 Others have recommended the use of solutions of various substances, 
 applied directly by a brush to the interior of the larynx. Quinia has 
 been used in this way also by Hagenbach; but the most satisfactory 
 results have been obtained by the application of very weak solutions 
 of nitrate of silver, as first recommended by Watson in 1849. 
 
 After the secretions have been fully established and the characteristic 
 whoop has appeared, the indications in the treatment are to relieve the res- 
 piratory tract of its burden by occasional emesis with alum or ipecacuanha, 
 to give freely anti spasm odics and sedatives, as belladonna, chloral, the bro- 
 mides, hydrobromic acid, or, as recommended by some, digitalis ; to give 
 quiuia freely, and to use counter-irritants to the neck and chest with 
 liniments composed of oil of amber, croton oil, or turpentine. 
 
 The value of emetics has been long recognized in this affection, although 
 we are told by Vogel that the continuous use of emetics in the early stage 
 for several days causes harm. Copeland ordered an emetic every third day 
 in ordinary cases. All writers agree that the milder emetics should be used 
 by preference ; that tartar emetic should be avoided, except as an external 
 application where a counter-irritant is desired ; and that ipecacuanha is the 
 safest, though alum is also safe and as an astringent useful. Trousseau 
 preferred the sulphate of copper. In the earlier stages of the disease emetics 
 are not, as a rule, indicated ; it is only when the secretion has become ex- 
 tremely tenacious, and the paroxysms so frequent and severe as to greatly 
 strain the patient and endanger his lungs, that they are of value. There 
 seems to be a close connection between the amount and tenacity of the secre- 
 tion and the severity of the paroxysm. The potassium carbonate has been 
 recommended as an active agent in the amelioration of this affection ; it 
 is probably valuable in rendering the secretion less tenacious. Alum 
 has been used with success, as has tannin, probably owing to their local 
 action on the mucous membrane. Macartan 2 says that in the East 
 
 1 New York Jour. Obsiet., 1882. 2 Dictionnaire des Sciences Med., 1813, vol. vi.
 
 846 PERTUSSIS. 
 
 Indies the disease is treated in the first stages by astringent and tonic 
 gargles. 
 
 Belladonna certainly receives the endorsement of the greatest num- 
 ber of writers. Vogel considers it superior to all other drugs, and 
 regards dilatation of the pupil as the only sure guide in its administra- 
 tion. He says it does not cut short the attack, but mitigates the parox- 
 ysm. Trousseau was also an advocate of this form of treatment. When 
 combined with alum l it is considered by Meigs and Pepper to be one of 
 the most valuable drugs recommended. They also advise the use of 
 potassium carbonate. Seiner trusted belladonna more than any other 
 remedy ; so also Kllliet and Barthez. William Lee, in an interesting 
 paper in the New York Medical Journal, 1883, advocates the use of 
 atropia hypodermically ; he believes that atropia chiefly acts in these 
 cases on the laryngeal branches of the pneumogastric nerves, and that it 
 is probable that it has a decided effect also on the medulla oblongata 
 itself, and renders it less capable of exciting reflex action. Kroon's 
 experiments led him to conclude that the valerianate of atropia was the 
 most useful. Evans 2 gave the y^j- of a grain of atropia to a child aged 
 three years until the pupils were dilated, then reduced the dose ; this 
 stopped the paroxysm in twenty-one days. At the commencement of 
 the treatment the child had twenty-three paroxysms in the day, and 
 twenty-seven at night. Case No. 2 under same circumstances recovered 
 in fourteen days. In case No. 3 the paroxysms were reduced from 
 twenty-six to two or three a day. Arthur Wiglesworth 3 used a solu- 
 tion of sulphate of atropia, administered in the morning fasting ; the 
 dose he advises for children from one to four years is gr. y^, given only 
 once a day except in some cases. The results are as follows : There is a 
 steady diminution in the number of paroxysms ; a change in the character 
 of the whoop as if the vocal cords were not so closely approximated. If 
 atropia is withheld, the beneficent effect derived from it subsides. 
 
 West advises dilute hydrocyanic acid, and many writers agree with 
 him, ranking it next to belladonna. 
 
 Harley and others are strong advocates for the bromide of ammonium; 
 it is supposed to have a local anaesthetic action on the pharyngeal and 
 laryngeal mucous membrane. Fordyce Grinnell 4 during four months 
 treated 223 cases with this remedy, and highly recommends it. The 
 doses were in accordance with those of Dr. Konnann f to 4 grains, as 
 indicated by age, three or four times a day and at night when the parox- 
 ysms were severe. No other treatment was used in these 223 cases, except 
 camphorated oil to the throat and chest in some cases. Potassium bro- 
 mide has been recommended by Helenke, Beaufort, Erlenmeyer, and 
 others. Henry Field 5 recommends sodium bromide. 
 
 Probably next to belladonna in the treatment of this disease we 
 should place chloral hydrate. 
 
 Hebner, after an elaborate study of the relative value of potassium 
 bromide, quinia, salicylic acid, chloral, and belladonna, says: "Sali- 
 cylic acid and chloral tend to relieve the paroxysms belladonna and 
 quinia to shorten the disease." Kennedy 6 writes: "I cannot doubt 
 
 1 Golding Bird, Guy's Hosp. Rep., April, 1845. J Glasgow Med. Jour., 1880. 
 
 s Lancet, April 12, 1879. Med. News, 1882. 6 Brit. Med. Jour. 
 
 Dublin Jour. M. S., 1881.
 
 TREATMENT. 847 
 
 its specific effects on the cough. Chloral seems to me to yield the best 
 and most constant results. The advantage of chloral hydrate seems to 
 exist in producing sleep ; it should be given in from 2- to 5-gr. doses, 
 at night." If there is much irritability or fretfulness, or any premonition 
 of eclampsia, it should be associated with potassium bromide. 
 
 Croton chloral has received much praise from those who have used it ; 
 we have had 110 experience with it. 
 
 We have already alluded to the value of quinia, which has been used 
 largely in this disease, both internally and as a local application. Orig- 
 inally recommended in the latter manner on account of its power of 
 controlling the development of low organisms, it has not proved so satis- 
 factory or valuable as when given internally. Binz in 1870 was perhaps 
 the first to recommend quinia given frequently and in solution, and 
 Dawson in 1873 l reports excellent results from the sulphate or muriate 
 of quinia given in full and frequent doses, and in such solutions as will 
 not prevent its acting on the mucous membrane in its passage through 
 the pharynx. Breidenbach 2 gives the quinia muriate in larger doses 
 one and a half to fifteen and a half grains per diem. The effects were 
 surprising as soon as the proper dose for each person had been deter- 
 mined ; this, he says, is the keynote of success. To prevent complications 
 he continued it for a long time in small doses. 
 
 Our own experience favors the view that quinia, when given in solu- 
 tion or suspended in mixture, is valuable in many cases of this disease ; 
 it can be ordered in powder, and given in a spoonful of simple syrup 
 or of the preparation known as the syrup of yerba santa, which makes an 
 excellent vehicle. Liquorice also disguises the taste of quinia admirably 
 for children. 
 
 Albrecht 3 has found from an experience of ten cases of whooping 
 cough in children between the ages of one and a half and nine years, all 
 of a marked scrofulous type, much benefit from the muriate of pilocarpine, 
 given in small doses after every fit of coughing. To prevent collapse, he 
 advises that it should be given in a mixture containing a little brandy. 
 After twenty-four hours of its administration an obvious change for the 
 better takes place in the appearance of the mucous membrane of the 
 throat, velum palati, and uvula, which becomes paler, less swollen, and 
 more moist; laryngoscopic examination shows a similar improvement. 
 During the catarrhal period cold compresses to the neck and sweetened 
 milk containing potassium chlorate are used instead of the pilocarpine, 
 which is to be resumed as soon as a whoop recurs. 
 
 Dr. Tordeus, of the Hospice des Enfants Assisted, Brussels, states 
 that he has found the sodium benzoate useful in whooping cough, 
 diminishing the frequency and violence of the paroxysms, and by its 
 action on the pulmonary mucous membrane preventing those pulmonary 
 complications which so frequently supervene and constitute the danger of 
 the disease. 
 
 Sulphur has been largely used by the Germans in two- or three-grain 
 doses, and is said to be greatly esteemed by them. Cautharides has been 
 recommended, and it is stated that when strangury is produced the 
 whoop will cease ; we should consider this rather severe treatment. The 
 
 1 Am. Jour. Obstetrics. * Practitioner, Feb., 1871. 
 
 8 London Med. Rec., March 15, 1882, p. 110.
 
 848 PERTUSSIS. 
 
 fluid extract of castanea is used by many with undoubtedly good results, 
 though this also has been somewhat of a disappointment in the way of 
 treatment, as at one time it was looked upon almost as a specific. Many 
 claim that an infusion of the fresh leaves gives a better result. Dewar l 
 regards ergot with great favor in the treatment of pertussis. Certainly in 
 those cases where, from violent straining, hemorrhages have taken place we 
 have found it to be highly valuable. We have had no experience with 
 it in the treatment of ordinary cases, though Dewar claims that it shortens 
 the attack. The ammonium picrate, and recently resorcine, have been used 
 with success. 
 
 Counter-irritation to the neck and chest has always been found 
 useful in the treatment of this disease. Autenreith 2 recommends tartar 
 emetic to the epigastrium till vesicles appear and even ulcerate. Milder 
 forms of counter-irritation over the chest seem equally efficacious if con- 
 tinued for some time. The oil of amber, when used in liniment with 
 camphor or turpentine, is by some considered almost a specific. Great 
 care should also be observed in the dress of children with whooping 
 cough. Warmth about the chest is always indicated, while there should 
 be nothing close or tight about the throat allowed. 
 
 In the third stage, when there is the nervous element remaining, 
 tonics, such as cod-liver oil, iron, the phosphates and hypophosphites, 
 are required. 
 
 The diet should be nutritious, easy of digestion, and abundant, and the 
 bowels should be kept regular by fruits or laxatives. Over-feeding 
 should of course always be avoided, and the attempt at weaning a 
 babe with this disease would certainly meet with unfavorable results. 
 
 Bicarbonate of soda or lime-water should be given freely with the milk 
 taken by children with this disease. Milk certainly should form the 
 basis of the diet of children with pertussis, and reliable meat-extracts are 
 to be recommended in this disease even for older children, who from the 
 severity of the attack would vomit more solid food. If the vomiting be 
 so severe as to affect nutrition, the child should be sustained by pepton- 
 ized milk, soup, or gruel, given by the bowel. 
 
 The importance of a proper regulation of the temperature of the air 
 which the patient breathes is especially recognized in France. If the 
 attack occurs in mid-winter and the seashore be inaccessible or inexpe- 
 dient, the child should be restricted to a well-ventilated nursery or suite 
 of rooms, the temperature of which should be kept uniform. 
 
 Salt air is recognized to be of great value in advanced cases of this 
 disease ; this has been attributed partly to the effects of stimulation of 
 the mucous membrane in rendering less viscid and more copious the bron- 
 chial secretions, and also to the balmy softness and great purity of the 
 atmosphere at the sea-shore. But probably there is another element in 
 the local action of the chloride of sodium, either in establishing a resist- 
 ance on the part of the patient or in modifying the germ of the disease. 
 
 The most serious complication of whooping cough is pneumonia. It 
 occasionally happens that an attack of croupous pneumonia may develop 
 during the course of whooping cough, but in the vast majority of cases 
 the disease is of the catarrhal type. When, indeed, it is remembered that 
 a bronchial catarrh, which is the invariable precursor or accompaniment 
 
 1 The Practitioner, London, May, 1882. 2 Diet, des Sciences Med., 1813.
 
 TREATMENT. 849 
 
 of catarrhal pneumonia, is a constant factor in whooping cough, and, 
 further, that all conditions of debility, and especially of enfeebled or 
 embarrassed respiration, dispose to this form of pneumonia, it is not sur- 
 prising that this complication should be of such frequent occurrence. It 
 is not impossible that in aiming at securing sufficient fresh air and out-door 
 exercise to maintain the general health, an injudicious degree of exposure 
 may be permitted which will aggravate the existing bronchitis and induce 
 an extension of inflammation to the alveoli. But usually the catarrhal 
 pneumonia develops in a subacute and more or less insidious manner, and 
 without being traceable to any such exposure. It may happen occasion- 
 ally that in the violent inspiratory efforts at the close of the paroxysms 
 irritating secretions may be sucked from the bronchioles into the alveoli, 
 and there excite inflammation. Or, again, it doubtless happens frequently 
 that, with the existence of swelling of the bronchial mucous membrane 
 and of viscid secretions in the bronchial tubes, collapse of portions of 
 lung tissue is developed by the forcible expulsion of air during the par- 
 oxysms of cough, which cannot be replaced owing to the relative weak- 
 ness of inspiration and to the ball-valve action of the plugs of mucus in 
 the obstructed bronchioles. The intimate relation between pulmonary 
 collapse and catarrhal pneumonia is familiarly known. It is not to be 
 considered that the mere occurrence of collapse will induce pneumoaia in 
 the areas affected, but certainly it will aid in rendering effective the other 
 irritating causes. As a consequence, it usually happens that when 
 catarrhal pneumonia occurs in whooping cough it is associated with 
 more or less collapse. When, then, especially in children of debilitated 
 or rachitic constitution, or in those who are subjected to unfavorable 
 hygienic influences, such as overcrowding, bad air, and the like, there is 
 a rather gradual development of dyspnoea, with increasing debility, ema- 
 ciation, and evidences of impaired oxygenation of the blood, it is to be 
 feared that this serious complication has developed. The physical signs 
 are often difficult of interpretation, but if careful examination of the 
 chest be conducted, together with thermometric observations, the ap- 
 proach of this danger or its actual presence may be detected. The result 
 is fatal in a large proportion of cases, so that suitable treatment for the 
 details of which reference is made to the appropriate section must be 
 instituted without delay. 
 
 Our investigations of this disease have led us to the conclusion that we 
 have to deal with an affection caused by a specific germ, which is usually, 
 after a period of incubation, made manifest by a catarrh of a portion of 
 the air-passages ; that this catarrh, existing for an indefinite period, is 
 capable of being influenced by medication, applied either by means of 
 inhalation or by acting on the mucous membrane after absorption by the 
 stomach. In this way we have known the administration of quinia and 
 of alum diminish the number of paroxysms, to all appearance check- 
 ing the excessive secretion to a marvellous extent. The other element 
 of the disease, the neurosis, which soon follows the initial catarrh, and 
 seems to last for an indefinite time after the mucous membrane has 
 regained its normal appearance, is also capable of being controlled by the 
 use of drugs, especially belladonna, chloral, the bromides, and hydrocyanic 
 acid, not to speak of the other antispasmodics and sedatives, and by the 
 
 VOL. I. 54
 
 850 PERTUSSIS. 
 
 analgesic effect of carbonic acid gas, or by the spray of bromide of 
 ammonium, . carbolic acid, and other substances upon the larynx. 
 
 Vogel tells us in his classical work on children, " If now, as a resume", 
 I would give an explanation of my views, it would go to show that there 
 never has been, and most probably never will be, a remedy by which 
 whooping cough may be abridged, any more than we are able to cut short 
 the acute exanthemata or typhus fever or pneumonia." And yet the 
 experience of many whom we have quoted in this article tends to support 
 the view that by a form of treatment calculated to act on the two 
 elements of the disease which we have just noted, the affection can be 
 greatly modified in its intensity, and probably the attack be somewhat 
 shortened. Certain it is that the recent studies of this disease give us 
 hope that the day is not far distant when the cause, whatever it is, will be 
 definitely known, and if it is found to reside in the secretions from the 
 larynx, that treatment by inhalation or atomization will modify or destroy 
 it, and prevent its dissemination.
 
 INFLUENZA. 
 
 BY JAMES C. WILSON, M. D, 
 
 DEFINITION. A continued fever, occurring in widely-extended epidem- 
 ics, and due to a specific cause ; it is characterized by early catarrh of the 
 mucous membrane of the respiratory tract, and in many cases also of the 
 digestive tract ; by quickly oncoming debility out of proportion to the inten- 
 sity of the fever and the catarrhal processes ; and by nervous symptoms. 
 There is a strong tendency to inflammatory complications, especially of 
 the lungs. Uncomplicated cases are rarely fatal except in feeble and 
 aged persons. An attack does not confer immunity from the disease in 
 future epidemics. 
 
 SYNONYMS. Febris catarrhalis ; Defluxio catarrhalis epidemicus ; 
 Catarrhus a contagio ; Rheuma epidemicum ; Cephalalgia contagiosa ; 
 Epidemic catarrhal fever; Tac; Horion; Quinte; Coqueluche; Ladendo, 
 also written La Dando ; Baraquette ; G6uerale ; Coquette ; Cocotte ; 
 Allure ; Follette ; Petite poste ; Petit courier ; Grenade ; La Grippe ; 
 Ziep ; Schaff husten and Schaff krankheit ; Huhner-Weh ; Blitz-Katarrh ; 
 Modefieber ; Mai del Castrone. There are also several names indicating 
 its supposed origin ; thus it has been called in Russia, Chinese catarrh ; 
 in Germany and Italy, the Russian disease; in France, Italian fever, 
 Spanish catarrh, and so forth. 
 
 It is a remarkable fact that in two instances at least the popular name 
 for the disease under consideration has found its way widely into medicine 
 and medical literature, almost to the exclusion of the studied terms .by 
 which science has sought to designate it; these are influenza and la 
 grippe. 
 
 Such obsolete and now meaningless terms as Peripneumonia notha 
 (Sydeuham, Boerhaave), Peripneumonia catarrhalis (Huxham), Pleuritis 
 humida (Stoll), have been omitted from this list of synonyms as being 
 of interest rather to the student of medical history than to the student 
 of medicine. 
 
 Febris catarrhalis, Defluxio catarrhalis epidemicus, Rheuma epidemicus 
 are terms which no longer retain the place given them in the literature of 
 influenza by the older medical authorities. 
 
 Catarrhis a contagio (Cullen) and Cephalalgia contagiosa are derived 
 from a view of the nature of the disease, which has been the cause of no 
 little controversy. 
 
 Epidemic catarrhal fever is, with its Latin equivalent, the most satis- 
 factory of the so-called scientific names by which the disease is at present 
 known. 
 
 In the popular names for the affection there is to be noted an indica- 
 
 851
 
 852 INFLUENZA. 
 
 tioii of the national character of some of the peoples who have suffered 
 from its frequent visitations. 
 
 Among the English it is known as cold or epidemic cold, or, in defer- 
 ence to medical authority, as catarrh or epidemic catarrh ; and at present, 
 both among the folk and the doctors, as influenza. Englishmen are 
 neither quick to see in the disease a resemblance to some common cir- 
 cumstance or thing, nor are they disposed to make a joke about it. 
 
 The Germans find obvious resemblances. In the labored respiration 
 and the character of the cough they find a suggestion of a common epi- 
 zootic affecting the sheep, hence Schaffhusten and Shaff krankheit ; or, 
 because the cough is like the crowing of a cock and the disturbance of 
 respiration and rapid prostration suggest some resemblance to a common 
 disease of the domestic fowl, it has been called Hulmer-AYeh (chicken 
 disease, whooping cough), and Ziep, which is about equivalent to pip. 
 They call it also, from its rapid invasion, Blitz-Katarrh, and from its 
 diffusion, Modefiebcr. 
 
 The French are disposed to make a jest of everything, and the more 
 serious the subject the better the joke. Hence they have found a new 
 name for almost every great epidemic, and each more trivial than the 
 last. Thus, tac (rot); horiou (in jest, a blow); qtiinte, because the spells 
 occur at intervals of five hours (sic) ; coqueluche (a hood or cowl), from 
 the cap worn by those suffering from the malady ; and so on through the 
 long list given above. 
 
 La grippe is said to be derived from the Polish Chrypka (Rauceclo) ; it 
 may, however, be derived from agripper (to seize). 
 
 Influenza is of Italian derivation. It is said that the disease received 
 this name because it was attributed to the influence of the stars, or from 
 a secondary signification of the word indicating something fluid, transient, 
 or fashionable. 
 
 HISTORICAL SKETCH. 1 Epidemics of influenza have been clearly 
 recorded only since the beginning of the sixteenth century. There are 
 numerous accounts of earlier epidemic diseases resembling it, but they 
 are not sufficiently particular to warrant us in inferring its undoubted 
 existence. It is supposed to be referred to in the writings of Hippocrates, 
 who, however, gives no exact description. 2 An outbreak in the Athenian 
 army in Sicily (415 B.C.), recorded by Diodorus Siculus, has been supposed 
 to have been influenza. Despite these statements, and those of others to 
 the effect that it is a disease known from a remote antiquity, it may be 
 said that no accounts can be confidently established, as referring to the 
 to the disease now known as influenza, in the writings of classical 
 antiquity.* 
 
 As early as the ninth century several epidemics of catarrhal fever, Italian 
 fever, and the like, which were probably influenza, were made matter of his- 
 tory. In the year A. ix 827 a cough which spread like the plague was re- 
 corded. In 876 there appeared in Italy a similar epidemic, which spread 
 with great rapidity over all Europe. It is related that dogs and birds suf- 
 fered with symptoms not unlike those characterizing the affection in man. 
 In 97G, Germany and all France suffered from a fever of which the chief 
 
 1 See also The CmUinued Fevers, by the author of this paper, New York, 1881. 
 
 1 Parkes, Reynold Vs System of Medicine, vol. i., 1868. 
 
 8 Zuelzer, Ziemasen's Cyclopaedia of Medicine, vol. ii., 1875.
 
 HISTORICAL SKETCH. 853 
 
 symptom was cough. No further epidemic is noted until two centuries 
 later, when, in 1173, a widespread malady, of which the symptoms were 
 chiefly catarrhal, raged throughout Europe; while less important epi- 
 demics of a like character are recorded as having occurred during the 
 following century (1239-99). 
 
 In the medical writings of the fourteenth century there are to be 
 found records of six epidemics, and in the fifteenth seven great visita- 
 tions of influenza are described (Parkes). 
 
 Aitkeu l speaks of a very fatal prevalence of influenza throughout France 
 in 1311, and of an epidemic in 1403 in which the mortality was so great 
 that the courts of law in Paris were closed in consequence of the deaths. 
 
 Influenza is mentioned in the Annals of the Four Masters as having 
 prevailed in Ireland in the fourteenth century, and a disease characterized 
 by similar symptoms is alluded to in early Gaelic manuscripts under the 
 name of Creatan (crcat, the chest). The disease is described also in an 
 Irish manuscript of the fifteenth century under the terms Fuacht and 
 Slaodan. 2 
 
 The earliest epidemic that prevailed in the British Isles of which any 
 accurate description remains is that of the year 1510. The disease came 
 from Malta, and invaded first Sicily, then Italy and Spain and Portugal, 
 whence it crossed the Alps into Hungary and Germany as far as the 
 Baltic Sea, extending westward into France and Britain. Its track 
 widened over the whole of Europe from the south-east to the extreme 
 north-west, and it is said that not a single family and scarce a person 
 escaped it. It was attended by a " grievous pain in the head, heaviness, 
 difficulty of breathing, hoarseness, loss of strength and appetite, restless- 
 ness, retchings from a terrible tearing cough. Presently succeeded a 
 chilliness, and so violent a cough that many were in danger of suffocation. 
 The first day it was without spitting, but about the seventh or eighth 
 day much viscid phlegm was spit up. Others (though fewer) spat only 
 water and froth. When they began to spit, cough and shortness of 
 breath were easier. None died except some children. In some it went 
 off with a looseness, in. others by sweating. Bleeding and purging did 
 hurt." 3 Blisters were commonly employed two each upon the arms 
 and legs, and one to the back of the head. The description is sufficiently 
 clear to place the nature of this epidemic beyond all doubt. 
 
 The epidemic of 1557, starting westward from Asia, spread over 
 Europe, and then crossed the Atlantic to America. The malady broke 
 out in England, after a season of unusual rain and great scarcity of 
 corn, in the mouth of September. "Presently after were many catarrhs, 
 quickly followed by a more severe cough, pain of the side, difficulty of 
 breathing, and a fever. The pain was neither violent nor pricking, but 
 mild. The third day they expectorated freely. The sixth, seventh, or 
 at the farthest the eighth' day, all who had that pain of the side died, 
 but such as were blooded on the first or second day recovered on the 
 fourth or fifth; but bleeding on the last two days did no service." 
 " Some, but very few, had continual fevers along with it ; many had 
 
 1 Aitken's Practice of Medicine, vol. i., 1872. 
 
 2 Theophilus Thompson, Annals of Influenza, 1852. 
 
 3 Thomas Short, A General Chronological History of the Air, Weather, Meteors, etc., Lon- 
 don, 1749 ; quoted in the Annals of Influenza.
 
 854 INFLUENZA. 
 
 double tertians; others simply slight intermittent. All were worse by 
 night than by day ; such as recovered were long valetudinary, had a 
 weak stomach, and hypped." Gravid women either aborted or died. 
 This epidemic spread with frightful rapidity. Thousands were attacked 
 at the same time. The entire population of Nismes, with scarcely an 
 exception, fell ill of it upon the same day. It was extremely fatal. In 
 Mantua Carpentaria, a small town near Madrid, it broke out in August, 
 and so fatal were the bloodletting and purging which constituted the 
 treatment at first, that, of the two thousand persons who were bled, 
 all died. The disease raged in some parts till the middle of the follow- 
 ing year (1558), and carried off, in Delft alone, five thousand of the 
 poor. In all cases mild treatment was called for, with warm broths and 
 speedy immersals, " to recall the appetite and keep the vessels of the 
 throat open." 
 
 In 1580 a great epidemic of influenza spread from the south-east 
 toward the north-west over Asia, Africa, and Europe. From Constan- 
 tinople and Venice it overran Hungary and Germany, and reached the 
 farthest regions of Norway, Sweden, and Russia. It spread into England, 
 and has been described by Dr. Short. In Italy it prevailed during 
 August and September, in England from the middle of August to the 
 end of September, and in Spain during the whole summer. In most 
 places its duration was about six weeks. As a rule, the termination was 
 favorable, although the disease ran a somewhat protracted course. In the 
 account of Dr. Short it is stated that " few died except those that were let 
 blood of or had unsound viscera." In some places, on the contrary, the 
 course of the disease was very severe. In Rome two thousand died of it, 
 according to the author just cited, but Zuelzer informs us that the victims 
 of this epidemic in the Eternal City were not less than nine thousand, and 
 adds that Madrid must have been almost depopulated by it. This high 
 mortality has been attributed to the bloodletting practised in the treat- 
 ment of the disease. The symptoms were similar to those of the previous 
 epidemics, with a greater shortness of breath, which continued in many 
 cases for some time after the disappearance of the catarrhal trouble. 
 There was great sweating at the end of the attack. The plague, measles, 
 and small-pox prevailed also, and with considerable violence, during the 
 year 1580. 
 
 Influenza, unfelt for several years, reappeared in Germany in 1591; 
 an epidemic extending from Holland through France and into Italy 
 occurred in 1593. In 1610 catarrh is said to have prevailed throughout 
 Europe. In 1626-27 epidemic catarrhal fever made its appearance in 
 Italy and France; in 1642-43 in Holland; in 1647 in Spain and in the 
 colonies of the Western World ; and again, in 1655 in North America. 
 According to Webster, 1 this epidemic of 1647 was the first catarrh men- 
 tioned in American annals. 
 
 In 1658 and 1675 it again visited Austria, Germany, England, etc. 
 The first of these two epidemics is described by Willis, 2 and the second 
 by Sydeuham, 3 as they occurred in England, and the accounts are to be 
 
 1 Noah Webster, A Brief History of Epidemic and Pestilential Diseases, London, 1800. 
 
 2 Dr. Willis, The Description of a Catarrhal Fever Epidemical in the Middle of the Spring 
 in the Year 1658: Practice of Physick, 1684. 
 
 3 The Epidemic Couyhs of the Year 1675, with the Pleurisy and Peripneumony that super- 
 vened: from the Works of Thomas Sydenham, M. D.
 
 HISTORICAL SKETCH. 855 
 
 found in the Annals o/ Influenza. It is about this period that the disease 
 began to be known as influenza, and it is not without interest to observe 
 that the influence of the stars suggested itself, in connection with its 
 sudden appearance and wide prevalence, to the minds of the physicians 
 of this date. Willis writes that "about the end of April (1658), sud- 
 denly a distemper arose, as if sent by some blast of the stars, which laid 
 hold on very many together ; that in some towns in the space of a week 
 above a thousand people fell sick together." 
 
 Epidemics are recorded as having occurred in Great Britain and 
 Europe in 1688, 1693, and in 1709. The disease raged in 1712 widely 
 over Europe from Denmark to Italy. 
 
 In 172930 a widespread epidemic swept over Europe. In five 
 mouths it extended over Russia, Poland, Germany, Sweden, and Den- 
 mark. In Vienna sixty thousand persons fell ill of it. In the autumn 
 it spread to England, and reached France and Switzerland ; from there 
 it extended to Italy, and by February it had reached Rome and Naples. 
 Spain did not escape its ravages, and it is said to have found its way to 
 Mexico. The symptoms did not differ in any important respect from 
 those already described as characterizing previous epidemics. Pains in 
 the limbs and fever marked the onset of the attack ; catarrh, oppression, 
 hoarseness, cough followed. In some cases delirium, drowsiness, and 
 faintings occurred. A petechial eruption was observed, in some instances, 
 between the fourth and seventh days. This renders it probable that 
 typhus or cerebro-spinal fever prevailed at the same time. Turbid urine, 
 copious sweats, bilious stools, and nose-bleeding were often noted. In 
 Switzerland only children and old persons died. The disease was not 
 very fatal. 
 
 Two years later (1732-33) an epidemic, starting from Saxony and 
 Poland, overran Germany, Switzerland, and Holland, and invaded Great 
 Britain in the month of December. Toward the end of January it 
 spread in a south-easterly direction to France, Italy, Spain, and westward 
 to North America, thence southward to the islands of the West Indies, 
 and on to South America. The course of the disease in this epidemic was 
 favorable. The attack terminated in from three to fourteen days, with 
 sweating, bleeding from the nose, or an abundant discharge from the 
 nasal passages. The aged and those suffering from chronic pulmonary 
 diseases mostly perished. In Scotland three forms of the affection were 
 described namely, the cephalic, the thoracic, and the abdominal. The epi- 
 demic slowly spread over Eastern Europe and in a south-easterly direc- 
 tion, and may be said to have lasted till 1737. 
 
 Concerning this epidemic John Huxham of Plymouth wrote as fol- 
 lows : * " About this time a disease invaded these parts which was the 
 most completely epidemic of any I remember to have met with ; not a 
 house was free from it ; the beggar's hut and the nobleman's palace were 
 alike subject to its attacks, scarce a person escaping either in town or 
 country ; old and young, strong and infirm, shared the same fate." The 
 malady had raged in Cornwall and the western parts of Devonshire from 
 the beginning of February ; it reached Plymouth on the 10th, which was 
 on a Saturday, and that day numbers were suddenly seized. The next 
 day multitudes were taken ill, and by the 18th or 20th of March scarcely 
 
 1 Observations on the Air and Epidemical Diseases, translated from the Latin, London, 1758.
 
 856 INFLUENZA. 
 
 any one bad escaped it. "The disorder began at first with a slight shiver- 
 ing; this was presently followed by a transient erratic heat and headache 
 and a violent and troublesome sneezing ; then the back and lungs were, 
 seized with flying pains, which sometimes attacked the heart likewise, 
 and though they did not long remain there, yet were very troublesome, 
 being greatly irritated by the violent cough which accompanied the dis- 
 order, in the fits of which a great quantity of a thin, sharp mucus was 
 thrown out from the nose and mouth. These complaints were like those 
 arising from what is called catching cold, but presently a slight fever came 
 on, which afterward grew more violent ; the pulse was now very quick, 
 but not in the least hard and tense like that in a pleurisy; nor was the 
 urine remarkably red, but very thick, and inclining to a whitish color ; 
 the tongue, instead of being dry, was thickly covered with a whitish 
 mucus or slime ; there was an universal complaint of want of rest and a 
 great giddiness. Several likewise were seized with a most racking pain 
 in the head, often accompanied by a slight delirium. Many were 
 troubled with a tinnitus aurium, or singing in the ears ; and numbers 
 suffered from violent earaches or pains in the meatus auditorius, which in 
 some turned to an abscess. Exulcerations and swellings of the fauces 
 were likwise very common. The sick were in general very much given 
 to sweat, which, when it broke out of its own accord, was very plentiful 
 and continued without striking in again, and did often in the space of 
 two or three days wholly carry off the fever. You have here a descrip- 
 tion of this epidemic disease such as it prevailed hereabouts, attacking 
 everyone more or less; but still, considering the great multitude that 
 were seized by it, it was fatal to but few, and that chiefly infants and con- 
 sumptive old people. It generally went off about the fourth day, leaving 
 behind a troublesome cough, which was very often of long duration, and 
 such a dejection of strength as one would hardly have suspected from the 
 shortness of the time. 
 
 "On the whole, this disorder was rarely mortal, unless by some very 
 great error arising in the treatment of it ; however, this very circum- 
 stance proved fatal to some, who, making too slight of it, cither on 
 account of its being so common or not thinking it very dangerous, often 
 found asthmas, hectics, or even consumptions themselves, the forfeitures 
 of their inconsiderate rashness." 
 
 Arbuthnot also described this visitation of the disease. 1 He regarded 
 the uniformity of the symptoms in every place as most remarkable, and 
 tells us that during the whole season in which it prevailed there was " a 
 great run of hysterical, hypochondriacal, and nervous distempers ; in 
 short, all the symptoms of relaxation." 
 
 During the years 1737-38 influenza again swept over England, North 
 America, the islands of the West Indies, and France; in 171243 it pre- 
 vailed in Western Europe and the British Isles ; in 1757-58 in North 
 America, the West Indies, France, and Scotland. In 1761 it overran the 
 North American colonies and the West Indies. 
 
 The epidemic of 1762 extended very generally over Europe and Great 
 Britain. In Germany nine-tenths of the population were attacked by the 
 disease. 
 
 Widely extended epidemics prevailed in Europe and America in 1767 
 
 1 An Essay concerning the Effects of Air on Human Bodies, London, 1751.
 
 HISTORICAL SKETCH. 857 
 
 and 1775; in 1772 it raged in North America; in 1778-80, in France, 
 Germany and Russia. Noah Webster found influenza prevalent in North 
 America in 1781 ; the next year one of the most remarkable epidemics 
 of this disease (described as the epidemic of 1782) appeared in Europe. 
 It came from the East, from Asia into Russia. From St. Petersburg it 
 spread during the winter and spring over Sweden, Germany, Holland, 
 and France. In the autumn it was in Italy, Spain, and Portugal. The 
 crews of Dutch and English ships were taken ill with the disease upon 
 the high seas. 
 
 In Vienna three-fourths of the population fell ill of it with such sud- 
 denness that it got here for the first time its name of " Blitz Katarrh " 
 (lightning catarrh). It was characterized by great pain in the back, 
 breast, and throat, and by extraordinary enfeeblement. Relapses occurred, 
 and inflammation of the lungs and bowels was common. Children re- 
 mained relatively exempt from its seizure. This epidemic broke out in 
 England about the end of April and raged until the end of June. "The 
 duration of the malady in some was not above a day or two, but it usu- 
 ally lasted near a week or longer. In a few the symptoms seemed to 
 abate in two or three days, but some returned and raged with more vio- 
 lence than at first." 1 The disease was not regarded as in itself fatal, and 
 few could be said to have died of it "but those Avho were old, asthmatic, 
 or who had been debilitated by some previous indisposition." 
 
 Numerous recurring outbreaks took place in Europe and America dur- 
 ing the years 1788-90. One of these, as it occurred in America, is well 
 described by Dr. John Warren 2 of Boston in a letter to Lettsom. This 
 letter is dated May 30, 1790, and among other matters of great interest 
 respecting the disease it is stated that "Our beloved President Washing- 
 ton is but now on the recovery from a very severe and dangerous attack 
 of it in that city" (New York). 
 
 Webster mentions an epidemic in America in 1790, one in Europe in 
 1795, and another in Europe in 1797, but there seems to have been no 
 general epidemic of sufficient importance to attract the attention of other 
 writers upon the subject until 1798, when the malady again broke out in 
 Russia and spread over the greater part of Europe, continuing to prevail 
 in various regions till 1803, when it again appeared in England, and is 
 described by several writers of that country. 
 
 From 1805 to 1827 influenza prevailed (according to Zuelzer, who 
 tells us that few years during this interval were free from it) in frequent- 
 ly-recurring epidemics in Europe and America. Thompson mentions no 
 visitation in England between 1803 and 1831. 
 
 In the year 1830 began a series of epidemics remarkable for their 
 wide diffusion and the rapid succession with which they followed one 
 upon another. The disease began in China; in September it reached 
 the Indian Archipelago ; it swept into Russia, and invaded Moscow in 
 November; in January, 1831, it was raging in St. Petersburg; March 
 found it in Warsaw ; April in Eastern Prussia and Silesia; in May it 
 prevailed in Denmark, Finland, and a great part of Germany, and in 
 .471 Amount of the Epidemic Disease called the Influenza of the Year 1782. Cullerted from 
 
 * * i - r ____ _ __ _i j I. _ SY-. . .. t /. - . /"T.~.~, *ti ,,f iJ.a 
 
 isr
 
 858 INFLUENZA. 
 
 the same month it fell upon Paris ; in June it affected England and Swe- 
 den ; it was still creeping about Middle Europe and lingering in Great 
 Britain at the end of July ; in the early winter it swept southward into 
 Italy, and westward across the Atlantic to North America, and was still 
 harassing the inhabitants of certain regions of the United States in Janu- 
 ary and February, 1832. Meanwhile it continued in the East, spreading 
 to Java, Farther India, and the Indian Archipelago. It continued in 
 Hindostan after it had died out in Europe. But in January, 1833, it 
 again visited Russia, and rolled thence southward and eastward over the 
 most of Europe. It is recorded that by February it had reached Galicia 
 and Eastern Prussia ; in March it was in Prussia, Bohemia, and War- 
 saw, and had extended to Syria and Egypt ; in April to many parts of 
 Germany and Austria and to France and Great Britain. Midsummer 
 found the disease yet prevailing in some districts of Germany and North- 
 ern Italy, and in the early autumn it was in Switzerland and Eastern 
 France; in November it visited Naples. 
 
 Epidemics so frequent, so widespread, and so unsparing of individuals 
 wherever the disease appeared could not fail to excite a deep and general 
 interest. From this period the literature of the subject has been volum- 
 inous. 
 
 A brief period of repose ensued. For three years no epidemic 
 occurred which was of sufficient importance to attract the attention of 
 medical historians. 
 
 In December, 1837, influenza reappeared, and first, as so often before, 
 in Russia ; Sweden and Denmark were almost simultaneously affected ; 
 in January, 1837, it broke out in London, and rapidly swept over all 
 England and into France and Germany. In January it appeared in 
 Berlin, and shortly afterward in Dresden, Munich, and Vienna. The 
 disease spread by February into Switzerland, and into Spain as far as 
 Madrid by the end of March. In London almost the whole population 
 was attacked, and the mortality was enormous. It is stated that the 
 deaths were quadrupled during the prevalence of the disease. Large 
 populations suffered most. This epidemic spread into the southern hemi- 
 sphere, and prevailed at the same time, and consequently at exactly thp 
 opposite season that it prevailed north of the equator, in Sydney and at 
 the Cape of Good Hope. 
 
 From 1837 to 1850-51 numerous epidemics of influenza occurred. 
 Few years were exempt from them. The epidemic of 184748 has 
 been described by many writers, and more particularly, as it occurred in 
 London, by Peacock 1 with great exactitude. It is estimated that one- 
 fourth of the entire population of that city were more or less affected by 
 the disease. The epidemic prevailed in London for six months, and, 
 although the deaths registered for the entire period as from influenza 
 amounted to only 1739, it is stated in the report of the registrar-general 
 that during the six weeks the epidemic was at its height not less than 
 five thousand persons died, in the metropolitan districts, in excess of the 
 average mortality of the period, the excess showing itself in nearly every 
 class of disease, the local maladies which had been the predominant affecr 
 tions being doubtless in many cases assigned as the cause of death. This 
 
 1 On the. Influenza, or Epidemic Catnrrhal Fever of 18Ll-lf8. Thomas Berill Peacock. 
 M. D., 1848.
 
 ETIOLOGY. 859 
 
 epidemic affected between one-fourth and one-half of the population of 
 Paris, and in Geneva the proportion of those attacked was not less than 
 one-third of the entire population. 
 
 More or less widespread epidemics of influenza are recorded as havino 1 
 occurred in 1857-58 and 1860; in 1864 in Switzerland; in 1867 in 
 Paris in the spring; and at various times in the United States and 
 Canada. 
 
 A mild epidemic occurred in 1874 in Berlin. 
 
 Influenza prevailed over a wide area in the United States during the 
 early months of 1879. The characteristics of this visitation have been 
 well described by Da Costa. 1 
 
 The disease, since the great epidemic of 1847-48, has affected a smaller 
 proportion of the inhabitants of the localities visited, and has run a less 
 dangerous course, than in the earlier epidemics. It has for this reason 
 occupied a less conspicuous place in the medical literature of recent years. 
 It is nevertheless true that even in the mildest epidemics, when a rela- 
 tively small number of persons are seized and the symptoms are in most 
 cases almost insignificant, cases do here and there occur which are of a 
 serious or even fatal character, and that the death-rate from other diseases 
 is for the time considerably increased. 
 
 Catarrhal affections have often prevailed among the domestic animals 
 when influenza has been epidemic. Horses, dogs, and cats are subject 
 to these disorders ; neat cattle, goats, and sheep have been less commonly 
 affected ; chickens and pheasants have suffered, and it is stated by some 
 of the older writers that birds, and particularly the sparrow, have 
 deserted localities in which influenza was prevailing, and that migra- 
 tory birds have taken flight earlier than usual. 
 
 These epizootics have sometimes preceded the appearance of influenza 
 among men by a period of some weeks or days ; in other instances they have 
 appeared at the same time ; and in a widespread outbreak among horses 
 in the United States in 1872, in which the symptoms and morbid anat- 
 omy, accurately observed, were undoubtedly those of influenza, the dis- 
 ease did not affect man except to a very limited extent. A want of 
 fulness of description, and the inaccuracy of diagnosis too common in 
 the consideration of the general diseases of the lower animals, leave the 
 precise nature of most of the epizootics descrijbed by the earlier writers 
 doubtful. 
 
 An extensive influenza of moderate intensity prevailed as an epizootic, 
 chiefly affecting horses, during the latter part of the summer and the autumn 
 of 1 880 in Canada and the United States east of the Mississippi River. Dogs 
 were also affected, but less generally, and human beings to a still slighter 
 extent. In several localities where this invasion was observed by the 
 writer the horses were first affected, the dogs next, and after the lapse of 
 some weeks, as the animals were recovering, the disease became epidemic ; 
 but those persons who took care of horses and were much in contact 
 with them rfeither suffered earlier nor more severely than others not so 
 exposed. 
 
 ETIOLOGY. 1. Predisposing Influences. There are no well-estab- 
 
 1 "The Prevailing Epidemic of Influenza Its Characteristic Phenomena Pulmonary, 
 Gastro-intestinal, Cerebral, and Nervous Its Wide Distribution, Mortality, and Treat- 
 ment," Medical and Surgical Reporter, Philadelphia, March 8, 1879.
 
 860 INFLUENZA. 
 
 lished facts pointing to the existence of individual peculiarities that can 
 be regarded as predisposing influences. When the disease appears a large 
 proportion of the population is attacked without distinction of age, sex, 
 social condition, or occupation. Previous illness, whether acute or 
 chronic, local or constitutional, affords no protection. Aged and infirm 
 persons and those of nervous temperament are peculiarly liable to attack, 
 but the robust possess no immunity. All races and dwellers in every 
 climate are the victims of influenza. In a community invaded by the 
 disease females are apt to be the first attacked, adult males next, and 
 children last. It has been observed that in some epidemics children are 
 but little liable to contract the disease. 
 
 An attack confers no exemption from the disease in another epidemic, 
 and independently of relapses, which are not infrequent, persons have 
 been known to experience a second attack during the prevalence of the 
 same epidemic. 
 
 Persons dwelling in overcrowded and ill-ventilated habitations and in 
 low, damp and unhealthy situations have, in certain epidemics, especially 
 suffered, and the increase of deaths by influenza is proportionately much 
 greater in districts in which there is ordinarily a high mortality than in 
 healthier places. 
 
 Influenza appears at all seasons of the year and affects the inhabitants 
 of every latitude. It has no connection with known atmospheric condi- 
 tions. Many of the earlier writers sought to establish a relation between 
 low temperatures and sudden variations of temperature and influenza, and 
 by reason of the confusion among the people between these diseases and 
 common "colds" there has always existed an opinion that such a relation 
 obtains. There is, however, no evidence to sustain this view; neither 
 low temperature nor abrupt changes give rise to the affection. It has 
 prevailed in hot and dry seasons, in the West Indies, on the coast of Java, 
 in India, in Egypt, at the Cape of Good Hope, on the Ilivcira in summer. 
 
 The condition of the air as regards moisture, or dryncss, docs not in- 
 fluence the spread of the disease. It has occurred at sea, on low sea- 
 coasts, and in the dryest climates, as, for example, in Upper Egypt. 
 
 Its spread is not much influenced by local winds. It does not travel 
 with the same velocity, and even sometimes advances against them. In 
 several well-authenticated instances a dense and foul fog has preceded and 
 attended the local outbreak of epidemics. The much greater number of 
 epidemics that have occurred altogether without such manifestations make 
 it in a high degree probable that this has been a coincidence. Ozone in 
 large quantities artificially produced may give rise to the symptoms of 
 ordinary catarrh, but it is not a cause of influenza. The disease is not in 
 any way connected with the condition of the soil, elevation, volcanic 
 eruption, or any other local <"ause. The history of every epidemic may be 
 adduced in proof of this statement. 
 
 Before taking up the consideration of the exciting causes of influenza, 
 it is important to review the known facts concerning the march of epidemics 
 and the spread of the disease in affected localities. It has prevailed with 
 greater or less frequency in almost every region of the globe. Epidemics 
 recur at irregular periods. It was at one time suppose! that the course of 
 the disease was cyclical, with a return at intervals of about one hundred 
 years. This view was long ago proved to be unfounded. About every
 
 ETIOLOGY. 861 
 
 twenty-five or thirty-five years great epidemics have swept over vast 
 areas of the globe, and influenza may be said to be, at such times, pan- 
 demic. Less-widely extended epidemics have taken place with greater or 
 less frequency in the intervals between the great outbreaks. But it is not 
 possible to establish anything like a regular periodicity in the returns 
 of the disease. 
 
 It has been supposed in some instances to prevail within restricted 
 localities, as, for example, in a single city. Such local epidemics are with- 
 out doubt due to local causes, and are of the nature of simple ordinary 
 catarrhal fever, rather than true influenza. 
 
 The epidemics have extended over great areas, usually in a direction 
 from the east or north-east toward the west and south. At other times 
 they take the opposite course, and in some years they have appeared to 
 radiate in various directions from several centres. It is in consequence 
 of these facts that two views have arisen concerning the origin of the 
 affection. The first of these is, that each epidemic starts out from some 
 single unknown source, and spreads thence from point to point, invading 
 more distant localities successfully as it advances, until at length it dies 
 out in regions remote from the starting-point. This opinion is in accord 
 with the popular belief. Thus, the Italians have called it the German 
 disease; the Germans, the Russian pest; the Russians, the Chinese catarrh. 
 The geographical relation of these nations indicates the usual track of the 
 great epidemics, as shown in the foregoing historical sketch. The other 
 opinion is, that it arises not from some single particular place, but that it 
 may start anywhere, and that widespread epidemics are due to the suc- 
 cessive outbreaks of the disease at many distinct points of origin. 
 
 The evidence that the great epidemics of influenza are due to some 
 general and pandemic influence is conclusive. The point of origin of the 
 great epidemics has not yet been indicated with precision, and must 
 remain beyond conjecture until further facts bearing upon the question 
 of their source are brought to light. When it has prevailed over a large 
 portion of the earth's surface its progress from place to place has usually 
 been rapid. In this respect, however, the epidemics show a great diver- 
 sity. It sometimes travels exceedingly slowly. It is said to have overrun 
 Europe in six weeks, and it has again taken six months to do so. It 
 sometimes attacks places widely remote from each other within short 
 intervals of time, and it has appeared at the same time in different quarters 
 of the globe. It does not follow the great lines of travel and commercial 
 intercourse. 
 
 When influenza enters a city it continues to prevail, as a rule, from 
 four weeks to two months, but exceptionally it remains a longer time; 
 for example, the epidemic of 1831 was prevalent in Paris for the greater 
 part of the year. It in all instances finally disappears, and sporadic cases 
 do not occur in the intervals between the epidemics. 
 
 In rare instances the epidemics are heralded by scattered cases. But 
 as a rule this disease attacks simultaneously great numbers of the 
 inhabitants of affected districts, so that, when the epidemics severe, the 
 sick are in a short time to be counted by thousands and business is para- 
 lyzed as by a blow. Epidemics rapidly reach their height, and subside 
 almost as suddenly as they began. In a large city the disease frequently, 
 perhaps always, makes its appearance nearly at the same time in several
 
 862 INFLUENZA. 
 
 different localities, affecting certain streets and quarters solely or more 
 generally than others for a time, and spreading thus from several centres 
 through the entire community. Large towns and cities are generally 
 affected earlier than the villages around them, and the latter, though 
 closely adjacent, sometimes escape for weeks. The crews of ships upon 
 the high seas, not sailing from an infected port, are said to have suffered 
 from the seizure, and epidemics have many times crossed the Atlantic 
 from the Old World to the New, and more than once in the opposite 
 direction. 
 
 2. The Exciting Cause. Large as has been the place in medical litera- 
 ture occupied by the histories of epidemics of influenza, the nature of the 
 " epidemic influence " which gives rise to the disease is still unknown. 
 
 The question of the contagiousness of influenza is one of grave interest, 
 and has been the subject of much controversy. The great rapidity of the 
 spread of epidemics, the vast area they overrun, the fact that they do not 
 follow the lines of human intercourse, the suddenness with which great 
 numbers of the inhabitants of an invaded district or city are seized, the 
 fact that the most complete seclusion from intercourse with affected 
 persons, or even the shutting up of houses, affords in most instances no 
 protection whatever, all go to show that the disease spreads, in the main, 
 independently of direct contact. This opinion has been almost universally 
 entertained. There is evidence, however, to show that the disease is to 
 some extent contagious ; and so convincing have the facts bearing upon 
 this point appeared to some that they have believed it to be propagated 
 entirely by human intercourse. Haygarth 1 declares, as the result of his 
 observations during the epidemics of 1775 and 1782, that the influenza 
 spreads " by the contagion of patients in the distemper ;" and Falconer, 2 
 writing of the epidemic of 1803, says, "I have no doubt that it is con- 
 tagious in the strictest sense of the M r ord." Watson 3 regards the instances 
 in which the complaint has first broken out in those particular houses of 
 a town at which travellers have arrived from infected places as too numer- 
 ous to be attributed to mere chance. Very often those dwelling near the 
 invalids are attacked next in the order of time, and when the disease 
 affects a household all do not usually manifest the symptoms at the same 
 time, but one member after another is stricken down with it. 
 
 In a few rare cases the isolation or seclusion of a community has 
 appeared to give protection, as in cloisters, prisons, garrisons, and the 
 like ; at all events, there are instances on record where segregated com- 
 munities of this kind have escaped attack. 
 
 The following observation, conducted under unusual circumstances, 
 establishes the fact that influenza may be brought from an infected city in 
 such a way as to give rise to a localized outbreak in a remote community. 
 Drs. Guiteras and White 4 narrate that, influenza prevailing in Europe, 
 and particularly in Paris and London, an American gentleman in bad 
 health contracted the disease in London, improved, suffered a relapse 
 
 1 John Haygarth, M. D., F. E. S., On the Manner in which the Influenza of 1775 and 1782 
 spread by Contagion in Chester and its Neighborhood. 
 
 * William Falconer, M. D., F. E. S., An Account of the Epidemic Catarrhal Fever, com- 
 monly called the Influenza, as it appeared at Bath in the Winter and Spring of the Year 1S03, 
 Bath, 1803. 3 Principles and Practice of Medicine. 
 
 4 John Guiteras, M. D., and J. W. White, M. D., "A Contribution to the History of 
 Influenza, being a Study of a Series of Cases," Philadelphia Medical Times, April 10, 1880.
 
 ETIOLOGY. 863 
 
 shortly afterward in Paris, and died there at the end of December, 1 879. 
 His body was embalmed and sent home. Following the exposure of the 
 remains of this person to the view of his family in Philadelphia there was 
 an outbreak of influenza with characteristic symptoms, which affected, in 
 the first place, members of that family ; afterward, friends living in close 
 intercourse with them ; next, the medical attendant of some of them ; and 
 finally, the housekeeper and a patient or two of one of the physicians who 
 wrote the paper, the whole number affected in Philadelphia being eighteen 
 at the time of the publication of the account. Subsequently two or three 
 other cases were developed, but the disease did not extend beyond the 
 immediate circle of those in direct communication with the invalids. 
 
 It was at one time thought that influenza developed at once, without 
 a period of incubation, persons in perfect health being struck down with 
 it as by lightning-stroke. It is, however, now known that a period of 
 incubation, varying from a few hours to several days, and usually without 
 subjective symptoms, exists. Many instances are recorded in which per- 
 sons coming into an infected city have remained well for one, two, or 
 three days, but have eventually shared the sufferings of those into whose 
 midst they have come. There are cases also in which the period of incu- 
 bation could not have been less than two or three weeks. 
 
 There is no sufficient evidence of a causal relation between influ- 
 enza and any other epidemic disease. The statement that other prev- 
 alent diseases abate in frequency and intensity upon its outbreak is 
 not sustained by well-observed facts. Graves l holds that those suffering 
 with acute diseases are less liable during the febrile stage, but that they 
 are attacked as convalescence sets in. 
 
 The facts in reference to the spread of epidemics of influenza and the 
 course of the disease in infected localities are comprehensible upon no 
 other theory than that of a specific infecting principle as its exciting 
 cause. What this principle may be is not yet known ; where it originates 
 is equally unknown ; and our knowledge of the influences that from time 
 to time call it into activity and send it forth in definite directions over 
 the earth is no less negative. 
 
 So general a disease can only be disseminated by the most general 
 medium, the atmosphere, and its exciting cause must be capable of repro- 
 ducing itself in that medium, otherwise it would be lost by dispersion in 
 traversing distances measured by the boundaries of continents and oceans. 
 The rapid diffusion of influenza, sweeping over continents in a few weeks 
 at one time, its slow migration, creeping about a city and its environs for 
 months, at another, are to be most easily explained upon the theory of a 
 living miasm capable of being transmitted by the air, and possessing at 
 the same time an independent existence. Such an entity would find cer- 
 tain localities more favorable to its growth, reproduction, and prolonged 
 existence than others. From this point of view influenza is a miasmatic 
 disease. The infecting principle of this disease is also, to a slight extent, 
 capable of being reproduced in or about the human body and transmitted 
 by personal intercourse, as well as conveyed from place to place by the 
 persons or clothing of those affected or those travelling from localities in 
 which the disease prevails. We are thus led to the conclusion that it is 
 also contagious, though feebly so. 
 
 1 Clinical Medicine.
 
 364 INFLUENZA. 
 
 CLINICAL HISTORY. Influenza, in individual cases, presents the 
 greatest variation as regards intensity, from the most trifling indisposi- 
 tion to an illness of the gravest kind, terminating in death. These 
 variations are dependent upon 1st, the previous health of the indi- 
 vidual, his age, and the power of resisting depressing influences which he 
 possesses ; 2d, the energy and the amount of the specific cause of the 
 oisease to which he has been exposed in other words, the dose of the 
 fever-producing poison ; and 3d, the character of the prevailing epidemic. 
 
 It is important to observe that cases of very great severity are occa- 
 sionally encountered during the prevalence of mild epidemics. In every 
 epidemic, on the contrary, a considerable part of the community suffers 
 from influenza in the mildest, or what has been called the rudimentary, 
 form. This is characterized by general malaise, an easily oncoming 
 weariness upon bodily and mental effort, a disinclination for business, 
 some inability to fix the attention, and slight mental confusion ; to these 
 nervous disturbances are added catarrhal symptoms, as coryza, sore 
 throat, a tickling cough, and the like ; but the indisposition is subfebrile 
 it does not amount to a fully-developed fever. Other cases present the 
 symptoms of an ordinary attack of acute coryza, laryngitis, bronchitis, 
 pharyngitis, with unusual constitutional disturbance, distressing headache, 
 and pains in the back and limbs. The fever in this class of cases does 
 not range high, yet the patients are ill enough to betake themselves to 
 bed. 
 
 In severe cases the onset is usually abrupt. The attack begins with 
 shivering or a chill, or with fits of chilliness alternating with heat. 
 Fever is rapidly established. It is usually moderate ; sometimes it 
 reaches a high grade. It shows a tendency to morning remissions. 
 Sensations of chilliness occur ; they are called forth by slight changes in 
 the external temperature. They are often followed by flushes of heat, 
 and are, in many cases, attended by annoying sweats. The febrile out- 
 break is sometimes preceded by intense frontal headache, with pain in the 
 orbits and at the root of the nose. In other cases these pains quickly 
 follow the chill. Sneezing, redness of the eyes and edges of the nostrils, 
 a more or less abundant thin discharge from the nose, and lachrymation, 
 now occur. In some instances there is bleeding from the nose. The 
 throat becomes sore; there is a tickling sensation in the upper air- 
 passages ; a dry cough sets in, attended by more or less hoarseness and 
 shortness of breath. The cough is paroxysmal, hard, distressing. It 
 sometimes causes vomiting, like that which occurs in the paroxysms of 
 whooping cough. Chest-pains, stitches in the side, frequent sneezing, loss 
 of the sense of smell and of taste, attend the development of the general 
 catarrhal manifestations. 
 
 The fever is attended by great depression, pains in the limbs, loss of 
 appetite, thirst, constipation, and diminished secretion of urine. The 
 pulse is full, but, as a rule, only moderately increased in frequency. 
 There is in many cases slight, or even decided, blueness of the lips and 
 finger-tips. The patient is distressed by restlessness and want of sleep. 
 At the end of four or five days the febrile symptoms decline, at times 
 gradually, oftener rapidly, with copious sweats or spontaneous flux from 
 the bowels. The fever continues, however, when severe complications 
 have taken place, ten or twelve days. The defervescence is marked by
 
 SYMPTOMATOLOGY. 865 
 
 an increased flow of sedime Mary urine and considerable amelioration of 
 the subjective symptoms. The catarrlial symptoms outlast the fever two 
 or three days, but cough and expectoration may not disappear for some 
 time. 
 
 With these symptoms are associated the evidences of functional dis- 
 turbance of the nervous system. There is remarkable nervous depres- 
 sion ; loss of strength and lowness of spirits are combined with mental 
 weakness, or even stupor and delirium. In some cases slight convulsions 
 take place/ Cutaneous liypersesthesia occasionally occurs, and areas of 
 burning pain in the skin are to be met with. Neuralgia, muscle-pain, 
 and aching referred to the bones are very common and often severe. 
 
 In other cases abdominal symptoms are prominent, while those refer- 
 able to the head and chest are less urgent. The disease assumes the guise 
 of a more or less severe catarrh of the gastro-enteric mucous membrane, 
 with disturbance of the functions of the liver. .The fever and the 
 peculiar nervous depression are, however, the same. Cases likewise pre- 
 sent themselves in which but little of the usual tendency to localization 
 of the catarrlial processes is to be observed ; there is fever of varying 
 intensity, with great depression, and simultaneous and equal implication 
 of the head and the organs of the chest and abdomen. 
 
 Many writers have sought to arrange the foregoing different forms of 
 influenza in definite categories. It would be a useless task to reproduce 
 their views upon the subject, or even to enumerate the varieties that have 
 been described. In practice, the various described types merge so gradu- 
 ally into each other, and are so modified by the individual peculiarities 
 of the sick, and by the complications which arise in the course of the 
 attack iii consequence of such peculiarities or of previously existing 
 diseases or tendencies to special forms of disease, that, in point of fact, 
 particular cases cannot usually be referred to theoretical categories. 
 Hysterical persons and those of a nervous constitution are prone to suffer 
 especially from the peculiar nervous symptoms of influenza. The disease 
 is also modified by the age of the subject of the attack ; children manifest 
 in a high degree the signs of cerebral congestion, while old persons are 
 subject in a peculiar manner to dangerous pulmonary complications, and 
 those of a gouty or rheumatic constitution suffer more than others from 
 muscular pains. 
 
 The duration of the mildest form of influenza is from two to three 
 days ; in well-developed cases without complications convalescence sets in 
 between the fourth and tenth days ; while severe cases with complica- 
 tions last much longer, several weeks often elapsing before recovery is 
 complete. 
 
 SYMPTOMATOLOGY. ANALYSIS OF THE SYMPTOMS. For the purpose 
 of separate consideration it is convenient to take up the symptoms belong- 
 ing to the fever first, then those of the special catarrh, and finally those 
 more particularly referable to the nervous system ; but we encounter in 
 the present state of our knowledge of the pathology of influenza or our 
 ignorance of its pathology no little difficulty in deciding under which 
 of these headings particular symptoms are properly to be classed, by 
 reason of the close interdependence of the chief processes of the disease 
 and the anomalies of its phenomena viewed as a whole. 
 
 The Fever. The fever is of the sub-continuous or remittent type, 
 
 VOL. I. 55
 
 866 INFLUENZA. 
 
 but its range is very irregular. Irregularity of temperature is character- 
 istic of influenza and may assume diagnostic importance. 
 
 The intensity of the fever is variable. As a rule, it is moderate or 
 slight ; occasionally it is severe. I observed in several cases during the 
 epidemic of 1879 in Philadelphia an evening temperature of only 39 C. 
 (102.2 F.). Da Costa in the same outbreak found the febrile movement 
 not high; the highest temperature he observed was 40 C. (104 F.). 
 Biermer found a temperature of over 39 C. in moderate cases of 
 catarrhal fever, and does not doubt that under certain transient con- 
 ditions the temperature may reach the height of that of pneumonia or 
 typhus. In weakly persons and the aged the fever is adynamic. 
 
 The pulse has no constant characters. Its frequency is moderately 
 increased ; it is apt to be less forcible than in health, is generally com- 
 pressible, sometimes full, often irregular, changing in character in the 
 course of a few hoars. 
 
 The urine is usually diminished ; sometimes its secretion is temporarily 
 suppressed ; as a rule, it shows little change, and is rarely, as in other 
 fevers, concentrated and high-colored. It deposits on cooling a sediment 
 of urates, which toward the close of the fever is often very abundant. 
 The defervescence is in many instances attended by a copious secretion 
 of urine. Albumen is not present except as a result of some compli- 
 cation. 
 
 At first the skin is hot and dry; later, frequent sweats occur; sweating 
 generally attends the febrile remissions and the defervescence not rarely sets 
 in with copious, acid, ill-smelling sweats. In some cases a tendency to 
 sweat shows itself early and continuous throughout the attack. Sudamina 
 occur in great numbers. 
 
 The face is often flushed, and irregular mottliugs of the skin, espe- 
 cially upon the neck and chest, have been frequent in some of the epi- 
 demics. An outbreak of herpes about the lips is occasionally seen. 
 
 Disturbances of the digestive tract are more or less prominent in 
 almost all cases. Only in a rudimentary and sub-febrile form are they 
 absent. In many cases they are such as are usually seen in febrile dis- 
 orders namely, loss of appetite, thirst, impaired taste, pasty tongue, 
 tenderness in the epigastrium, and constipation. Nausea and vomiting 
 sometimes usher in the attack. In other cases (the so-called abdominal 
 form) all the above symptoms are more severe, and diarrhoea, colicky 
 pains, and vomiting are superadded. In certain epidemics the intestinal 
 catarrh has shown a tendency to run into dysentery. 
 
 The expression of the countenance is changed, in part by the appear- 
 ance characterizing an ordinary attack of coryza of considerable or great 
 severity, and in part by anxiety and depression. It is pale. Where the 
 pulmonary catarrh is excessive and dyspnoea great the lips become 
 bluish. The facies sometimes suggests that of typhoid fever. 
 
 The Catarrh. A more or less extensive hyperaemia of the mucous 
 membrane of the respiratory tract is invariably present, and may be said 
 to characterize the disease. 
 
 There is cold in the head, more severe in most cases than ordinary 
 simple coryza. The eyelids are swollen and reddened, there is laclirvma- 
 tion, sneezing is frequent, and the discharge from the nose is abundant. 
 Epistaxis is not rare. Sore throat, with tickling sensations and difficulty
 
 SYMPTOMATOLOGY. 867 
 
 in swallowing, is due to inflammation of the pharynx and neighboring 
 parts. In many instances the catarrhal symptoms are due to a pharyn- 
 gitis and tonsillitis only, the lower air-passages escaping. Hoarseness is 
 common. 
 
 Cough is a prominent symptom. It is apt to be frequent and dis- 
 tressing somtimes paroxysmal from the beginning of the sickness, 
 almost always so at some period of its course. Its spasmodic character 
 in some of the older epidemics led to the confounding of epidemic catar- 
 rhal fever with whooping cough. It is apt to be worse toward evening 
 and at night, but the sick are often tormented day and night by the loud 
 racking cough. It often leads to vomiting, and by its violence and per- 
 sistence gives rise to pain and soreness in the muscles of respiration 
 (myalgia), and occasionally to hernia. It is at first dry or attended with 
 a scanty muco-serous expectoration ; later on the sputa become opaque 
 and muco-purulent, and in consumptive or full-blooded persons or those 
 having mitral disease they are sometimes streaked or mingled with blood. 
 Toward the close of the attack the cough becomes less urgent and loses 
 its spasmodic character. In some epidemics cough is not a prominent 
 symptom, and a few cases are encountered in most epidemics in which 
 well-developed influenza runs its course without unusual, peculiar, or . 
 excessive cough. If the cough be due to bronchitis, we find on ausculta- 
 tion the physical signs of that affection. They are of course wanting 
 when it is due simply to laryngo-tracheal irritation. Hence we fre- 
 quently detect sonorous and sibillant or mucous and subcrepitant rales 
 upon both sides of the chest in the course of the attack, as in non-epi- 
 demic acute bronchitis ; and, on the other hand, cases occur where the 
 auscultatory signs are but little or not at all altered from those of health. 
 It is scarcely necessary to add that there are no special physical signs that 
 can be regarded as diagnostic of influenza. 
 
 Many patients suffer from dyspnoea. Although due in some instances 
 to complications, it occurs with remarkable frequency in those in whom 
 none of the objective signs of any pulmonary lesion can be discovered. 
 It is here of nervous origin. Graves assumes a direct disturbance in the 
 function of the vagus as its cause. This view is sustained by the obser- 
 vation that the dyspnoea is now and then intermittent, or^shows rhythm- 
 ically recurring remissions, which are unattended by alteration of ^ the 
 physical signs. To Biermer it appears more probable that the congestions 
 so common in influenza, not attended by marked physical signs until they 
 lead to oedema, are to be regarded as the cause of the dyspnoea. It varies 
 greatly in intensity. In many patients it goes on to marked oppression, 
 great shortness of breath, precordial pain, and the like. In certain epi- 
 demics orthopncea and suffocative attacks were very common. Stitches 
 in the side and pain under the sternum are observed without appreciable 
 physical signs. 
 
 Symptoms Keferable to the Nervous System. Great prostration ot 
 muscular strength is a very early symptom, and constitutes, in most epi- 
 demics, one of the remarkable features of the disease. Patients from the 
 onset feel extremely weak, and are exhausted by the slightest bodily 
 effort. The ordinary strength is not regained until convalescence is far 
 advanced. , 
 
 Headache is a constant symptom. Severe frontal pains are scarcely
 
 868 INFLUENZA. 
 
 ever absent. They extend across the brow and deeply about the orbits 
 and at the root of the nose, having their seat in the Schneiderian mucous 
 membrane and its prolongations lining the frontal sinuses and the nasal 
 ducts. Sometimes the pain is referred also to the region of the antrum 
 of Highinore and to the Eustachian tube and the middle ear. It occa- 
 sionally extends over the whole head. Cutaneous hypersesthesia of the 
 head and neck and stiffness of the neck-muscles are also met with. The 
 headache is often most intense; it lasts commonly till the end of the 
 attack, and may even outlast it. It increases in severity with the fever 
 and mental agitation toward evening. The occurrence of epistaxis affords 
 some relief. 
 
 Among the more constant symptoms of influenza are very severe pains 
 in the limbs. Patients experience sensations of soreness and bruising, 
 such as follow the -most severe and unaccustomed muscular effort. Dull, 
 tearing, and burning pains are felt sometimes in particular muscles or 
 tendons ; sometimes they are diffused over the whole body. Distressing 
 pains of a dragging or boring character in the loins and calves of the 
 legs are complained of. These pains are neither relieved nor aggravated 
 by gentle movement or by moderate pressure. A sense of contraction 
 . of the chest and precordial distress also occurs, and stitches in the side 
 (pleurodynia), substerual pain, and pains in the throat and nape of the 
 neck are common. When the attack is severe the patient is usually rest- 
 less, sleepless, and anxious. Dizziness and a tendency to faint occur on 
 rising, particularly in women'. Mild delirium is not uncommon, but the 
 more intense forms are occasionally observed. Active delirium was 
 thought to be a mortal symptom in some of the older epidemics. 
 
 The inability to sleep bears no direct relation to the intensity of the 
 fever. It is seen in some cases where fever is slight or even absent. 
 
 Somnolent states also occur. Great hebetude and torpor have marked 
 some epidemics. That of 1712 was called the sleepy sickness, by reason 
 of the prevalence of these symptoms. 
 
 In grave cases painful muscle-cramps, subsultus tendinum, twitchiugs 
 of particular muscles, and tremblings of the hands occur. 
 
 The mental power is enfeebled, and the acuteness of the special senses 
 is diminished. , 
 
 COMPLICATIONS AND SEQUELS. The most important complications 
 of influenza are inflammatory diseases of the lungs. The hyperaemia 
 and intense bronchitis already described as occurring in the severer cases 
 cannot properly be looked upon as complications. They constitute rather 
 essential processes of particular forms of the disease. But capillary 
 bronchitis, catarrhal pneumonia, and less frequently croupous pneu- 
 monia, arise as complications in the course of the disease. Satisfac- 
 tory statistics are wanting, but Biermer estimates that from 5 to 10 per 
 cent, of the whole number of patients suffer from inflammatory lung- 
 complications, and holds that the bloodletting so frequently practised by 
 the older physicians was due to a desire to combat inflammation. The 
 comparative frequency of chest complications in different epidemics varies 
 greatly, but the estimate of Biermer may be accepted as an approximate 
 average. 
 
 Owing to the masking of the physical signs in the early stages and the 
 pre-existing pulmonary oadema, it is not always easy to recognize at once
 
 COMPLICATIONS AND SEQUELS. 869 
 
 the occurrence of capillary bronchitis. This complication is attended 
 with increasing dyspnoea, decided lividity of the face and extremities, and 
 great prostration. Crepitant and subcrepitant rales at the lower portions 
 of the posterior dorsal regions, rapidly spreading to all parts of the chest, 
 without fulness at first and with increased resonance later, instead of the 
 signs of consolidation which are met with in pneumonia, are the signs 
 which attend its appearance. 
 
 Catarrhal pneumonia occurs insidiously, with gradual intensification 
 of the bronchitic symptoms about the fourth or fifth day, but it may set 
 in as early as the second day, or much later, during convalescence. It is, 
 as a rule, developed without chill or great increase in the fever. 
 
 Old persons and those of feeble constitutions are most liable to the 
 foregoing complications. 
 
 Lobar pneumonia is less common. It is a late complication, occurring 
 toward the close of the attack or even when the patient is beginning to 
 get about. It is easily recognized, and differs in no wise from acute lobar 
 pneumonia occurring under other circumstances. 
 
 In October, 1880, influenza being prevalent in Philadelphia, both epi- 
 zootic and epidemic, but very mild both among horses and men, I 
 attended a medical student who, having had what he regarded as a 
 cold for about a week, had kept at his work without treatment, until, 
 upon the occurrence of a chill followed by grave thoracic symptoms, ne 
 was obliged to betake himself to bed. I first saw him the following day 
 in the hospital of the Jefferson College. There were the symptoms of 
 acute lobar pneumonia, with the signs of extensive consolidation of the 
 left lung and pleurisy of the right side. Moreover, there were delirium 
 and jaundice. The urine was non-albuminous. The next evening he 
 died. At the same time many members of the class suffered from influ- 
 enza, and a careful inquiry into the history of the case of this young 
 gentleman satisfied me that the pneumonia had arisen as a complication 
 in a neglected and moderate severe catarrhal fever. Until the eighth 
 day before his death he was in excellent health. No examination of the 
 body was permitted. 
 
 Graves 1 thought that a kind of paralysis of the lungs, with great 
 oedema, takes place in some cases, and attributed it to an affection of the 
 vagus. It was his conviction " that the poison which produced influenza 
 acted on the nervous system in general, and on the pulmonary nerves in 
 particular, in such a way as to produce symptoms of bronchial irritation 
 and dyspnoea, to which bronchial congestion and inflammation were often 
 superadded." 
 
 It is certain that localized collapse of the lung often occurs. White 
 and Guite'ras attributed the consolidations of the lung to congestive col- 
 lapse due to enlargement of the tracheal and bronchial glands and " dis- 
 turbance of the great nervous tract about the root of the lung." They 
 were enabled to satisfy themselves of the existence of glandular enlarge- 
 ment adenopathie bronchique in nine of their eighteen cases by per- 
 cussion practised in the method of M. Geneau de Mussy, 2 who was the 
 first to call attention to the importance of percussing the spinous processes 
 of the vertebrae over the course of the trachea. Following this line in 
 the healthy subject, a distinct tubular (high-pitched and slightly tympan- 
 1 Annah of Influenza. * Chirurgie midicde, Paris, 1874.
 
 870 INFLUENZA 
 
 itic) sound is elicited by percussion down to the point of bifurcation of 
 the trachea on the level of the fourth dorsal vertebra. Opposite the 
 fifth and downward we get the lower-pitched pulmonary resonance. When 
 the tracheal and bronchial glands are enlarged, the tubular sound over 
 the upper dorsal vertebra is replaced by dulness, which may contrast 
 sharply, above with the tracheal, and below with the vesicular reso- 
 nance. 
 
 Some well-recognized peculiarities of the so-called pneumonias of influ- 
 enza give weight to the view that the consolidations are not, in the begin- 
 ning, pneumonic at all. Thus, we have at first weakness of the vesicular 
 murmur, then its absence ; the respiration soon becomes bronchial, with- 
 out being preceded by dulness or the crepitant rale ; the extension of 
 those consolidations from one part of the lung to another is very irreg- 
 ular ; the process is more apt to involve both sides than one ; the disap- 
 pearance of the consolidation is frequently very rapid. 
 
 The relations of cause and effect between collapse and catarrhal pneu- 
 monia are so close that it is not difficult to see how the condition spoken 
 of may lead to secondary lobular or catarrhal pneumonia. In truth, this 
 is a frequent result of collapse from any cause. 
 
 White and Guite'ras do not adduce any post-mortem facts in support 
 of their theory. Peacock, however, observed in the epidemic of 1847 
 softening and enlargement of the bronchial glands in several cases, and 
 in one instance where there was no antecedent disease of the lungs, and 
 where the physical signs corresponded to some extent with those of the 
 cases upon which White and Guit4ras base their views. 
 
 Gangrene of the lungs must be named as one of the less common com- 
 plications. 
 
 These complications are the chief cause of the danger of influenza in 
 the aged, the debilitated, and those suffering from previous disease of the 
 thoracic organs. 
 
 Pleurisy is rare except where there is coexisting inflammation of the 
 lungs. It may be associated with pericarditis. In old persons serous 
 effusions into the pleural sac are now and then encountered. 
 
 Troublesome laryngitis and chronic bronchitis may follow the attack. 
 In consequence of the extension of the catarrhal processes along the 
 Eustachian tube an actual inflammation of the middle ear is, in rare 
 instances, set up. Parotitis with salivation sometimes occurs, likewise 
 aphthous inflammations of the mouth. 
 
 Herpes labialis occasionally occurs toward the end of the attack ; it is 
 then a favorable indication. 
 
 Phthisis may be developed in consequence of an attack of influenza, 
 and if phthisis be already established it is apt to run a more rapid course. 
 Emphysematous affections are aggravated ; diseases of the heart are 
 unfavorably influenced ; chronic nervous affections are made worse, and, 
 in particular, neuralgias are aggravated. Old neuralgias, that have long 
 ceased to give trouble, occasionally reappear during the convalescence. 
 
 Persons subject to latent or chronic Bright's disease are especially 
 liable to the more serious manifestations of influenza. The fatal ter- 
 mination of such cases not unfrequently occurs in consequence of an 
 attack. 
 
 Many of the older observers speak of the intermittent character of
 
 PATHOLOGY. 871 
 
 influenza in certain epidemics, and its tendency to run into intermittents, 
 particularly of a certain type, during convalescence. This has not been 
 observed in the outbreaks of later years, and it is probable that in such 
 instances an endemic malaria has modified the epidemic catarrhal fever, 
 or the former has broken out as the latter passed away. 
 Pregnant women are in danger of aborting. 
 
 PATHOLOGY. Our 'knowledge of the pathology of influenza is as 
 yet very imperfect. ^ Biermer has described it as the sum of a series of 
 catarrhal manifestations developed under a common epidemic influence. 
 The close association of the various local affections arises from their 
 almost simultaneous occurrence as results of primary pathological pro- 
 cesses common to them all. Each of the three groups of symptoms 
 which make up the clinical picture of the disease namely, the fever, 
 the catarrh, and the symptoms referable to the nervous system consti- 
 tutes a distinct factor of influenza, and is a direct outcome of the action 
 of the infecting principle. There is no constant interdependence among 
 these groups, either in the order of their succession or in their intensity. 
 Thus, while all three groups are commonly present from the beginning 
 of the attack, any one of them may be the first to appear or have an 
 intensity out of all proportion to each of the others. The fever is not a 
 result of the catarrhal inflammation, nor are the nervous symptoms the 
 result of both the others. They all spring directly from the action of 
 the same cause. 
 
 This view is at variance with the opinion basqd upon the fact that 
 ordinary acute local inflammatory diseases, tonsillitis, bronchitis, and the 
 like, sometimes run their course in a similar way to influenza, with fever, 
 nervous depression, and a serious sense of illness that influenza is a 
 simple epidemic catarrhal inflammation. 
 
 The sudden onset of influenza, its not infrequent abrupt termination, 
 which suggests crisis, its unsparing seizure of great numbers of the 
 population, the severity of the nervous symptoms, and the amount of 
 laryngo-bronchial irritation, often out of measure with the lesions of the 
 mucous membranes, all point to the action of a morbid agent affecting 
 the body at large. The severity of the symptoms also, in many cases, is 
 much greater than in similar acute non-specific local affections, while the 
 complications, and in particular the recrudescence of fading neuralgias 
 and the tendency to abortion, and the sequels, as cough, weakness, head- 
 aches, flying pains, which often remain long after convalescence, are evi- 
 dences of its belonging to the group of infectious diseases rather than to 
 that of simple acute inflammatory diseases. 
 
 In conclusion, it must be urged that the similarity of the symptoms in 
 many epidemics, occurring during the course of several centuries and 
 under different social conditions, and even different degrees of civilization, 
 forcibly demonstrates the specific and definite character of the causes 
 which give rise to influenza. 
 
 Very little light is thrown upon the pathology of the disease by the 
 anatomical changes found after death. Uncomplicated influenza is rarely 
 fatal. As a rule, the unfavorable termination is due to lung complica- 
 tions. The essential lesions are congestion and catarrhal swelling of the 
 mucous membrane of the upper air-passages and the bronchial tubes. 
 These changes may be restricted, in the lungs, to the trachea and larger
 
 872 
 
 bronchi, or they may extend to the finest twigs. They may amount to 
 great thickening and deep capillary injections of the raucous lining of the 
 tulles, which contain clear, frothy mucus or thick, viscid masses of niuco- 
 purulent secretion unmixed with air. 
 
 More or less congestion of the gastric mucous membrane, and more 
 rarely of that of the intestine, is also met with. The solitary and 
 agminate glands of the intestine are not affected, save as the result of 
 special complications. A few observations relate to the finding of 
 enlarged and softened bronchial glands. More extended researches are 
 needed, not only upon this point, but also in the whole domain of the 
 pathological anatomy of the disease. 
 
 Hypenemia, oedema, hypostatic congestions, splenization, catarrhal 
 pneumonia, and hepatization affect the lung-tissue in cases fatal by the 
 complications which are associated with such changes. The tissue- 
 changes of diseases existing prior to the attack of influenza, such as old 
 consolidations, tubercle, brown induration, emphysema, and so forth, are 
 of course frequently discovered. 
 
 DIAGNOSIS. The discrimination of influenza from other affections 
 having some points of resemblance to it is, under ordinary circumstances, 
 unattended with difficulty. The march of the epidemic, the number of 
 persons attacked, the prominence of the nervous symptoms, the rapidly 
 developed debility, and the character of the cough, usually severe out of 
 proportion to the physical signs, distinguish it from all other epidemic 
 diseases. 
 
 It is to be differentiated from non-specific catarrhal affections attended 
 by fever, malaise, weakness, severe headache, and pain in the ex- 
 tremities by a due regard to the causative relations of the two affec- 
 tions. Simple catarrhs not rarely present the group of symptoms 
 which characterize epidemic catarrhal fever, but they occur almost 
 constantly as the result of great and sudden changes in the weather, 
 and are therefore met with in greatest frequency in bad seasons, and 
 are particularly common at the end of winter and in the spring. 
 Influenza is not in any way dependent upon the vicissitudes of the 
 seasons, and may occur, as has been shown, at all times of the year, in 
 wet or dry, mild or cold seasons equally, and in every variety of climate. 
 It is of course diagnosticated without difficulty from the sporadic catar- 
 rhal fevers, which lack the characteristic depression, neuralgic and 
 rheumatoid pains, the irritative cough, dyspnoea, and so on. 
 
 Cases of influenza are met with that bear a strong resemblance to 
 beginning enteric fever. The malaise, headache, obtunded hearing, 
 mental depression, high fever, coated tongue, tender belly, diarrhoea, are 
 symptoms to be observed in both affections. But influenza lacks the 
 temperature curve, the splenic enlargement, and the eruption of enteric 
 fever, and the progress of the disease will in a few days clear up the 
 most doubtful case. 
 
 PROGNOSIS AND MORTALITY. Death is rare in uncomplicated cases. 
 The very young bear influenza badly ; the old bear it more badly still. 
 Nevertheless, children have in some epidemics enjoyed a considerable pro- 
 portionate immunity. Healthy persons in the middle periods of life bear it 
 well. Certain pre-existing diseases modify its course unfavorably ; among 
 these are chronic bronchitis, emphysema, fatty heart, and Bright's disease.
 
 TREATMENT. 873 
 
 The debility of advanced phthisis and other exhausting diseases renders 
 influenza dangerous. Death takes place, in by far the greater number of 
 cases, as the result of the complication of the attack, either by some pre- 
 existing affection or by an acute disease arising in its course. The com- 
 monest of the latter are inflammations of the parenchyma of the lungs. 
 
 Patients presenting very severe symptoms generally recover if they be 
 not the subjects of complicating maladies or very young or very old." 
 
 Relapses are not uncommon ; independently of relapses, second attacks 
 have been known to occur during the continuance of an epidemic ; it is 
 often the case that an individual in the course of his life passes through . 
 several epidemics of influenza, and is the subject of the disease in each 
 of them. 
 
 The prognosis is greatly modified by the character of the prevailing 
 epidemic. In some epidemics the deaths are few, and the mortality from 
 other diseases does not appear to be greatly augmented. In others many 
 die of the epidemic disease, and the death-rate of certain endemic affec- 
 tions is much increased. In some of the older epidemics the high mor- 
 tality was doubtless due to injudicious measures of treatment, among 
 which bloodletting and other depressing agencies were conspicuous. Some 
 of the older accounts also warrant the suspicion that a coexisting typhus 
 had to do with the high death-rate. It is estimated that in the epidemic 
 of 1837, which was a very severe one, 2 per cent, of those attacked died. 
 The proportion of fatal cases in particular epidemics varies in different 
 countries, and even in different quarters of the same city. 
 
 TREATMENT. Efficient measures of prophylaxis are as yet unknown. 
 Unfavorable hygienic surroundings, overcrowding, a damp, unhealthy 
 locality, appear to increase the prevalence and severity of influenza. The 
 opposite conditions of living do not, however, secure immunity from the 
 attack. During an epidemic aged persons, those enfeebled by chronic dis- 
 eases, and in particular those subject to chronic bronchitis, consumption, 
 emphysema, fatty heart, and Bright's disease should be cared for with un- 
 usual diligence and solicitude, since they constitute the classes most prone to 
 the graver complications of the disease, and from which its fatal cases are 
 almost wholly derived. Such individuals should be warmly clad ; they 
 should shun, so far as possible, the vicissitudes of the weather, even, if 
 practicable, keeping within warmed and well-ventilated apartments ; they 
 should exercise unusual prudence in diet and lead a carefully regulated 
 life, with long hours of sleep. It is true that these measures are not pre- 
 ventive of the attack. Families not quitting the house, living in the 
 greatest seclusion, even the bedridden, do not always, or even as a rule, 
 escape. Yet it has frequently been observed that those whose occupations 
 are carried on in the open air are attacked earliest and in greatest num- 
 bers. On the other hand, in rare instances, persons isolated from the 
 community with strictness in prisons, cloisters, hospitals have remained 
 free from the disease prevailing around them. It therefore appears proba- 
 ble that, under certain favorable circumstances not as yet perfectly under- 
 stood, the avoidance of the open air and of the direct influences cf the 
 weather may confer some degree of immunity from the attack, and it is 
 desirable that the class of persons most liable to the graver consequences 
 of the disease should avail themselves of even the most uncertain pre- 
 cautions.
 
 874 . INFLUENZA. 
 
 The treatment of influenza is expectant and supporting. Not only is 
 the epidemic self-limiting, tending to exhaust the susceptibility of a com- 
 munity, in most instances, in the space of a few weeks, but the attack is 
 also of definite duration, and the perturbations set up by the action of 
 the influenza-poison upon the individual subside spontaneously in three 
 or four, or at most ten or twelve, days. The susceptibility of the indi- 
 vidual is also, for the time being, exhausted, for second attacks in the 
 same epidemic are not very common. In cases where the duration of the 
 attack is prolonged beyond the period indicated, it is kept up by compli- 
 cations, and we have to do not so much with the pathological processes of 
 influenza as with secondary diseases that the influenza has excited either 
 by the intensity of its action or by reason of some peculiarity of the sub- 
 ject of the attack. 
 
 By far the greatest number of cases are light and unattended by dan- 
 ger. The treatment is therefore, for the most part, an extremely simple 
 one. These lighter cases seldom require medical measures. The patients 
 are uncomfortable and anxious, easily fatigued, and unfitted for busi- 
 ness. It is best that they keep the house, and, if willing, the bed or sofa, 
 for the space of two or three days. The diet should be restricted to a 
 few simple and easily-digested dishes. Meat should be avoided. The 
 common custom of taking hot beef-tea is an extremely bad one ; it often 
 increases the headache and languor. Moderate quantities of cold drinks 
 may be taken. The fruit-syrups, lemonade, raspberry vinegar, a weak 
 solution of citrate of potash or of cream of tartar, and barley-water 
 with lemon, are useful. Very weak wine-whey is often liked. The 
 effervescing mineral waters or Apollinaris are preferred by many per- 
 sons. The best of such drinks is a mixture of equal parts of Seltzer- 
 water and milk, iced. If the stomach be irritable, koumiss will be found 
 an excellent beverage and food. In the mild cases stimulants are not 
 necessary. Sound claret, with or without Seltzer-water, is not contrain- 
 dicated. In all cases the amount of fluid taken should be moderate. 
 
 Quinine in moderate doses should be taken from the onset. The head- 
 pains are not increased by it. Dover's powder, if well borne, should be 
 administered at night. Some form of opiate may be required, even in 
 mild cases, to counteract wakefuluess. A compressed pill, containing 
 extract of opium 0.030 gramme (gr. J), camphor 0.15 (gr. ij), and ammo- 
 nium carbonate 0.15 (gr. ij), will be found useful when Dover's powder can- 
 not be employed. During convalescence iron and barks are often requisite. 
 
 The coryza, tonsillitis, laryngitis, bronchitis are to be treated according 
 to general principles, if they require treatment at all. In most mild cases 
 the catarrhal symptoms call for no special measures of treatment. 
 
 Free inunctions of fatty substances about the brow and over the bridge 
 of the nose are of use as regards the coryza. For this purpose animal 
 fats, washed lard, simple cerate, cold cream, and the like are to be pre- 
 ferred to cosmoline and vaseline. 
 
 Morphine dissolved in cherry-laurel water, one part in fifty or sixty, is 
 useful for the relief of the head-pains associated with the coryza. A few 
 drops may be snuffed up from time to time. These pains are mitigated 
 to some degree by wearing a flannel cap or wrapping the head in a silk 
 handkerchief. Warm applications sometimes give comfort, while cold 
 almost invariably add to the distress.
 
 TREATMENT. 875 
 
 Distress in the upper air-passages and the tickling cough call for steam 
 inhalations, and the air of the apartment may be rendered moist by the 
 evaporation of water kept boiling in a broad, shallow vessel. Gargles of 
 potassium chlorate, or potassium chlorate with sumac, exert a soothing 
 influence upon the congested tonsils. 
 
 Severe cases call for more energetic measures of treatment. The most 
 prominent indications are the control of the fever ; the diminution of the 
 hyperaemic fluxion to the mucous tracts ; measures of support ; the miti- 
 gation of pain and the induction of sleep ; and, finally, the prevention of 
 the pulmonary congestion, to which the depression leads by enfeeblement 
 of the circulation. The last indication is especially urgent in infants, the 
 very old, and those previously debilitated from any cause. 
 
 Inflammatory complications require special treatment or modifications 
 of treatment. 
 
 The febrile movement is not, as a rule, high ; grave nervous symptoms 
 and serious catarrh may be associated with moderate fever. 
 
 An anti-febrile regimen is to be observed. The moderate duration of 
 this fever, as compared with enteric fever, renders it less important that 
 large amounts of fever-food should be given, while the tendency to 
 depression makes it of the utmost importance that the administration of 
 food be systematic and carefully looked after by the medical attendant. 
 The disinclination to take food is so great that it is often with difficulty 
 that a sufficient quantity can be given in the early days of the attack, and 
 it is to be doubted whether benefit follows anything in excess of the most 
 moderate amount. It is necessary to observe regular hours, as in the 
 management of all the low fevers. As soon as convalescence begins the 
 patient should be urged to eat ; the quantity of food taken at one time is 
 to be augmented, and the intervals between the meals may be longer. 
 
 A favorable action upon the excretory function of the skin and kidneys 
 will result from the moderate drinking of water or of the beverages 
 already spoken of. At least enough fluid should be taken to relieve 
 thirst. 
 
 Diaphoretics have been much used, upon the theory that by determina- 
 tion to the skin they correspondingly diminish the tendency to hypersemia 
 of the affected mucous tracts. Dover's powder, solution of the acetate of 
 ammonia, and other mild diaphoretics are to be selected. Jaborandi 
 should be employed with caution. The wet pack and other hydrothera- 
 peutic measures have been employed to act upon the skin and to effect a 
 direct reduction of temperature in influenza. For old and feeble persons 
 warm packs are employed. A profuse sweating at the onset of the attack 
 is said to occasionally cut it short. Early diaphoresis often brings about 
 a rapid and lasting amelioration of the symptoms. It is to be borne in 
 mind that the fever is rarely excessive, and that sweating is not infre- 
 quently a troublesome symptom. In some epidemics it has been a very 
 troublesome one. 
 
 General bloodletting is not to be resorted to in influenza. Its danger 
 was apparent to some of the early writers. As has been pointed out, the 
 high mortality of some of the older epidemics is to be explained by the 
 venesections practised at the beginning, and even during the course, of the 
 attack. It has no favorable effect upon the catarrhal processes, and but 
 little upon the subjective symptoms. The fever is not relieved by it ; the
 
 876 INFLUENZA. 
 
 nervous depression is increased and the risk of lung-congestion is aug- 
 mented. Bleeding is not likely to be practised in epidemic catarrhal fever 
 while the present views of its place in therapeutics continue to influence 
 practice. Cautious local bloodletting for the relief of local inflammatory 
 trouble is spoken of in most of the modern books. The occasions for its 
 employment are so rare in the treatment of this disease that even this 
 statement should be henceforth omitted. In influenza, as it is known to 
 medical men of the present from the descriptions of the old and personal 
 experience of the few recent and milder epidemics, bloodletting, either 
 general or local, is clearly uncalled for. 
 
 Emetics hold a high historical place. It was of old customary to begin 
 the treatment with a vomit. As late as the epidemic of 1837, Lombard 
 of Geneva believed that they shortened the attack and lessened the 
 intensity of the symptoms when administered at the beginning. In cases 
 attended by early gastric disturbance and nausea they are said to be espe- 
 cially of use. They sometimes set up great irritability of the stomach, 
 with vomiting that it is difficult to control. On the whole, the cases in 
 which an emetic would do good are extremely rare. 
 
 Purgatives were formerly regarded as important in the treatment. This 
 view no longer prevails. In case of constipation gentle purgation, ex 
 indicatione symptomatica, is a necessary part of the proper management 
 of the case. For this purpose the laxative mineral waters, as Frieder- 
 ichshalle, Hunyadi, Pullna, are excellent. Castor oil may be given, and 
 calomel is in some cases, and particularly in childhood, of great service. 
 Simple enemata of warm water or soap and water will often suffice. The 
 tendency in some cases to exhausting and troublesome diarrhoea, and the 
 fact that diarrhoea occurs spontaneously some time in the course of most 
 cases, should inspire caution in the use of purgatives. Repeated purga- 
 tion during the progress of the attack is not only useless it is also posi- 
 tively injurious. 
 
 In the severe cases quinine is to be given early and in full doses. It 
 exerts at the same time a powerful influence upon the temperature, upon 
 the tendency to local hypersemias, and upon the nervous symptoms, and 
 in particular the headache. Rawlins, 1 as early as 1833, found that excel- 
 lent results followed its administration, the effect being the better the 
 earlier it was given. It has even been lauded as a specific for influenza. 
 
 The mineral acids may be given with a view to realizing their tonic 
 effects. 
 
 For the most part, the foregoing measures, directed against the fever, 
 will exert a favorable influence upon the catarrhal processes. Expect- 
 orants are of advantage ; ipecac is useful. The preparations of antimony 
 are inadmissible by reason of their tendency to depress. Ammonium 
 chloride is indicated in the earlier stages of the bronchitis. Among recent 
 drugs, yerba santa (Eryodiction glutinosum) and the oil of eucalyptus are 
 of use in mitigating the symptoms in epidemic catarrh, as they do in cer- 
 tain forms of simple sporadic catarrh. 
 
 The peculiar dry, racking cough so often present in the early days of 
 the attack should be relieved. It is not useful in removing bronchial 
 accumulations, being, as has been shown, in most instances out of pro- 
 portion to the lesions of the bronchial mucous membrane ; on the other 
 1 London Medical Gazette, May, 1833.
 
 TREATMENT. 877 
 
 hand, it tends to increase the hypersemia of the upper air-passages by the 
 mechanical violence of the cough-paroxysms. Further, it is distressing 
 and exhausting, and contributes to the muscular and nervous prostration. 
 Benefit will be derived from keeping the air of the apartment moist, and 
 from the occasional inhalation of the steam from hot water, either used 
 alone or poured upon the compound tincture of benzoin, a pint to the 
 teaspoonful, or upon paregoric, a pint to the tablespoonful, in a proper 
 vessel or inhaler. 
 
 No drugs are more potent to this end than opium and its derivatives, 
 and in particular morphia and codeia. The hypodermic use of the mor- 
 phia salts, judiciously resorted to, constitutes our most valuable thera- 
 peutic resource in fulfilling the threefold indication of relieving cough, 
 alleviating both the head-pain and the pains in the extremities, and in 
 procuring sleep. The old-time dread of opium in influenza was not well 
 founded. The administration of this drug in moderate doses is attended 
 with advantages that far outweigh any danger of increasing the tightness 
 across the chest and retarding expectoration. It is necessary to observe 
 the same caution in giving it to infants and aged persons in influenza 
 that is necessary under other circumstances. The influence of carbolic 
 acid in restraining cough makes it a useful addition to soothing draughts 
 in this disease. 
 
 The substernal and other chest-pains may be combated with sinapisms, 
 turpentine stupes, repeated inunctions of fatty substances containing 
 extract of belladonna, and the like. Pleurodynic stitches call for simi- 
 lar measures ; a long strip of machine-spread belladonna plaster, about 
 five centimetres (two inches) in width, applied very firmly to the side 
 of the chest from the spine in a direction downward and forward parallel 
 with the ribs, and reaching to the median line in front, affords great 
 relief to the lateral chest-pains. 
 
 The control of the debility must be regarded as the most important 
 indication in old and feeble persons. Wine, spirits, milk-punch, ammo- 
 nia, spirits of chloroform, are to be used, not in accordance with fixed 
 rules, but as occasion may require. In many cases wine or whiskey will 
 be indicated from the beginning, the quantity being determined rather by 
 the effect upon the circulation and the general condition of the case than 
 by rule. Women and others unaccustomed to the use of alcoholic drinks 
 often take wine and brandy in considerable quantities, with striking 
 benefit and without flushing or other evidences of its disagreeing. 
 
 Chloral is inadmissible as a hypnotic by reason of its depressing effect 
 upon the heart. Paraldehyde may be used, or the bromides in connec- 
 tion with opium if the latter alone is not well borne. 
 
 Diarrhoea must be managed in accordance with general principles. If 
 slight, it does not require special treatment. It is apt to occur at one 
 period or another in the course of most cases, and not infrequently marks 
 the beginning of convalescence. Colic may be treated with warrn fomen- 
 tations and carminatives ; if it be due to constipation, mild laxatives are 
 to be combined with them. . . 
 
 Severe cases of influenza demand the careful attention of the physician, 
 who must be on the alert to detect the inflammatory lung complications 
 which so often lead up to the fatal issue as early as possible. Their 
 treatment must be regulated by the circumstances of the case, the nature
 
 878 INFLUENZA. 
 
 of the particular complication, the age of the patient, and so on, in accord- 
 ance with general therapeutical indications. 
 
 Finally, all measures, of whatever kind, that tend to depress the gen- 
 eral nervous system or the functional activity of the respiration, and 
 especially the heart-power, are to be sedulously avoided in the manage- 
 ment of influenza. During the convalescence unfavorable influences of 
 the weather are to be guarded against. It is important to warn the 
 patient that a severe attack of influenza renders him liable for some time 
 afterward to pulmonary disorders. The sequels, and in particular those 
 implicating the respiratory tract, are to be appropriately treated. After 
 severe cases a course of tonics is commonly of advantage, and a change 
 of climate often necessary to re-establish the health. 
 
 As bearing on what is stated in the foregoing pages on the causation 
 of influenza, reference may be made to the investigations of Seifert, 1 who 
 claims to have found in the mucus expectorated by patients with influ- 
 enza numbers of a peculiar micrococcus. It is evident, however, that 
 no conclusions can be based upon these observations until the results have 
 been subjected to careful examination in other epidemics. 
 
 1 Volhmann's klinische Vortrage, No. 240, June 20, 1884.
 
 DENGUE. 
 
 BY H. D. SCHMIDT, M. D. 
 
 SYNONYMS. Break-bone fever, Dandy fever. 
 
 HISTORY. The history of this disease dates only from the second half 
 of the last century, though it appears very probable that previous to this 
 time dengue existed in the tropical regions of Africa and Asia, whence it 
 was carried to Europe and America. 
 
 In Spain the disease has been known since 1764, when, up to 1768, it 
 prevailed in Cadiz and Seville under the name of la piadosa or la panto- 
 rnina. 1 In 1780 it appeared in the form of an epidemic in Philadelphia, 
 where it was first noticed and described by Rush under the name of 
 bilious remitting fever, commonly called break-bone fever on account of 
 the violent pains attending it. Next it prevailed in Calcutta in 1824, 
 and two years afterward it made its first appearance on the southern coast 
 of the United States, in Charleston and Savannah, where it prevailed to 
 1827. Toward the close of 1827 another dengue epidemic broke out in 
 the West Indies, whence the disease proceeded to the American continent, 
 reaching New Orleans in the spring, and visiting Charleston and Savan- 
 nah in the summer and autumn of 1828. 2 In 1844 it showed itself in 
 Mobile, and in 1848 in Natchez, whilst in 1850 it reappeared along the 
 Southern seacoast, particularly in Charleston, from which it proceeded 
 even to inland towns, such as Augusta, Ga. 3 In 1865 dengue appeared 
 in Teneriffe and other Canary Islands, whilst at the same time and through 
 the years 1866 and 1867 it prevailed in Andalusia and in some other 
 Spanish provinces. 4 
 
 One of the most extensive epidemics of dengue prevailed from July, 
 
 1870, to January, 1871, in Zanzibar, 5 on the East Coast of Africa, whence 
 it extended to Aden in Arabia and Port Said in Egypt. In December, 
 
 1871, the disease appeared simultaneously at Bombay and Calcutta, 6 to 
 which place it had been carried by transport-ships from Aden. Proceed- 
 ing from Bombay in a northern direction along the railroad, it spread 
 
 1 R. H. Poggio, La calentura roja observada in sus aparidones epidemicas de los anos 1865 
 y 1807, Madrid (reported in Virchow und Hirsch's Jahresbericht filr das Jahr 1871, vol. ii. 
 p. 200). * G. B. Wood, Practice of Medicine, 4th ed., vol. i. p. 444. 
 
 3 S. H. Dickson, Elements of Medicine, 2d. ed., p. 747. 
 
 4 E. H. Poggio, Virchow und Hirsch's Jahresbericht fiir das Jahr 1871, vol. ii. p. 200. 
 
 5 J. Christie, "Eemarks on Kidniga Pepo, a peculiar form of exanthematous disease 
 epidemic in Zanzibar, East Coast of Africa, from July, 1870, to January, 1871," Brit. Med. 
 Journal, July 1, 1872, p. 577 (reported in Virchow und Hirsch's Jahresbericht fur das Jahr 
 
 1872, vol. ii. p. 203). 
 
 6 Virchow und Hirsch's Jahresbericht fur das Jahr 1873, vol. ii. p. 208. 
 
 879
 
 880 DENGUE. 
 
 over the central regions of the North-western Provinces, the Rajputaua 
 states, Cashmir, and the Punjaub. From Calcutta it passed over Assam 
 and Bhotau to Thibet, and thence downward into Burniah and to all the 
 large cities along the coast ; while it also extended along the coast of 
 Malabar over Visigapatam to Madras and Poiidichery, finally arriving at 
 Mysore. Thus the disease had actually spread over the whole Peninsula 
 from Cape Tutikorin to the foot of the Himalayas, attacking equally all 
 races or nationalities without regard to age, occupation, or position. Forty 
 years previously, however, an epidemic of dengue had prevailed in Bur- 
 mah. In 1873 it appeared on the island of Mauritius, to which it had 
 been carried from India by an emigrant ship. In the same year a con- 
 siderable number of cases of dengue were observed in New Orleans. In 
 1877 it appeared again in Egypt, where it prevailed in Ismailia. 
 
 Finally, in 1880, dengue, in the form of a very extensive epidemic, 
 prevailed once more along the Southern coast, visiting equally Charleston, 
 Savannah, and New Orleans. A number of valuable observations con- 
 cerning the nature and symptoms of the disease were made during this 
 epidemic by Drs. D. C. Holliday of New Orleans, J. G. Thomas of 
 Savannah, and F. T. Porcher and J. Forrest of Charleston. 1 At the same 
 time it prevailed at Alexandria 2 (Egypt) to such an extent as to affect 
 nearly the whole population. 
 
 Dengue has been known under various popular names which it received 
 from the people of the particular localities where it appeared in epidemic 
 form. Even the designation, dengue, itself, by which the disease is at 
 present generally known to the medical profession of the leading civilized 
 nations, is of popular origin, 3 for it is supposed to be a Spanish corruption 
 of the word dandy, the name of dandy-fever having been jocosely con- 
 ferred on the disease by the negroes of St. Thomas from the stiff carriage 
 of those affected with it. At Zanzibar it received the popular name of 
 kiduiga pepo, signifying spasmodic pains. 
 
 DEFINITION. Dengue is a peculiar febrile disease, generally appear- 
 ing epidemically in tropical or semi-tropical regions, and characterized by 
 a single paroxysm with or without remissions, severe pains, and stiffness 
 in the joints and muscles, a peculiar exanthematous eruption, and almost 
 never terminating fatally. 
 
 SYMPTOMS, COURSE, AND DURATION/ Dengue never commences with 
 a decided chill, though in many cases the attack of the disease is pre- 
 ceded by a feeling of general uneasiness and depression, vertigo, and 
 headache, or even by a slight chilliness a condition which may last from 
 a few to twelve or even eighteen hours. In the majority of cases, how- 
 ever, the disease appears suddenly, very frequently at night, and an- 
 nounces itself at once by pains and a feeling of stiffness in the muscles, 
 joints, back, and loins ; in severe cases the pain may even extend to the 
 
 1 The papers of Drs. Holliday, Thomas, and Porcher were read before the American 
 Public Health Association at its annual meeting, December, 1880, and published in the 
 Proceeding* of the Association. Dr. Forrest's paper was published in the American 
 Journal of Med. Science, April, 1881. 
 
 2 A. Vernoni, " Le Dengue a Alexandrie d'Egypte en 1880," Gaz. hebd. de med. et de 
 chir., 41, 42 (reported in Virckow und Hirscli's Jakresbericht far das Jahr 1880, vol. ii. p. 5). 
 
 8 G. B. Wood, Practice of Medicine, 4th edit., vol. i. p. 444. 
 
 * Judging from the various accounts rendered by a considerable number of observers, it 
 appears that the clinical symptoms of dengue had been the same in all the different local- 
 ities on the globe where it has hitherto prevailed epidemically.
 
 SYMPTOMS, COURSE, AND DURATION. 881 
 
 bones. 1 The larger and smaller joints are equally affected, either simul- 
 taneously or successively, and frequently swollen, those of the hands and 
 feet generally before the others. The pain in the joints is increased by 
 motion, and is therefore justly regarded by most authors as rheumatic in 
 nature. The same may be said of the muscles. Sheriff even observed 
 redness of the skin covering the joints. According to the degree of 
 severity of the case these pains may be more or less intense. In some 
 cases hyperresthesia of the skin of the palms of the hands and of the soles 
 of the i'eet has been observed. 
 
 Simultaneously with the affection of the joints and muscles the fevei 
 commences ; its duration is from four to five days on the average, with 
 one or, in exceptional cases, even more remissions. The temperature of 
 the body during the first and second days of the fever rises to 102, 103, 
 or even to 105 F ; it then declines, to return to the normal standard on 
 the fifth day. According to the measurements made by the late Dr. 
 D'Aquin 2 of New Orleans, the temperature curves of dengue showed a 
 continuous and steady rise until the highest point was reached on the first, 
 second, or third day of the attack ; then comes a short stadium of a few 
 hours, and then a remission, soon to be followed by another rise of tem- 
 perature, which, however, never reaches the maximum point of the first. 
 The pulse rises with the temperature of the body, generally to from 80 to 
 120 beats a minute, and subsequently declines with the temperature. 
 Delirium is very rarely observed in adults, but frequently in children, 
 though without aggravation of the other symptoms. The face is gener- 
 ally flushed, the eyelids swollen, and the eyes injected and watery. The 
 tongue in the beginning of the disease is covered with a Avhite fur; its 
 edges are red and its body swollen. As the disease advances the coating 
 increases in thickness and assumes a dirty yellow color. The appetite is 
 lost, without excessive thirst. In many cases there is slight irritability 
 of the stomach, accompanied sometimes with nausea, though vomiting 
 rarely takes place. The condition of the bowels is variable. The urine 
 is small in- quantity, and highly colored in some cases, whilst in others it 
 has been reported to be pale and copious, and rich in phosphates in the 
 beginning of the disease ; it seldom shows any sediments and very rarely 
 contains albumen. The disease generally reaches its acme on the third or 
 fourth day, when the fever commences to subside, and an amelioration of 
 the other symptoms takes place, so that- the patient feels greatly relieved. 
 This, however, is only of short duration, for not many hours afterward 
 the fever rises again, while the other symptoms also increase in severity. 
 At this time an exanthematous eruption appears upon the upper part of 
 the body, the face, neck, breast, and shoulders, which in the course of two 
 days extends over the whole body. Simultaneously with the appearance 
 of the eruption the lymphatic glands of the back of the head and those 
 of the neck, axillre, and groins commence to swell ; in severe cases the 
 mucous membranes of the nose, mouth, and pharynx also become con- 
 gested. The eruption, which is attended with much heat, itching, or 
 even pain, is not uniform in character ; for while in some cases it may 
 
 1 M. Sheriff, "History of the Epidemic of Dengue in Madras in 1872," Med. Times and 
 Gazette, Nov. 15, p. 543*(reported in Virchow und Hirsch's JahresbericM far das.Tahr 1S73). 
 
 2 D. C. Holliday, " Dengtie or Dandy Fever," read before the Amer. Ptibl. Health 
 Assoc. at New Orleans, December, 1880. 
 
 VOL. I. 56
 
 882 DENGUE. 
 
 represent a simple rash or erythema, it resembles in others the erup- 
 tions of scarlatina, rubeola, lichen, or urticaria. Frequently it is very 
 light and evanescent, showing itself only for a few hours, and perhaps 
 in the majority of cases it does not appear at all. In the severer cases 
 it generally remains two days, when it commences to fade and dis- 
 appear with desquamation, while at the same time the fever subsides and 
 disappears entirely, though the stiffness and soreness in the joints and 
 muscles, together with the inflammatory condition of the superficial lym- 
 phatic glands, may persist for many weeks. In exceptional cases the 
 eruption, after an intermission of a few days, reappears, generally with 
 greater intensity and with an aggravation of the other symptoms. In 
 others, again, it has been observed to remain a whole week. 
 
 Hemorrhages from the nose and gums arc also occasionally observed. 
 Holliday even observed the occurrence of black vomit in the cases of 
 two female children, aged respectively six and twelve, in the same family, 
 who had suffered from yellow fever in 1878; they both recovered from 
 the attack of dengue, though they were extremely ill and much prostrated. 
 In female patients an attack of dengue not uufrequently causes the reap- 
 pearance of the menstrual flow, while the paiiis attending the disease 
 equally predispose to premature labor in pregnant women. 
 
 In severe cases of dengue the prostration following upon the subsidence 
 of the fever is very great, for the patient is affected with a general weak- 
 ness both of body and mind, indicating a great loss of nervous energy. 
 In some cases observed by Slaughter the memory for names and words, 
 as well as the ability for correctly writing even short sentences, was 
 lost for one or two weeks after the commencement of convalescence. 
 In children also cases are reported in which the mind remained affected 
 for a short time after the attack. The convalescence in dengue, therefore, 
 is comparatively slow, particularly as the pains in the muscles and joints, 
 as already mentioned, pass away only gradually. 
 
 The duration of the disease, including the stage of convalescence, of 
 course depends upon the degree of intensity of the attack, and accordingly 
 varies in different cases. In a great number of cases dengue manifests 
 itself only in its milder form. The average duration of the disease is 
 from three to six days. 
 
 PATHOLOGY. The pathological changes taking place in the different 
 organs during the course of dengue are unknown, on account of the 
 almost constantly favorable termination of the disease. From the peculiar 
 features of some of the clinical symptoms accompanying the disease, how- 
 ever, we may speculate to a certain extent upon the nature of the patho- 
 logical processes to which they are due. The sudden appearance of the 
 characteristic pains in the muscles and joints, but particularly those in the 
 head, neck, and loins, accompanied by a comparatively high fever, evi- 
 dently point to the presence of an infectious poison in the system, though 
 the question whether the noxious influence of this poison primarily affects 
 the blood or the nervous system will be difficult to answer. But, judging 
 from the early appearance of the pains, as well as from the physical and 
 mental depression of the patient, we may presume that the nervous sys- 
 tem is involved from the very beginning of the disease, and that the pains 
 depend upon a hypcraemic condition of the affected parts, probably caused 
 by a vaso-motor paralysis. The great resemblance of the painful affec-
 
 ETIOLOGY. 883 
 
 tion of the muscles and joints in dengue to that of acute articular 
 rheumatism kads to the supposition that the pathological condition in 
 these joints is the same in both diseases ; this view appears to be held by 
 the majority of medical observers. In dengue, as in rheumatism, the 
 pain due to the pressure of the hypersemic and swollen tissues upon the 
 irritated sensory nervous filaments is increased by motion a phenomenon 
 generally absent in neuralgia. The persistent headache, restlessness, and 
 want of sleep, as well as the delirium and loss of memory observed in the 
 severer cases, furthermore indicate a hypenemic condition not only of the 
 pia mater, but even of the brain-substance. 
 
 It is to be regretted that the literature of dengue within our reach 
 shows no record of a quantitative analysis of the urine, from which we 
 might have learned the quantity of urea secreted during the different 
 stages of the disease, and which might have enabled us to form some idea 
 of the extent of the destruction of the albuminous substances during the 
 febrile stage, though, judging from the high grade of fever observed in 
 the severer cases, we may well presume that the interchanges of matter are 
 considerably augmented during this stage ; while, on the other hand, the 
 great nervous prostration of the patient directly after the subsidence of 
 the fever, as well as the tardy convalescence, sufficiently shows that a large 
 part of this waste is derived from the nervous tissues. The exanthema- 
 tous eruption, representing a hyperaBmia, or even an inflammation, of the 
 skin, furthermore contributes to depress the nervous system by the pain 
 and itching which it causes. This eruption, together with the inflamma- 
 tion and swelling of the superficial lymphatic glands, we are inclined to 
 associate with the final elimination of the infectious poison from the 
 organism. 
 
 Very little also is definitely known about the condition of the remaining 
 organs, such as the kidneys, liver, and alimentary canal. The examina- 
 tions of the urine in dengue recorded in literature are very few in 
 number, aud appear too unreliable for drawing any definite conclusions 
 from them with regard to the condition of the kidneys. As albuminuria 
 is met with in other infectious diseases, it is not impossible that it has 
 also occurred in severe cases of dengue ; though from the favorable 
 termination of the disease it appears quite improbable that organic 
 changes take place in these organs. In the same way may the liver be 
 functionally deranged, or, judging from the destruction of matter during 
 the febrile stage, a slight fatty infiltration of the organ may even occur 
 conditions which are apt to pass away with the exciting cause. The 
 gastric irritability, whenever present, may be of nervous origin, though 
 the vomiting, and" particularly that of black hemorrhagic matters, observed 
 in exceptional cases, evidently depends upon a hypersemia of the stomach. 
 
 ETIOLOGY. There is nothing positively known of the origin of 
 dengue, but in perusing the accounts given by a number of medical 
 observers from the different localities of the globe where it prevailed, we 
 may presume that it existed in some parts of Asia and Africa long before 
 it appeared in Europe and America. Perhaps the earliest record of 
 den<nie is the one dating from Cadiz and Seville, and concerning the epi-
 
 884 DENGUE. 
 
 remembered that fifty years before the disease had prevailed in this place. 
 The Arabians living at this island also had known the disease in their 
 own country, while the inhabitants hailing from the East Indies had 
 never seen it. From the accounts of other writers we may presume that 
 dengue has been known in Arabia for many generations. But, leaving 
 aside its origin, it is authentically known that wherever dengue has 
 appeared it has almost always been in the form of an epidemic, spreading 
 from place to place and from family to family, without respect to race 
 or nationality, to age, occupation or position, until every one suscepti- 
 ble to the disease was aifected. Slaughter reports from India that even 
 domestic animals, especially dogs and cats, were not exempt, as they 
 appeared to suffer from rheumatoid affections of the joints. 
 
 Although toward the end of the last century dengue once prevailed epi- 
 demically in the temperate zone, at Philadelphia, it must nevertheless be 
 considered as a disease especially at home in the tropical and semi-tropical 
 regions, where it prefers to haunt low lands, particularly along the sea- 
 coast, leaving almost untouched more elevated places. Though nothing 
 definite is known about its special cause, its history and symptoms evi- 
 dently show that it is not only infectious, but also highly contagious, in 
 its nature, and in consequence must be caused by the entrance of a spe- 
 cific poison into the system. This view is held by the great majority of 
 physicians residing in the various localities of the globe where the disease 
 has prevailed. But, contagious as it may be, it greatly distinguishes itself 
 from other contagious diseases by almost never proving fatal. As dengue 
 generally prevails in the summer season and disappears with the approach 
 of cold and rainy weather, its cause is apparently subject to the influence 
 of certain meteorological conditions. 
 
 DIAGNOSIS. When dengue appears epidemically, it is distinguished 
 from other diseases without difficulty. The only disease with which it 
 might bo confounded when appearing in a sporadic form is acute articular 
 rheumatism. But even from this affection it may be distinguished in its 
 earlier stage by the pains not being limited to tlie joints, as is generally 
 the case in articular rheumatism, but being also present in the head, 
 back, and loins. Dengue is, moreover, characterized by a general 
 physical and mental nervous depression, while in rheumatism the mind 
 almost always remains clear. In the latter stage the peculiar eruption 
 and painful swelling of the superficial lymphatic glands in dengue decides 
 the question. 
 
 It has frequently been stated that dengue resembles yellow fever, and 
 some physicians have even regarded it as a mild form of this disease. In 
 examining attentively, however, the temperature of the patient during 
 the febrile stage, it will be found that while it steadily rises in yellow 
 fever, it is remittent in dengue. There is, furthermore, a difference 
 observed in the state of the pulse, which in yellow fever generally falls 
 on the third day, while the temperature continues to rise ; in dengue, on 
 the contrary, the pulse rises with the temperature. In the condition of 
 the stomach also dengue considerably differs from yellow fever, for while 
 in the latter disease this organ is almost always irritable, and vomiting 
 is very frequently present, it is but rarely affected in dengue. The urine 
 in yellow fever very frequently contains albumen as soon as the third 
 day ; in dengue, almost never, so far as the analyses recorded enable us
 
 PROGNOSIS. TREATMENT. 885 
 
 to judge. Finally, the absence of jaundice and the appearance of the erup- 
 tion on the fourth or fifth day remove all doubt about the nature of the 
 disease. There are a number of other points by which dengue may be dis- 
 tinguished from yellow fever, which we, however, forbear to enumerate, 
 for the reason that those already mentioned wall suffice for a correct dif- 
 ferential diagnosis. 
 
 PROGNOSIS. Dengue, as has been stated before, scarcely ever termi- 
 nates fatally unless it is complicated by some iutercurrent disease. The 
 prognosis, therefore, is highly favorable. 
 
 TREATMENT. Nearly all authors recommend a symptomatic treatment 
 in dengue, beginning with a mild cathartic, mercurial or not, and followed 
 by a mild diaphoretic. To relieve pain and procure sleep opium either 
 uucombined or in the form of Dover's powder belladonna, camphor, 
 assafoetida, valerian, etc. have been recommended by different physicians ; 
 liniments containing camphor or chloroform have also been used with 
 advantage for the same purpose. Foot-baths have been recommended to 
 relieve the headache. To relieve the stiffness of the muscles and the 
 articular pains after the subsidence of the fever iodide of potassium 
 appears to be a favorite remedy in the East. Colchicum combined with 
 aconite is also recommended for this purpose, as well as artificial sulphur 
 baths and massage. The nervous depression during convalescence is to 
 be combated with tonics and with regulation of the diet. Quinia appears 
 to be generally discarded as a remedy in dengue.
 
 RABIES AND HYDROPHOBIA. 
 
 BY JAMES LAW, F.KC.V.S. 
 
 SYNONYMS. Canine Madness, Rabidus Canis, Canis Rabiosa. Greek, 
 Lyssa, Lytta, Lyssa Canina, Cynolyssa, Hydrophobia, Pantephobia, 
 JErophobia, Phobodipsia, Erethisiuus Hydrophobia, Clouos Hydropho- 
 bia, Dyscataposis. French, Tetanus Rabien, La Rage, Toxicose Rabique. 
 German, Wuth, Hundswuth, Tolhvuth, Wuthkraukheit, Hundtollheit. 
 Italian, Rabbia, Arabiata. Spanish, Rabia, Rabiosa. Swedish, Hunds- 
 juka. Roumanian, Turbarea. 
 
 DEFINITION. Canine madness is an acute infectious disease, supposed 
 to arise spontaneously in the genus Cauis (dog, wolf, fox, etc.) and Felis 
 (cat, etc.), but transmissible by inoculation to the other Mammalia and to 
 birds. It is characterized by a long period of incubation, by exaggerated 
 reflex excitability, by disorder of the intellectual, emotional, and other 
 nervous functions, by change of habits, by extreme irritability of temper, 
 by optical and other delusions, by spasms of the muscles of the eyeballs 
 and throat, by paralysis, and by more or less fever. The disease runs a 
 short and almost without exception fatal course. 
 
 HISTORY. Plutarch claims that hydrophobia was first recognized by 
 the Asclepiadre, and Homer's allusions to the malign dog-star and to 
 Hector's acting like a raging dog have been quoted as implying a know- 
 ledge of rabies. We find no certain reference to the affection, however, 
 until we come to Democritus and Aristotle, in the fourth century B. c. 
 The latter clearly describes the disease and uses the name lytta, but, sin- 
 gularly enough, claims for man an exemption from the general suscepti- 
 bility to the infection by inoculation. 1 From that date to this the suc- 
 cessive outbreaks, sufficiently noteworthy to secure a place in history, are 
 so numerous and widespread as to show a continuous prevalence of the 
 malady in the Old World, and, since the early part of the eighteenth cen- 
 tury, in the New. 
 
 GEOGRAPHICAL, DISTRIBUTION. Rabies is more prevalent in tem- 
 perate regions than in the tropics and Arctic Circle, but this is common to 
 all animal plagues propagated solely or mainly by contagion, and is mani- 
 festly due chiefly to the density of population, the activity of commerce, 
 and the free movement of men and animals in the temperate zone. That 
 a hot or cold climate is incompatible with rabies is disproved by its preva- 
 lence under the tropics in Southern China, India, Abyssinia, the West 
 Indies, Peru, Chili, and Brazil, and in the Arctic Circle in Northern 
 Greenland, Lapland, Siberia, and Kamtchatka. On the other hand, many 
 
 1 Hisloria Animalium, lib. viii. cap. 22. 
 886
 
 ETIOLOGY. 887 
 
 islands and secluded regions in the temperate zones maintain a continued 
 immunity or have been invaded only recently by the introduction of 
 infected clogs. We may instance the Hebrides, Australia, Tasmania, New 
 Zealand, South Africa, West Africa, the Azores, St. Helena, and, until the 
 last half century, La Plata, Malta, and Hong-Kong. The disease is well 
 known throughput North Africa, Arabia, Syria, Turkey, and Asia gener- 
 ally, in Ceylon and other of the East Indian islands. It is also notorious 
 that even when unusually prevalent its progress is often abruptly arrested 
 by a considerable river, and Schrader and Virchow both notice that 
 though it ravaged both banks of a river, yet the islands in the river 
 escaped, as was notorious of the islands in the Elbe during the great 
 Hamburg epizootic in 1852-53. While, therefore, rabies prevails most 
 extensively in the more civilized countries and in large cities, yet we can 
 point to no geographical area in which ,the contagion has failed to spread 
 among those bitten by rabid animals, nor to any locality in which the 
 disease has been shown to arise spontaneously from unwholesome condi- 
 tions of climate, soil, or general environment. 
 
 ETIOLOGY. We know of but one efficient cause of rabies namely, 
 infection. Yet as many conditions are believed to favor its extension, or 
 even to determine its spontaneous eruption, it is necessary to speak of 
 them shortly. 
 
 As shown above, climate cannot be charged with the generation nor 
 diffusion of rabies. Many countries formerly thought exempt are now 
 known to suffer. The following may be named : The East and West 
 Indies, Syria, Egypt, Cyprus, Siberia, the lands north of the Baltic, and 
 South America. Others manifestly maintain their exernptiou only 
 because the morbid germ has not yet been introduced. 
 
 Certain seasons undeniably show a far wider extension of the disease 
 than others, but such epizootics are not limited to a particular season or 
 year, and, unless cut short by human intervention, cover a succession of 
 years of the most varied climatic character, spare inaccessible or secluded 
 islands in the very centre of the outbreak, and the cycles of prevalence 
 will succeed each other, in place, of occurring simultaneously, in closely 
 adjacent countries subject to the same climatic vicissitudes, but separated 
 by narrow seas. Even a broad river destitute of bridges usually abruptly 
 arrests an epizootic, and protects the laud beyond lying under precisely 
 the same general influences. In this connection may be quoted the recent 
 great epizootic of 1856-72 in England, which succeeded, but did not 
 accompany, that of 1851-56 in Germany. Prof. Roll reports the extra- 
 ordinary prevalence of rabies at Vienna in 1814, 1815, 1830, 1838, 
 1842, and 1862 years remarkable for diversity rather than uniformity 
 of climatic characters. 
 
 Popular opinion refers rabies to the extreme heats of summer, and each 
 year dogs are muzzled or otherwise confined by order of municipal author- 
 ities during the dog days, though left at liberty throughout the rest of 
 the year. In 1780, Audry observed that the coldest and hottest months 
 furnished the least number of cases, and later Hurtrel D'Arboval claimed 
 that in France dogs suffered most in May and September, and wolves in 
 March and April. Bouley claims that the majority of dogs suffer in 
 March, April, and May. The following statistics are interesting in this 
 connection :
 
 888 RABIES AND HYDROPHOBIA. 
 
 Cases of Rabies in 
 "\VIXTER. SPRING. SUMMER. AUTUMN. 
 
 Dec., Jan., Feb. March, April, May. June, July, Aug. Sept., Oct., Nov. 
 
 Dogs 755 857 788 696 (Bouley). 
 
 Men 17 25 42 13 (Boiulin). 
 
 The increase of cases of rabies caiiina in the spring and summer 
 mouths, as shown by the above statistics (7-15 per cent.), cannot reason- 
 ably be attributed to the influence of the weather, since even the strongest 
 advocates for spontaneity would at once decline to claim any such ratio 
 of spontaneous developments. The increase must therefore be mainly, 
 if not altogether, due to the increased number of inoculations; and these 
 latter are provided for in the jealousies and quarrels in the troops of 
 males that follow each rutting bitch in spring, the principal period of 
 oestrum in the canine female. The infection spread in this way in 
 early spring tends to remain more prevalent throughout the hot summer 
 months. 
 
 With regard to the greatly enhanced mortality in man during the 
 summer mouths, as shown in Boudin's statistics for France, in the 
 absence of any genuine hydrophobia in man apart from inoculation 
 from a rabid animal, it may be attributed to three principal causes : 
 1st. The bites sustained from rabid dogs in spring and early summer, 
 when the disease is most widely spread among these animals, will give 
 rise to hydrophobia weeks or months later. 2d. In the warm season 
 the body is more thinly clad and the hands and other portions are more 
 frequently left bare, so that the teeth are less likely to be cleansed of the 
 virulent saliva by passing through the clothes before entering the skin. 
 3d. The languor, fever, and nervousness attendant on extreme heat tend 
 not only to hasten the activity of any disease-germs actually present in 
 the system, but also strongly favor the increase of that nervous fear 
 which so often generates a fatal pseudo-hydrophobia (lyssophobia) in 
 persons that have been bitten by dogs. 
 
 Hunger, thirst, and spoiled food are invoked as causes of rabies, yet in 
 the East, where the dogs are the scavengers of the cities and often suffer 
 severely from hunger and thirst, eat the most offensive carrion, and 
 drink the foulest water, the disease has a very restricted prevalence, 
 while in South Africa and Australia the outcast and sheep-dogs, often 
 the victims of starvation and thirst, entirely escape. Bourgelat, Dupuy- 
 tren, Majendie, Breschet, and others have cruelly destroyed dogs by pri- 
 vation of food and water and by exposure under a broiling sun, but no 
 rabies, nor anything resembling it, was produced. Dogs perspire little 
 and suffer severely from heat, but there is no evidence that this can 
 develop canine madness. It is claimed that Rossi of Turin developed 
 rabies in cats by withholding food and drink, but, as he furnishes no 
 inoculation-tests confirmatory of its virulence, the claim cannot be 
 endorsed. Experiments with an exclusive diet of salt meat, putrid 
 meat, and water only have failed to produce rabies. 
 
 The large preponderance of male dogs attacked with rabies has been 
 constantly remarked by writers. Of 1990 rabid dogs reported by differ- 
 ent authors, 1746 were males and 244 females a ratio of more than 7 
 to 1. This excess of males attacked is much higher than the ratio of 
 males in the dogs of the districts drawn upon. Thus, Bourrel found a
 
 ETIOLOGY. 889 
 
 ratio of 6 rabid males to 1 rabid female, while in his patients generally 
 the proportion was 4 to 1. Leblanc found that 14 per cent, of the male 
 dogs went mad, while but 1 per cent, of the females suffered. That sex 
 is no protection against inoculated virus is shown by the frequent inocula- 
 tion of castrated dogs of both sexes. The excess of male subjects may 
 be attributed mainly to the frequency with which these bite each other 
 when following a female in heat, and the respect of all alike for the 
 latter sex. Even in the rabid dog the sexual instinct rises above the 
 propensity to bite in the early stages of the malady. 
 
 Toffoli claims that he has caused spontaneous rabies by shutting up seve- 
 ral dogs in a loose box with a bitch in heat and allowing them to fight for 
 the prize. Weber and Leblanc have noticed similar occurrences. But 
 Greve and Menecier have repeated the experiments with a contrary 
 result ; so that it remains probable that when successful the victims had 
 already been inoculated before they were shut up. Moreover, the seclu- 
 sion of male canine animals for a lifetime in menagerie cages, often 
 adjoining those of their corresponding females, has never been known 
 to induce rabies. 
 
 The bite of the violently enraged dog, and the bites mutually given 
 when following a rutting bitch, are popularly supposed to cause rabies ; 
 but if this were the case, the disease must have been universally preva- 
 lent. The idea that the bite of a dog will cause hydrophobia should that 
 dog at any subsequent period go mad is a similar delusion. Men doubtless 
 occasionally develop lyssophobia under such an influence, but animals do 
 not contract genuine rabies. 
 
 Dogs are alleged to have gone mad from violent suffering after an 
 operation, and cats from being scalded or robbed of their kittens, but all 
 such causes are continually operating without such effect, and when in a 
 solitary case rabies develops, it can only be looked on as a coincidence. 
 
 Much popular prejudice exists against certain breeds, and the Pome- 
 ranian has been virtually ostracised on account of its supposed liability 
 to rabies; but statistics show that the liability to contract the affection 
 bears a relation to the exposure rather than the special breed. Eckel, 
 Pillwax, and Hertwig found that dogs kept as house- or Avatch-dogs, and 
 most pampered and confined, are the most liable, while St. Cyr and 
 Peuch found the greatest number of cases among those runnuiug at large 
 and allowed the freest exercise. 
 
 There is a popular belief that the bite of the skunk (Mephitis mephitica) 
 is always rabi fie. Rev. H. C. Hovey describes a number of cases of infection 
 from this animal, 1 and John G. Janeway has reported other instances. 2 Both 
 claim that the disease is spontaneous in the skunk, and Mr. Hovey holds, on 
 very insufficient grounds, that the affection is a distinct variety of rabies 
 (rabies mephitica). The facts seem to warrant only the conclusion that 
 skunks in certain districts of Michigan and Kansas have had rabies com- 
 municated to them, and follow the rabid impulse to bite other animals and 
 men. The Mephitime abound in the Eastern States, but we never hear 
 of them stealing up and biting men or dogs, nor of the latter contracting 
 rabies from skunk-bite. Eastern dogs frequently kill skunks and sustain 
 bites, but do not thereby contract rabies. Even in Kansas this evil 
 
 1 Amer. Jour, of Science and Art, May, 1874. 
 
 2 A T ew York Medico] Record, March 13, 1875.
 
 890 EABIES AND HYDROPHOBIA. 
 
 influence of the skunk-bite was unknown until 1870, showing that it is 
 not inherent in the climate nor soil, but has been presumably imported. 
 The spontaneity of the affection is assumed, not proved. 
 
 In the above epitome of alleged causes we find nothing proving the 
 spontaneous evolution of rabies. The prevalence of the affection in 
 wolves, foxes, jackals, cats, skunks, etc. proves nothing for spontaneity, 
 more than its existence in the dog." In all these species of animals the 
 malady develops the dread propensity to bite, and thus in all alike pro-' 
 vision is made for the perpetuation and propagation of the malady. 
 Unless a previous attack by a rabid animal has been observed, owners 
 usually insist that their dogs have contracted the malady spontaneously, 
 yet a rigid scrutiny will almost always reveal a strong probability, at least, 
 of inoculation. The rabid dog wanders far from home, and sometimes 
 accomplishes wonderful feats of leaping to reach his victim, so that his 
 presence in a district is not even suspected, and animals thought to be 
 safely secluded inside high walls suffer from his fangs. He is more 
 inclined to bite and rush on than to stay and devour, and thus small 
 animals, like the skunk, when bitten may survive to propagate the disease 
 in places to which a dog could not possibly find access. Much circum- 
 stantial evidence makes strongly against the theory of spontaneity. Thus, 
 the immunity of the islands of the Elbe in the very midst of a severe 
 and protracted epizo5tic, the continued immunity of the Hebrides and 
 of Malta, each famed for its indigenous race of dogs, for long centuries, 
 during which the malady prevailed at frequent intervals on the adjacent 
 mainlands, and the continued exemption of South Africa and of the 
 Australasian and other islands, in the face of the counter-fact that the 
 affection persisted after importation in the West Indies and South 
 America, speak strongly for the doctrine that the introduction of a pre- 
 existing germ is an essential condition of the evolution of the disease. 
 The following statistics of cases which entered the Berlin Veterinary 
 College furnish further corroborative evidence. There entered the college, 
 
 In 9 years, 1845-53, inclusive, 278 rabid dogs. 
 " 1854 4 " 
 
 " 1855 1 " dog. 
 
 " 1856 1 " " 
 
 " 5 years, 1857-61, inclusive, " " 
 
 The average for each of the first nine years was a fraction less than 31. 
 In the two last of the nine the cases rose to 68 and 82, and this led early 
 in 1854 to an order for the muzzling of all dogs, which was rigidly 
 enforced by the police. The disease was promptly suppressed, the two 
 cases in the two succeeding years being probably due to infected kennels 
 or to importation from without. The results in Eldena (Fuertenberg) 
 and Holland (Van Capelle) are equally conclusive. The inefficiency of 
 some orders for the muzzling of dogs makes nothing against these facts. 
 A law on the statute-book is not always a law in force, as I saw in 
 Alfort and Lyons in 18G3; the dogs wore their muzzles only in honor 
 of the periodic visits of the commiionuaire of police, and rabies pre- 
 vailed. 
 
 Tlie great majority of competent observers of to-day deny, or at least 
 strongly doubt, the occurrence of the disease apart from inoculation. 
 Without assuming to decide the question for all times and places, it may
 
 ETIOLOGY. 891 
 
 be safely asserted that there is no sufficient proof of such an occurrence 
 in any recent time. 1 
 
 The contagion of rabies is usually resident in the saliva, but is by no 
 means confined to that product. Paul Bert found the bronchial mucus 
 virulent in dogs in which the saliva was non-virulent. The flesh has 
 conveyed the disease when eaten, though probably only because of sores 
 or abrasions on the alimentary tract. Smith records the death of negroes 
 in Peru from eating rabid cows ; 2 Schenkius, that of persons who ate of 
 a rabid pig ; aud Gohier and Lafosse have infected dogs by feeding the 
 flesh of rabid dogs and ruminants ; Rossi and Hertwig have separately 
 induced rabies by inoculating sound animals with portions of nerves from 
 raoid ones. No absolute proof can be adduced that the disease has been 
 conveyed through consumption of the milk. Cases quoted to show its 
 virulence are open to the objection that the dam probably licked the 
 offspring. A similar uncertainty attaches to the spermatic fluid. Women 
 are alleged to have acquired hydrophobia by coitus, but no such case can 
 be adduced among animals, though rabid males have often had connection 
 with healthy females. The .alleged cases in women were therefore 
 probably the result of an excited imagination or caused by virus intro- 
 duced through some other channel. The breath and perspiration seem 
 incapable of becoming media for the transmission of the disease. The 
 blood was supposed to be non-virulent by Breschet, Majeudie, Dupuytren, 
 Elaine, Youatt, etc., but has been shown by Eckel and Lafosse to be 
 rabific. Eckel successfully inoculated the blood of a rabid he-goat on a 
 sheep and that of a rabid man on a dog. Lafosse accomplished the same 
 in one of three attempts by inoculation from dog to dog. The blood is 
 probably only virulent in the advanced stages of the disease, and its 
 virulence implies the virulence of all vascular tissues. 
 
 The saliva of rabid Herbivora and Omnivora, long held to be harm- 
 less, is now known to be virulent. Berudt has successfully inoculated it 
 from an ox to four sheep ; Eckel from a goat to a sheep ; Rey from sheep 
 to sheep ; Lessona from an ox to two horses and a sheep ; Tombaro from 
 a heifer to a sheep, a horse, and two dogs ; Youatt from horse and ox 
 respectively to dogs ; Ashburner from an ox to fowls ; King from a cow 
 to fowls ; and Majendie, Breschet, Eckel, Hertwig, and Renault from 
 man to dog ; and Earle from man to rabbits. Besides these are a series 
 of accidental cases, as from horse to man (Youatt), from a sheep to its 
 shepherd (Tardieu), and from man to man (Aureliauus, Euaux, Chaussier). 
 
 Experiments by Hertwig and Eckel seem to show that saliva loses its 
 virulence on the supervention of cadaveric rigidity or putrefaction in the 
 dead body. Haubner even believed dried saliva to be innocuous. Yet 
 Count Salm successfully inoculated the dried saliva of a rabid dog, and 
 Schenkius reports a case of hydrophobia produced by a scratch of a 
 hunting-knife that had been used to kill a mad dog some years before. 
 A veterinary student at Copenhagen cut his finger while dissecting 
 
 1 Mr. SAze, a former student, informed me that boys in Japan produce what is believed 
 to be canine rabies by administering to dogs a fungus (bukgryo) found growing on a con- 
 iferous tree. The dogs do not all seem to die, but are usually killed by way of_ precau- 
 tion. The symptoms are those of delirium, with a propensity to bite, and the disease is 
 assumed to be communicable, though no facts are given to show that it is so. This 
 popular fancy has all the air of a popular fallacy, but as the counterfeit attests the 
 genuine, it sliows the familiarity of the Japanese with true rabies. 2 Peru as it Is.
 
 892 RABIES AND HYDROPHOBIA. 
 
 the body of a rabid dog twelve hours after death, and died of hydro- 
 phobia six weeks later. These cases in man may, it is true, have resulted 
 from fear, but the same cannot be said of the infection of hound after 
 hound placed in empty infected kennels, as recorded by Blaine, Youatt, 
 and others. In the face of this it would require very strong negative 
 testimony, indeed, to prove that the virus of rabies is devitalized in 
 drying a process which prolongs the vitality of other virulent matters. 
 
 Up to the present time the germ of rabies has not been demonstrated. 
 That it is a particulate living organism may be reasonably deduced from 
 its power of indefinite increase a quality possessed by no mere chemical 
 nor mechanical agent, also from the saliva proving non-virulent after fil- 
 tration through plaster, while the solid residue left on the filter was viru- 
 lent (Bert). But, although bacteria have been found in the saliva, those 
 demonstrated up to the present are manifestly ordinary aerial bacteria, 
 such as in Pasteur's experiments produced septicaemia rather than rabies. 
 It still remains, therefore, for some future observer to discover that germ 
 of which we cannot doubt the existence. 
 
 The point of election of this germ appears to be mainly the nervous 
 tissue. Pasteur found the brain-matter of rabid animals invariably 
 infectious, and has preserved the moist brain in an infecting condition for 
 three weeks at a temperature of 12 C. He found that by direct inocula- 
 tion in the brain-substance the period of incubation was abridged, rabies 
 often showing itself in six, eight, or ten days. In the face of Rossi's 
 successful inoculation of nerves and Pasteur's results with brain-matter it 
 is difficult to account for the unsuccessful inoculation of nerve-tissue in 
 six successive experiments by Hertwig. It seems to show that though 
 the virus is concentrated in the brain, and especially in the medulla and 
 pons, yet it does not equally permeate the entire nervous system. This 
 election of the poison for the nervous tissue led IJr. Douboue in 1851 to 
 advance the theory that it is propagated from the seat of inoculation to the 
 brain through the medium of the nerves a position now assumed by Pas- 
 teur. This, we fear, is not well founded. The poison, advancing for a month 
 or more along the lines of the nerves, would probably derange and abolish 
 their functions, as it does so speedily and effectually that of the nerve- 
 centres after it has gained a seat in them, whereas, in reality, the local 
 paralysis only appears in the last stages and after the symptoms of cere- 
 bral disorder are well established. Futhermore, a common premonitory 
 symptom of rabies is congestion, swelling, and irritation of the inoculation 
 wound, showing a sudden extraordinary activity at that point as a herald, 
 if not a condition, of the general infection, whereas under a S!OAV propa- 
 gation along the nerves from the first this irritation would probably have 
 been greatest in the wound at the outset, and would have thereafter kept 
 pace with the progress of the virus along the nerves. Again, the blood 
 is not always infecting. Blaine, Youatt, and others of the older observers 
 had no fear of the blood. Hertwig obtained rabies in two cases only out 
 of eleven inoculations with the blood of rabid subjects. The blood in 
 this, as in some other diseases (variola equina, v. ovina, lung plague of 
 cattle), proves to a certain extent inimical and destructive to the poison. 
 Galtier inoculated nine sheep and one goat by intravenous injection of the 
 saliva of mad dogs, in no case with fatal results nor indeed with any 
 manifestation of rabies, but with the effect of fortifying the system so,
 
 ETIOLOGY. 893 
 
 that subsequent inoculation into the tissues of the saliva of rabid animals 
 was harmless. Test inoculations made in the tissues of other animals 
 with the same virus used in his intravenous injections, and his subsequent 
 inoculations of the animals so treated, invariably determined rabies. 
 Pasteur repeated these intravenous injections in dogs with the result of 
 rapidly inducing rabies iu a fair proportion of cases. One of his cases 
 produced in this way recovered, and thenceforward resisted all further 
 inoculation with the virus. Others that did not perish from intravenous 
 injection afterward died of rabies after inoculation in the brain. Unfortu- 
 nately, neither G aider nor Pasteur have reported how much virulent 
 saliva was injected in any one case, so that we have no data as to whe- 
 ther the difference was due to the varying quantity of the virus intro- 
 duced in the various cases. Lussana, an Italian physician, had already in 
 1878 experimented on two dogs by injecting into their veins the blood of 
 a physician who died of hydrophobia. The blood Avas drawn by leeches 
 and cupping-glasses, and five grammes were injected into each dog. One 
 died on the twenty-fourth day, presenting the symptoms and post-mortem 
 appearances of rabies. The second at the end of one hundred and forty 
 days developed symptoms of rabies which lasted a month, when the ani- 
 mal was sacrificed, and nothing special found at the autopsy. The data 
 do not warrant a very positive conclusion, yet they seem to imply that 
 the receptivity on the part of the dog is greater than that of the small 
 ruminants. They suggest, further, a greater relative potency in the battle 
 for life of the blood-globules of the small ruminants with this unknown 
 rabific germ. This antagonism between the blood of the ruminant and the 
 germ of rabies finds a parallel in the case of other disease-poisons in their 
 relations to the nuclei of the tissues. Thus animals may prove refractory 
 to a small dose of the poison of anthrax, yet Chauveau has shown that this 
 virus will overcome all native or acquired insusceptibility when adminis- 
 tered in excess. The same is true of the poison of chicken cholera, which 
 Salmon dilutes until it is non-fatal, though still affecting the system and 
 conferring an immunity from its attacks in the future. So with the lymph 
 of variola ovina, which Peuch diluted to -fa and injected with the effect 
 of producing slight fever and immunity without vesiculation. 
 
 This view would imply that in ordinary cases (inoculation with a mod- 
 erate amount of the poison) the virus is for a time localized in the vicinity 
 of the wound ; and. this is further supported by the fact that thorough 
 excision and cauterization of the wound some time after it has been 
 received is still often protective. It is weakened by the fact that bites of 
 dogs in the stage of incubation sometimes produce rabies, but it must be 
 borne in mind that there is still a period between the passage of the liv- 
 ing germ to the salivary glands and brain and the growth of the germ 
 in the nerve-centres, so as to produce pathognomonic symptoms, during 
 which both blood and saliva must be virulent. 
 
 The ratio of successful inoculations to the bites is very varied. Thus, 
 out of 555 dogs reported to have been bitten by rabid dogs, 188 con- 
 tracted rabies ; out of 183 experimentally exposed till bitten or inoculated, 
 91 became mad ; out of 73 cattle bitten, 45 became rabid ; out of 121 sheep 
 bitten, 51 succumbed; and of 890 persons bitten, 428 took hydrophobia 
 (48 per cent.). Of 440 bitten by rabid wolves, 291, or 66 per cent., took 
 the disease. Such statistics are, however, far from satisfactory. Of dogs
 
 894 RABIES AND HYDROPHOBIA. 
 
 reported mad, some have only suffered from epilepsy, convulsions, or colic, 
 while of those bitten by the really mad dog, some have sustained simple 
 bruises without any real abrasion ; in other cases the teeth have been 
 wiped clean by passing through thick wool, hair, or clothing, or even the 
 flesh of other animals just bitten ; in other cases the bite has been inflicted 
 at a time when the virulence of the saliva was at its minimum, or in a 
 subject which was naturally insusceptible. The protective effect of cloth- 
 ing was well illustrated in a case which came under my notice in London. 
 Six animals bitten by a rabid dog all contracted mbies, whilst a man bitten 
 a few hours before through the coat-sleeve, and who did not have the 
 wound cauterized for a full hour after the bite, escaped. Bouley found 
 that in 32 persons bitten in the face, 29 died of rabies (90 per cent.) ; of 
 73 bitten on the hands, 46 died (63 per cent.) ; of 28 bitten on the arms, 
 8 died (28 per cent.) ; of 24 bitten on the lower limbs, 7 died (29 per 
 cent.); of 19 bitten on the body (usually multiple wounds), 12 died (63 
 per cent.). The high mortaltty from the bites of rabid wolves and 
 skunks is mainly due to this habit of attacking the face and hands. As 
 illustrative of insusceptibility may be quoted the poodle of Hertwig, 
 which was inoculated nine times with unquestionably rabic virus without 
 effect; also the pointer of Rey, which was seventeen times bitten by rabid 
 dogs without harm ; also the acquired immunity of Galtier's sheep and 
 rabbits, above referred to. 
 
 INCUBATION. In the dog this varies from 6 days (Pasteur) to 240 
 days (Bellinger). In the majority of cases it ends in from 20 to 50 days. 
 Pasteur, by inoculating into the brain substance direct, reduced the incu- 
 bation from 20 days to 6 days. In the horse the limits of reported cases 
 are from 15 days to 92 days. In the ox incubation varies from 20 to 
 30 days ; in sheep, from 20 to 74 days ; and in swine, from 20 to 49 
 days in recorded cases. 
 
 In man incubation is believed to be often much more prolonged. In 
 6 per cent, of all cases it is from 3 to 18 days ; in 60 per cent., from 18 
 to 64 days ; and in 34 per cent, it exceeds 64 days (Hamilton, Thamhayn). 
 Quite frequently symptoms of hydrophobia appear from three to six 
 mouths after the bite ; in a few the period is prolonged to one or two 
 years, and in rare instances to seven (Schule), and even twelve years 
 (Chabert). But all such cases of prolonged incubation in man are at the 
 least extremely doubtful. Man often contracts a pseudo-hydrophobia as 
 the result of fear, and is curable by moral suasion -alone ; and as no such 
 protracted incubations are noticed in the lower animals, and as no one of 
 these abnormally deferred attacks in man has been verified by successful 
 inoculation on animals, it is prudent to reserve a full assent until they are 
 supported by better testimony. A specimen of such cases is that recorded 
 by Chirac, in which a cadet bitten at Montpellier afterward spent ten 
 years in Holland, and then, returning and hearing that his fellow-cadet 
 bitten by the same dog had died of hydrophobia, he also manifested the 
 disease and died. Another is the case of a man who, after having been 
 bitten, spent two years in prison, and then developed hydrophobia and 
 died. A mind naturally erratic and rendered weaker and more suscepti- 
 ble by prolonged confinement would prey upon itself and exaggerate the 
 danger when the subject had been forcibly presented. In all such cases 
 the attending physician should feel bound in the interests of humanity to
 
 SYMPTOMATOLOGY. 895 
 
 inoculate a dog or other animal and ascertain whether or not the disease 
 is virulent. The value of such results in dealing with future cases of 
 the same kind cannot be overestimated. 
 
 The period of incubation appears to be relatively shorter in the young 
 (average 45 days) than the old (average 70 days), and is believed to be 
 shortened by constitutional excitement from violent passion, fever, the 
 heat of the weather, or electrical disturbances. 
 
 During incubation no sign of the disease can be detected ; it is even 
 said that the wounds heal with unusual rapidity ; but it is certain that 
 toward the end of the latency the cicatrix, alike in man and animals, 
 tends^to become sensitive, itchy, congested, and even the seat of papular 
 eruptions. The vesicles (lyssi) which, according to Xanthos, Marochetti, 
 and Magistel, appear near the opening of the sublingnal glands within a 
 few days (6 to 20) after inoculation, have not been found by any recent 
 observer. 
 
 SYMPTOMATOLOGY. Three forms of rabies in the dog are recogniml 
 the furious, the paralytic, and the lethargic. The prodromata are, how- 
 ever, the same in all, so that these may be conveniently considered before 
 the different types are noticed. 
 
 The premonitory symptoms are by far the most important, as if these 
 are recognized the dog may be safely secluded or destroyed before there 
 is any disposition to bite. Any sudden change in a dog's habits or 
 instincts is ground for suspicion. Boulcy well says that a sick dog is 
 always to be suspected. In some cases there is unusual dulness and apathy, 
 in others great restlessnes, watchfulness, and nervousness. A morbid 
 appetite, in house-dogs a tendency to pick up and swallow straws, thread, 
 paper, pins, and other objects, or to devour their own dung and urine, is 
 highly characteristic. A desire to lick cold smooth objects, as a stone, a 
 boot, a piece of metal, or the nose of another dog, is often seen. Smell- 
 ing and licking the anus or generative organs of another dog and the 
 exhibition of sexual desire are frequent manifestations. An increased 
 fondness for the owner, shown by fawning and licking, is occasionally 
 seen, though more commonly there is a change from a formerly amiable 
 temper to a morose, sullen, retiring, and resentful disposition. If a 
 naturally quiet dog flies into a violent passion at the sight of another dog 
 or a cat, and attempts to bite it, he should be carefully watched. If a 
 social dog seeks seclusion and darkness, or if while crouching and shrink- 
 ing from a blow (hypercesthesia) lie yet bears it without howl or whine, 
 he is to be strongly suspected. Barking without object, constant moving, 
 searching, and scraping, a disposition to tear wood, clothing, etc. to pieces, 
 and, above all, an absence from home for a day or tAvo, should beget 
 grave apprehensions. The rabid bark or howl which is often heard early 
 in the disease is hoarse, low, and muffled, partaking of the nature of both 
 bark and howl, the first running into the second, and consists of one loud 
 howl followed by three or four others progressively diminished in force 
 and uttered without closing the mouth. Some rub the. chaps with the 
 forepaws as if to dislodge an offending body from the mouth ; others 
 reject bloody matter by vomiting ; and others turn the head and eyes as 
 if following imaginary objects, and snap at them. Finally, a tendency to 
 bite, rub, or gnaw the wound is significant, and usually draws attention 
 to the fact that the wound, long healed, is still red, sensitive, and swollen,
 
 896 RABIES AND HYDROPHOBIA. 
 
 or even papular. The conjunctiva are usually congested, there is an 
 increased nasal defluxion, and the skin of the forehead and over the eyes 
 is drawn into wrinkles. This stage lasts from a half to two or three 
 days. 
 
 Following one or more of the above symptoms, paroxysms of wicked 
 fury come on, alternating still with periods of quiet, in which prodro- 
 mata only are observed. The red congested eyes assume a fixed stare, 
 often squint or roll as if following an imaginary object, at which the dog 
 presently snaps. A paroxysm is ilshered in by increasing uneasiness, 
 frequent change of position, and a desire to escape, shown in rushing at 
 the door, tugging at the chain, or gnawing the post and walls of the 
 kennel. The tendency to bite and gnaw is further shown by seizing the 
 straw or tearing to pieces wooden and other articles within reach, or even 
 by the victim lacerating its own body. 
 
 The rabid howl becomes more frequent, and the rage and disposition to 
 bite strange animals and persons merge into a mischievous desire to 
 worry all that come in the way, the respect for former companions and 
 friends being steadily lost as the paroxysm increases in violence. Yet 
 for a considerable time the voice of a loved master recalls the suffering 
 animal to some degree of self-control. If free to escape during such 
 paroxysms, the dog expends his excitement in wandering, making long 
 journeys of five, ten, or twenty miles, and flying at every animal or man he 
 meets, especially if they increase his excitement by any noise or outcry. If 
 the victim escapes destruction during one of these wanderings, he returns 
 during a lucid interval exceedingly dangerous, for, though he may recog- 
 nize or even fawn upon his friends, yet the demon of mischief is even 
 more potent within him, and may be roused to sudden violence by any 
 noise or excitement. The intervals of quiet are attended by a prostra- 
 tion proportionate to the violence of the previous paroxysm, and the 
 animal usually seeks seclusion and darkness, where he may lie dull and 
 torpid, but he may be roused at any time to a renewed paroxysm by any 
 noise, disturbance, the presentation of a stick, or, above all, by the 
 approach of another animal. During the paroxysm the animal is mani- 
 festly the subject of acute delirium, has hallucinations, snatches and bites 
 at unreal objects, turns on his best friends, even his master, seizes and 
 holds on to a stick or iron bar until the teeth are detached and the gums 
 lacerated, bites his own body, even amputating tail, testicles, or toes with 
 his teeth ; a bitch deserts her puppies or worries them, and all follow the 
 unconquerable impulse to wander and to wound living beings. The 
 victim will sometimes manifest incredible strength in breaking his chain 
 and scaling high walls. Twitchings of the muscles of the face, and even 
 general convulsions, are sometimes seen. Food is usually rejected, or if 
 swallowed is soon vomited. In the course of two or three days the 
 furious stage merges into the paralytic one, first shown by paresis of the 
 hind extremities and a swaying motion in walking, then by paralysis of 
 the lower jaw, which hangs pendent and allows the escape of a viscid 
 saliva. The palsy gradually extends over the whole body a sure pre- 
 cursor of approaching death, which is rarely delayed beyond eight days, 
 and never more than ten, from the onset. In this last stage the animal 
 has become extrenlely emaciated, with dry withered hair, hollow flanks, 
 and small weak pulse; he may at first rise on his fore limbs when dis-
 
 POPULAR FALLACIES. 897 
 
 turbed, and even attempt to snap, but there is now little danger of a bite. 
 Convulsions may alternate with the paralysis. The result is mvarably 
 fatal. 
 
 The peculiarity of dumb or paralytic rabies in dogs is that the last or 
 paralytic stage supervenes at once on the prodromata, without any inter- 
 vening period of acute delirium and fury. The animal is throughout 
 dull, quiet, and depressed, and shows little tendency to bite, to wander, 
 or to restless movement. The excitement of the sexual passion is the 
 same as in the furious forms, and the howl is still emitted, though much 
 more rarely. Soon the lower jaw drops from paralysis, allowing the 
 saliva to drivel from the mouth, and the animal can only succeed in 
 closing it momentarily under the greatest provocation to bite. Paralysis 
 of the hind limbs and of the whole body speedily follows, and death 
 ensues in from two to three days. As soon as the jaw is paralyzed the 
 subject is unable to drink, eat, bite, or bark, and emaciation advances 
 with extraordinary rapidity. 
 
 The lethargic or tranquil form of rabies in dogs is manifested 
 neither by furious madness nor by palsy of the jaws, but the nervous 
 prostration is shown in a profound lethargy and apathy. The patient 
 curls himself up, and will not be roused 1 by his master's voice, by any 
 noise, disturbance, or even punishment; he makes no response to the 
 caresses of his friends, and pays no attention to the food or drink they 
 bring him, but remains in his place, growing daily more emaciated and 
 lethargic, until relieved by death toward the tenth or fifteenth day of the 
 illness. 
 
 Besides the three typical forms there are intermediate varieties, which 
 are classed with one or other according as the symptoms of that type 
 seem to predominate. The same virus, inoculated, will produce different 
 types in separate individuals, the result seeming to depend more on the 
 susceptibility of the subject than any special quality in the poison. With 
 many notable exceptions it may be stated that, on the whole, furious rabies 
 predominates in hounds, bull-dogs, and other less domesticated or naturally 
 vicious and courageous breeds, while the paralytic and tranquil types 
 attack especially house and pet dogs. 
 
 POPULAR FALLACIES. It is a dangerous delusion to suppose thai, 
 mad dogs have a dread of water and polished surfaces, that they will not 
 eat or drink, that they froth abundantly from the mouth, and that they 
 run with the tail drooping between the hind limbs. There is no hydro- 
 phobia in the dog or other domestic animal. The rabid dog drinks 
 freely in the early stages of the disease, lapping even his own urine; 
 later, he still laps, and even plunges his nose in water, though often 
 unable to swallow ; and in his wanderings he swims rivers without the 
 slightest reluctance. The appetite is not entirely lost, though greatly 
 impaired and usually depraved, all sorts of unsuitable, noxious, and dis- 
 gusting objects being picked up and swallowed with avidity. Frothing 
 from the mouth is exceptional in rabies, and the flow of saliva is rarely- 
 seen unless when the jaw is paralyzed and pendent. Carrying the tail 
 between the legs is a symptom of all diseases attended by abdominal pain, 
 and is by no means constant in rabies. During the paroxysms the tail is 
 usually carried erect. 
 
 Foxes, jackals, and badgers attacked by rabies lose their natural sny- 
 
 VOL. I. 57
 
 888 RABIES AND HYDROPHOBIA. 
 
 Cases of Rabies in 
 WINTER. SPRING. SUMMER. AUTUMN. 
 
 Dec., Jan., Feb. March, April, May. June, July, Aug. Sept., Oct., Nov. 
 
 Dogs 755 857 788 696 (Bouley). 
 
 Men 17 25 42 13 (Bomlin). 
 
 The increase of cases of rabies canina in the spring and summer 
 mouths, as shown by the above statistics (715 per cent.), cannot reason- 
 ably be attributed to the influence of the weather, since even the strongest 
 advocates for spontaneity would at once decline to claim any such ratio 
 of spontaneous developments. The increase must therefore be mainly, 
 if not altogether, due to the increased number of inoculations; and these 
 latter are provided for in the jealousies and quarrels in the troops of 
 males that follow each rutting bitch in spring, the principal period of 
 oestrum in the canine female. The infection spread in this way in 
 early spring tends to remain more prevalent throughout the hot summer 
 months. 
 
 With regard to the greatly enhanced mortality in man during the 
 summer months, as shown in Boudin's statistics for France, in the 
 absence of any genuine hydrophobia in man apart from inoculation 
 from a rabid animal, it may be attributed to three principal causes : 
 1st. The bites sustained from rabid dogs in spring and early summer, 
 when the disease is most widely spread among these animals, will give 
 rise to hydrophobia weeks or months later. 2d. In the warm season 
 the body is more thinly clad and the hands and other portions are more 
 frequently left bare, so that the teeth are less likely to be cleansed of the 
 virulent saliva by passing through the clothes before entering the skin. 
 3d. The languor, fever, and nervousness attendant on extreme heat tend 
 not only to hasten the activity of any disease-germs actually present in 
 the system, but also strongly favor the increase of that nervous fear 
 which so often generates a fatal pseudo-hydrophobia (lyssophobia) in 
 persons that have been bitten by dogs. 
 
 Hunger, thirst, and spoiled food are invoked as causes of rabies, yet in 
 the East, where the dogs are the scavengers of the cities and often suffer 
 severely from hunger and thirst, eat the most offensive carrion, and 
 drink the foulest water, the disease has a very restricted prevalence, 
 while in South Africa and Australia the outcast and sheep-dogs, often 
 the victims of starvation and thirst, entirely escape. Bourgelat, Dupuy- 
 tren, Majendie, Breschet, and others have cruelly destroyed dogs by pri- 
 vation of food and water and by exposure under a broiling sun, but no 
 rabies, nor anything resembling it, was produced. Dogs perspire little 
 and suffer severely from heat, but there is no evidence that this can 
 develop canine madness. It is claimed that Rossi of Turin developed 
 rabies in cats by withholding food and drink, but, as he furnishes no 
 inoculation-tests confirmatory of its virulence, the claim cannot be 
 endorsed. Experiments with an exclusive diet of salt meat, putrid 
 meat, and water only have failed to produce rabies. 
 
 The large preponderance of male dogs attacked with rabies has been 
 constantly remarked by writers. Of 1900 rabid dogs reported by differ- 
 ent authors, 1746 were males and 244 females a ratio of more than 7 
 to 1. This excess of males attacked is much higher than the ratio of 
 males in the dogs of the districts drawn upon. Thus, Bourrel found a
 
 ETIOLOGY. 889 
 
 ratio of 6 rabid males to 1 rabid female, while in his patients generally 
 the proportion was 4 to 1. Leblauc found that 14 per cent, of the male 
 dogs went mad, Avhile but 1 per cent, of the females suffered. That sex 
 is no protection against inoculated virus is shown by the frequent inocula- 
 tion of castrated dogs of both sexes. The excess of male subjects may 
 be attributed mainly to the frequency with which these bite each other 
 when following a female in heat, and the respect of all alike for the 
 latter sex. Even in the rabid dog the sexual instinct rises above the 
 propensity to bite in the early stages of the malady. 
 
 Toffoli claims that he has caused spontaneous rubies by shutting up seve- 
 ral dogs in a loose box with a bitch in heat and allowing them to fight for 
 the prize. Weber and Leblanc have noticed similar occurrences. But 
 Greve and Meuecier have repeated the experiments with a contrary 
 result; so that it remains probable that when successful the victims had 
 already been inoculated before they were shut up. Moreover, the seclu- 
 sion of male canine animals for a lifetime in menagerie cages, often 
 adjoining those of their corresponding females, has never been known 
 to induce rabies. 
 
 The bite of the violently enraged dog, and the bites mutually given 
 when following a rutting bitch, are popularly supposed to cause rabies ; 
 but if this were the case, the disease must have been universally preva- 
 lent. The idea that the bite of a dog will cause hydrophobia should that 
 dog at any subsequent period go mad is a similar delusion. Men doubtless 
 occasionally develop lyssophobia under such an influence, but animals do 
 not contract genuine rabies. 
 
 Dogs are alleged to have gone mad from violent suffering after an 
 operation, and cats from being scalded or robbed of their kittens, but all 
 such causes are continually operating without such effect, and when in a 
 solitary case rabies develops, it can only be looked on as a coincidence. 
 
 Much popular prejudice exists against certain breeds, and the Pome- 
 ranian has been virtually ostracised on account of its supposed liability 
 to rabies ; but statistics show that the liability to contract the affection 
 bears a relation to the exposure rather than the special breed. Eckel, 
 Pillwax, and Hertwig found that dogs kept as house- or watch-dogs, and 
 most pampered and confined, are the most liable, while St. Cyr and 
 Peuch found the greatest number of cases among those runnuiug at large 
 and allowed the freest exercise. 
 
 There is a popular belief that the bite of the skunk (Mephitis mephitica) 
 is always rabi fie. Rev. H. C. Hovey describes a number of cases of infection 
 from this animal, 1 and John G. Janeway has reported other instances. 2 Both 
 claim that the disease is spontaneous in the skunk, and Mr. Hovey holds, on 
 very insufficient grounds, that the affection is a distinct variety of rabies 
 (rabies mephitica). The facts seem to warrant only the conclusion that 
 skunks in certain districts of Michigan and Kansas have had rabies com- 
 municated to them, and follow the rabid impulse to bite other animals and 
 men. The Mephitinse abound in the Eastern States, but we never hear 
 of them stealing up and biting men or dogs, nor of the latter contracting 
 rabies from skunk-bite. Eastern dogs frequently kill skunks and sustain 
 bites, but do not thereby contract rabies. Even in Kansas this evil 
 
 1 Amer. Jour, of Science and Art, May, 1874. 
 
 2 New York Medical Record, March 13, 1875.
 
 900 RABIES AND HYDROPHOBIA. 
 
 current of air, the approach of a candle, or even the ordinary tones of 
 conversation, produce extreme agitation and may precipitate a violent 
 convulsive paroxysm. The duration of the paroxysms and of the inter- 
 vals varies much, but in general terms the former increase rapidly in 
 number and severity, while the latter are correspondingly shortened. 
 Restraint serves to aggravate the paroxysm, while, according to Hunter, 
 the earlier and lighter ones may be relieved by running. The intense 
 excitement sometimes becomes manifest in the persistent talking, and it 
 is noticeable that the patient is free from mental delusions. As it is 
 impossible to swallow, the patient spits out the now viscid saliva on all 
 sides a feature, like the fear of water, peculiar to man. As the disease 
 advances the paroxysms are marked by the most perfect hallucinations 
 and delirium, which impel the victim to acts of insane violence toward 
 every one and every thing about him. In these fits he will use every 
 available means of offence, even to the snapping of the jaws, though on 
 the subsidence of the fit he will often express the greatest regret and 
 warn his victims to be on their guard when he finds another paroxysm 
 coming on. In some few instances the delusions continue even during 
 the remissions, and the patient remains possessed of a sense of suspicion 
 and horror of all about him, and yet the fear of being left alone is 
 usually greater still. The convulsions may become tetanic (as opistho- 
 tonos). They are habitually more severe in men than in women and 
 children. During a convulsion the victim will at times become black in 
 the face, and may die from suffocation, apoplexy, or nervous exhaustion. 
 
 Should he survive this danger the final paralytic stage sets in. The 
 spasms gradually become weaker, reflex irritability is lessened, and a 
 period of quiet, and even comparative composure, may ensue, during 
 which the former sights and sounds fail to produce a paroxysm, and 
 some patients even recover the power of deglutition ; but muscular weak- 
 ness and prostration become more extreme, the lower jaw may even drop, 
 and the viscid saliva drivel from the lips ; finally, stupor supervenes, and 
 the patient dies in a state of profound coma or complete exhaustion. This 
 last stage lasts from one to eighteen hours. 
 
 Cases are met with in the human subject, as in the dog, in which the 
 paroxysmal stage is omitted in greater part or entirely. The patient com- 
 plains only of oppressed breathing, and sighs deeply when lie attempts to 
 swallow, and paroxysms, if they occur at all, are very mild. Decroix 
 indeed claims that if a person suffering from hydrophobia is kept in a 
 dark room and perfectly quiet, no paroxysms appear. The malady is, how- 
 ever, none the less fatal. 
 
 DIAGNOSIS. The diagnosis of rabies and Hydrophobia is not usually 
 difficult if the disease has progressed to its paroxysmal stage. The most 
 pathognomonic features are the fact of a bite by a rabid animal and the 
 evidence of lesions and an extraordinary irritability of the medulla oblon- 
 gata, inducing severe reflex spasms of the muscles of deglutition and 
 respiration under the influence of any peripheral irritation. The clonic 
 nature of the spasms and the entire absence of trismus serve to distin- 
 guish it from tetanus. From pharyngeal anthrax and diphtheria attended 
 with spasm it is diagnosed by the extreme exaltation of the special senses 
 and the absence of any marked febrile reaction ; from acute mania by the 
 difficulty of breathing and deglutition, the more rapid heart-beats during
 
 DIAGNOSIS. 90] 
 
 a paroxysm, and by the marked hypersesthesia and exalted reflex sus- 
 ceptibility, as well as by the perfectly lucid intermissions ; and from epi- 
 lepsy, in that the latter is not associated with the same hypersesthesia, that 
 the paroxysm is not developed by noise, movement, attempts to swallow, 
 sight of water, etc., that the spasms are more universal, and that they do 
 not recur often, nor can they be roused by the causes immediately produ- 
 cing those of hydrophobia. Hysterical cases can usually be recognized by 
 the imperfection of the symptoms ; the subject, not knowing all the mani- 
 festations of hydrophobia, naturally fails to produce them. 
 
 The most difficult to distinguish from the genuine disease are those 
 cases in which hydrophobia occurs as a disease of the imagination, the 
 result of fear the lyssophobia or hydrophobie uon-rabique of the writers. 
 In these there is always the history of a bite ; the cicatrix even may have 
 become the seat of congestive redness, itching, or neuralgic pains, and 
 these, acting on a susceptible brain, develop a disease which is hardly dis- 
 tinguishable from true hydrophobia, and which is quite as fatal if left to 
 run its course. These cases have usually less reflex susceptibility than 
 genuine hydrophobia; the attack mostly occurs shortly after some conversa- 
 tion on the subject, and especially about the effects of the bites on others ; 
 and the victim is seen to have a nervous organization, and may even be 
 known to have been subject to hysteria or other nervous disorder. At 
 the same time, the concentration of the mind on this subject sometimes 
 produces even structural changes in the medulla, and the reflex susceptibility 
 in co-ordination with the other symptoms may be almost perfect. In a case 
 reported a few years ago by Hammond the symptoms appeared perfectly 
 characteristic, and at the necropsy circumscribed points of congestion were 
 found near the roots of the vagus; yet the dog that bit this man was said 
 to be alive and well, and in the absence of any successful inoculation from 
 biter or bitten the case must be presumed to have been lyssophobia. 
 
 Many cases with a more favorable issue are recorded. Bellenger had 
 a patient who had been bitten by his cat, and manifested violent par- 
 oxysms of hydrophobia, but was instantly cured by the sight of the ani- 
 mal in good health. Bouardel records that a man was bitten by his dog, 
 which afterward disappeared. He was seized with severe hydrophobia, 
 which continued for two days, when the lost dog was found and presented 
 to him, and the symptoms disappeared. Trousseau speaks of a magis- 
 trate whose hand had been licked by his hound, which immediately after 
 attacked a flock of sheep, so that many of them died of rabies. The 
 master then manifested hydrophobia, but as death was deferred beyond the 
 usual time, he concluded it was not genuine and recovered. Prof. Dick 
 was called to visit a man who had been bitten by a favorite dog while 
 suffering from distemper, had manifested severe hydrophobie symptoms, 
 and had been given up by the attending physicians. He succeeded in 
 convincing the subject that as the dog had had distemper, and as no two 
 great diseases could coexist in the same system, it could not have had 
 rabies. In spite of the false premises, this reasoning had the desired 
 effect and the patient recovered. A few years ago a boy twelve years old 
 in Ithaca, N. Y., was bitten by a dog supposed to be rabid, and in due 
 time manifested hydrophobia, which advanced rapidly until he was having 
 a violent paroxysm every half hour, and it was pronounced impossible for 
 him to survive another day. At this time I saw him, observed tint he
 
 902 RABIES AND HYDROPHOBIA. 
 
 had a nervous organization, and was somewhat lacking in the hyper- 
 sesthesia of rabies, learned that he had recently been gorging himself with 
 Christmas delicacies, and was now very costive ; and, as there was no sat- 
 isfactory history of the dog, I at once suspected lyssophobia. The friends 
 and strangers who had come to condole with the parents and feast on the 
 horror were excluded, and the boy's attention fully engaged in amusing 
 pictures and conversation ; the paroxysms were omitted, and in two hours 
 the patient, overcome by weariness, went to sleep. Next morning he was 
 still kept secluded and quiet, and two enthusiastic students took up the 
 role of keeping his attention constantly engaged on whatever would interest 
 him. The prima vise was relieved by medicine, and under a course of 
 tonics the boy quickly recruited, and at the end of a week went back to 
 school. 
 
 In doubtful cases the test by inoculation may be tried. Inoculation 
 with the saliva of a man suffering from hydrophobia is manifestly use- 
 less, since he must die before we can hope for the development of the 
 disease. But in the case of a dog having bitten one or more people the 
 inoculation of the virus on the brain of one or two other dogs would 
 ensure the development of the affection in the course of one or two 
 weeks, provided the first was rabid. The non-success of this operation 
 when practised on two dogs Avould provide the best possible medicine for 
 the diseased mind of the person bitten. 
 
 PATHOLOGICAL AXATOMY. Post-mortem lesions are rather remark- 
 able for their inconstancy than for their specific characters. Hardly a 
 single lesion can be specified which may not be absent in particular cases, 
 yet some are so characteristic that, when taken. along with the symptoms 
 during life, they very materially assist in diagnosing the disease. Of the 
 pathological appearances common to man, dog, and other animals the 
 following may be named : The body is greatly emaciated; the rigor mortis 
 is normal or nearly so; decomposition usually sets in early; a white skin 
 is livid, cyauotic, or petechial; the cicatrix is often hardly noticeable even 
 after the animal has been shaved ; the superficial veins, especially those of 
 the neck and head, are filled with black inspissated blood; the external 
 mucous membranes are of a dark livid hue, those of the mouth and nose 
 being covered by a tenacious mucous or muco-purulent secretion (in dogs 
 they are usually covered with earth or dust) ; the fauces, pharynx, and 
 tonsils are usually of a dark livid hue, and sometimes swollen ; in other 
 cases the dark red hue and manifest swelling that obtained during life 
 disappear after death; similar lesions are found in the larynx, and I 
 have seen extensive erosions ; the bronchial mucous membrane is red- 
 dened and coated with a muco-purulent secretion (and in dogs with earth 
 and foreign bodies) ; the lungs are usually congested, often to the extent 
 of showing death by asphyxia ; the heart and large blood-vessels are 
 filled with a black thick, venous blood, and the muscles, charged with the 
 same blood, have a dark reddish-brown hue ; the stomach is usually 
 congested, sometimes to a port-wine hue, and is the seat of blood-extrav- 
 a^ations and even erosions ; this congestion is often present, though to a 
 less degree, in the intestines; the mesenteric glands and those in the 
 vicinity of the pharynx are not unfrequently enlarged and congested; a 
 very constant feature is the entire absence of proper food in the stomach 
 and of chyme in the small intestine ; the liver is usually hypernemic,
 
 PROPHYLAXIS. 903 
 
 exuding on pressure the characteristic dark blood, and it may be the seat 
 of some granular degeneration, but it usually retains its normal consist- 
 ency ; the spleen is normal ; the kidneys are hypersemic and leaden or 
 bluish gray, and slightly cloudy on the surface (in dogs fatty degenera- 
 tion of the inner cortical layer is common even in health) ; the urinary 
 bladder is usually empty or contains a little turbid, yellowish, slightly 
 albuminous urine, while the mucous membrane is often covered with 
 dark reddish-brown petechial spots ; the brain is usually hypertemic, and, 
 together with its membranes, slightly cedematous, yet the lesions are not, 
 constant either in kind or degree ; the medulla oblongata usually shows a 
 similar condition, and even minute points of 'acute congestion, but neither 
 these nor the hypersemia and oedema of the spinal cord can be found in 
 every case. 
 
 Some conditions are especially pathognomonic in the dog. In nearly 
 all cases of furious rabies the stomach is gorged with foreign bodies, such 
 as hay, straw, wood, coal, leather, portions of textile fabrics, faeces, earth, 
 sand, stones, pieces of iron, lead, etc., and the same materials are usually 
 found in the small intestine, while the large intestines are empty. Por- 
 tions of these foreign bodies are often found in the bronchia as well, 
 giving rise to circumscribed lobular pneumonia. The significance of such 
 matters Avhen found in large amount in the stomach of a dog which has 
 been given to biting or other symptom of rabies is very great, and if the 
 stomach contains none of the natural food of the animal and the duo- 
 denum no chyme, it may be held pathognomonic of rabies. Jf, however, 
 the materials are small in quantity and mingled with natural food, and 
 if the duodenum contains chyme, the dog was probably not rabid. Dogs 
 frequently chew and swallow fresh leaves of grass, and those in detention 
 gnaw and swallow pieces of wood, cloth, horn, etc.; but these are used 
 either as an emetic or a teething-ring, and virtually imply that digestion 
 is not entirely abolished. Their presence, therefore, along with food does 
 not indicate rabies. 
 
 PROPHYLAXIS. In view of the almost or quite constantly fatal issue 
 of rabies in man 'and animals, the main attention should be given to the 
 question of prevention. As the disease is perhaps never in our time 
 developed except as the result of contagion, we have the most perfect 
 guarantee that by suitably devised measures it may be absolutely sup- 
 pressed and excluded from any country. Even if we allow that a rare case 
 is at long intervals developed spontaneously, it is none the less certain 
 that the disease can be practically abolished, as nothing can be easier than 
 to nip the disease in the bud in the locality where it first shows itself. 
 Thus in Australia, Tasmania, and New Zealand rabies has not yet 
 appeared, though prevailing in the same latitude and climate in both hemi- 
 spheres. It reached Mauritius in 1813, and has prevailed uninterruptedly 
 since, while in Bourbon, immediately adjacent and almost identical in 
 geology, climate, flora, and fauna, it is still unknown. The same truth is 
 told in the entire extinction of rabies in Berlin by the universal muzzling 
 of dogs, as recorded above. The immunity lasted for nine years, during 
 which muzzling was enforced. A more recent example of the same kind 
 is found in Holland. In 1875 universal muzzling was made obligatory 
 in all communes where rabid animals had been and in adjoining com- 
 munes. From 1877 on the disease was unknown save on the borders of
 
 904 RABIES AND HYDROPHOBIA. 
 
 Belgium and Prussia and in a very few dogs recently imported. Nearly 
 all cases of hydrophobia in man and animals being due to bites by rabid 
 members of the canine fraternity, a fundamental condition of all success 
 in prevention is the prohibition of its diffusion by dogs. For this reason 
 the following measures are requisite : 1st. All dogs should be registered 
 and heavily taxed. The number of useless dogs kept in every com- 
 munity affords the greatest opportunity for the speedy diffusion of the 
 rabid germ whenever that has been introduced. Whatever tends to 
 reduce this number directly tends to the restriction and extinction of 
 rabies. 2d. Every dog should be made to wear a collar with plate bear- 
 ing the name and residence of his owner. All stray dogs without such 
 badge should be summarily shot by the police. This will secure the pay- 
 ment of the taxes and the destruction of superfluous and dangerous dogs. 
 3d. In all cities and counties where rabies has existed within a year, and 
 in the counties adjoining them, every dog should be muzzled except when, 
 securely shut up or tied. All dogs found at large without a muzzle 
 should be promptly shot by the police. The objection to muzzles is satis- 
 factorily met by the use of the wire muzzle, which impedes neither breath- 
 ing nor drinking. 4th. Dogs and cats suspected or known to have been 
 bitten by rabid animals should be at once destroyed, or if considered suffi- 
 ciently valuable may be confined in a secure cage for six months under 
 veterinary supervision. 5th. Dogs which have bitten and are supposed 
 to be rabid should be similarly caged and placed under veterinary super- 
 vision. If rabid, the symptoms will be fully developed in a few days, 
 whereas if destroyed at once the bitten party is liable to develop lysso- 
 phobia. 6th. Dogs imported from countries where hydrophobia is known 
 to exist should be subjected to a period of quarantine of six months. 
 7th. Foxes, wolves, badgers, martens, skunks, must be indiscriminately 
 destroyed in localities where they have become infected with rabies. 8th. 
 The disinfection or burning of the kennels where rabid dogs have been is 
 a natural corollary of the above. 
 
 Other measures less thorough and efficient are often advocated and 
 resorted to, but should be discarded whenever it is possible to practise a 
 method of absolute extermination. Among these may be named the 
 flattening of the teeth, and especially of the canines, with a file, as advo- 
 cated by Bourrel, and later by Fleming. While this is a measure of pro- 
 tection, it does not remove the desire to bite, nor the power of wounding 
 the skin when that is delicate or tender. Another method is to hang a 
 block of wood from the neck, so that it may impede the movements of 
 the forelegs and prevent a rush and sudden attack. The futility of such 
 a resort need hardly be remarked upon. The emasculation of dogs is 
 another preventive measure advocated. The single advantage of this is 
 that it does away with the host of suitors that follow a rutting bitch, and 
 the mutual worrying and biting that ensue. But it is not yet proved that 
 the disease is produced by privation of the generative act, while if it 
 were it is still certain that cases of spontaneous rabies are extremely rare; 
 that the rabid dog bites the castrated one as readily as the perfect male ; 
 that the emasculated one contracts rabies as readily as others when bitten, 
 and that he communicates it no less persistently. Galtier's method of 
 intravenous injection of the rabic saliva, which seems to have proved 
 effectual in sheep and rabbits, utterly failed in the hands of Lussaua and
 
 TREATMENT OF SITES. 905 
 
 Pasteur in dogs. Besides this objection, that it is useless for the animal 
 which is beyond all comparison the main propagator of rabies, it has the 
 serious disadvantages that its practice would necessitate the maintenance 
 of a constant succession of cases of rabies, that great danger attends this 
 production and handling of the virus, and the expense and risk of a 
 general application of the measure must absolutely forbid it. 
 
 More recently Pasteur has found that the virus when transmitted 
 through several monkeys in succession becomes so weak as to be harm- 
 less to the animal inoculated, and yet protects the animal against the 
 more virulent poison. This fact he utilizes by inoculating this mitigated 
 ape-virus on the brain of the animal just bitten, so as to render that 
 refractory to the disease when the poison from the bitten wound shall 
 reach it by its ordinary slow channel. At the time of writing, the method 
 is being attempted on a man bitten by a mad dog. 
 
 Another precautionary measure which is always in place is the diffusion 
 among dog-owners of correct information as to the premonitory symptoms 
 of rabies, and the necessity for careful seclusion when any such symptoms 
 are manifested. 
 
 TREATMENT OF BITES. The treatment of bites by animals supposed 
 to be rabid consists mainly in seeking the elimination of the poison or its 
 destruction by caustic. The first object should be to prevent absorption 
 of the poison. If the bite has been on a limb, a tourniquet should be 
 instantly placed above it. A stout cord or handkerchief is always at 
 hand, and may be tied around the limb and twisted with a piece of wood 
 until circulation is arrested. Sucking the wound is usually effective in 
 withdrawing the poison, and can convey no additional danger to the per- 
 son bitten. If the patient cannot reach the wound with his own mouth, 
 another may volunteer to suck it, though in these days of diseased teeth 
 and gums the act is pregnant of danger. This may be largely obviated 
 by alternately sucking and rinsing the mouth with a solution of carbolic 
 acid, or, better, by applying such a solution to the wound before Bucking, 
 or finally by sucking through a tube. Cupping over the wound is highly 
 commendable, though less effective than sucking. When cupping can be 
 combined with wringing of the wound, there is an approximation to suck- 
 ing. Cupping is especially valuable in wounds of the trunk, where a 
 tourniquet cannot be applied. Intermittent squeezing and wringing of 
 the part and steeping in warm water is an excellent resort when ^ no ^ better 
 measure can be had. Cutting the wound open to its depth, while it may 
 in certain cases be necessary to allow of the thorough application of a 
 caustic, is objectionable as multiplying the points of infection and absorp- 
 tion. Drinking of liquids to excess temporarily retards absorption by over- 
 filling the vascular system. Ammoniacal, alcoholic, and other stimulants 
 are resorted to for the same purpose, being held^ to cause plenitude, not 
 only by quantity, but by rarefying the animal fluids. 
 
 No such measures should, however, be allowed to delay for an instant 
 the use of caustics. This is the one effectual means of destroying the 
 poison, and the choice of caustic is of less consequence than its thorough 
 application. The hot iron in the form of a skewer, nail, poker, or other 
 available instrument, at a white heat, may be brought in contact with all 
 parts of the wound to its utmost recesses. 
 
 Of chemical caustics, solid sticks of nitrate of silver, chloride of zmc,
 
 906 RABIES AND HYDROPHOBIA. 
 
 and potassa, or the crystals of cupric or ferric sulphate, are to be preferred to 
 the liquid forms (mineral acids, butter of autimouy, etc.), because of the 
 greater thoroughness with which they can be brought into contact with all 
 parts of the wound. Lastly, the galvano-cautery may be used if within 
 reach. If the liquid caustics are employed, they may be introduced into 
 the depth of the wound by means of a pipette, a piece of porous wood, or 
 a pledget of tow. For a great number of small wounds a bath of corro- 
 sive sublimate has been recommended. 
 
 In some cases the amputation of a badly-lacerated member or one with 
 a compound fracture offers the only measure of protection. 
 
 But although nothing should be allowed to delay cauterization, yet the 
 impossibility of an immediate application should not be accepted as a rea- 
 son for its neglect at a later date. On the presumption that the virus is 
 localized in the seat of inoculation until it has increased largely and is 
 poured into the blood in sufficient quantity to subjugate the blood-globules 
 to its influence, it is logical to excise the cicatrix and cauterize the wound, 
 though days or even weeks have elapsed. 
 
 If it should be shown by further experiment that Galtier's intravenous 
 injection of virulent saliva is harmless and protective to sheep, rabbits, 
 and it may be other Herbivora, it would be logical to employ this in these 
 animals just after they have been bitten, as there will be ample time to 
 establish the systemic influence of the intravenous injection before the 
 poison shall have accomplished its recrudescence in the cicatrix. The 
 constantly fatal result of rabid bites in these animals would at least war- 
 rant such an attempt, the main precaution being that the liquid shall be 
 most carefully preserved from contact with any of the tissues, including 
 even the coats of the injected vein. 
 
 In addition to the local treatment of the sore, certain general medica- 
 tion has usually been resorted to, though its real value may well be ques- 
 tioned. Thus, the elimination of the poison has been sought by profuse 
 perspiration induced by warm, Turkish, and Roman baths, and by the 
 use of medicinal agents, sudorifics, sialogogues (mercury), laxatives, and 
 diuretics (cantharides). The neutralization of the poison has been 
 attempted by ammonia, the sulphites and hyposulphites, chlorine, etc. 
 Besides these are used nerve-sedatives and tonics, such as venesection, 
 belladonna, prussic acid, tartar emetic, sulphates of copper and zinc, 
 arsenic, strychnia, etc. 
 
 What is probably of greater importance is a sound hygiene. Stimu- 
 lating food eaten to excess is injurious alike to man and beast, and by 
 inducing digestive disorder and cerebral congestion will tend at least to 
 precipitate the attack. Costiveness or biliousness from sedentary habits 
 and lack of exercise in the outer air and sunshine, exposure to intense 
 heat or cold and over-exertion, are all to be guarded against." 
 
 Finally, psychical treatment is of the highest importance. Those about 
 the person who has been bitten should preserve a calm, equable, and 
 cheerful demeanor and avoid all allusion to the occurrence. The patient 
 should be protected against all sources of excitement, and should not be 
 allowed to see that he is an object of solicitude. If the matter is referred 
 to incidentally, he should be impressed with a conviction of the efficacy 
 of the treatment adopted. 
 
 THERAPEUTIC TREATMENT. Almost every agent in the Pharmaco-
 
 THERAPEUTIC TREATMENT. 907 
 
 poeia has been employed as a remedy for hydrophobia, but, up to the 
 present, it must be acknowledged, with no 'measure of success. The 
 agents supposed to be prophylactics are those also resorted to as therapeu- 
 tic remedies. To these may be added the potent nerve-sedatives and anti- 
 spasinodics chloroform, chloral hydrate, ether, bromides of potassium, 
 sodium, and ammonium, curare, Calabar bean, and the sialogogue diapho- 
 retic pilocarpine. 
 
 Chloroform is one of the most appropriate, as it may be taken by 
 inhalation, though with much excitement to the patient, and it at once 
 relieves the oppressed breathing and pharyugeal and other spasms, while 
 it acts as a cerebral sedative and anaesthetic ; and if it cannot be held up 
 as a curative agent, it at least secures euthanasia. Chloral given as au 
 injection, so as to induce its soporific action, is equally soothing, though 
 nothing more. Curare injected hypodermically overcomes the spasms, 
 but does not usually, if ever, retard death. Three cases of hydrophobia 
 in man treated in this way recovered, but we have no proof that even 
 these exceptional cases were rabies. Pilocarpiue has been used in a 
 number of cases, but, with the exceptional case of a young man reported 
 by Denis Dumont, all terminated fatally. The committee of the Paris 
 Academy of Medicine reported in 1874 that in three experimental cases 
 "it hastened death by the fits it brought on." Morphia is often of great 
 value in calming the excitement and giving rest and sleep during the 
 intervals of the paroxysms. Daturia and atropia, administered hypo- 
 dermically, are somewhat less effectual. Inhalation of oxygen is said to 
 arrest the convulsions and delirium, but not to retard death. Vaccine 
 virus and the venom of the viper have each been tried, but with no good 
 effect. 
 
 Of non-medicinal therapeutic measures the following are among the 
 most promising : Perfect seclusion, quiet, and darkness serve to abate the 
 hypersesthesia, the painful acuteness of the senses, and the convulsive and 
 delirious paroxysms. It can no longer be doubted that a very few cases 
 of genuine rabies recover, but those that do so have almost all had special 
 advantages in the way of quiet and seclusion, and few have had the 
 excitement of medicinal treatment. Eight cases of the recovery of 
 rabid dogs are reported by Meuecier, Decroix, Laquerriere, Rey, Harold 
 Leiuey, and Pasteur. The two first were attested by successful inocula- 
 tion on other animals ; Decroix's second case was caused by inoculation 
 with the saliva of a hydrophobous man ; the next three had been bitten 
 by dogs undoubtedly mad ; while Pasteur's was inoculated with the 
 brain-matter of a rabid cow. All in due time presented the characteristic 
 symptoms of rabies, yet all recovered, without any record of medicinal 
 treatment. Pasteur's case, when again inoculated, resisted the disease. 
 A certain number of recoveries of men from pronounced hydrophobia 
 under medicine and without it are on record, but in the absence of suc- 
 cessful inoculations it is impossible to tell how many were cases of infect- 
 ing rabies. The parallel between rabies and tetanus in the intensity of 
 the reflex excitability would demand darkness and quiet as a sine qua non 
 of any rational treatment. Faradization has produced a temporary relief, 
 but no permanent improvement. Warm baths, steam baths, and hot-air 
 baths serve to abate excitability and spasm, and have been lauded as 
 specific in hydrophobia, but have proved useless in the lower animals.
 
 908 RABIES AND HYDROPHOBIA. 
 
 Intravenous injection of warm water (two pints) in a hydrophobous 
 man reduced the pulse from 150 to 86 and restored the power of deglu- 
 tition. Life was prolonged for nine days, but in great agony, from the 
 supervention of suppurative arthritis (Majendie). In another case the 
 dread of water disappeared, but death ensued in fifty-four hours. In 
 the hands of Youatt and Mayo it proved equally unsuccessful in dogs. 
 A cold bath with submersion to unconsciousness is an old remedy now aban- 
 doned. Venesection to fainting, with or without mercury, mitigated the 
 symptoms, but seemed to hasten paralysis and death. The excision and 
 cauterization of the cicatrix, or the cutting of the nerves proceeding from 
 it, has been useful in delaying, or even absolutely preventing, the par- 
 oxysms. When, therefore, the premonitory symptoms of hydrophobia 
 have set in, and when an aura or shooting pain is felt proceeding from 
 the seat of the wound toward the heart, one or other of these measures 
 may serve to prevent the immediate occurrence of reflex convulsions. 
 When the poison has actually invaded the brain, this can be looked on as 
 a palliative measure only, but in the many cases of lyssophobia it may 
 put an instant stop to the affection.
 
 GLANDERS (EQUINIA GRAVIOR, FARCY), 
 
 BY JAMES LAW, F. R C. V. S. 
 
 ^ SYNONYMS. Greek, fjid^. Latin, Malleus, Equinia Nasalis, E. Apos- 
 timatos, Farcinia. French, Morve, Farcin. German, Rotz, Lungenrotz, 
 Hautrotz, Wurm, Hautwurm. Italian, Morva, Moccis, Cimurro. Spanish, 
 Cimorro, Lamparones. 
 
 DEFINITION. An infectious, bacteridian disease occurring in the 
 horse, ass, or mule, and communicated by inoculation to various other 
 animals, including man. It is usually ushered in by rigors, followed by 
 articular pains, lameness, and the formation of a specific deposit in the 
 lymphatic system of some part of the body, with a tendency to destruc- 
 tive degeneration and ulceration. In the form known as glanders these 
 deposits and ulcers take place mainly in the nasal mucosa, in the lungs, 
 and in adjacent glands, while in that known as farcy the deposits occur 
 in the cutaneous and subcutaneous lymphatic plexuses and the dependent 
 glands. 
 
 HISTORY AND GEOGRAPHICAL DISTRIBUTION. Under the name, of 
 malis Aristotle describes a fatal disease of asses, supposed to have been 
 identical with the malleus humidus of Vegetius Renatus and other writers 
 of early Christian times, and with the cymoira of other early Roman 
 writers. This malady w r as characterized by swelling of the submaxillary 
 glands and discharge from nose and mouth. From the fourteenth cen- 
 tury onward glanders is reported from different parts of Europe at fre- 
 quent intervals; thus in 1320 in England (Rogers); in 1640 in Badajoz, 
 brought by Portugese horses (Villalba); in 1686 at Treves (Eggerdes); 
 again in 1776 in Southern France (Lafosse); in 1794 in Bavaria (Plank); 
 in 1796 in Franconia (Laubender); and in 1798 in Piedmont (Toggia). 
 At the beginning of the present century this aifection was very widely 
 prevalent in Great Britain, the chronic cases being habitually worked in 
 stage-coaches, but of recent years, when it has been made criminal to 
 expose or use a glandered horse, the malady has to a great extent disap- 
 peared. To-day glanders is almost coexistent with the distribution of 
 the plomesticated equine family, yet its prevalence bears a direct relation 
 to the facilities for infection (horse-traffic, war, preservation of the 
 diseased, confinement in close stables, ships, etc.), and some countries 
 appear to be entirely free from the affection. Thus, Krabbe gives the 
 yearly losses per 100,000 horses for the principal countries of Europe 
 and Algiers as follows: Norway, 6; Denmark, 8.5; England, 14; Swe- 
 den, 57 ; Wurtenberg, 77 ; Prussia, 78 ; Saxony, 95 ; Belgium, 138 ; 
 
 009
 
 910 GLANDERS. 
 
 France (array), 1 1 30 ; Algeria (army), 1 548. The losses in Prussia 
 more than doubled after the Franco-German War; thus, in 186970 
 they were 966, and in 187374, 2058. In Bavaria they rose in the same 
 period from 173 to 390 (Hahn). In Lisbon, Portugal, glanders was 
 unknown for the thirty years preceding the Peninsular War, whereas 
 after the war it proved a veritable scourge (Saunier). Charles Percivall, 
 during an eight years' residence at Meerut and Cawnpore, Hindostan, 
 saw not a single case of glanders, and so late as 1275, Fleming claims an 
 entire immunity for India ; yet in 1877 complaints were numerous of the 
 very general prevalence of the disease in Upper India especially, while 
 in 1879 the campaign in Afghanistan was seriously affected by its ravages. 
 Climate appears to have little influence. The disease is virtually unknown 
 in the island of Born holm with 7000 horses, and in the Faroes and Ice- 
 land with 35,000, while it is quite frequent in Sweden. It is unknown 
 in Australia, but is very prevalent in China, South Africa, Abyssinia, 
 and Algiers, and but little known in Asia Minor, Arabia, and Egypt. 
 
 In the United States as in Europe the disease has mainly concentrated 
 itself in the large cities in times of peace, and spread widely on the 
 advent of war. It is alleged that it first entered Mexico in 1847 with 
 the American cavalry, though with the horses kept in the open air it failed 
 to gain a wide extension. The horses and mules drawn into the Union 
 armies in 1861 brought infection with them, and soon the disease was 
 most prevalent and destructive, not only in the ranks, but in every State 
 in which the armies operated. John K. Page says the first case he saw 
 in the Confederate army was a captured Federal troop-horse on the retreat 
 from Manassas, and that the breaking down of the Confederate cavalry 
 in the last two years of the war was mainly due to glanders. At the 
 close of the war the sale of army horses distributed the infection widely 
 through all the States, North as well as South. Every year in a country 
 district in Western New York I see several cases of glanders, and occa- 
 sionally a whole stud is carried off through an infected purchase. In 
 other States the case is no better. In Pennsylvania, Ohio, Illinois, and 
 Michigan cases are constantly seen in the country districts, and in the 
 three last-named States five human victims have been reported within a 
 short period. In Connecticut the same is true, and the disease made one 
 human victim in Waterbury in 1879. In the large cities the case is still 
 worse. Liautard of New York in 1878, in a single visit to one car- 
 stable, condemned 8 horses, in another stable 18, and in a third, at two 
 visits, 45, while a fourth had lost no fewer than 200 horses in the course 
 of one year from glanders. In the Troy (X. Y.) car-stables the malady 
 prevailed from 1875 77, most of the subjects suffering from chronic farcy, 
 until in the latter year, by my advice, these propagators of contagion 
 were destroyed. In Springfield, Mass., in 1879, the disease assumed such 
 alarming proportions that it was vigorously suppressed by a city ordi- 
 nance enjoining summary slaughter. These are but indications of what 
 is happening all over the country, entailing losses of many hundreds of 
 thousands yearly as well as an enormous risk to humanity. 
 
 The following table gives the number of cases occurring in the equine 
 family in two of the principal countries of Europe in the last few years :
 
 ETIOLOGY. 
 
 911 
 
 Casea of Glanders in 
 
 Great Britain. 
 
 Germany. 
 
 1878 
 
 888 
 
 2753 
 
 1879 
 
 1367 
 
 
 1880 
 
 2048 
 
 1941 
 
 1881 
 
 1710 
 
 1774 
 
 1882 : 
 
 1389 
 
 1838 
 
 
 
 
 As both countries systematically suppress this disease through their veteri- 
 nary sanitary officials, it cannot be doubted that the figures for America, 
 if obtainable, would be relatively higher. 
 
 Glanders prevails especially in horses, asses, mules, and other solipedes, 
 and is communicated by inoculation to all domestic animals except the 
 genus Bovis. In the sheep and goat the receptivity is considerable, and 
 the disease may prove fatal in fifteen days (Gerlach) or it may be delayed 
 for seven weeks (Bollinger). The Carnivora (dogs, cats, lions, polar 
 bears) contract the affection by eating diseased flesh, as do some rodents 
 (prairie-dogs, rabbits, guinea-pigs, mice), and, by administration, solipedes. 
 Swine contract the disease by inoculation (Gerlach, Spinola), though in 
 these and in the dog the constitutional symptoms are usually slight and 
 recovery may follow the local affection. 
 
 The susceptibility of man is doubtless less than that of the solipedes, 
 judging from the few cases of glanders compared with the frequent expo- 
 sures, yet when once established in the system it can hardly be said to be 
 less malignant or fatal. 
 
 ETIOLOGY. The one known cause of glanders is contagion, and the 
 recent experiments of Capitan and Charrin in France and of Schiitz and 
 Lofler in Germany, demonstrating that the bacillus of the glanderous 
 deposits is the one essential cause of the disease, effectually dispose of any 
 claim of its spontaneous origin. Glanders can no longer be considered 
 spontaneous, further than that its germ is now proved capable, like that 
 of anthrax, of survival and multiplication out of the animal economy, so 
 that infection may come from other objects than a sick animal ; and it 
 may even yet appear that the bacillus, living at times as a harmless sap- 
 rophyte out of the animal body, may acquire deadly properties under 
 certain conditions of the environment. At the same time, the most exten- 
 sive acquaintance with glanders and the broadest generalizations ^froni 
 known facts do not warrant the assumption of the extension of the disease 
 by the growth of the bacillus out of the living body, unless it be on the 
 rarest possible occasions, while the soundness of extensive countries (Aus- 
 tralia, New Zealand) for a century or more speaks strongly against any 
 frequent development from a harmless saprophyte. 
 
 To the same effect speak the experiences of the English army. At the 
 beginning of the century, under the teaching of Coleman, most cases were 
 attributed to lack of stable care, and extensive experiments were made in 
 the treatment of the disease, with the result of a very high mortality 
 from this cause. Now, when contagion is looked on as the main or sole 
 cause, and all suspected horses in the army are promptly destroyed, the 
 disease is only seen in recently-purchased animals or after the inevitable 
 exposures of a campaign. 1 In the French army the doctrine of the non- 
 1 Wilkinson, Jour, of Roy. Ayr. Soc., No. 50.
 
 912 GLANDERS. 
 
 contagiousness of chronic glanders led to a greater prevalence of this dis- 
 ease than in any other country of Europe. Prior to 1836 it was about 
 90 per 1000 per annum, whereas now, under the doctrine of contagion 
 and a corresponding practice, glanders kills but 2 per 1000 per annum 
 (Rossignol). 
 
 But while the essential cause of glanders is the specific bacillus, an 
 individual susceptibility is no less requisite to an attack. This may be 
 innate or acquired. As we have seen, it varies according to the genus, 
 being greatest in the solipede. But many solipedes show a strong power 
 of resistance. Of 138 horses similarly exposed by cohabitation with 
 glandered horses, but 29 (21 per cent.) suffered. Of 28 inoculated with 
 glanders virus, but 9 (32 per cent.) succumbed (Lamirault, Bagge, Tschern- 
 ing). The accessory causes which predispose the system to the reception 
 of glanders may be included under one general term low condition and 
 ill health. Three of these causes, however, deserve especial mention : 1st. 
 Impure and rebreathed air. Prior to 1836 the yearly losses per 1000 of 
 the French army horses were from 180 to 197. At the date named the 
 ventilation of the stables was greatly improved, and the mortality fell to 
 68 per 1000 per annum, one-half from glanders. Later improvements 
 have reduced the 34 cases to 2. During the Italian War, in 1859, 10,000 
 of these horses were kept for nine months in open sheds, with but one 
 case of glanders. 1 In the expedition to Quiberou during the Napoleonic 
 wars, a cavalry contingent, believed to be healthy, shipped on new trans- 
 ports, encountered a storm, and had the hatches fastened down, so that 
 several horses were suffocated. Among the survivors, landed at South- 
 ampton and placed in stables hitherto unchallenged, many soon developed 
 glanders in its worst form. Similar results followed the English expe- 
 ditions to Varna in 1854, and that to Abyssinia in 1867. In badly- 
 ventilated mines and stables, especially cellar stables, glanders, once 
 started, is always most virulent. 
 
 2d. Cold, damp, draughty stables greatly favor the progress of glan- 
 ders. Leblanc reports the case of a stud of 240 horses that had had no 
 glanders for eight years, but which lost half their number in three 
 months after removal into a new stable, very lofty, but dark and damp, 
 and subject to cold draughts. It is worthy of notice that they had also 
 been subjected to double work, and were consequently emaciated, but 
 there was not known to be any unusual exposure to contagion. In a 
 Boston street-car stable, where glanders had long prevailed, Thayer cut 
 it short by destroying the infected animals and by improving the ventila- 
 tion by windows hung at the bottom and opening inward, so that the air 
 entered in an upward direction, and cold draughts on the horses were 
 avoided. 
 
 3d. Debility from ill-health, low feeding, or overwork. The nervous 
 and nutritive debility consequent on chronic disease, overwork, and 
 exhaustion lessens the power of resistance to specific poisons, but in such 
 circumstances there is always the added predisposition of an excess of 
 waste material in the blood, a specially abundant food for the diseuse- 
 germ. So notorious is this that it used to be held that the specific poison 
 of glanders was generated in connection with the excess of creatine, crea- 
 tinine, and lactic acid resulting from muscular action. Of the effect of 
 1 Larrey, Hyg. dea Hop. Mil., 1862, p. 63.
 
 ETIOLOGY. 913 
 
 low diet we have a striking example, furnished by Bouley, of a stud of 
 120 horses, 60 of which were attacked within a year after they had been 
 placed on a food insufficient to repair the body- waste, and from which the 
 disease disappeared after the slaughter of the infected and improvement 
 of the ration. So long as glandered horses were preserved for work, the 
 then nearly ubiquitous germ attacked nearly all that were run down by 
 chronic diseases ; hence glanders was looked upon as the natural winding 
 up of exhausting diseases in the horse, as tuberculosis was thought to be 
 in the human subject. Modern discovery shows that without the germ 
 all such debilitating causes are impotent, but it can never disprove the 
 great potency of these in laying the system open to attack, nor the value 
 of vigorous health and sound hygiene in fortifying the system against it. 
 
 The channel of infection manifestly varies in different cases. In 
 direct inoculations the morbid process develops first at the point of inser- 
 tion, and secondly in the nearest lymphatic glands and internal organs. 
 When contracted in the ordinary way, the lesions are usually first seen 
 in the posterior nasal passages, the larynx or the lungs, or in the super- 
 ficial lymphatics, especially of the hind limbs. This susceptibility of 
 the deeper portions of the air-passages seems to imply that the bacillus, 
 borne on the air, is lodged on different parts of the respiratory mucous 
 membrane, and first sets up the morbid process in the thinnest or most 
 susceptible portion. That it can be thus borne on the air is shown by 
 the experiments of Viborg and Gerlach, who separately collected the 
 participate elements from the exhalations of glandered horses and suc- 
 cessfully inoculated them. That the virus is not usually carried far on 
 the air in a virulent form is attested by the many instances in which 
 horses have stood for months in the same stable with a glandered animal 
 without becoming infected. That infection may also take place through 
 the ingestion of infected matters is undoubted, as glanderous products 
 mixed with food, or even made into balls and enclosed in paper and 
 administered to horses in this form, have produced the disease. The 
 virulence is said to be lost by passing through the digestive canal of 
 man (Decroix), dog, pig, and fowl (Renault), but even to Carnivora the 
 infection may be conveyed in the food. 
 
 While the virus is concentrated in the material of the special glander- 
 ous deposits and the discharges from these, yet no part of the body can 
 be considered as free from the poison. Viborg, Colemau, Hering, and 
 Chauveau have communicated the disease by transfusion of blood from 
 a glandered horse to a healthy one ; hence every vascular organ must be 
 liable to infect. The secretions of the diseased body ^ (tears, saliva, 
 mucus, sweat, urine, and milk) have each been successfully inoculated, and 
 the conveyance of the disease to the foetus in utero and to the female by 
 coition imply that even the generative secretions are virulent. ^ Failures 
 to convey the disease by inoculation with the blood and secretions have 
 often occurred, however, and they must be held as less virulent than the 
 products of the local disease-processes. 
 
 The claims that inoculation with pus, ichor, and other irritants have 
 produced glanders must be entirely discredited. The deposits and ulcers 
 in the lungs and elsewhere resulting from such inoculations have been 
 either septicaemia, mistaken for glanders in the earlier days of patholog- 
 ical anatomy; or the septic and other inflammations set up by these inoc- 
 
 Voi,. I. 58
 
 914 GLANDERS. 
 
 illations have merely served as fertile spots for the planting and growth 
 of the glanders bacillus accidentally present, and which to a healthy sys- 
 tem might have proved harmless. 
 
 In 1882, Chauveau had demonstrated the particulate nature of the 
 glander germ by his unsuccessful inoculations with the liquids filtered 
 from dilutions of pus taken from a pulmonary glanderous ulcer. The 
 filtrate and the liquid mixture formed by mixing the pus with five hun- 
 dred times its own weight of water retained their virulence undiminished. 
 In 1868, Christol and Kiener discovered in glanderous products a bacillus 
 which they figured as made up of a chain of nearly globular elements 
 apparently enclosed in a common sheath. In 1881-82, Bouchard, Cap- 
 itan, and Charrin cultivated these microphytes in a neutralized extract 
 of meat through five successive cultures, using in each case a milligramme 
 of the previous culture, or less than j-^Vu" P art f tne culture-liquid. 
 Counting that the milligramme of pus would give to each centigramme 
 of the first culture-liquid 1,000,000,000 bacilli, it follows that the second 
 culture would, on the principle of dilution, contain 1,000,000, the third 
 1000, the fourth 1, while for the fifth it was as 999 to 1 that it would 
 receive nothing unless the germ were multiplied in the culture-liquid. 
 Inoculation of a cat with this fifth culture, started originally from a 
 nasal ulcer of a glandered horse, led to a fatal result in twenty-five days, 
 with suppurating tumor of the left testicle and inguinal glands. The 
 products of the first cat were inoculated on a second, those of the last on 
 a third, those of the third on a guinea-pig, and those of the guinea-pig 
 on an ass, producing in every case specific lesions of glanders, including 
 miliary nodules and abscesses, and death respectively on the following 
 days: 16, 7, 31, and 10. 
 
 In September, 1882, and the two succeeding months, a similar course of 
 experiments was conducted by Schiitz and Lofler at Berlin. The viru- 
 lent matter used for starting the culture was procured from a pulmonary 
 deposit and spleen of a glaudered horse ; the cultivation was continued 
 through eight successive culture-fluids. One horse was successfully inoc- 
 ulated with the product of the eighth culture, and a second with both the 
 fifth and eighth. The first died on the fifty-eighth day, and the second, 
 now very weak, was sacrificed on the fifty-ninth. Both showed the most 
 extensive lesions of glanders alike in the skin, the lymphatic glands, the 
 pituitary and laryngeal mucous membrane, and the lungs. To demon- 
 strate the bacillus they take a thin layer of the infecting liquid on a 
 cover glass, dry it, stain with methyl violet, wash with dilute acetic acid, 
 dehydrated by absolute alcohol, and clear by oil of cedar. Like other 
 pathogenic microphytes this may be preserved for months or years if 
 thoroughly dried, but in the moist condition it is easily destroyed by 
 heat (133 F. ; Viborg, Hofacker, Renault), chlorine, and the disinfectant 
 chlorides and sulphites. 
 
 SYMPTOMS. Acute nasal glanders in horses has a period of incuba- 
 tion lasting from three to five days in inoculated cases. Where in infected 
 subjects the incubation appears to have extended over months or a year, 
 there have usually (or always) been deposits in internal organs Avhich 
 passed without recognition until the lesions appeared in the nose. At 
 the outset there is fever, which appears before any local lesions are 
 recognizable, even post-mortem (Chauveau), and soon with languor,
 
 SYMPTOMS. 915 
 
 and loss of appetite, there is a serous nasal discharge, often from 
 one side only. By the sixth day this has become yellowish, the margin 
 of the nostril is often swollen, and upon the pituitary membrane may be 
 detected elevations of various sizes of a general yellowish tinge, dotted 
 with minute red points and surrounded by a bright-red or purple and 
 slightly elevated areola. These may be simple, pea-like nodules or more 
 or less extensive patches, which in certain cases extend over nearly the 
 whole pituitary membrane. At the same time the submaxillary lymph- 
 atic glands on the same side become the seat of a hard nodular painless 
 enlargement, feeling like a conglomerate mass of peas, and often show- 
 ing a tendency to become more closely adherent to some adjacent part 
 (bone, skin, base of tongue) ; but they only ulcerate exceptionally. Ex- 
 tensive hot, painful engorgements also often appear on other parts of the 
 body, and if on the limbs or joints cause lameness. Soon the swellings 
 on the mucosa become eroded and are gradually destroyed, forming large 
 unhealthy, chancrous-looking ulcers, tending to become confluent and to 
 eat deeply through the mucosa into the subjacent tissues. These are 
 mostly reddish gray or yellowish gray, with raised ragged red or yellow- 
 ish-red margins. They bleed readily, and may be black from hemor- 
 rhage, or greenish or of some other shade from decomposition. The 
 discharge is always somewhat glutinous and sticky, but it may vary in 
 color from simple white to yellowish, greenish, brownish, or red, accord- 
 ing to the destruction of tissue, the septic changes, or the effusion of 
 blood. 
 
 By the sixth to the fifteenth day the acme has been reached. The alge 
 of the nostrils are glued together by the drying discharge, and this, with 
 the general swelling of the nasal passages, renders the breathing snuffling 
 and difficult. The lymphatics on the side of the face are usually inflamed 
 and corded, and the same is true of the cutaneous lymphatics of the hind 
 limbs of some other part of the body (farcy). Death usually ensues from 
 suffocation, preceded by the most painful dyspnosa. 
 
 Chronic glanders in horses often sets in insidiously, but frequently also 
 it first shows itself by constitutional disturbance, which gradually sub- 
 sides as the local lesions are formed. Among frequent premonitory 
 symptoms may be mentioned intermittent or continued lameness, oedema 
 of one or more limbs, infiltration of the testicle, cough, and bleeding from 
 the nose. The general health may appear good, and if in good hygienic 
 condition the digestion and nutrition may be sufficient, the body plump, 
 and the skin shining ; but there is usually some dulness of the eye, dry- 
 ness of the coat, lack of endurance, and a tendency to sweat easily and to 
 run down rapidly under hard work or debilitating conditions. The 
 discharge, at first clear, becomes turbid, grayish, sticky, and purulent, 
 tending to agglutinate the hairs and edges of the aloe nasi, a;;d is expelled 
 by snorting in masses. The nasal mucosa, and especially over the septum, 
 is the seat of the peculiar elevations, ulcers, and firm white, condensed 
 deposits resembling cicatrices, usually low enough down to be seen or felt. 
 The submaxillary lymphatic glands are the seat of the nodular enlarge- 
 ment described in acute glanders, and, as in that affection, there may be 
 pulmonary or skin deposits shown by cough or osdema, with swelling and 
 cording of the cutaneous lymphatics with nodules and ulcers. 
 
 These cases often maintain this indolent type for years, spreading the
 
 916 GLANDERS. 
 
 infection widely, but they tend sooner or later to develop the acute type, 
 especially under some debilitating conditions. 
 
 When the mucous membrane of the larynx and bronchi is first at- 
 tacked the nasal lesions may be delayed for a time, but the cough, the 
 variously colored tenacious expectoration, the excessive tenderness of the 
 larynx, and the nodular enlargement of the adjacent lymphatic glands, 
 with the general ill-condition, suggest that which is later confirmed by 
 the specific lesions in nose and skin. 
 
 When the affection is confined to the bronchia and pulmonary paren- 
 chyma, there are the usual signs of bronchitis, disturbed breathing, with 
 hard, soft, mucous, or dry husky cough, and blowing, mucous or sibilant 
 rale, at points crepitation, and at others some diminution of murmur 
 and resonance. The breath is mawkish or fetid, and expectoration more 
 or less sticky and charged with bacilli ; but all these symptoms are at 
 times equivocal, and inoculation alone can attest the true nature of the 
 disease. This should be practised by preference on a donkey or an old 
 horse in poor condition but with general good health. Then the disease 
 shows itself in the acute form in six days. If solipedes are not available, 
 rabbits or guinea-pigs may be used for inoculation. 
 
 In acute cutaneous glanders or farcy, premonitory symptoms resemble 
 those of ordinary acute glanders, which indeed is usually present as well, 
 and always supervenes before farcy terminates in death. The local lesions 
 consist in inflammation of the lymphatic vessels, which become like firm 
 cords, the appearance at intervals along these cords of rounded glanderous 
 nodules varying in size from a pea to a hickory-nut, and with a marked 
 tendency to ulceration and the formation of hot, painful cedematous swell- 
 ings. The swelling of the lymphatics appears by preference in the lower 
 part of a hind limb, and the first nodules may be near the fetlock or tar- 
 sus. The ulcers forming about the sixth day have a yellowish-white 
 appearance with red points and raised irregular borders, and the discharge 
 is grumous and viscous, with a yellowish or reddish tinge. The disease 
 extends toward the body, the upper air-passages become involved, and 
 death speedily follows. 
 
 Chronic cutaneous glanders, chronic farcy, usually begins by a local 
 swelling, mostly of the fetlock, in the midst of which a careful examina- 
 tion detects a small glanderous nodule. This tardily softens, ulcerates, 
 and discharges the characteristic ichor, the lymphatics leading up from it 
 become thick and rigid (corded), and new nodules appear. Though very 
 indolent, these finally tend to ulcerate, and in time cedematous swellings 
 appear in the vicinity or at distant parts of the body, with nodules at 
 intervals. This will go on for months, or even for years, and recoveries 
 occasionally take place, while in other cases, and especially when the con- 
 ditions of life are bad, acute glanders supervene. 
 
 MORBID ANATOMY. The lesions consist essentially in a cellular 
 growth in the connective tissue, determined by the presence of the 
 specific poison, and in destructive changes in the elements of such 
 growth softening, fatty degeneration, ulceratiou, and discharge. In 
 certain cases of nasal glanders at the earliest stage there is merely an 
 increased proliferation of the mucous corpuscles, which become more 
 granular or purulent. Soon, however, the fibro-vascular layer is in- 
 volved, the affected part being the seat of dark bluish congestion, and
 
 MORBID ANATOMY. 917 
 
 of the proliferation of small rounded lymphoid cells, comparable to those 
 of the early stage of tubercle, and enclosed in more or less dense fibrous 
 areoloe. The common nasal nodule or patch has a soft velvety surface, 
 dirty gray or grayish yellow, and the lymphoid cells are so circumscribed 
 in nests that when soaked in water the cells are washed out and the 
 fibrous reticulum is left hollowed out like a honeycomb. In this fibrous 
 reticulum are many spindle-shaped and a few rounded cells. Its vas- 
 cularity is easily demonstrated by injection. The centre of each nest 
 is the palest part of the mass, and unless stained by extravasation it 
 contrasts with the reddish areola. These islets of lymphoid cells, at 
 first isolated and each the size of a pin's head, may enlarge and become 
 confluent, forming the larger nodules. With this increase the centre of 
 each becomes turbid, and the cells are found to have become granular 
 and fatty, and to have in pail broken up into a granular debris. This 
 characterizes the period of ulceration, and erosions and ulcers follow in 
 ratio with the extent of the neoplasm and the rapidity of its growth. 
 If the growth is tardy, the ulcer, with irregular eroded and everted 
 edges, may remain for some time stationary or even recede, while if rapid, 
 new tubercles form around the margin of the first, and by the disintegra- 
 tion of their elements the ulcer is continuously extended. The lesions 
 are especially common on the septum nasi and turbinated bones. Similar 
 lesions may be found in the nasal sinuses or larynx. 
 
 The nodules found in the lungs strongly resemble miliary tubercles, 
 but are usually less numerous. As in the nose, they have a punctiform, 
 central, grayish, turbid portion, encircled by a more translucent ring, 
 surrounded in its turn by a vascular area. They are also composed of 
 the same granular rounded cells, though they may, especially in the 
 chronic forms, have undergone caseous, fibrous, or calcareous degenera- 
 tion. The acute tubercles are often surrounded by circumscribed pneu- 
 monia with considerable exudation. They are distinguished from genu- 
 ine tubercle by their vascularity and by the absence of giant-cells. 
 
 The cutaneous deposits are composed of the same histological products 
 imbedded in the dermis or in the subcutaneous connective tissue, and extend- 
 ing in some cases deeply between the muscles, with no clear line of demar- 
 cation from the sound tissue. Not only the chains of nodules (farcy-buds), 
 but the connecting lymphatic trunks, are the seat of the characteristic 
 cellular product, and in -chronic cases there is the enlargement of the 
 adjacent lymphatic glands as well. In these there is a special tendency 
 to early disintegration and ulceration. 
 
 In the diffuse glanderous swellings (infiltrated glanders, inflammatory 
 glanders) the affected tissues are the seat of an inflammatory process with 
 profuse exudation throughout, while in the interstices of the connective 
 tissue are numerous granular glander-cells. The same tendency to necro- 
 biosis is shown as in the other forms of glanderous neoplasms, and such 
 diffuse swellings become the seats of very extensive, deep, and irregular 
 ulcers, or frequently of fibroid growth and induration, forming the so- 
 called cicatricial deposits. These are hard, firm, and resistant, and histo- 
 logieally consist of a dense fibrous stroma interspersed with the spindle- 
 shaped cells. They are especially common in chronic cases, and such an 
 appearance on the nasal mucous membrane is always suspicious, as this? 
 dense fibroid appearance rarely follows a simple traumatic lesion.
 
 918 GLANDERS. 
 
 Diffuse glanderous infiltrations in the nose may implicate the entire 
 mucosa of one or both nasal chambers, and the ulcers are liable to be 
 greater than from the nodular form of the disease. They are also 
 especially associated with thrombosis of the veins, which occurs to a less 
 extent in the nodular form and conduces to the dark-blue tint of the 
 mucosa. 
 
 Glanderous infiltration of the lungs is inflammatory in its nature (pnc-u- 
 rnonia malleosa), attacking an area of two or three inches in diameter at 
 or near the margin of the lungs, and proceeds to caseous necrobiosis, 
 suppuration, calcification, or fibroid induration. In the skin such infil- 
 trations also frequently terminate in induration, while ulceratiou and 
 abscess tend to appear when the proliferation of glander-cells is most 
 abundant (farcy-buds). 
 
 The glander-nodules are not uncommon in muscles, intermucular con- 
 nective tissue, spleen, liver, kidneys, and testicles. Leukemia is also a 
 constant feature, the irritation of the lymphatic glands manifestly stimu- 
 lating the production of the lymph-cells. 
 
 DIAGNOSIS. The diagnosis of glanders usually rests on the viscid 
 nature of the discharge, the painless nodular swelling of the submaxil- 
 lary glands and the indisposition to suppurate, the characteristic appear- 
 ance of the nodules, elevations, ulcers, and indurations of the ua~al 
 mucosa, and the presence of the specific bacillus. The diagnosis of farcy 
 rests mainly on the nature of the nodules and corded lymphatics, of the 
 ulcers and their discharges, on the extension of the affection toward the 
 trunk, and the tendency to implicate the respiratory organs. Usually, 
 there are several victims, the earlier ones chronic cases, the later ones 
 acute, or there is a history or presumption of exposure. Yet in many 
 cases, and especially in the more chronic internal forms (laryngeal, pul- 
 monary, etc.), the diagnosis is difficult, and inoculation of a horse, goat, 
 sheep, or rabbit may be the only available means of reaching a decision. 
 Auto-inoculations are unreliable, as parts not yet the seat of active disease 
 will often resist inoculation. 
 
 PROGNOSIS. This is always unfavorable. The constancy of internal 
 deposits and the viability of the germ in such products render it impos- 
 sible to eliminate the poison from the system in the great majority of 
 cases. In external glanders only is there any reasonably good hope, ami 
 even this is confined to the chronic cases. In stating this much, it is not 
 denied that recoveries even of chronic nasal glanders do occur, yet these 
 are few, and the majority of those that do apparently recover usually 
 succumb as soon as they are subjected to hard work or specially trying 
 conditions of life, so that but little faith can be placed in most of the alleged 
 recoveries. 
 
 TREATMENT. Considering the great danger of multiplying and pre- 
 serving the germs of a disease so fatal alike to man and boast, the treat- 
 ment of glanders is never commendable. The danger is least in the case 
 of chronic farcy, not only because the processes are less active, but because 
 the virus is not being thrown out and diffused with the tidal air of 
 respiration, sneezing, and coughing. The unbroken farcy-buds and 
 swollen lymphatics may be actively treated by compound iodine ointment, 
 and the ulcerous nodules freely cauterized with corrosive sublimate, 
 biniodide of mercury, chloride of zinc, sulphate of copper, or iodized
 
 PEE VENTIOX.ETIOL OGY. 919 
 
 phenol. Local inflammations may demand fomentations and astringent 
 antiseptic lotions. Meanwhile, the system must be supported by a tonic- 
 regimen and medication, abundance of pure air, a liberal and wholesome 
 diet, and the maintenance of the various bodily functions in a healthy 
 condition. Of medicinal agents the most pronounced tonics have the best 
 reputation sulphate of copper and iron, biniodide of copper, arsenic, 
 and, above all, arseuite of strychnia. Next to these the sulphites rank, 
 and a combination of the two last named is perhaps to be preferred. 
 
 PREVENTION. Theglandered horses and all animals attacked with acute 
 or obstinate farcy should be destroyed and their bodies be burned or deeply 
 buried. Every State should legally interdict the use of a glaudered horse 
 or his exposure in any public or other place where infection is likely to 
 reach other animals by contact or through fodder, litter, stable utensils, or 
 any other objects employed about animals. No less imperative should be the 
 perfect disinfection of all stables, harness, and other objects with which 
 glandered animals have come in contact. The value of such measures is 
 sufficiently attested by what has been stated above as to the prevalence of 
 this disease in the French army so long as the doctrines of non-contagion 
 dominated in its management, and the comparative disappearance of the 
 disease so soon as a change of theory and method had been inaugurated ; 
 the absence of the disease in the English army, where the doctrine of 
 contagion and its extinction has long prevailed ; and the entire absence of 
 the disease from Australia, New Zealand, etc., into which it has never 
 been imported, though prevailing in a corresponding latitude and climate 
 at the Cape of Good Hope. 
 
 Glanders in Man. 
 
 Up to 1812 the communication of glanders to man failed to be recog- 
 nized. Then Lorin, a French surgeon, published a case of the kind in 
 which inflammation of the hand was induced by inoculation from a horse 
 suffering from farcy, and Waldinger and Weith drew attention to the 
 dangers of infection about the same time. In 1821, Muscroft in Eng- 
 land and Schilling in Germany simultaneously reported cases of infec- 
 tion from the horse in which the true symptoms of glanders in man were 
 recognized. Rust, Sedow, and Weiss soon followed with additional 
 cases; then Forozzi (1822), Seidler (1823), Wolff, Grossheim, Eck, 
 Bruuslow, Lesser, Travers (1826), Kries, Grubb, Brown (1829), Neu- 
 mann (1830), Vogeli (1831), Alexander (1832), and Elliotson (1833). 
 Though the disease was now well recognized, yet its nature has been 
 elucidated by a series of later writers, including especially Rayer, Tardieu, 
 Virchow, Leisering, Gerlach, and Koranyi. 
 
 ETIOLOGY. Man is rarely infected from any other source than the 
 horse. In a very few instances the contagion has been derived from 
 infected men. The modes of infection, immediate and mediate, are the 
 main points to notice in this connection. Those employed about horses 
 are usually infected by direct contact of the poisonous discharges, blood, 
 or tissues with abrasions on the skin or mucous membranes. The inocu- 
 lation received in giving medicine, examining the nose, performing oper- 
 ations with effusion of blood, dressing cutaneous ulcers, slaughtering,
 
 920 GLANDERS. 
 
 skinning, making a necropsy, burying, etc., is not uncommon. Again, 
 direct infection is sustained through snorting of the horse, so that par- 
 ticles of the virulent discharge are lodged on the mucous membrane of 
 the eye or nose. Closely allied to this is infection by inhaling the exha- 
 lations of glandered horses, and this doubtless accounts for some few cases 
 which have been recorded as communicated through the unbroken skin. 
 The bite of the glandered horse is a rare means of infection. From 
 infection by eating glandered animals man is usually saved by the cook- 
 ing of his food and by his inherent power of resistance, yet with instances 
 of this kind on record, as recorded by Ringheim, and the well-known 
 conveyance of the disease to animals in this way, it would be folly to 
 ignore the risk to man from eating the flesh of glandered horses, sheep, 
 goats, and rabbits. 
 
 Among the mediate forms of contagion may be named drinking from 
 the same pail or trough after a glandered horse, using a knife that has 
 been employed to open a glanderous abscess, wiping a wound with an 
 infected blanket or handkerchief, handling infected harness, wagon-pole, 
 or manger with wounded hands, sleeping over glaudered horses or in a 
 stall or on litter previously used by such horses. 
 
 Conveyance of glanders from man to man has taken place through 
 using or handling the same dishes, towels, or handkerchiefs, through 
 dressing the wounds, or, as in the case of the veterinarian Gerard, through 
 making an autopsy of a victim of the disease. 
 
 Fortunately, the susceptibility of man is slight, but few out of the 
 multitudes handling glandered horses becoming infected. It is essentially 
 an industrial disease, 114 cases being distributed as follows among the 
 different occupations: hostlers, 42; farmers and horse-owners, 19 ; horse- 
 butchers, 13; coachmen and drivers, 11; veterinary surgeons and stu- 
 dents, 1 ; soldiers, 5 ; surgeons, 4 ; gardeners, 3 ; horse-dealers, 2 ; police- 
 men, shepherds, blacksmiths, employes at veterinary school, and washer- 
 women, 1 of each. 
 
 A condition of ill-health doubtless predisposes to this as to other inva- 
 sions of infectious disease, yet men in apparently the most vigorous health 
 have succumbed to the poison. 
 
 SYMPTOM?. The incubation of acute glanders in inoculated cases usu- 
 ally varies from one to four days. In cases in which the mode of entrance 
 is not so manifest it may apparently extend over one, two, or even three 
 weeks. If the disease has occurred by external inoculation, the seat of 
 the wound shows the first symptoms, consisting of tense swelling, pain, 
 and a dark or yellowish erysipelatoid redness, while the edges of the 
 wound are puffy and everted, the matter escaping is sanious, and the sur- 
 rounding lymphatics are swollen and red and the lymphatic glands 
 enlarged and tender. After a few days constitutional disorder sets in 
 languor, extreme weakness and prostration, aching in the limbs (muscles 
 and joints) and in the head, rigors alternating with fever or a continued 
 fever after the first violent chill, and in some cases nausea, vomiting, and 
 even diarrhoaa. In cases not resulting from external inoculation the 
 febrile symptoms are the earliest to be noticed, and the muscular and artic- 
 ular pains may be at first mistaken for acute rheumatism. In other cases, 
 in which the gastric and intestinal disorders are the most prominent and 
 the prostration and weariness extreme, the symptoms at first strongly sug-
 
 SYMPTOMS. 92] 
 
 gest typhoid fever. Soon, however, with a sense of formication a local 
 yellowish or livid erysipelatoid inflammation appears, by preference on 
 the softer parts of the face, the nose, eyelids, cheeks, or on one of the 
 principal joints, the shoulder, elbow, or knee. In the midst of the phleg- 
 monous swelling, or even antecedent to it, there appear small firm red 
 spots or nodules, sometimes as small as those of variola, at others like a 
 pea or as large as a walnut or larger. These gradually blanch in the 
 centre, soften, and change into pustules or abscesses, and, bursting, dis- 
 charge a slimy, thick, sanguineous pus, often emitting a mawkish or fetid 
 odor. The sores thus formed are ulcerous and unhealthy, with puffy, 
 ragged, everted borders and a grayish or yellowish red base, which often 
 extends deeply between the muscles and exposes tendons and bones. 
 When several deposits of this kind are closely aggregated, they tend to 
 combine in one slough, which may involve a great extent of tissue. In 
 all cases there are the swollen, reddened, tender condition of the connecting 
 lymphatics and the tumefaction of the lymphatic glands. At times the 
 deposits and abscesses are deeply seated in the interstices of the muscles, 
 and at other times the joints are enlarged by exudation. 
 
 In nearly one-half of the cases glanders supervenes on the cutaneous 
 symptoms. At first a viscid, whitish nasal catarrh appears from one or 
 both nostrils, mixed with striae of blood; then upon the pituitary 
 membrane appear ulcers like those already described in the horse ; the 
 same form on the buccal, pharyngeal, and laryngeal mucous membranes, 
 and by physical examination they may even be found to have invaded the 
 lungs. The margins of the nostrils become adherent through the drying 
 of the tenacious mucus ; the meati are blocked or narrowed by the swelling 
 of the mucosa, the detachment of sloughs, and the accumulation of the 
 discharges ; the breathing becomes snuffling and difficult ; the voice altered 
 or lost ; the cough weak, with a mucous and bloody expectoration, and 
 the breath offensively fetid. The submaxillary lymphatic glands are 
 inflamed and enlarged, and may even go on to suppuration and ulceration. 
 The conjunctiva is usually involved, and at times the specific formation 
 and ulceration extend to the stomach and intestines, and nausea, vomiting, 
 indigestion, irregularity of the bowels, and fetid diarrhoea ensue. There 
 is complete anorexia, but thirst is ardent, especially with diarrhoea. 
 With the advance of the disease dyspnoea supervenes, and nervous dis- 
 order is shown by the extreme weakness, anxiety, sleeplessness, troubled 
 dreams, nocturnal delirium, dilated pupils, and even coma. The tempera- 
 ture, though at first unaltered, may later rise to 104 F., and the pulse to 
 110 to 120 beats per minute. The diagnosis is confirmed by detection of 
 the bacillus in the discharges, and, above all, in the liquids of freshly- 
 opened pustules (Wassilieff ). 
 
 The duration of acute glanders in man may be no more than three 
 days, though usually it is protracted to fourteen or twenty-one, and 
 exceptionally to twenty-nine days. The almost constant termination of 
 this form of the disease is in death. 
 
 Chronic glanders occasionally appears in man, and is in most respects 
 the counterpart of that of the horse. The morbid process shows itself 
 in the integumental or other tissues of the body, and only attacks the 
 nose and air-passages later, when the constitutional symptoms become 
 more intense. The general malaise, languor, prostration, aching of
 
 922 GLANDERS. 
 
 limbs and joints, and inappcteuce are usually present, complicated by a 
 local swelling in the seat of inoculation (face, hands, etc.), with small 
 nodules progressing to pustules, congestion of the lymphatics, and swell- 
 ing of the lymphatic glands. These lesions may subside even before sup- 
 puration, and the disease is manifested for a week or two only by a gene- 
 ral feeling of weariness and ill-health ; but sooner or later the local 
 symptoms reappear in the same or another seat, and the neoplasms, 
 though indolent for an indefinite length of time, finally degenerate, 
 soften, burst, and form ulcers. These ulcers have the general characters 
 already described a livid grayish or yellowish hue, with red, puffy, 
 irregular edges, and a viscid greenish, yellowish, dirty white, or bloody 
 discharge. They tend to increase, or they may appear to heal by the 
 peculiar firm cicatricial formation; but on the swollen margins new 
 deposits, abscesses, and ulcers tend continually to form. Sometimes 
 these are of considerable size and seated deeply among the muscles, but 
 when opened they show the same unhealthy serous or bloody pus, and 
 manifest a tendency to extension rather than to healing. When the disease 
 extends to the respiratory organs, often two or three months after the 
 onset, there is cough and sore throat, blocking of the nose by the tena- 
 cious discharges and swollen mucosa, and in the pharynx, fauces, and 
 nose the characteristic ulcer may be detected. The attendant constitu- 
 tional symptoms are also much more marked indigestion, nausea, vom- 
 iting, diarrhoaa, rigors, profuse perspiration, high temperature, excited 
 breathing and pulse, a yellowish or earthy hue of the skin, rapid emacia- 
 tion, and great prostration. Though great emaciation, debility, and 
 hectic ensue on the indolent chronic processes, yet the disease usually 
 assumes all the characters of the acute type before terminating fatally. 
 
 In cases that recover the fever diminishes, exacerbations cease, ulcers 
 granulate and cicatrize, vesicles dry up, the nodules and enlarged glands 
 diminish, the erysipelatoid swellings of skin and nose subside, and a very 
 tardy and imperfect convalescence is established. 
 
 The duration of chronic glanders, nasal or cutaneous (farcy), is exceed- 
 ingly indefinite, varying from three mouths to ten or eleven years. One 
 of the most protracted cases is that recorded by Bollinger of a veterina- 
 rian who, after an eleven years' illness, recovered with cicatricial contrac- 
 tion of the nose and larynx and a decided cachectic appearance. 
 
 MORBID ANATOMY. Besides the lesions above mentioned as occurring 
 in the skin and mucous membranes of the nose, mouth, and pharynx, the 
 frontal sinuses, the larynx, and less frequently the lungs, are the seats of 
 the specific glanderous processes. In the lungs there are then the nodules, 
 hard, caseous, or purulent according to their age, and varying in size 
 from a millet-seed and pea upward to the involving of the greater part 
 of a lobe. Beneath the pleurae may be seen ecchymoses, hard, fibrous 
 nodules, and yellow elevations, which on being incised furnish grumous 
 pus. The spleen is usually enlarged, gorged with blood, gray or black, 
 and is the seat of suppuration. The liver is enlarged, softened, and may 
 be the seat of glanderous processes, with ulcers in the bile-duct or gall- 
 bladder. The joints, like other serous cavities, become the seat of 
 specific suppuration. The bones are often implicated in adjacent deposits, 
 especially in the face, cranium, and hands, so that the compact tissue may 
 become reduced to the merest shell, while the medulla and periosteum
 
 DIAGNOSIS. 923 
 
 abound in the specific products. The cerebral meningcs and brain-tissue 
 are frequently the seat of specific growths and minute abscesses. It is 
 noticeable that the enlargement of the lymphatic glands is usually less 
 than it is in the horse, though they are never entirely free from lesions. 
 Indeed, the tendency in man to the formation of considerable glanderous 
 neoplasms is much less than in the solipede. 
 
 The microscopy of the lesions is essentially the same as in the horse. 
 O. Wyss describes the cutaneous nodules as formed by a great prolifera- 
 tion of round cells (like pus-cells) in the upper layer of the corium just 
 beneath the papillary layer. In a more advanced stage the corium 
 and papilla are filled with pus-cells, and, becoming disorganized, give 
 rise to the formation of pustules and small abscesses. Lagrange describes 
 in a chronic ulcer of the palm, a layer about 2 mm. in thickness of 
 embryonic cells closely packed with an amorphous intercellular sub- 
 stance. The nuclei appeared larger than in ordinary ulcers or tubercles. 
 Extending into this layer were capillary vessels packed with red globules 
 and with blind extremities, or in some instances minute ruptures and 
 hemorrhages. Beneath this superficial cellular layer was a stratum of 
 striated muscle, especially noticeable for the excess of condensed connect- 
 ive tissue making up the intermuscular septa, and the great multiplication 
 of nuclei with large, clearly-defined uucleoli, not only inside the sarco- 
 lemma, but also between the fibrillae and separating them widely. At 
 some points the muscular tissue had undergone a vitreous degeneration, 
 while at others were many fusiform cells. At one point, where the ulcer 
 extended to the phalanx, the compact layer of the bone was attenuated to 
 the thinnest shell and perforated, so that the medulla was continuous with 
 the ulcer. The medulla contained a great number of white globules, 
 medulla-cells, and minute embryonic nuclei. The vessels were remark- 
 able by the extensive fibroid thickening of their coats. On section of 
 the ulcer many orifices stood widely open because of the rigidity of their 
 walls. The internal coat was plicated, as if too large for the lumen. 
 The external fibrous layers were at points abundantly interspersed with, 
 and even replaced by, groups of embryonic cells, the active proliferation 
 of which meant the destruction of the perivascular fibrous layer. These 
 embryonic cells even invaded the lumen of the vessel and partly blocked 
 it, so that the remnant of the tube remained as the centre of a disintegra- 
 ting mass, or later a caseous or purulent focus. 
 
 DIAGNOSIS. Acute glanders, when well developed, is unmistakable. 
 The presence on or near the skin of the characteristic nodules, pustules, 
 phlyctenre, and ulcers, the oedema or erysipelatoid condition of the adja- 
 cent skin, the redness of the lymphatics, the presence of the neoplasms 
 and ulcers in the nose, and the sticky, fetid, variously colored nasal dis- 
 charge, with the acute fever, prostration, and pains in the limbs and 
 joints, make a tout ensemble that is pathognomonic. In the initial stage 
 only it may be confounded with rheumatism, but the arthritic pains are 
 not usually attended by the same amount of redness and swelling of the 
 joints, the prostration is far more profound, and there are in most cases an 
 irritable, unhealthy-looking wound and a history of exposure to infection 
 from glandered horses. 
 
 In chronic glanders, and especially in the external forni (farcy), the 
 diagnosis is often more difficult. From pyaemia and septicaemia it is
 
 924 GLANDERS. 
 
 usually to be distinguished by the comparative absence or the slightuess 
 of the chills, by the less healthy character of the pus, and by the impli- 
 cation of the nasal mucosa, the larynx, and lungs. When the nose, 
 larynx, or lungs are but slightly affected, there may be a strong resem- 
 blance to syphilis or miliary tuberculosis, but a close attention to the 
 character of the lesions, the absence of any concomitant history or symp- 
 toms of syphilis, and deductions drawn from the occupation of the patient 
 and the presumptive exposure, will greatly assist in reaching a diagnosis. 
 
 The detection of the bacillus is not conclusive, as in tuberculosis and 
 some forms of septicaemia there are similar organisms, agreeing with 
 the microbe of glanders even in the matter of size. In cases of doubt 
 a little delay will usually allow the development of new and more cha- 
 racteristic symptoms. 
 
 The final resort, however, is to inoculation. Auto-inoculation, as 
 practised by Poland, is rarely satisfactory, as the system has acquired a 
 partial tolerance of the disease and local lesions are not so certainly 
 developed as in the healthy subject (St. Cyr). Inoculation on a healthy 
 goat, sheep, or rabbit can always be availed of, and if practised on more 
 than one subject can be relied upon, as the virus loses nothing of its 
 power in passing through the human system, but usually determines an 
 acute form of the disease in the animal inoculated. 
 
 PROGNOSIS. Acute glanders is almost constantly fatal to man. Of 
 chronic cases, and especially the external form (farcy), from one-third to 
 one-half of the subjects recover. When both internal and external 
 (farcy glanders), the issue is usually fatal. Kiituer claims that cases 
 caused by external inoculation are more favorable than those caused by 
 the inhaled poison. This accords with the general principle, that a 
 poison viable in the comparatively vitiated air of the lungs or on the 
 surface of the intestinal canal is better fitted by its habit of life for 
 survival in the blood and plasma, and is consequently more redoubtable. 
 The greater the duration of the disease in any particular case, the more 
 favorable is the prognosis. 
 
 TREATMENT. In the treatment of glanders in man the same princi- 
 ples must guide as in animals. In external, inoculated cases the wounded 
 tissues should be early destroyed by potent caustics fuming nitric acid, 
 corrosive sublimate, iodized phenol, chlorine, sulphate of copper, carbolic 
 acid, or the hot iron. The erysipelatoid swellings may be treated by 
 leeching, followed by solutions of carbolic acid, iodine, or chlorine-water, 
 by ice, and internally by laxatives and iodide of potassium. The first 
 two antiseptics may be freely used by hypodermic injection. Abscesses 
 and tumors should be laid open and cauterized as above, and then treated 
 by weaker solutions of the same agents. Nasal ulcers may be treated by 
 insufllation of iodoform and injections of creasote, carbolic acid, nitrate 
 of silver, or permanganate of potash solutions. Of the greatest import- 
 ance is a general tonic and stimulating regimen. A nutritious diet 
 (including beef-tea), abundance of pure air, alcoholic stimulants, quiuia, 
 tincture of the chloride of iron, and, above all, arseniate of strychnia, have 
 been used with advantage. Various anti-ferments, such as the bisulphites 
 in full doses, carbolic acid, and iodide of potassium, have apparently 
 proved beneficial, and deserve a further trial. As in the horse, a great
 
 PREVENTION. . 925 
 
 variety of other agents, mostly of a tonic nature, have been employed, 
 but with very variable results. 
 
 PREVENTION. The first step toward the prevention of glanders in 
 man is the systematic restriction and extinction of the affection in ani- 
 mals. This has been already sufficiently referred to above. Further 
 measures of prophylaxis embrace the following : the avoidance of contact 
 with glandered and suspected horses by all persons having any wounds, 
 abrasions, or ulcers on their skins ; the cauterization with nitrate of silver 
 of all such sores on persons necessarily brought in contact with glaudered 
 or suspected animals or their products ; the general diffusion of informa- 
 tion as to the danger from glandered animals; washing of hands and face 
 in a solution of carbolic acid or chloride of lime after handling infected 
 or suspected animals or their carcases or products ; the thorough disinfec- 
 tion or destruction (preferably by fire) of harness, clothing, racks, man- 
 gers, wagon-poles, buckets, troughs, brushes, combs, litter, and fodder 
 that have been exposed to infection ; and, finally, the exclusion from the 
 markets of all meat derived from suspected or infected animals. It is 
 generally held that the flesh of the horse alone demands inspection, but 
 with the known susceptibility of sheep, goats, and rabbits it can easily be 
 conceived how the infection may reach man through his food, though 
 horse-flesh is never consumed. That glanders has never been recognized 
 as arising from the consumption of diseased sheep or rabbits does not 
 prove that it has never reached man by this channel, any more than the 
 absence of all recognition of the infection of man from the horse would 
 prove the non-occurrence of such infection until the beginning of the 
 present century. The knowledge that the animals used for food in this 
 country are liable to contract and convey this disease is an additional rea- 
 son for the systematic and universal suppression of the disease among the 
 equine population.
 
 ANTHRAX (MALIGNANT PUSTULE) 
 
 BY JAMES LAW, F. K C. V. S. 
 
 SYNONYMS. Latin, Ignis Sacer, Anthrax Epizooticus, Pustulu Ma- 
 ligna, Pustula Pestifera, Erysipelas Carbunculosum, Carbunculo Conta- 
 gioso, Glossanthrax, Angina Carbunculosa, Anthrax HaBmorrhoidalis, 
 Mycosis Intestinalis, Apoplexia Spleiiitis, etc. English, Black Erysip- 
 elas, Malignant Vesicle, Anthrax Fever. Splenic Apoplexy, Splenic 
 Fever, Inflammatory Fever, Carbuncular Fever, Black Quarter, Blood- 
 Striking, Bloody Murrain, Blaiu, etc. French, Pustule maligne, Char- 
 bon, Fivre putride, Typhohemie, Pelohemie, Mai de Rate, Splenite 
 Gangreueus6, etc. German, Karbunkelkrankheit, Contagiose Karbun- 
 kel, Milzbrand, Milzseuche, Milzbraudneber, Brandbeuleuseuche, Roth- 
 lauf, etc. Russian, Jaswa (boil-plague). Italian, Antrace. Spanish, Car- 
 bunculo, Lobado. Swedish, Boskapssjukan. Mexican, Calenturadel piojo. 
 
 DEFINITION. Anthrax is an acute, infectious, bacteridian disease, 
 occurring mostly in the Herbivora and Omnivora, but communicable to 
 other mammals (including man), to birds, and even fishes. Its local 
 manifestations are exceedingly varied in kind, but the malady is charac- 
 terized by the prasence in the tissues or blood, or both, of specific spher- 
 ical and linear bacteria (micrococcus and bacillus anthracis), leading to 
 arrest of hsematosis, to disintegration of the blood-globules, to sanguin- 
 eous engorgement of the spleen, to capillary embolism, and to a spreading 
 gangrenous inflammation. 
 
 HISTORY AND GEOGRAPHICAL DISTRIBUTION. While ancient his- 
 tory is not clear as to the specific diseases of animals, yet there is the 
 strongest presumption that nearly all great plagues that attacked indis- 
 criminately animals and man were of this nature. Thus, the plague of 
 murrain, with boils and blaius breaking out on man and beast, in the 
 days of Moses, was probably of this kind (Gen. ix. 3.) ; also that which 
 at the siege of Troy extended from animals to man, and many later 
 epizootics in all parts of the world. No infectious disease of man and 
 animals, with the single exception of tuberculosis, has been more widely 
 diffused, and none can be considered as more cosmopolitan. Heusinger, 
 in his classic work on Milzbrandkrankheit, traces the ravages of the dis- 
 ease from the highest to the lowest latitudes in the northern and southern 
 hemispheres and in the Old World and the New. He adduces outbreaks 
 in Siberia, Astrakan, Lapland, and Finland, in Russia, Prussia, Poland, 
 Silesia, Bavaria, Holland, Belgium, France, Spain, Portugal, Italy, Switzer- 
 land, Austria, Hungary, Greece, Turkey, Egypt, East and West Indies, 
 
 926
 
 HISTORY AND GEOGRAPHICAL DISTRIBUTION. 927 
 
 North and South America, etc. We can now add all the great English, 
 .b rench, and other European colonies not included in the above (South 
 Africa, Australia, New Zealand, Algeria, etc.), together with China and 
 Japan. We find, moreover, that the disease is always most prevalent 
 where agriculture is in its most primitive condition, so that there can be 
 little doubt of the prevalence of the affection in the less-civilized coun- 
 tries as well. But while the disease is prevalent in all parts of the world, 
 its ravages are largely subordinate to the nature of the soil. Wherever 
 this is close, impervious, marshy, or charged with an excess of organic 
 matters, the gaseous emanations of which drive out most of the oxy- 
 gen, the anthrax-germs, once introduced, tend to be preserved indefinitely. 
 Thus, in drying up basins with no natural drainage, on lake and river 
 margins, on deltas, in forests, in mucky, mossy, or peaty soils, and on 
 those that are habitually over-manured, the germs of anthrax are espe- 
 cially liable to be perpetuated. It has long been noticed that herbivorous 
 animals are the most susceptible to anthrax, while the purely carnivorous, 
 and to a less extent the omnivorous, have relatively a far higher resisting 
 power. That the immunity is largely due to the food is manifest from 
 the experiments of Feser on rats. Those fed on vegetable aliment con- 
 tracted anthrax readily from inoculation, while those kept on an exclusive 
 diet of flesh successfully resisted. The same rats that escaped while on a 
 flesh diet were afterward placed on a vegetable diet, and then perished 
 after inoculation. 1 Davaine found the same to be true of foxes kept on 
 meat and vegetables respectively, and inoculated with the virulent blood 
 of the allied disease, septica3mia. He found, moreover, that guinea-pigs 
 were much more susceptible to anthrax than rabbits. One-thousandth of 
 a drop of virulent anthrax blood invariably killed the guinea-pig, while 
 it left the rabbit unharmed. 2 Klein has never found a rabbit insuscepti- 
 ble. It has recently been claimed that pigs are insusceptible, but I have 
 known of many instances in which the offal of anthrax cattle, when 
 devoured by pigs, has determined fatal anthrax in the latter. Chickens 
 too prove much less susceptible to anthrax than the Herbivora. Inocu- 
 lations made by Cohn and others proved invariably unsuccessful, while 
 Pasteur has showed that they can be infected easily after the body has 
 been cooled by partial immersion in cold water. 3 Pasteur attributes this 
 immunity to their normally high temperature, yet rabbits, sheep, pigs, 
 wolves, and foxes, though maintaining a correspondingly high temperature, 
 are still subject to anthrax. Even the herbivorous mammal suffering from 
 acute anthrax fever has its temperature raised to that of the chicken, yet the 
 disease progresses none the less surely to a fatal result. Again, anthrax 
 liquids inoculated under the skin of a fox proved harmless, while if thrown 
 into the warmer peritoneal cavity they proved fatal. It may well be sus- 
 pected that the relative insusceptibility of chickens is in part due to the 
 large amount of animal food consumed by them, and that the chilling 
 process increases the receptivity by deranging sanguinification and 
 nutrition. 
 
 The insusceptibility to anthrax is often characteristic of certain indi- 
 viduals or families or of the animals living in a particular district. Thus, 
 Chauveau found that some French sheep, and nearly all Algerian ones, 
 
 1 Wochenschri/t f. Thierheilhtmde und Thiersucht, Nos. 24 and 25, 1879. 
 *Rec. de Med. Vet., Mar. 15, 1879. * Ibid., Mar. 15, 1880.
 
 928 ANTHRAX. 
 
 resisted inoculation with a moderate amount of anthrax virus, while the 
 introduction of a maximum amount proved fatal to these as to others. 
 In the same way, it is often noticed that animals living in an anthrax 
 region escape the evil effects of the poison, while strange animals brought 
 in either fall ready victims or for a time do badly until they have become 
 habituated to the locality. In view of the subsequent protective effect on 
 the system of a first and non-fatal attack of anthrax, it is probable that 
 all these examples of immunity in the Herbivora depend on a previous 
 mild attack of the same disease or on the extinction of the more suscept- 
 ible races. Even in the case of the animals that do badly on first coming 
 into an anthrax district, and recover better health with immunity later, 
 we may well infer that a mild form of the anthrax infection has been 
 passed through. 
 
 ETIOLOGY. The one essential cause of anthrax is the introduction into 
 the system of a specific bacteridian germ (bacillus anthracis or its spores). 
 This is not, as a rule, carried far on the atmosphere, but demands for its 
 propagation contagion, immediate or mediate. Unless, therefore, it meets 
 in the soil the conditions necessary to the preservation and propagation 
 of the germ, it is transmitted with some uncertainty from animal to 
 animal, and thus the disease does not spread widely and rapidly, like an 
 ordinary plague, but tends to become localized in particular districts as an 
 enzootic. 
 
 But its dangers are none the less real nor its existence less to be dreaded. 
 In predisposed localities, where the disease-germ has gained a footing, the 
 animal mortality may exceed that caused by the great plagues, while the 
 risk to human beings is incomparably greater than from any other acute 
 infectious disease of the lower animals. Thus, in San Domingo, in 1770, 
 15,000 people perished in six weeks from eating the carcases of anthrax 
 animals, and the mortality was only arrested when the meat was legally 
 interdicted. In the worst anthrax years on some of the Siberian steppes 
 as many as one-fourth of the whole human population suffer from the 
 malady. The prevalence and death-rate, however, vary greatly in 
 different localities and seasons. Sometimes only one or two solitary cases 
 of the affection are observed ; at other times the disease becomes moder- 
 ately prevalent, but a lack of virulence in the poison or a previously 
 acquired insusceptibility of the individual protects the great majority of 
 the animals exposed, while at others, still, the poison attacks nearly all 
 exposed to its contagion. 
 
 The animal products that mainly convey the disease are the blood, the 
 liquid exudations, portions of the diseased carcase, and the bowel dejec- 
 tions. The virus is most potent when derived from an animal still living 
 or only recently dead, yet under certain conditions (with spore-formation) 
 it may long retain its virulence under the most extreme changes of 
 climate, temperature, dryness, and humidity. Russian hides tanned in 
 England or America frequently convey anthrax, which is known especi- 
 ally as a tanner's malady, and wool and hair sent from Buenos Ayres 
 have repeatedly produced malignant pustule (woolsorter's disease) in 
 Britain and the United States. The preserved scabs of malignant pustule 
 have been often successfully inoculated on the lower animals, so that, like 
 other forms of poison, this seems to be preserved indefinitely by desiccation. 
 
 The simple contact of the virus with the slightest abrasion will suffice
 
 ETIOLOGY. 929 
 
 to convey the disease. It has often been communicated where no lesion 
 of the epidermis could be found, yet the presumption is that even in such 
 cases the cuticle had been in some way wounded. Eating the flesh of 
 animals killed while suffering from anthrax has often conveyed the dis- 
 ease. In an outbreak in Swineshead, Lincolnshire, England, in 1863, 
 I found a dog and a number of swine suffering from eating the bodies 
 of dead bullocks. In 1864 an East Lothian (Scotland) farmer fed his 
 pigs with the offal of a slaughtered anthrax bullock, and lost nearly the 
 whole herd. The carcase of the bullock had been sent to market. About 
 1860 cattle, and even horses, died yearly on a swampy meadow at 
 Brighton, Mass. On one occasion the owner, John Zoller* fed the offal 
 of a dead bullock to his pigs, which were speedily attacked with anthrax, 
 and as speedily killed to save their bacon (Dr. Thayer). Even when 
 cooked the flesh is not always safe. Of this we have the undoubted case 
 in San^ Domingo above noticed, the alleged death of 60,000 people in 
 the vicinity of 'Naples from the same cause in 1617 (Kircher), and the 
 thousands that die on the Russian steppes every anthrax year from eating 
 the sick horses (Rawitch). But in all these, and in the ever-recurring 
 cases in which families suffer from eating anthrax meat, there is the pos- 
 sibility, if not the probability, of the contamination of the meat subse- 
 quently to cooking by the knives, forks, tables, and dishes used. The 
 San Domingo slaves had few appliances for cleanliness, much less disin- 
 fection, and the Tartars eat their meat from the same board on which it 
 has been chopped up raw. 
 
 In accurate experiments it has been found that the bacilli are destroyed 
 by a temperature of 145 F. maintained for five minutes, but the spores 
 are capable of surviving the boiling temperature for five or even ten 
 minutes. The varying power of resistance may be compared to that of 
 the green stalk of the pea and the dry flinty seed. The first is destroyed 
 by a very moderate heat, while the second will sprout after having had 
 boiling water poured over it. The resisting bacillus-spores are never 
 found in the living animal, but may be developed in the blood and tissues 
 after death, and may account for the occasional extraordinary viability of 
 the poison when exposed to a boiling temperature. 
 
 Milk, though often used with impunity, conveyed the disease when 
 inoculated by Bellinger, and the same was true of the vaginal mucus. 
 Innocent in the early stages of the disease while the germs are still local- 
 ized, they become virulent after the bacilli swarm into the blood. 
 
 Healthy men and animals often carry the poison, though themselves 
 insusceptible. The question of its conveyance by insects lias been much 
 debated, but the constant occurrence of malignant pustule on the 
 uncovered parts of the body goes far to settle the question. Bourgeois 
 long ago noticed that it was most frequent on the face, hands, neck, and 
 arms, and rare on the trunk. In sixty cases recorded by A. "W. Bell 
 of Brooklyn, all occurred on the face except two on the hands, one on 
 the wrist, and one on the forearm. The bite of a fly or mosquito had in 
 many of these cases proved the starting-point of the malady. Bollinger 
 has shown the presence of the bacillus in the stomach of such flies as fed 
 on flesh and blood (horse-flies, bluebottles, etc.), and, together with Raim- 
 bert and Davaine, has produced anthrax by inoculations with the stomachs, 
 legs, and proboscides of the^e insects. 
 
 Voi, T_59
 
 930 ANTHRAX. 
 
 Surgical instruments occasionally convey anthrax. At Cockburnspath, 
 East Lothian, Scotland, a yearling heifer contracted anthrax, and the whole 
 herd was bled, commencing with the sick one. Next morning seven were 
 found dead, the disease in each case extending around the fleam-wound. 
 At Brunt, in the same county, a shepherd skinned an anthrax bullock, 
 and after washing and taking a turn among his sheep, on the same day 
 castrated several litters of pigs, all of which perished. In St. Lawrence 
 Co., N. Y., in 1870, a surgeon inoculated himself while opening a vesicle 
 on the hand of a farmer. 
 
 Harness, stables, stable utensils, vehicles, fodder, and litter are frequent 
 bearers of contagion. At Geneseo, N. Y., in 1877, three horses and a cat 
 died in midwinter after licking the blood from a stone-boat which had 
 conveyed the skin of an anthrax bullock to market. Green fodder or 
 hay harvested from ground formerly occupied by anthrax victims or from 
 their graves often convey the poison, but probably only by the adherent 
 earth and dust containing the anthrax-germ. 
 
 That the anthrax bacillus and its spores may be long preserved in earth 
 is abundantly proved. At Avon, N. Y., nine months after any cases of 
 the disease, the liquid leaking out on the river-bank near to the grave of a 
 victim of the year before was licked by six cattle, and in two days they 
 all perished. On the same pasture victims were seized yearly for seven 
 years, but with a rigid seclusion of these, their products, and their graves 
 the malady has finally disappeared. The persistent deadly effect of some 
 soils on animal life, apart from the presence of the carcases, seems to 
 show that in certain soils we find the normal home of the anthrax 
 bacillus, while the migration into the animal economy is but an accident 
 of its existence. The soils that are especially subject to anthrax are the 
 dense clays, the limestones, and the rich alluvials. Among the essential 
 conditions are the exclusion of oxygen, excepting a limited amount bear- 
 ing some relation to what is found in the animal fluids, and the abundance 
 of some alkaline agent (lime, potash, soda, ammonia), so that the earth 
 is either neutral or only very slightly alkaline or acid. An acid vege- 
 table infusion is inimical to the germ, which soon disappears from such 
 a medium. The requisite paucity of air is found in all the dense, less 
 pervious soils (clays, etc.), in soils habitually waterlogged (swamps, deltas, 
 river-bottoms, low meadows, natural basins, drying lakes and ponds), and 
 in soils rich in decomposing organic matter (peat, alluvial, over-manured). 
 The antacid is often found present as lime or potash, or is constantly 
 being produced in the form of ammonia, etc. by organic decomposition. 
 Such plac.es are known to farmers as "dead lots," because no stock will 
 live on them. The bacillus in the buried carcase does not produce spores 
 (Bollinger), though it may in the soil at any temperature between 59 
 and 110 F. In the graves, therefore, at a lower temperature, the poison 
 can only be preserved by a continuous generation of the bacillus. 
 
 Pasteur, who successfully inoculated the casts of earth-worms taken 
 from anthrax graves, attributes to these an important role in bringing the 
 germs to the surface. A more important agent, however, is probably the 
 rise and fall of water in the soil. By this means the bacilli and spores 
 are washed up toward the surface, and when the superficial layers dry out 
 they are easily carried by the winds. Hence it is that anthrax is usually 
 prevalent in late summer and when the soil is dried and heated to its
 
 ETIOLOGY. 931 
 
 greatest depth. Thus it is, too, that wet seasons followed by specially 
 dry and hot ones are, above all, productive of anthrax in herds. Wet 
 seasons fulfil the further purpose of carrying off the germs into rivers 
 and depositing them on the banks or on inundated meadows, where after 
 the subsidence of the flood the disease appears, for the first time perhaps. 
 
 There is, however, good reason to believe that the effect of a warm 
 season is not confined to its influence on the soil and its germs. The high 
 temperature deranges the vital functions of the animal economy, and, 
 inducing a febrile disturbance, lessens the power of resistance to the 
 anthrax virus, just as the cooling of the warm-blooded bird lays it open 
 to infection. On this account, and because of the frequently recurring 
 electric storms, the hot dry season is especially the season of anthrax. The 
 hottest, driest autumns of Siberia always coincide with the anthrax years, 
 and in the last fifteen years in the United States I have noticed the wide 
 extension of anthrax whenever the season has been unusually hot and dry. 
 In Corsica the herdsmen confidently pasture their stock in the close still 
 valleys throughout spring and early summer, but whenever the surface 
 soil is dried out they make all haste to remove it to the hills, well 
 knowing that delay means devastation and ruin. 
 
 Plethora is undoubtedly an important predisposing cause of anthrax, 
 and so is the alternation of cold nights with hot days. The febrile con- 
 dition induced in the animal economy is perhaps the main factor at work 
 in each case. Finally, youth is on the whole more liable than age, but 
 whether because of the greater receptivity of the growing system and its 
 tissues, or because it has not yet acquired some immunity by exposure to 
 the milder effects of the poison, is not certainly determined. Sex is with- 
 out influence. 
 
 It is not a little remarkable that the bacillus germ has not yet been 
 found in the placental liquids nor fcetal blood of sheep, goats, or rabbits, 
 though swarming in that of the mother. Bellinger attributes this to the 
 action of the placenta as a "physiological filter" a conclusion seemingly 
 at variance with the passage of the bacillus through all the other animal 
 membranes, including those lining the mammary glands and the vagina. 
 Two other possible explanations remain : first, that the secretions of the 
 uterine glands are inimical to the bacillus ; and, second, that the foetus, 
 being in some sense a carnivorous animal, possesses the immunity charac- 
 teristic of Garni vora. Bacilli have recently been found in the foetal 
 guinea-pig. 
 
 The bacillus anthracis was first observed by Pollender and Branel in 
 1849 (Birch-Hirschfeld), but it was only publicly claimed as the cause 
 of the disease in 1855 by Davaine. Branel discarded Davaine's theory, 
 because blood in which he had failed to find bacillus produced anthrax 
 with bacillus in the blood of two foals inoculated. Later observations 
 by Bellinger and others have shown that cultures of bacillus can always 
 be made from such infecting blood, and that in most cases the presence 
 in the infecting blood of spherical bacteria can be demonstrated by the 
 microscope. That the bacillus is the true pathogenic element is proved 
 by the following facts : 1st. That the bacillus is the only ectogenous, par- 
 ticulate, organized structure constantly found in the anthrax blood and 
 fluids ; in cases in which it is apparently absent cultures show its actual 
 presence. 2d. After cultivation in pork or beef infusion to the hun-
 
 932 ANTHRAX. 
 
 dredth generation the virulence is unimpaired, though it must be assumed 
 that all non-organized poisons derived from the infected animal body 
 must have been diluted or decomposed to extinction. 3d. That filtration 
 of the anthrax liquids through a plaster or other efficient filter renders 
 the filtrate innocuous, while the solids retained in the filter remain infect- 
 ing (Chauveau, Bert, Toussaiut). 4th. That the clear filtrate injected to 
 excess killed by virtue of its contained chemical products in twelve 
 hours, while the solids filtered out and containing the bacillus or its 
 spores only killed after thirty hours. 1 5th. Anthrax blood from the liv- 
 ing animal or one just dead, and destitute of spores, when subjected to 
 compressed oxygen (50 atmospheres), is non-infecting (Bert). 6th. The 
 same anthrax liquid, destitute of spores, after boiling is completely 
 innocuous. 7th. The same liquid, if kept in a closed tube apart from 
 oxygen for eight days, shows the bacilli broken down by granular degen- 
 eration, and proves absolutely harmless when inoculated in small quan- 
 tity. 8th. The same sporeless anthrax fluid when treated with absolute 
 alcohol loses its virulence. 9th. The anthrax liquid which has been cul- 
 tivated with free access of air in a temperature varying from 25 C. (77 
 F.) (Klein, Lofiier) to 41 C. (105.5 F.) forms spores, and then remains 
 infecting, though it may have been subjected to compressed oxygen, boil- 
 ing for several minutes, absolute alcohol, dilution with water, putrefaction, 
 or the exclusion of oxygen. 
 
 The bacillus authracis, as found in the blood and animal fluids, is in 
 the form of fine rods, straight (rarely bent or angular), motionless, and 
 0.007 to 0.012 Mm. in length. Smaller forms are seen to be minute 
 ovoid or oblong bodies, and the smallest absolutely spherical (micro- 
 coccus) ; but in all cases, as seen under the highest powers of the micro- 
 scope, they have clear-cut, even margins, linear or curved, which easily 
 distinguish them from the irregular normal granules of the blood and 
 tissues. Under the highest powers of the microscope the bacillus is seen 
 to be made up of a series of oblong (Koch) or cubical (Klein) cells 
 enclosed in one common sheath. This is rendered more manifest if they 
 are first swollen by the addition of water. The motionless form of the 
 anthrax' bacillus is of especial value in distinguishing it from the motile 
 bacteria of putrefaction (saprophytes). 
 
 Within the living animal body the development never goes aside from 
 these forms. The growth appears limited to micrococcus and bacillus 
 rods, while spores or bacillus threads are never found. This finds its 
 counterpart in the micrococcus poisoning caused by the inoculation with 
 the spores of common moulds (Grawitz) ; and in septicaemia also micro- 
 coccus and bacillus forms only are found, the filamentous never. 
 
 When grown in organic infusions out of the animal body the anthrax- 
 germ develops from micrococcus or bacillus into a long, branching, fila- 
 mentous product, which in the presence of oxygen develops into spores. 
 Apart from oxygen or when the proper nourishment of the bacillus is 
 exhausted the protoplasmic 'elements within the filamentous sheath 
 undergo granular degeneration, and finally the empty envelope disin- 
 tegrates and disappears. The spores appear at intervals in the proto- 
 plasm of the filament as clear, brightly refrangent bodies, at first sphe- 
 roidal, afterward larger and oblong. Unlike the micrococcus and bacillus, 
 1 Bert, Compt. Rend, de la Societe BioL, p. 355, 1879.
 
 ETIOLOGY. 933 
 
 they do not stain. Under favorable circumstances the primary cell is 
 capable of forming one, or if extra long, two spores (Koch, Klein). Cossar- 
 Ewart claims to have seen the formation of motile flagellate organisms 
 aggregating themselves into zooglaea masses, but as these were not found 
 in the carefully-conducted cultures of Koch and Klein, they are supposed 
 to have been aerial microphytes accidentally introduced. 
 
 The great tenacity of life in the spores in heat and cold, dryness and 
 wet, excluded from air and under several atmospheres of oxygen, in the 
 midst of putrefaction and in pure watery fluids, well accounts for the 
 persistence of infection in buildings and localities where the poison has 
 gained a foothold. In order to their destruction in a natural manner it 
 seems necessary that they should germinate and develop into the anthrax 
 micrococcus, bacillus, or mycelium. This germination may take place in 
 the presence of moisture, oxygen, and suitable nourishment, whether in 
 the soil, the animal body, or elsewhere, and then the exhaustion of the 
 aliment, the exclusion of the oxygen by putrefaction, the submergence 
 in a medium unfavorable to development, or exposure to a very high tem- 
 perature, may suddenly destroy the poison. 
 
 There is reason to believe that a too free exposure to oxygen proves 
 destructive to the virulence, if not to the life, of the poison, and thus in 
 all porous, well-drained soils the anthrax poison, even when introduced 
 from without and concentrated by the death and burial of many vic- 
 tims, soon disappears. This feature, which is common to many zymotic 
 diseases the germs of which live and multiply outside the animal body 
 (typhoid, yellow fever, tuberculosis, swine plague, chicken cholera, diph- 
 theria, etc.), offers countenance to the claims of Buchner that he had by 
 prolonged culture, in the presence of air, metamorphosed the bacillus an- 
 thracis into a harmless mycrophyte, and that, conversely, by continuous 
 cultivation under the surface of a suitable beef infusion he had changed 
 the harmless bacillus subtilis of hay into the deadly bacillus anthracis. 
 Koch, Klein, and others have discredited Buchner's results, on the ground 
 that he had not, in their opinion, taken due precautions against impure 
 cultures, and that his alleged transitions took place too abruptly ; yet fur- 
 ther observation must determine whether he has been condemned too 
 hastily. The diminished virulence of Pasteur's attenuated virus, which 
 is unaffected by the next subsequent culture or by the formation of spores, 
 shows plainly enough that the bacillus anthracis is capable of physiologi- 
 cal changes under the influence of varying conditions of growth, and that 
 such changes are not at once undone by a return of the former conditions. 
 
 How anthrax-germs enter the body is partly known and partly conjec- 
 tured. Direct inoculation on a sore by contact, by insects, by harness, by 
 accidents, etc. is an undoubted method. The sound cuticle is probably an 
 efficient barrier, since bacteria habitually inhabit, without hurt, the surface 
 and gland-ducts of the skin ; yet the entrance of these saprophytes through 
 the shell and membranes of the egg leaves a doubt as to the efficiency of 
 the cuticular obstacle. The mucous membranes are manifestly frequently 
 penetrated by the parasite. Hence the local affections in the mouth and 
 throat (glossanthrax, anthrax angina) and in the lungs (pulmonary 
 anthrax). Cohn claims that the gastric juice of Carnivora especially is 
 destructive to the anthrax poison, yet the constant recurrence of intestinal 
 anthrax (mycosis) seems to imply that the germs often escape destruction
 
 934 ANTHRAX. 
 
 in the stomach. Pasteur supposes that anthrax-infected food is only 
 injurious when there are inoculable sores in the mouth or pharynx, but it 
 seems as if in that case the disease would be first shown at these points 
 and in the nearest lymphatic glands rather than in the bowels, the rule 
 for the inoculated anthrax being to develop first in the tissues and thence 
 to reach the blood-vessels through the lymphatics. 
 
 The anthrax poison expends its fatal energy especially on the blood and 
 blood-vessels. The bacilli in the blood use up the available oxygen, so 
 that the circulating liquid becomes venous, dark, and unfitted for the main- 
 tenance of the normal functions of life. What is even worse, the ability 
 of the blood to absorb oxygen is greatly impaired. In men and dogs 
 suffering from anthrax the consumption of oxygen was found to be 
 reduced in one instance even by two-thirds, probably in part by reason of 
 the action of the' chemical products of the bacillus. A third condition 
 constantly found is embolism of the capillaries by the bacillus and the 
 occurrence of local gangrene. 
 
 SYMPTOMS. Anthrax shows itself in three principal forms : 1st, the 
 apoplectiform ; 2d, anthrax fever without local external lesions ; and 3d, 
 external localized anthrax. The two last forms correspond in the main 
 to the acute and subacute forms. 
 
 The period of incubation varies according to the dose of the poison and 
 the receptivity of the animal. In some cases infection is at once followed 
 by illnass. In these it is probably the chemical products that produce the 
 first effect, while the disease caused by the propagation of the bacillus 
 appears later should the animal survive. Such incubation is shortest for 
 the smaller animals (mice, rabbits, guinea-pigs, cats), in which illness 
 usually sets in in from twenty-four to forty-eight hours. In sheep and 
 goats incubation may be extended to three or four days, while in horses 
 and cattle it may last a day longer. 
 
 The apoplectiform type attacks animals which a few minutes before 
 seemed in fine health, appetite, and spirits, striking them down as if by 
 lightning, and the victims struggle convulsively for some minutes, expel 
 blood perhaps by the nose or anus, and expire. In the less suddenly 
 fatal cases there may be muscular trembling, unsteady gait, excited breath- 
 ing, accelerated pulse, tumultuous heart's action, bleeding from some natu- 
 ral orifice, and death in from one to several hours. Occurring as these 
 cases often do in summer, the sudden death is probably hastened by inso- 
 lation. 
 
 In anthrax fever or acute internal anthrax there is loss of appetite, 
 and, in ruminants, of rumination, suppression of milk, dulness, languor, 
 staring coat, or even a rigor, and thirst. Then follows the hot stage, in 
 which the temperature may rise to 106 or 107 F.; there are acceleration 
 of pulse and breathing, petechiae or a brown or yellowish tinge of the 
 mucous membranes and white parts of the skin, tenderness of the spine, 
 often jerking or clonic spasms of the muscles of the extremities, and 
 much prostration and weakness, the patient hanging back on the halter, 
 leaning against a wall, or swaying when made to move. The feces are 
 usually more or less mingled with blood-clots, or may be at once liquid 
 and bloody. Bloody urine and the discharge of blood from other natural 
 channels are frequent. Some cases are manifestly delirious, and in others 
 the skin crackles on being handled. Remissions are not uncommon, dur-
 
 MORBID ANATOMY. 935 
 
 ing which the animal remains dull and prostrate. As the disease advances 
 and the blood is robbed of its oxygen, the temperature descends below the 
 natural standard, great weakness and stupor set in, the pupils are widely 
 dilated, and death from asphyxia occurs in one or two days from the 
 onset. 
 
 In localized external anthrax the local swellings may be first seen. 
 There are usually some tenderness of the skin, erection of the hair,, and 
 the formation of a little nodule, like a hazel-nut or walnut, adherent to 
 the deeper parts of the skin, firm and comparatively painless even when 
 cat. Sometimes the swelling is diffuse, with a dropsical or erysipelatoid 
 aspect, and crackles like parchment when handled. Whether the affection 
 attacks the tongue, the throat, or some part of the head, body, or limbs, 
 the tendency is to gangrene of the part, and, if the subject survives long 
 enough, to an extensive sloughing and unhealthy sore. The sloughs and 
 sores have either a black sanguineous appearance or they are lardaceous 
 and intermixed with streaks of dark red. If fever is not present at the 
 outset, it sets in early, and passes through the same stages as in the acute 
 internal anthrax, the animals being suddenly plunged in prostration and 
 stupor, with dusky yellow or blood-stained mucous membranes, dyspnoea, 
 dilated pupils, convulsions, and death. On the mucous membranes (gloss- 
 anthrax, anthrax angina) the engorgement is usually complicated with 
 bullse with red or yellow contents, and which on bursting leave unsightly 
 gangrenous ulcers. In all such cases the morbid liquids of the swellings 
 teem with bacilli. 
 
 MOEBID ANATOMY. The most characteristic changes are usually met 
 with in the blood. This is black, thick, tarry, uncoagulable or coagulates 
 only in loose diffluent clots, which are redissolved before squeezing out 
 the serum ; the fibrin is diminished (often by two-thirds), the red globules 
 are not adherent in rouleaux, and are crenated and broken down and the 
 hsematin diffused through the liquid, so that it stains the hands or paper 
 deeply ; the white globules are increased, probably by reason of the early 
 irritation of the lymphatic glands and spleen by the poison ; and it red- 
 dens slowly and but slightly on exposure to the air, and speedily passes 
 into decomposition. The blood can scarcely be made to flow in a full 
 stream, but often trickles down the hair and skin by reason of its thick, 
 consistent character. The microphytes above described are usually found 
 in the blood, and always in the affected tissues if examined just after 
 death. 
 
 Next to the blood, the spleen presents the most constant lesions, being 
 enlarged (by one-third, one-half, or to double, triple or quadruple its nor- 
 mal size) and gorged with blood (sometimes even to rupture). The lym- 
 phatic glands, and especially those adjoining the local anthrax swellings 
 of the tissues, are always enlarged, marked with petechiae, friable, easily 
 reduced to a pulp, and swarming with bacilli and micrococci. Next to the 
 glands of the affected parts the central ones, the axillary, prepectoral, 
 thoracic, sublumbar, and abdominal, are the most constantly affected. 
 The lymph is reddish and opaque. 
 
 Decomposition sets in early, and the resulting gases cause a puffy, 
 emphysematous condition of the connective tissue. The fat and other 
 white tissues are dusky brown or yellow, and petechiated ; the muscles 
 are soft, flabby, and dark red or brown, with occasional blood extravasa-
 
 936 ANTHRAX. 
 
 dons ; the blood-vessels, especially the veins, and the right heart are gorged 
 with black, uncoagulable blood, and have their inner coats blood-stained. 
 The serous membranes present numerous petechire, and contain more or 
 less of a reddish serum. The intestines, and sometimes the stomach, are 
 dark red throughout, marked by petechias, and are often the seat of thick- 
 ening from sanguineous or transparent colloid infiltration. The lesions 
 are especially extensive on the small intestines and rectum. The vagina 
 and womb are also the frequent seats of sanguineous infiltration. The 
 liver and kidneys are enlarged, congested, softened, and friable, and the 
 ganglia of the symphathetic are enlarged, congested, and softened. The 
 swellings are of two kinds, sanguineous and colloid. The former, when 
 cut into, present one or more loose clots of black blood or a grumous mass 
 of blood-elements, separating the tissues and often mixed with fetid gases. 
 The colloid exudations are glairy, semi-solid, jelly-like masses, infiltrating 
 the tissues. The tissues affected and the skin covering them are the seat of 
 bacterial embolism and gangrene, and there is no tendency to suppuration. 
 These products swarm with the specific microphyte. 
 
 DIAGNOSIS. The differential diagnosis of anthrax from other affections 
 due to the propagation of microzymes in the system is not always easy 
 so much so that a variety of bacteridian and allied diseases (septicaemia in 
 its various forms, erysipelas, swine plague, chicken cholera, poisoning by 
 the micrococci of fungi, black quarter from bacteria, milk sickness, 
 and Texas fever) have been erroneously confounded with this affection. 
 These all show the same dusky or cyanosed mucous membranes, disinte- 
 grating blood-globules, loose blood-clots, petechise, blood-extravasations, 
 sudden and great prostration, and enlargement and congestion of the lym- 
 phatic glands or spleen. In some of these the duration of incubation (in 
 swine plague six to fourteen days and in Texas fever one month) serves 
 to distinguish, while in the majority the microzyme is globular (Texas 
 fever, micrococcus of fungi-poisoning, chicken cholera) ; in swine plague 
 the cocci are arranged in pairs ; in black quarter the microbe is a refran- 
 gent ovoid, single or in chains of two or three and a motile linear body 
 with a refrangent nucleus in one end ; and in milk sickness the germ is 
 a spirillum. The germs are far more likely to be detected in the local 
 lesions and lymphatic glands than in the blood. The specific nature 
 of the symptoms and lesions can usually be relied on, but in cases of 
 doubt the inoculation of a small animal (rabbit, guinea-pig, sheep) will 
 be a material guide. 
 
 PROGNOSIS. True anthrax leads to a very high mortality. The apo- 
 plectiform cases are fatal almost without exception ; the acute cases of 
 anthrax fever in many outbreaks perish to the extent of 75 or 80 per 
 cent., and the more tardy ones to the number of 50 per cent. In a 
 general outbreak the earlier cases are usually the most fatal, while later, 
 when the less susceptible animals are attacked, the mortality is often 
 decreased. Again, the mortality is often at once arrested by the emigra- 
 tion of the herd to a more healthy soil, a large proportion of those already 
 attacked recovering. 
 
 PROPHYLAXIS. In prophylaxis the soil demands the first attention. 
 If this is damp and calcareous or rich in organic matter, the remainder 
 of the herd should be at once removed to a drier and more porous soil, 
 where the germ is less likely to be preserved and increased. In an enzo-
 
 PROPHYLAXIS. 937 
 
 otic in Livingston County, K Y., in 1875, 40 bullocks out of 200 had 
 perished m ten days, yet after removal to. an adjacent dry pasture and the 
 use of antiseptics with the food and water the attacks abruptly ceased 
 and 48 out of 50 head already sick recovered. The drainage of anthrax 
 soils leads to a steady reduction of the poison, favoring as it does the 
 germination of the spores and the destruction or modification of the 
 germ. When drainage is impossible, the mortality may be reduced by 
 driving the stock to drier grounds during the hot, dry season, by stabling 
 them morning and night when the dews are on the grass, 'also in wet 
 times when they are likely to pull up the plants by the roots, or, better 
 still, by cutting the fodder and soiling the stock in stables or yards. Yet 
 m all these cases the germs will at intervals find access to the animals in 
 the green food or hay, so that badly infected soils must be secluded from 
 live-stock, and either be abandoned or devoted to other cultures. A point 
 of the very first importance is the safe disposal of the products and car- 
 cases of the sick. These should be thoroughly burned, or, failing this, 
 deeply buried (4 feet) and the graves covered with coal tar and fenced in 
 from all other stock for from five to ten years. Contaminated litter and 
 fodder should share the same fate. Stables and yards where the sick 
 have been, and all vehicles and implements used for them or their prod- 
 ucts, should be thoroughly disinfected. In the epizootic in Livingston 
 County^ above referred to, these measures seem to have eradicated the 
 disease in the course of six years, though the land was neither drained 
 nor subjected to cultivation, and the dangerous meadows are now again 
 pastured with impunity. 
 
 In the case of sick animals the greatest care is requisite to keep them 
 from common drinking- or feeding-troughs ; to exclude all other animals, 
 even the smaller quadrupeds and birds, which may become the bearers 
 of the poison ; to avoid the chance of the drainage of infected excreta 
 into other yards and pastures, and to carefully disinfect and guard the 
 human attendants against contamination. The sale of animals out of an 
 infected herd, and, above all, for the meat-market, and the use of the 
 milk or other products of such animals, until attested sound, are highly 
 reprehensible. 
 
 Finally, there are the diiferent methods of protecting the system by 
 inoculation with modified virus. The first of these is that of Burdon- 
 Sanderson, Dugnid, and Greenfield, who in 1878 and 1879 inoculated 
 six cattle with the blood of guinea-pigs dead of anthrax, all of which 
 survived except an old, emaciated, worn-out, and pregnant cow, and all 
 the survivors would only afterward contract anthrax in a mild form. 
 The anthrax blood of the guinea-pig inoculated on the sheep proved 
 fatal. The second mode is that of Pasteur, who cultivated the anthrax- 
 germ artificially in flasks of meat-infusion, and after the nourishment in 
 the latter had been used up left the bacilli to degenerate until their viru- 
 lence had been so far decreased that the liquid could be safely inoculated 
 on animals, so as to produce a mild anthrax infection and thereafter 
 secure immunity from this poison. For all the larger domestic animals 
 he found that the eighth day of the culture sufficed, provided there had 
 been no formation of spores ; and the method has now been applied on 
 many scores of thousands of domestic animals. Klein, however, has found 
 that cultures in pork-broth of the same age are invariably fatal to rodents,
 
 938 ANTHRAX. 
 
 and that a guinea-pig which survived inoculation with culture a month 
 old did not possess immunity . against fresh virus. The third method, 
 that of Toussaint, consists in heating the fresh virus, so as to lessen its 
 activity, and then inoculating it on the animals to be protected. He found 
 that a temperature of 55 C. (131 F.) maintained for one hour rendered 
 the virus non-fatal, without impairing its prophylactic powers on animals 
 inoculated. In spite of a partial failure at Alfort from insufficient heat- 
 ing of the virus, the method has now been firmly established as at once 
 easy and effective. 
 
 The great value of these discoveries can hardly be overestimated, yet 
 it is to be feared that the Sclat of their reception has led to a far too general 
 adoption of the methods. No one of the methods professes to destroy 
 the life of the bacillus nor to impair its power of self-propagation. The 
 bacillus, therefore, is likely to be planted in the localities where it is being 
 employed, and, if the soil is favorable, to be perpetuated there. It follows 
 also, from the susceptibility of the bacillus to change under varying con- 
 ditions of life, that the modification impressed on it by the methods of 
 Pasteur and Toussaint may be reversed under a reverse state of the 
 environment, and that the harmless virus sown by our inoculators may 
 in favorable soils produce the more deadly types. The methods secure 
 the safety of the individual herd inoculated, at the expense of planting 
 in the pasture a seed most perilous to all future uninoculated herds 
 that may roam there. The only place for such protective inoculations is 
 on pastures already charged with the- anthrax bacillus, and from which 
 that cannot be eradicated. On the dry, healthful soils where the bacillus 
 cannot survive the inoculation is useless, while on the dense, damp, rich 
 soils favorable to its preservation, but as yet uninfected or nearly so, this 
 inoculation is but sowing deadly seed to secure a very temporary and 
 questionable advantage. 
 
 TREATMENT. Bloodletting and laxatives have been largely used in 
 the treatment of anthrax, though both are mostly useless in acute cases, 
 their possible good effects being anticipated by the early death. "When 
 of service at all, it is probably mainly in reducing that plethora which 
 serves often to enhance the virulence -and severity of the malady. Apart 
 from these, the agents resorted to are more or less of an antiseptic nature, 
 and probably exert their action mainly on the bacilli undergoing develop- 
 ment near the surface of the skin or intestinal mucous membrane. In 
 extensive outbreaks I have had the best results with the administration 
 thrice daily of carbolic acid, nitro-muriatic acid, or bichromate of potas- 
 sium, and hypodermically of iodide of potassium and sulphate of quinia. 
 Alcoholic stimulants, chlorate of potassium, and muriate of iron are equally 
 indicated, especially when the period of prostration has set in. If the 
 local anthrax can be detected when there is as yet but a hard nodule, there 
 should be no hesitation in cauterizing it to its depth and treating the 
 resulting sore and surrounding parts with tincture of iodine or iodized 
 phenol. After crucial incision the nodule may be treated with powerful 
 caustics (potassa, nitric acid, chloride of zinc), to be followed by iodized 
 phenol, with or without poultices or fomentations.
 
 ETIOLOGY. 
 
 939 
 
 Anthrax in Man (Malignant Pustule or Vesicle, Anthrax Intes- 
 tmalis, Mycosis Intestinalis). 
 
 Fournier in 1769 first traced the communicated anthrax of man to the 
 consumption of the flesh of diseased animals and the handling of their 
 wool. Until quite recently, however, the form which originated as a 
 local external affection was the only type recognized, while internal 
 anthrax was confounded with a multitude of other affections. 
 
 ETIOLOGY. That anthrax in man is almost invariably derived from 
 the lower animals by infection is now undoubted, while for the direct 
 infection of man, as of animals, by the germs propagated in the soil, there 
 is no absolute proof. The latter mode of propagation has only been 
 recognized in the Herbivora, which are so much more exposed to con- 
 tamination from the soil ; yet, abstractly, there is no reason to suppose 
 that man is less susceptible to the earth-grown bacillus than to that pro- 
 duced in the animal, if only he were as frequently exposed to its infec- 
 tion. The ^ spontaneous development of anthrax apart from the pre- 
 existent bacillus in animals or soil is a chimera. The principal modes 
 of infection may be considered as direct and mediate. Among the direct 
 are included infection from handling the sick animals, their carcases, their 
 wool, hair, bristles, hides, fat, and guts ; the inoculation of physicians, 
 surgeons, and nurses from their patients ; and the infection of men by the 
 meat, milk, and cheese eaten. As attested modes of mediate infection may 
 be cited the inoculation by insects (mosquitoes, bluebottles, and other blood- 
 suckers), and the introduction by water into which anthrax products have 
 drained or been washed ; there are also hypothetical cases in which anthrax- 
 germs from the earth have entered the system in the air, drink, or food 
 (raw vegetables). The direct inoculations are especially common in cer- 
 tain classes (shepherds, farmers, butchers, knackers, tanners, veterina- 
 rians, and workers in hides, hoofs, glue-factories, fat-rendering works, in 
 hair, wool, bristles, and catgut, and in felting and paper-making). In 
 such cases the disease usually begins as a local one, and occurs on 
 uncovered portions of the body. Three such cases occurred in 1875 on 
 one farm at Avon, N. Y., where the victims had assisted in burying forty 
 dead cattle, and a number of other similar instances can be adduced in 
 different parts of the same State, in one of which a physician was acci- 
 dentally inoculated in dressing a farmer's hand. Physicians whose prac- 
 tice includes large tanneries become very familiar with the disease and 
 recognize it very readily. 
 
 Infection through food is much less frequent in men than in animals, 
 the process of cooking combining with the action of the gastric juice in 
 destroying the poison. Yet it is by no means unknown. The records 
 above given of infection in St. Domingo, Naples, and the Russian steppes 
 can be easily supplemented. Dr. Keith of Aberdeen, Scotland, records the 
 case of a family that suffered, two of them fatally, after partaking of broth 
 and meat which had been boiled for hours, one member of the family (a 
 vegetarian) having alone escaped. Infection through milk, butter, and 
 cheese is less common, the gravity of the disease in animals leading to an 
 early suppression of the mammary secretion. In all such cases the infec- 
 tion enters through sores in the mouth or from the bowels. 
 
 Those cases in which the bacillus enters the system with the inspired
 
 940 ANTHRAX. 
 
 air are probably the least numerous. Yet the germ may reach the lungs 
 in fine dust, and then find in the delicate respiratory mucous membrane 
 the most accessible of all channels into the system. 
 
 The proportion of men affected is much greater than that of women 
 and children, doubtless by reason of their greater exposure to infection, 
 and, as in the lower animals, the summer months are most productive of 
 anthrax. The susceptibility of the human race appears to be less than 
 that of the Herbivora, and doubtless varies, as in these animals, with the 
 nature of the food. It is at least temporarily exhausted by a first attack, 
 though in exceptional cases and under a strong dose of the poison a man 
 may be affected a second time. 
 
 SYMPTOMS. Symptoms usually set in within twenty-four hours after 
 inoculation of the poison, though it is alleged that the incubation may be 
 extended to twelve or fourteen days. Itching draws attention to a small 
 red spot like a mosquito bite, but with a black central point. This 
 speedily increases to a small rounded swelling (papule), and in fifteen 
 hours is surmounted by a minute vesicle with dark-red or bluish contents. 
 From the size of a millet-seed this increases to that of a pea, and in thirty 
 hours bursts spontaneously or under friction and forms a dark-red, indu- 
 rated, comparatively painless nodule (parent nucleus, Virchow). The 
 adjacent skin shows a swollen areola livid and red, on which there appear 
 vesicles similar to the first, which pass through the same stages, burst, 
 and leave a livid, hard, or doughy gangrenous surface. By this time the 
 surrounding skin is red, shining, and puffy, and the disease continues to 
 spread by the same method of extension. The diseased part now becomes 
 the centre of an oedematous swelling which may invade the entire arm, 
 face, or neck, and is attended with more or less constitutional symptoms. 
 The affected part may be cold or hot, and it may show the red lines of 
 lymphangitis and the swelling of the adjacent lymphatic glands. 
 
 The pyrexia, at first slight, often reaches a high grade, attended with 
 occasional chilliness, pains in the back and loins, great prostration, lan- 
 guor, dulness, and even delirium, with cold sweats, anxiety, dyspnoea, and 
 at times muscular spasms. As in beasts, there are the dusky skin and 
 mucous membranes, petechiae, and cyanosis, and in bad cases there may 
 be sudden collapse and death. The symptoms vary much, however, 
 according to the extent of the local lesion, to the amount of poisonous 
 chemical products thrown into the blood, to the degree of the invasion of 
 the blood by the bacillus, and to the complication (not infrequent) of the 
 affection with septicaemia. In the very mildest cases the affection never 
 proceeds beyond a local slough, the size of a quarter or half dollar, 
 the germs do not enter the blood in sufficient numbers to survive, the 
 constitutional symptoms are few or absent, and the sore heals by gran- 
 ulation. 
 
 The disease usually lasts from six to ten days, and for the first forty- 
 eight hours the symptoms are generally purely local. 
 
 Malignant anthrax oedema (oedeme maligne) was first observed by 
 Bourgeois as occurring in the eyelid, and has since been recognized in 
 other parts of the body (arm, forearm, head). It differs mainly from 
 malignant pustule in the absence of the preliminary vesicle, of the 
 hard nodule (parent nucleus), and of the early circumscribed gangrene. 
 It has this further peculiarity, that the local disease often appears as a
 
 MORBID ANATOMY. 941 
 
 sequel rather than a precursor of the constitutional disturbance. It 
 corresponds in the main to the diffuse erysipelatoid anthrax of the lower 
 animals, and has been attributed to the authjax poison introduced by inha- 
 lation. It has been observed to follow eating of anthrax flesh (Leube, 
 Miiller). Inasmuch as the active disease is often delayed a week or ten 
 days after exposure to infection, it may reasonably be supposed that the 
 bacillus has been imprisoned on the mucous membrane, or, entering the 
 blood in small quantity only, has been held in check by the antagonism 
 of the blood-globules until some elements, escaping into the connective 
 tissue, have started the local disease. The symptoms are usually first 
 languor, sleeplessness, restlessness, with some sense of chill, debility, and 
 headache, and finally, after a few days, the formation of the specific osdema 
 at one point or more. This has a pale, semi-translucent, slightly yellow- 
 ish or greenish aspect, pits on pressure nearly equally at all points, and 
 tends to a rapid extension, with concomitant aggravation of the constitu- 
 tional symptoms, and in many cases nausea and vomiting. Gangrene sets 
 in not progressively, as in malignant pustule, but simultaneously over a 
 more extensive surface and is followed by great prostration, stupor, 
 dyspnoaa, cyanosis, collapse, and death. 
 
 Anthrax intestinalis may be looked upon as the counterpart of the 
 internal anthrax or anthrax fever of animals, described above. As in 
 animals, the constitutional symptoms may result early in a fatal issue, 
 with scarcely any local lesion save in the blood and spleen (Carganico, 
 Leube, Miiller, Winkler, Lorinser). As in animals too, the sanguineous 
 engorgement of the spleen and the intestinal anthrax are often complicated 
 by external anthrax oedema or malignant pustule (Heussinger, Virchow, 
 Buhl, Waldeyer, etc.). In this form pyrexia and other constitutional dis- 
 turbances are first seen. There is a general feeling of languor and depres- 
 sion, with some chilliness, fever, pains in the limbs, back, and head, 
 vertigo, and ringing in the ears. Even at this early stage there is noticed 
 a dusky hue of the skin and visible mucous membranes, which goes on 
 increasing to a brown or yellow tinge, to petechiae, or, with the superven- 
 tion of dyspnoea, to cyanosis. Digestive derangement is early shown in 
 abdominal pain, nausea, vomiting, tenderness, some swelling, and finally 
 diarrhoea, often bloody and sometimes profuse and exhausting. In acute 
 cases the symptoms become rapidly worse, and then follow discharge from 
 the moutlraud nose of uncoagulable blood, dyspnoaa, cyanosis, small pulse, 
 dilated pupils, great anxiety or drowsiness, and stupor, or there may be 
 tonic spasms of the trunk or extremities. Death usually results from 
 asphyxia or collapse, as in animals. These cases are almost invariably 
 fatal within a period of thirty-six hours, though some linger six or seven 
 days. 
 
 Allied to the intestinal anthrax is anthrax angina, a not unknown 
 occurrence in man. This begins as a bad sore throat, with an especially 
 dark-red hue of the pharyngeal mucous membrane. As it advances the 
 shade becomes increasingly darker, the power of deglutition is lost, 
 serous phlyctenae with gangrene and deep ulceration set in, but without 
 any tendency to the formation of false membrane as in diphtheria. There 
 are early superadded the constitutional symptoms above described, and 
 < he patient dies in a state of collapse or asphyxia. 
 
 MOTIBID ANATOMY. The lesions closely agree with those already
 
 942 ANTHRAX. 
 
 described for animals in general. The blood presents the same dark-red or 
 black, tarry, incoagulable, or only slightly coagulable condition in the 
 worst cases, yet this is less qpnstant in man, as the bacteria are less con- 
 stant or numerous in the blood, in keeping with the more prolonged 
 localization of the external anthrax in man, and the more pronounced 
 antagonism between the blood and the bacillus which results from feeding 
 exclusively or largely on flesh. The red globules do not tend to adhere 
 together, and the white globules are in excess and very granular. The 
 spleen is less extensively enlarged than in animals, but is highly charged 
 with blood, bacilli, and micrococci. The lymphatic glands too are 
 enlarged, hyperaemic, cloudy, hemorrhagic at points, of a dark grayish, 
 deep red, or blackish color, and highly charged with the bacillus. The 
 surface of the skin and mucous membranes (mouth) presents hemorrhagic 
 spots and patches, with serous vesicles and eschars. The malignant pus- 
 tule when cut into presents a central slough and a surrounding hard indu- 
 rated mass, both of a dark blood-red, with similar prolongations down- 
 ward into the adipose tissue, and around all the characteristic oedeniatous 
 infiltration, often streaked with blood. The bacillus is found in tufts or 
 dense groups at intervals in the rete mucosum, the dermis, and the sub- 
 cutaneous connective tissue. The serous membranes present the same 
 general lesions as in animals. The walls of the stomach and bowels are 
 the seat of cloudy red infiltration, with at intervals small hemorrhagic 
 foci, and on the mucous surface distinct sloughs. Jelly-like exudations 
 are also found in these membranes in the mesentery and in the retro-peri- 
 toneal tissue. The liver and kidneys are usually congested or are infiltrated 
 with an cedematous exudate, and in these, as in all the local anthrax 
 lesions, the characteristic bacilli are found. 
 
 DIAGNOSIS. Malignant pustule is distinguished by its commencing 
 from a minute red point with dark centre, and by its progressive exten- 
 sion from this point by a dark-red, puny, and vesicular areola, with 
 steadily advancing induration and gangrene. The bites of insects have 
 a yellowish central point with red areola. A boil lacks the dark centre 
 and the rapidly rising elevated red areola. Carbuncles and plague-boils 
 tend to appear on clothed parts of the body, respectively on the back of 
 the neck and shoulders and on the trunk and extremities. In carbuncle 
 several boils rise and burst simultaneously, though they may finally slough 
 into one sore, while in anthrax the extension is from one point. The 
 plague-boil is usually multiple and much more painful than anthrax. 
 The glanderous nodule is usually multiple, situated at intervals on the 
 course of a lymphatic, the intervening portion of which is inflamed, hard, 
 and cord-like. It is also usually associated with the specific glairy dis- 
 charge from the nose, the nasal ulcers and nodules, and the enlarged pain- 
 less, nodular, and indolent submaxillary lymphatic glands. As a last 
 resort the detection of the baccillus in the indurated nucleus and . the 
 inoculability of the disease on the lower animals (rabbit, guinea-pig), 
 may be appealed to. 
 
 Malignant anthrax oedema is less easily recognized, but may be inferred 
 from the sudden swelling with a dusky yellow or greenish hue and a 
 tendency to vesiculation and gangrene, the whole preceded and attended 
 by the constitutional symptoms of anthrax, and, above all, from the pres- 
 ence of the bacillus in the exudate.
 
 PROGNOSIS. PROPHYLAXIS AND TREATMENT. 943 
 
 In both of these forms much may be deduced from the known liability 
 of the district to anthrax, from the occupation of the subject as being 
 exposed to infection (worker in hair, wool, bristles, hides, catgut, etc.), or 
 from his having eaten meat which was open to suspicion. 
 
 Internal anthrax is less certainly diagnosed because of the absence of 
 local symptoms until the constitutional disorder is well advanced. Yet 
 the reasonable suspicion of infection and the sudden and violent eruption 
 of the disease (headache, nausea, vomiting, bloody diarrhoea, extreme anx- 
 iety, debility, dyspnoea, cyanosis, convulsions, collapse, with petechise, and 
 local discharges of diffluent blood) serve to identify it. The bacillus is 
 not always to be detected in the blood under the microscope, but its pres- 
 ence can usually be demonstrated by inoculation. 
 
 PROGNOSIS. The prognosis of malignant pustule energetically treated 
 in its early stages is good. The disease is as yet a local one, and the 
 germs can be extinguished by local treatment. In anthrax districts, 
 where the disease is feared and early recognized, the mortality may be 
 from 5 per cent. (Nicolai) to 9 per cent. (Lengyel, Koranyi). Even this 
 mortality is mainly due to delay in treatment. In districts, on the other 
 hand, where the malady is infrequent, and where efficient measures are 
 applied too late, the mortality is often 30, 40, or even 50 per cent. After 
 internal infection, and where local symptoms only appear after general 
 infection, the case is very hopeless. 
 
 PROPHYLAXIS AND TREATMENT. The prophylaxis of anthrax in 
 man is to a large extent identical with that for animals. All considera- 
 tions as regards soil, culture, drainage, sick and dead stock, cremation, 
 burial, disinfection, etc. have a most important if only a secondary bear- 
 ing on the protection of man. Still more important is the free use of 
 carbolic acid, chloride of lime, or tincture of iodine for the hands of those 
 dressing unhealthy sores in animals or handling suspicious cases of sick- 
 ness or cadavers, and of those working in hides, wool, hair, horns, hoofs, 
 guts, etc. Similarly, all products of animals with anthrax should be 
 withheld from general use. 
 
 In external anthrax of man, before the system has been contaminated, 
 the thorough destruction by caustic of the diseased part with its contained 
 poison is most 'effectual. Where there is as yet but the preliminary 
 papule it may be incised and thoroughly destroyed by a stick of chloride 
 of zinc, caustic potassa, or nitrate of silver, or, if more convenient, by 
 fuming nitric acid, muriatic or sulphuric acid, or, perhaps preferably to all 
 others, iodized phenol. Should the parent nucleus have already formed, 
 it should be excised with the knife or deeply incised in a crucial direc- 
 tion, and then thoroughly cauterized with one of the more potent eschar- 
 otics (caustic potassa, strong nitric acid) or with the iodized phenol. The 
 latter agent may be further applied on the sound skin adjacent, especially 
 if there is the slightest swelling or redness. Should the peripheral oedema 
 persist or reappear after the cauterization, the latter^ should be repeated 
 until this tendency is overcome. Hypodermic injections of a solution of 
 iodine and iodide of potassium may be made into the entire swelling. 
 After the caustic has done its work the eschar may be softened and its 
 separation favored by a warm poultice containing a' small amount of car- 
 bolic acid or iodized phenol. This treatment is often highly beneficial, 
 even after constitutional symptoms have set in, by arresting the propaga-
 
 944 ANTHRAX. 
 
 tion of the bacillus and checking its introduction and that of its chem- 
 ical products into the circulation. 
 
 Constitutional treatment is not to be forgotten. Carbolic acid may be 
 profitably given to the extent of fifteen drops daily, iodide of potassium 
 ten to twenty grains thrice a day, and sulphate of quinia ten grains at the 
 same intervals. The strength should be sustained by iron (tincture of 
 the chloride) and wine or other alcoholic beverage, both being, like the 
 agents already named, calculated to retard if not to limit the propagation 
 of the bacillus. The diet throughout should be nutritious and easily 
 digested. 
 
 When a person is known to have eaten anthrax meat an emetic will be 
 indicated, followed by a smart oleaginous purgative combined with five 
 drops of carbolic acid, and subsequently by the constitutional treatment 
 above recommended. In case of extensive anthrax oedema, incisions may 
 be made into the part as far as the yellow exudate extends, and a poultice 
 containing carbolic acid may be applied. Or, preferably, the swelling 
 may be freely injected with a weak solution of iodized phenol (1 : 100 
 water), and then painted with the same agent or with tincture of iodine.
 
 BY B. A. WATSON, M. D. 
 
 ^ HISTORY. There is little to be learned from existing literature of the- 
 views which were maintained by the ancients, prior to the birth of Christ,. 
 in regard to the morbid conditions now designated pyaemia and septicaemia ; 
 although it is certain they were recognized by the " Father of Medicine," 
 who reports a well-marked case of puerperal fever terminating fatally on 
 the twentieth day of the disease, and also a case in which death was 
 unquestionably caused by septic poisoning, as is clearly shown in the fol- 
 lowing : * " Criton, in Thasno, while still on foot and going about, was 
 seized with a violent pain in the great toe; he took to his bed the same 
 day, had rigors and nausea, recovered his heat slightly; at night was 
 delirious. On the second, swelling of the whole foot, and about the ankle,, 
 erythema with distension and small bullse (phlyctrense) ; acute fever ; 
 he became furiously deranged ; alvine discharges, bilious, unmixed, and 
 rather frequent. He died on the second day from commencement." 
 Additional confirmation of the fact that Hippocrates was familiar with 
 the phenomena of these diseases may be found in his dissertation on 
 empyema and fevers. Prof. C. Heuter says, under the head of septic 
 fever, 2 " Hippocrates and Celsus observed the fever in cases of injuries 
 which proved so dangerous that this danger could not have originated 
 from the inflammation or from the wound alone." Jacotius, a com- 
 mentator of Hippocrates, has even mentioned putrid fevers, the same as 
 Adrianus Spigelius, who spoke of fevers which arise from putrefac- 
 tion ; but both authors, as well as their followers, did not discriminate 
 between septicaemia arising from the putrescence of wounds and pyaemia. 
 In the mean time both varieties were regarded as intermittent fever. 
 
 " Aretseus lived during the middle of the second century of the Chris- 
 tian era. In his remarks on pneumonia he observes that the subjects of 
 this disease die mostly on the seventh day. ' In certain cases/ he says, 
 ' much pus is formed in the lungs, or there is a metastasis from the side 
 if a greater symptom of convalescence be at hand. But if, indeed, the 
 matter be translated from the side to the intestine or bladder, the patients 
 immediately recover from the peripneumony/ He speaks of a metastasis 
 to the kidneys and bladder being peculiarly favorable in empyema. He 
 ascribes suppuration of the liver to intemperance and protracted disease, 
 
 1 Works of Hippocrates, trans, by Adams, vol. i. p. 377. 
 
 "Pitha und Billroth, Handbuch der Chirurgie, I Band, 2 Abth., 1 Heft, 1 Liefg., S. 6. 
 
 VOL. I. 60 9 45
 
 946 PYJEMIA AND SEPHO&MZA. 
 
 especially dysentery and colliquative wasting. The symptoms described 
 by him resemble those of chronic pyaemia." ] 
 
 Galen and some of the other ancient physicians recognized the exist- 
 ence of septic poisoning, as is shown by the opinions expressed on the 
 subject of putrid fevers. According to Galen, putrid fevers may either 
 arise from the conversion of ephemerals ; or originally from putrefaction 
 of the fluids within the vessels. 
 
 Aetius states that they arise from constriction of the skin or viscidity 
 of the humors, whereby the perspiration is stopped, and the quantity of 
 vital heat so altered as to give rise to putrefaction, first of the fluids, 
 and afterward of the fat and solid parts. When these corrupted fluids 
 are contained within the vessels they occasion synochous fevers, but when 
 distributed over the body they give rise to iutermittents. Synesius and 
 Oonstantinus Africanus give a similar account. Alexander gives an inter- 
 esting and ingenious disquisition on the origin and nature of putrid fevers, 
 one of the most common causes of which he holds to be the conversion 
 of ephemeral fevers, and the inseparable symptoms being want of concoc- 
 tion in the urine and quickness of the pulse with systoles. This is the 
 account of them given by most of the other authorities, both Greek and 
 Arabian, so that we need not enter into any circumstantial exposition of 
 their views. We shall merely give the brief account of those furnished 
 by Palladius. There are, he says, two kinds of synochous fevers, the one 
 being occasioned by effervescence, and the other by putrefaction of the 
 blood ; of these the latter are the more protracted and dangerous. In 
 them the pulse is contracted, the heat pungent, and the urine white and 
 putrid. 2 
 
 A new era in the literature of this subject dawned during the six- 
 teenth century. Ambrose Pare and Bartholomew Maggi each published 
 a work in which they pointed out the old errors and announced new 
 truths. Fare's Treatise on Gunshot Wounds was published in Paris in 
 1551, while Maggi's treatise appeared a year later at Bologna. Pare" 
 gained his first experience in the treatment of gunshot wounds in 1536, 
 which is described as follows: "The storming of the small mountain- 
 fortress Villane, near Susa, probably gave him for the first time full 
 occupation, and he followed in all things the example of older col- 
 leagues. Like them, although hesitatingly, he poured into the gunshot 
 wounds boiling oil of elder to destroy the poison, but the oil fell short, 
 and then he was compelled to dress the other wounded men with an oint- 
 ment of oil of roses and turpentine. Fearing that the latter would soon 
 become victims of the wound-poison, he passed a sleepless night, got up 
 early to see the ill consequences, but was greatly surprised to find those 
 that he had half given up free from pain and without inflammation or 
 swelling, while those who had been treated with boiling oil lay in a state 
 of fever, with great pain and much swelling. He therefore determined, 
 as he tells us, never again to burn the poor subjects of gunshot wounds 
 so cruelly." 3 It will be seen that Pare's treatise on gunshot wounds was 
 published fifteen years after this impressive experience at the fortress of 
 Villane. In this work he sought to correct the prevailing idea that gun- 
 
 1 Braidwood on Pyaemia, p. 2. 
 
 2 Paulus J^gineta, trans, by Adams, vol. i. p. 23G (Sydenham Soc., 1844). 
 
 3 German Clinical Lecture*, 2d series (New Sydenham Soc., 1877), p. Go et seq.
 
 HISTORY. 947 
 
 shot wounds were poisonous, and was ably supported in his effort by 
 Bartholomew Maggi; but it required all the respect which Pare" enjoyed 
 in riper years to gradually obtain consideration for the new view, the 
 idea that gunshot wounds were poisonous is supposed to have originated 
 in the- feet that in every war there are cases of acute sepsis, developed 
 alter the infliction of these injuries, which agree in all their essential 
 points with the results of the bites of poisonous snakes. AVe are even 
 informed that during the late Franco-Prussian AVar there were cases 
 which even excited suspicion among the laymen that the enemy had used 
 poisoned missiles. 
 
 The nature of the error which Pare" and Maggi endeavored to correct 
 is shown by the declaration made by Johannes de Vigo at the commence- 
 ment of the sixteenth century, who expressed in dogmatic form the views 
 then firmly held by physicians. "A gunshot wound is a contused wound, 
 he says, for the bullet is round ; it is burnt, for the bullet is heated; it is 
 poisoned, for the powder is poisonous. The poisoning is the essential 
 condition ; therefore the treatment must be directed above all to counteract 
 this." 
 
 ^ next step was that a poisonous substance may develop itself or 
 settle in the wound, and especially in gunshot wounds a substance 
 which has nothing to do with powder or lead. Pare himself adopted .this 
 view. AVhen he took part in the siege of Rouen many wounds sloughed 
 and had a cadaverous smell, and on opening the bodies of those who 
 died numerous collections of pus were found in different parts full of 
 greenish ill-smelling ichor. Besiegers and besieged believed themselves 
 to be wounded with poisoned bullets. Pare looked for the cause in a 
 deterioration of the air by the large quantity of decomposing substances, 
 and he appears to have assumed, as is done at this day, a direct action 
 of the so-called deteriorated air upon the wound itself. 
 
 The evil influence of air vitiated by the products of decomposition, not 
 upon wounds only, but upon the organism generally, has never been lost 
 sight of by physicians since that time. That rotten straw, decomposing 
 bodies of men and animals, surfaces saturated with excrement, and over- 
 crowding of badly-ventilated hospitals give rise to infectious fevers and 
 unhealthy state of wounds is not a result of modern observation only. 
 That it was a question of the processes of fermentation which became com- 
 municated to the body by means of the exciters of fermentation contained 
 in the air was a view frequently adopted. " To quote one only out of 
 many ; John Priugle, in his Observations on the Diseases of the Army, 
 published in 1775, devotes a chapter especially to ( Diseases resulting from 
 Bad Air/ and his forty-eight experiments on septic and antiseptic sub- 
 stances contain numerous hints at attempts resembling those made at the 
 present day to determine the antiseptic power of certain things. No 
 advance was made, however, beyond vague surmises concerning the nature 
 of the exciters of putrefaction, and they were for the most part looked 
 for amongst the volatile, ill-smelling products of decomposition, and were 
 believed to be extremely subtle gaseous matters." l 
 
 Ambrose Pare 1 (1 582) first taught that secondary abscesses in surgical 
 cases, "which he had observed in the spleen, lungs, liver, and other 
 viscera, were due to a changed condition of the fluids produced by some 
 
 1 German Clinical Lectures, Second Series (New Sydenham Soc., 1877), p. 67 el seq.
 
 948 PYJEMIA AND SEPTICAEMIA. 
 
 unknown alteration in the atmosphere and determining a purulent dia- 
 thesis." l The following quotations force the conclusion that in the early 
 history of medicine there was supposed to be some important relation 
 between wounds of the head and multiple abscesses. " Nicholas Massa 
 (1553) mentions a case of abscess of the left lung, following an -injury 
 of the head." 2 " Valsalva (1707) was induced by his own observation to 
 say that the viscera of the thorax were sometimes affected in wounds of 
 the head." "Desault (1794) considered abscesses of the liver to be a 
 very frequent sequence of head injuries." 3 The fact that wounds of the 
 head were frequently followed by abscesses of the lungs, liver, and other 
 organs probably led to the opinion expressed by Desault, Barthez, Brodie, 
 "W. Phillips, Copeland, and others, that the disease had its origin in a 
 nervous agency. 4 "Bertrandi and Audouille (1819) sought for a me- 
 chanical explanation of the occurrence of hepatic abscesses after head 
 injuries and in cases of apoplexy." Morgagni (1740) somewhat obscurely 
 hinted at the doctrine of the reabsorption of pus a doctrine which was 
 afterward elaborated by Quesnay in 1819. Morgagni, after quoting a 
 great number of instances of wounds of the head followed by visceral 
 abscesses, opposes the idea of a mechanical transportation of pus thither, 
 and states that abscesses are not confined to the liver and that they may 
 follow wounds and ulcers of other parts besides the head. He ascribes 
 their formation to particles of pus (not always deposited in the form of 
 pus) resulting from the softening and suppuration of small tubercles, 
 which, having been mixed with the blood and disseminated, are arrested 
 in some of the narrow passages, perhaps of the lymphatic glands, and 
 by obstructing and irritating these, as happens in the production of 
 venereal buboes, and by retaining the humors therein, distend them and 
 give origin to the generation of a much more copious pus than what is 
 carried thither ; and by this means, he says, we may also conceive how 
 it is that much more pus is frequently formed in the viscera and cavities 
 of the bodies than a small wound could have produced. 5 
 
 Cheston (1766) believed that the translation of matter from one point 
 to another was a frequent occurrence after amputations of the larger 
 limbs. John Hunter (1793), and after him Velpeau, demonstrated the 
 existence of pus in the blood. Hunter believed that the pus was derived 
 from the interior of the inflamed veins. He described three forms of 
 inflammation of these vessels viz. adhesive, suppurative, and ulcerative. 
 Pyaemia -he considered to be an aggravated form of phlebitis. Arnott 
 (1829) concluded from his observations 1, That death docs not result 
 from the extension of the inflammation of the veins to the heart; 2, 
 that the dangerous consequences of phlebitis have no direct relation to 
 the extent of the vein which is inflamed ; and, 3, that the presence of 
 pus in the veins, though the principal, is not the sole, cause of the sec- 
 ondary affection. He accordingly opposes the idea of Abernethy, Car- 
 michael, and others that the constitutional affection is owing to the exten- 
 sion of the inflammation to the heart. The publication of Arnott's and 
 Dance's treatises led to the general opinion being held in England and in 
 France that phlebitis and purulent infection were identical affections, or, 
 at least, that the latter was invariably caused by the former. 6 
 
 1 Kraidwood on Pvcemia, p. 2 et seq. * Ibid., p. 2. s Ibid., p. 3. 
 
 4 Ibid.., p. 10. 6 Ibid., p. 3 el seq. 6 Ibid., p. H.
 
 HISTORY. 949 
 
 Cruveilhier (1829), admitting the doctrine of the formation of second- 
 ary abscesses being due to capillary phlebitis, further laid down an axiom, 
 since proved untenable, that the foreign body introduced into the veins, 
 whose elimination by the eniunctories is impossible, will produce visceral 
 abscesses similar to those which occur after wounds and operations, and 
 that these abscesses are the result of capillary phlebitis of those viscera." * 
 
 During the early part of the present century it \vas generally admitted 
 by the best authorities that the symptoms and lesions in pyaemia were 
 entirely due to the presence of pus in the blood, but whether absorbed 
 from the wound or developed by an inflammation of the veins was at 
 that time a disputed question. 
 
 Haller made the first experiments on animals with putrefying sub- 
 stances in the latter part of the eighteenth century, and was convinced 
 that nothing destroys the animal fluids more powerfully than putrefac- 
 tion. Gaspard (1822) published a complete work based upon his experi- 
 mental research in regard to the action of putrefying substances on living 
 organisms. He, having produced septic infection in animals by injecting 
 into their blood pus or other putrefying substances, thus prepared the way 
 for other experimenters, by whom he was quickly followed. Ernst R. 
 Virchow repeated the experiments of Gaspard, and discriminated with 
 greater precision between the surgical diseases septicaemia with its sharply- 
 defined group of symptoms, the opposite of pyaemia. Furthermore, " he 
 showed that the changes in the veins which had been regarded as due to 
 phlebitis were caused by the coagulation of the blood and by subsequent 
 degenerative changes in the thrombi thus formed ; that the infarctions and 
 abscesses seen in the viscera were due to emboli which had become 
 detached from softened thrombi ; that, as the white blood-globules and 
 pus-globules were identical in appearance, they could not be distinguished ; 
 and that it was improbable that pus-globules made their way into the 
 blood." 2 
 
 Panum (1855) conducted a series of important experiments, and 
 endeavored to separate the infectious substance and determine its real 
 nature. He concludes that the real poison is not identical with any of 
 the chemical combinations or any of the single substances which have until 
 now been isolated by chemical analysis from the products of nitrogenous 
 decomposition, but a'dds that it is probably a concealed ferment belonging 
 to the so-called extractive matters carbonate of ammonium, leuciu, ty rosin, 
 fatty acids, acetic acid, etc. Furthermore, that the putrid poison is stable, 
 fixed, and non-volatile ; that it is neither decomposed by boiling nor by 
 evaporation to dryuess ; that it is insoluble in absolute alcohol, but soluble 
 in water; that the albuminous substances found in putrefying liquids 
 become venomous only because they are impregnated with the septic poi- 
 son ; and that washing these substances in a large quantity of water ren- 
 ders them innocuous ; and that the energy of these putrid poisons am only 
 be compared to the venom of serpents, curare, and other vegetable alka- 
 loids. 
 
 The prize offered by the Faculty of Medicine at Munich for the best 
 essay on the action of putrefying substances in the animal organism was 
 awarded to Heinmer in 1866. His essay was distinguished for its accu- 
 
 1 Braid wood on Pyaemia, p. 14 el seq. 
 
 2 The International Encyclopedia of Surgery, ed. by Ashhurst, vol. i. p. 204.
 
 950 PYAEMIA AND SEPTICAEMIA. 
 
 rate delineation of the pertaining literature and for the number of experi- 
 ments reported, while his conclusions bear a striking resemblance to those 
 of Panuni. 
 
 Bergmaun in 1868 sought to determine the poisonous element contained 
 in decomposing animal substances, and for this purpose chemically treated 
 putrid fluids, hoping to find the agent that would excite all symptoms of 
 septic poisoning. He obtained a body of this nature from decomposing 
 yeast, which he called sepsin, although we have no proof that either he or 
 any one else has ever found the same in pus or any decomposing animal 
 matters ; and even if it had been found in these, it would then become 
 necessary to demonstrate the fact that no other substance contained in 
 the putrefying liquids could produce septic poisoning. Many other 
 experiments, similar to those which have just been mentioned, were made 
 in the mean while by Magendie, Stich, Billroth and Hufschmidt, O. 
 Weber, Duprey, Learet, Urfrey, Saltzman, Fischer, Frese, Muller, and 
 others. Bergmann had extracted the sepsin from yeast, but Schmidt and 
 Petersen (1869) were able to obtain it from putrefied blood. In 1869, 
 Zuelzer and Sonnenschein claimed, on the contrary, to have separated a 
 new, unnamed septic alkaloid, which was not the sepsin, and the action 
 of which resembled that of atropine and hyoscyamiue. Nevertheless, the 
 separation of the sepsin or of the alkaloid of Zuelzer seemed to demand a 
 talent in the manipulator which is not possessed by everybody, and rare 
 are the chemists who possess it so rare that these substances are not yet 
 either officinally recognized or classified. The attention of the medical 
 profession had now become thoroughly fixed on the chemical character 
 and the physiological action of these newly-discovered substances. It is 
 therefore only natural that we should find during the next few months 
 that the medical societies were much occupied with discussions on these 
 subjects, although no important progress seems to have been made. 
 
 Political events now gave a new direction to thought, and the Franco- 
 Prussian War filled the hospitals of both nations with wounded in which 
 there was opened a grand field for the practical study of purulent infection 
 in all its various forms. Humanity now demanded the best efforts of the 
 medical profession. Neither the mechanical nor chemical theories had ever 
 yielded practically any beneficial results; consequently, something better 
 was demanded in this emergency. It was during this important epoch 
 that the germ theory began to assume form and to attract some general 
 attention in the medical profession, although Schroeder and Du.sch had 
 shown in 1854 that the filtration of the air through cotton was sufficient 
 to prevent the putrefaction of albuminous substances which had been 
 previously boiled. Pasteur also demonstrated the existence of germs in 
 the air in 1863, and likewise showed their agency in the process of fer- 
 mentation. 
 
 Lister began the antiseptic treatment of compound fractures in 1865, 
 although he did not publish his report until 1867. The cotton-wadding 
 treatment of wounds, which is based on the fact that the air passed 
 through cotton is freed by it from all germs, was first employed by 
 Alphonse Guerin, who refers to it in the following language: "In the 
 latter part of 1870 I had the idea that the cause of purulent infec- 
 tion existed in the germs or ferments which Pasteur had discovered 
 in the air. It was at the end of the war; all the cases of amputa-
 
 HISTORY. 951 
 
 tion had succumbed to the purulent infection, and not a single large 
 wound escaped the scourge. The studies which I had made from the 
 month of September to the end of December in 1870 had confirmed me 
 in the opinion that purulent infection is neither due to phlebitis nor to 
 the absorption of pus. I believed more firmly than ever that the 
 miasma emanating from the pus of the wounds were the real cause 
 of this frightful malady to which I had been compelled to see the 
 wounded succumb, whether they were treated with charpie or cerate, 
 whether with the lotions of alcohol or of carbolic acid applied several 
 times a day, and which was soaked up by the linen which remained in 
 contact witli the wounds. But this miasmatic theory remained, never- 
 theless, useless, since from 1847, when I professed it, the cases of ampu- 
 tation in my service succumbed to purulent infection in about the same 
 proportion as those who were cared for by my partisan colleagues did 
 from the absorption of pus or the inflammation of the veins. In my 
 despair, seeking constantly a means to prevent this terrible complication 
 of wounds, I had thought of the miasm of which I had admitted the 
 existence, because I was not otherwise able to explain the production of 
 the purulent infection, and which was not only known to me by its dele- 
 terious influence, but which appeared to consist of living corpuscles of 
 the nature of those that Pasteur had seen in the air ; and then the history 
 of the miasmatic poison possessed for me a new clearness. So, said I 
 then, the miasms are the ferments. I am able to protect the wounded 
 against their fatal influence by filtering the air, as Pasteur had doae, while 
 maintaining, in opposition to Pouchet of Rouen, that there is no sponta- 
 neous generation. I thought then of the cotton-wadding treatment, and 
 had the satisfaction 'of seeing my anticipation realized. It was from this 
 time that dates in reality the theory of germs or of ferments as a cause 
 of purulent infection." 1 
 
 A series of important experiments were made in 1872 by Coze and 
 Feltz, which consisted in injecting into the jugular vein and the subcutane- 
 ous cellular tissue putrid liquids ; and they record, among other interesting 
 results observed by them, that the blood of the animal thus destroyed 
 always contained infusoria. These experiments have been repeated and 
 their results confirmed by several observers, and in particular by Da vine 
 in 1872. 
 
 Another series of experiments were made by Behier and Lionville, 
 which absolutely confirmed those of Coze and Feltz; they likewise 
 found in the blood rounded and rod-shaped corpuscles possessed of 
 movements more or less energetic. Vulpian also confirmed the results 
 obtained by Daviue and Behier. He says : " It will not do to deny to 
 the immovable or movable vibrioues and corpuscles found by Coze, 
 Behier, and Daviue a very important role, because they are not the essen- 
 tial contagion of the poisonous blood it is at least necessary that they 
 should be there in order to produce the alterations which have occurred 
 in this fluid." Chauveau has experimented extensively, and likewise 
 admits the action of the septic vibriones of Pasteur. 
 
 Pasteur has made known the result of his investigation in communi- 
 cations to the Academy of Medicine in 1877, 1878, and 1879. There 
 exist, according to him, two principal vibriones the pyogemc, or the 
 Dictionnaire de Medicine d de Chirurgie pratiques, t. xxx. p. 265.
 
 952 PYAEMIA AXD SEPTIC&1IIA. 
 
 producer of pus, and the septic, the producer of the properly so-called 
 septicaemia. But the latter is not a unique disease, and, as we have seen 
 from the outset, there are confounded under this name different states, 
 light or grave, corresponding with as many forms of vibriones. 
 
 The questions of greatest practical importance in regard to this whole 
 group of diseases seem to us to be, as expressed by Dr. Budd, where and 
 how the specific poisons which cause them breed and multiply ; and all 
 who have closely followed the scientific investigations bearing on these 
 points which Prof. Tyndall has conducted during the past few years, and 
 who have repeated even a portion of his experiments, cannot fail to be 
 powerfully impressed with the value of the views wliich he embodied in 
 his work entitled Floating Matter of Hie Air. 
 
 NOMENCLATURE. The want of a systematic classification of the 
 various morbid conditions arising from septic infection has long embar- 
 rassed alike authors and students, and even at the present time the vague 
 manner in which the terms pyaemia and septicaemia are used leads to 
 much confusion. The Pathological Society of London appointed, in 1869, 
 a committee to investigate the nature and causes of those infectious dis- 
 eases known as pyaemia, septicaemia, and purulent infection. Tliis com- 
 mittee, having spent ten years in the study of these affections in connection 
 with nearly all the large hospitals of London, report the following: 
 "Summary. It would seem, from a careful study of all the cases 
 here collected, that it is probable that the diseases commonly known 
 clinically as pyaamia and septicaemia may be grouped as follo\v> : 
 1. Septic intoxication. The effects of poisoning by the chemical prod- 
 ucts of putrefaction. A non-infective disease. 2. Septic infection. A 
 general infective process arising from the introduction of some peculiar 
 constituent of putrid matter into the blood-stream. It is supposed by 
 some to be due to the multiplication of living organisms in the blood, 
 and by others to the effect of a non-organized ferment. It terminates 
 fatally without secondary inflammations. 3. Pyaemia (for want of a 
 better name). An infective process probably, similar in nature to septic 
 infection, but differing from it by giving rise to local inflammation and 
 suppurations, often complicated by thrombosis and embolism, probably 
 due to the blood condition. 4. Thrombosis with softening and decomposi- 
 tion of the thrombus and embolism, causing local abscesses in the viscera 
 wherever the septic emboli lodge, but without the development of any 
 general infective process. 5. Various combinations of one or more of 
 the foregoing conditions in the same subject. 6. Infective periostitis or 
 acute necrosis. 7. InfectiVe endocarditis or uleerative endocarditis. 8. 
 Infective myositis. 9. A group of obscure cases hi which it is impo.s-i- 
 ble to form any idea as to the exact nature, often called spontaneous 
 septicaemia or pyaemia." * 
 
 It will be observed that the earlier writers on medicine, although aware 
 of the existence of septic diseases, wholly failed to discriminate between 
 pysemia and septicaemia until 1848, and even since that date these terms 
 have been only partially adopted by authors, by whom frequently the 
 meaning of the same word has been so modified as to refer to essen- 
 tially different conditions. - Custom having fully sanctioned the use of 
 these terms, it is now thought that a separate consideration of their 
 1 Trans. Pathological Soc. of London, vol. xxx. p. 38.
 
 NOMENCLATURE. 953 
 
 nomenclature may be advantageous, and consequently we shall pursue 
 this course. 
 
 NOMENCLATURE OF PYJEMIA. In Dunglison's Medical Dictionary 
 the definition given to pyaemia is, " Pyohcemia," and the latter word is 
 defined as follows : " Pyohaemia, Pyaemia, Pyoh&nie (F.), from pyo, and 
 d:[*a, ' blood;' alteration of the blood by pus, giving occasion to the 
 diathesis scu infectio purulentia." 
 
 The committee appointed by the Pathological Society of London in 
 1869 report on this subject as follows: "The most common definition 
 of pyaemia is, no doubt, that adopted by the College of Physicians in the 
 nomenclature^ of diseases. It is as follows : 'A febrile affection resulting 
 in the formation of abscesses in the viscera and other parts. 5 " 
 
 Birch-Hirschfeld includes under the name pyaemia " all cases in which 
 any general infective process is set up as a secondary consequence of a 
 wound." ] Yirchow has proposed the name ichorrluernia. O. Weber 
 uses the name embolhaernia for the condition in which ernboli are found 
 in the blood. Hueter in pure cases of purulent infection without 
 metastasis calls the disease pyohaemia simplex ; in cases with metastasis, 
 pyohsemia multiplex ; and when complicated with septicaemia he desig- 
 nates it as septo-pyohaemia. The term hospitalism has been applied to 
 this disease by Erichsen and Sir James Y. Simpson, and the former 
 remarks that "the term pyaemia is used in a very wide and elastic 
 manner, and by many is made to include various forms of blood-poison- 
 ing." : Billroth says : " Pyaemia is a disease which we believe to arise 
 from the taking up of pus, or of the constituent parts of pus, into the 
 the blood." Koch employs the term pyaemia merely to denote a general 
 affection accompanied by metastatic inflammation and suppuration. 
 
 The French definition and nomenclature of pyaemia, according to 
 Guriu, is as follows : " Purulent infection, or pyohaemia, purulent 
 fever, surgical typhus." The purulent infection is a poisoning of the 
 blood, which terminates by the formation of multiple abscesses, which 
 have been improperly known under the name of metastatic abscesses. 
 
 From 1820 to 1870 surgeons admitted that these abscesses were the 
 result of a phlebitis having its origin in a wound exposed to the air. 
 Therefore, this disease was variously designated under the name of phlebitis, 
 pyohaemia, or purulent infection. Tessier called it purulent diathesis; "in 
 1847, I compared it to the typhus, and, as the poison is absorbed from 
 the surface of the wound in the purulent infection, I gave it the name 
 of surgical typhus or purulent fever." 3 
 
 Having given enough on this subject to answer our purpose, we will 
 consider the nomenclature of another septic complication. 
 
 NOMENCLATURE OF SEPTICAEMIA. The term septicaemia was first 
 employed by Piorry, and was applied for a considerable time to all those 
 diseases in which the blood was submitted to a septic influence. There- 
 fore, the term was made applicable to the morbid conditions existing in 
 anthrax, glanders, typhus and typhoid fevers, variola, and also all forms 
 of purulent and putrid infectious. Gu6riu now adds : " Fortunately, 
 for several years the most competent authors seem to have wished to 
 
 1 Trans. Pathological Soc. of London, vol. xxx. p. 22. 
 
 8 On Hospitalism, p. 73. 
 
 1 Nouveau Diet, de Med. el de Chir. pratiques, t. xxx. p. 222.
 
 954 PTJEM1A ASD SEPTICAEMIA. 
 
 reserve the name of septicaemia for what surgeons call putrid infection, 
 and for the morbid state that the experimenters produce by the injection 
 of putrid material into healthy animal tissues ; it is consequently the 
 experimental septicaemia which we aim at first and foremost." l 
 
 Dunglisou defines septicaemia with a single word, septaemia. The same 
 authority gives the following derivation and definition to septaemia: 
 "From (T^/Troc, 'rotten/ and alua, 'blood.' A morbid condition of the 
 blood produced by septic or putrid matters." 
 
 Sanderson says : " What I mean by septicaemia is a constitutional 
 disorder of limited duration, produced by the entrance into the blood- 
 stream of a certain quantity of septic material. It must, therefore, 
 be regarded less as a disease than as a complication, differing from 
 pyaemia not only in the fact that it has no necessary connection with any 
 local process, either primary or secondary, but also in the important par- 
 ticular that it has no development. 2 
 
 Both Daviue and Koch designate as septicsemic all cases of general 
 infection from wounds in which no metastatic changes occur. " Birch- 
 Hirschfeld limits the term septicaemia much in the same way as San- 
 derson. He describes as septicaemia those cases in which the disease 
 results merely from the absorption of the products of putrefaction, and 
 regards it merely as a process of poisoning, such as might arise from the 
 injection of any other noxious chemical substance into the blood. Pyae- 
 mia, on the other hand, he considers a truly infective process, probably 
 due to the entrance of specific organisms into the body. He would 
 therefore include many of the cases described by Koch as septicaemia 
 under pyaemia." 3 
 
 Billroth defines septicaemia as an " acute general affection which arises 
 from the taking up of various kinds of putrid substances into the blood, 
 and it is believed that these putrid substances so change the quality of 
 the blood that it can no longer fulfil its physiological functions." * 
 
 Heuter defines septicaemia as a fever caused by the entrance into the 
 circulation of the products of putrefaction from local centres of decom- 
 position. He draws no clear distinction between an infective and a non- 
 infective form, but the aifection he describes as pyaemia simplex or pyaemia 
 without metastasis seems to include many cases which Davine, Koch, 
 and others would include under septicaemia. 5 
 
 Having before us the views of some of the prominent authors who 
 have written upon the nomenclature of pyaemia and septicaemia, we 
 observe that the use of these terms is based either on known or imaginary 
 morbid conditions of the body, more especially of the blood. It there- 
 fore seems that the first step toward determining the proper limit within 
 which these terms can be employed consists in learning their accurate 
 meaning, which is fortunately clearly shown by their derivation. The 
 next step consists in the application of these terms to the morbid condi- 
 tions which are described more or less completely by these words. It 
 may be here added that there will be frequently required for a full and 
 definite expression certain modifying words, and consequently we may 
 
 1 Abmiu Diet, de Mcd. et de Chir. pratiques, t. xxx. 
 
 * British Medical Journal, Dec. 2'2, 1877. 
 
 s Trans. Pathological Snc. of London, vol. xxx. p. 9. 
 
 4 Lectures on Surgical Pathology and Therapeutics ( trans, from 8th ed.), vol. ii. p. 41. 
 
 5 Trans. Path. Soc. of London, vol. xxx. p. 9, 1879.
 
 ETIOLOGY OF PYAEMIA. 955 
 
 properly employ such phrases as puerperal septicaemia, spontaneous 
 pyaemia, etc. 
 
 Having carefully examined the terms employed by various authors in 
 connection with the morbid changes which are known to occur in certain 
 cases of septic contamination, we give our preference to the following 
 nomenclature : Septicaemia, septo-pysemia, pyaemia simplex, and pyaamia 
 multiplex. 
 
 The term septo-pyaemia is applied to a morbid condition possessing 
 certain peculiarities of both septicaemia and pyaemia, and it is supposed 
 
 characterized by the existence of metastatic abscesses. It may be well to 
 add here that this nomenclature is not intended to cover all cases of septic 
 poisoning, but to be applied to those cases only in which the morbid 
 changes give to the terms a certain degree of appropriateness. 
 
 Septic poisoning may be justly regarded as a single chain composed of 
 many links. Take, for example, a case of amputation of the thigh, 
 followed within a few hours by traumatic fever, later by septicaemia ; 
 afterward there may be developed secondary fever; formation of ichor- 
 ous pus, with absorption and its concomitants ; pyaemia, accompanied by 
 embolism, thrombosis, abscess in the lungs, liver, etc. To these may also 
 occasionally be added phlebitis and inflammation of the joints, terminating 
 speedily in suppuration. This chain may in this case be further length- 
 ened or varied with traumatic erysipelas or with hospital gangrene. In 
 fact, the variations in these cases are very numerous, and all these condi- 
 tions, together with many others, are due to septic blood-poisoning. 
 
 ETIOLOGY OF PYAEMIA. Four theories have been advanced at different 
 times to explain the etiology of pyaemia, and they have been designated as 
 follows : the mechanfcal, the nervous, the chemical, and the germ theories 
 respectively; and their action is based on the following hypotheses: 1, that 
 pus enters the blood, circulates in it, and acts as a poison ; 2, that an irrita- 
 tion is excited in certain visceral organs in sympathy with inflammation of 
 the fibrous membranes of the cranium or the bones of the upper or lower 
 extremity, and there is thus produced a metastasis to these organs of an 
 ichorous miasm or of a fluid which is more or less acrid ; 3, that a chem- 
 ical poison is generated from the pus in the wound, and when it is 
 absorbed produces pyaemic manifestations; 4, that the putrefaction of 
 pus in wounds is caused by a microscopic organism which enters the cir- 
 culation and produces pyaemia. 
 
 The first hypothesis was somewhat modified, as we have already men- 
 tioned, by John Hunter and others, who advanced the idea that pyaemia 
 consisted essentially of a phlebitis, and that the pus found in the circula- 
 tion had its origin within the veins. However, it has since been shown 
 conclusively that pyaemia cannot be produced by the injection of healthy pus 
 into the cellular tissue or veins. This fact having been generally admitted 
 by the profession, it is thought unnecessary to adduce here either the experi- 
 ments or the arguments which have been accepted as conclusive on this im- 
 portant point. It is not even necessary to bring forward the disputed ques- 
 tion of the possibility of the entrance of pus into the blood, since laudable 
 pus does not produce pyaemia. In fact, we have reached a point in the prog-
 
 956 PY2EMIA AND SEPTICAEMIA. 
 
 ress of medicine when the discussion of either the first or second hypothesis 
 ceases to be interesting to medical men. Consequently, our chief interest 
 in the study of the etiology of pyaemia centres in the third and fourth 
 hypotheses ; and we believe that it may be safely asserted that the origin 
 of this disease has been fully demonstrated by an almost unlimited num- 
 ber of experiments. 
 
 The injection of pus into living animals produces local, remote, and 
 constitutional symptoms. The character of these symptoms depends 
 principally on the kind of pus, laudable or ichorous, the quantity 
 injected, and the site of the injection. It will be readily perceived that 
 in cases where the pus is thrown directly into a vein the local symptoms 
 would be unimportant, while the danger of remote trouble metastatic 
 abscesses in the lungs, liver, etc. would be very great ; but should the 
 injection be made into the connective tissue, then the relations would be 
 reversed. Constitutional symptoms may exist in both cases, but will 
 differ in character and degree. 
 
 In regard to the character of the pus, and its agency in the production 
 of this disease, Billroth says : " The old view, that pyaemia is only 
 induced when decomposed pus (ichor) is reabsorbed, is entirely erroneous. 
 There are cases where decomposed, putrid pus enters the blood, and which 
 present a combination of the symptoms of septicaemia and pyaemia (septo- 
 pyaemia of Hueter)." 1 Dupuytren failed to produce metastasis by injec- 
 tions of pus into the veins of dogs ; these results were confirmed by 
 Boyer, who only obtained metastasis when he used ichorous pus in his 
 experiments. The same results are recorded in the works of Giiuther and 
 Sedillot, based on numerous experiments. Beck made fourteen experi- 
 ments very carefully, but did not succeed in producing metastasis in a 
 single case. The same results are recorded by a commission of the 
 Physiological Society of Edinburgh. O. Weber has recently shown by 
 extended experiments that carefully filtered pus will not produce meta- 
 static abscesses in the lungs. Therefore, it may be considered as proved 
 that fluid pus injected into the veins of an animal produces no metastatic 
 points of inflammation. 
 
 It should not be supposed, however, that because injection of fresh 
 (non-ichorous) pus failed to produce metastatic abscesses, it was therefore 
 without results, as the earlier experimenters thought. Billroth and 
 O. Weber have shown by their recent experiments that these injections 
 are uniformly followed by fever, and, if subcutaneous, by abscess ; and fur- 
 ther, that injections of fresh pus produce even a higher temperature than do 
 those of ichorous pus ; but the pus taken from cold abscesses has apparently 
 very slight effect. The fresh nou-ichorous dried pus' was found to possess 
 in a similar degree the power to excite inflammation and suppuration ; 
 even the removal of the albumen did not change its character or power. 
 It will be observed that these injections caused not only local inflamma- 
 tions, but severe constitutional symptoms, as high temperature, etc. 
 Experiments have thus far completely failed to show the agent that 
 excites the inflammation, although it is generally admitted that it at least 
 exists in the molecular bodies. 
 
 Virchow and Panum have shown conclusively by their experiments 
 on living animals that the introduction of foreign bodies into the veins 
 
 1 Surgical Pathology, p. 344.
 
 ETIOLOGY OF PYJEMIA. 957 
 
 as powdered coal, wax balls, and quicksilver fail in all cases to pro- 
 duce metastatic abscesses in the visceral organs or symptoms of pyaemia. 
 These foreign bodies were frequently found blocking up the terminal 
 branches of the pulmonary artery, in some cases encapsulated, frequently 
 resembling miliary tubercles, and occasionally surrounded by evidences 
 of slight local inflammation, but in every instance without suppuration. 
 The same experimenters, however, observed that the introduction of 
 ichorous pus and decomposing animal tissue into the veins was attended 
 with the formation of metastatic abscesses and other symptoms of pyse- 
 mia. They therefore conclude that the introduction of putrid animal 
 substances into the veins, and the further transport of the same to the 
 branches of the pulmonary artery, produce metastatic abscesses, and that 
 the origin of these deposits is independent of the mere stopping up of 
 the branches of this artery. 
 
 The occlusion of the blood-vessels in this diseased condition is a sub- 
 ject which has given rise to much discussion. Some of the earlier 
 writers supposed this phenomenon constituted the disease pyaemia, while 
 others believed it to be the essential cause. Roser says : " But the 
 thrombus is, as can be easily proved, not the cause, but only a 
 symptom, of pyamia. If a surgical patient e. g. one suffering 
 with an injury of the head is attacked by inflammation, and occlu- 
 sion of a large vein, as of the common iliac vein, for instance, 
 then there are three different theories for the inflammation of the 
 occluded vessel viz. Hunter's, Rokitansky's, and Virchow's. Ac- 
 cording to the old Hunterian phlebitic theory, the coagulation of 
 the blood should be the result of the inflammation of the vein. On 
 account of the circumstances under which the coagulation of the blood 
 in the vein has occurred, one might suppose that the cause must be 
 the oozing of coagulable exudation from the inflamed wall of the vein, 
 but pathological dissections, especially Rokitansky's, would not accord 
 with it. Large veins were found plugged up without the existence 
 of corresponding indications of inflammation, and perfectly clear in- 
 dications were often present that occlusion had preceded the inflam- 
 mation. Consequently, the occlusion of the vein was the primary 
 condition, and this must be explained in some other way than by its 
 inflammation. Rokitansky in his theory recognized an independent 
 disease of the blood. Yet it does not appear, on examination of the 
 morbid conditions, that this theory can account for them. If it 
 is recognized as correct that a primary disease of the blood is to be 
 admitted, yet the coagulation of the blood in a large vein has^ not 
 been traced back to it. It remained wholly unexplained why a single 
 vein, especially one so large and strong as the common iliac, should 
 become the seat of the local coagulation. The necessity of finding a 
 local basis for the local coagulation could not be denied. For that reason 
 it was greeted as a highly desirable advance when Yirchow pointed out 
 that the occlusion of such large veins could be dependent on the coagula- 
 tion of the blood in the concave spaces behind the valves of the veins, 
 or through the coagulation in the small branches e. g. the hypogastrio 
 veins,. which is gradually carried fonvard until it reaches the common 
 iliac, and by continual increase this vein may also be filled up. At the 
 ^arne time, it was demonstrated that not infrequently, much oftener than
 
 958 PY^HIA ASD SEPTICAEMIA. 
 
 was formerly supposed, the coagulated masses of blood are broken up and 
 carried further on in the circulation, in this manner producing occlusion 
 of the pulmonary artery or its branches." * 
 
 The examination of this subject finally brings Roser to this con- 
 clusion : " Contamination of the blood is essentially the primary cause 
 of pyaemia ; thrombosis is only a result of this morbid contamination, 
 and cannot, therefore, be regarded as the cause of pyaemia, but only as 
 an apparent part, as one of the symptoms of the same." 2 The opinion 
 here expressed by Roser I believe to be the one generally entertained 
 by the profession at this time. 
 
 In cases of pyaemia there are recognized two principal sources of con- 
 tamination of the blood viz. the wound itself, and the vitiated condition 
 of the atmosphere surrounding the patient contamination, in the first 
 place, directly from the wound through the blood-vessels ; and in the 
 second, by the passage of disease-germs or of the poisonous elements into 
 the blood along the respiratory tract. E. Wagner says : " The latest 
 examinations in regard to the vegetable parasites have made it very 
 probable not only that these are the active agents, but also what has 
 been clinically quite generally accepted that septicaemia and pyaemia 
 owe their origin to different plants (the first to rod bacteria, the latter to 
 globular bacteria); and, finally, that both may combine." 3 These germs 
 may be generated in the wound or be received into it from the surround- 
 ing atmosphere. The character of the wound and the conditions sur- 
 rounding the patient thus become important subjects for the consideration 
 of the surgeon. 
 
 It has been observed, and is now generally admitted, that wounds compli- 
 cated with a fracture of the long bones of the extremities, opening large 
 medullary cavities and accompanied by extensive laceration of the soft parts, 
 always increase the danger of blood-poisoning. This fact may be more thor- 
 oughly understood by a brief consideration of the condition of the parts. 
 Frequently in open fractures large quantities of pus constantly remain in 
 contact with the surface of the wound, while detached fragments of bone, 
 which become speedily necrosed, move about with every motion of the in- 
 jured limb, lacerating more or less the surrounding tissues, and thus excit- 
 ing inflammation and suppuration. The periosteum becomes inflamed; a 
 widespread suppurative periostitis is the result; necrosis of the bone from 
 insufficient nutrition follows, while mechanical pressure on the pus aids in 
 its absorption. The medulla frequently takes on suppurative inflamma- 
 tion, and here the surgeon fails to receive prompt warning of danger ; 
 slowly the suppuration progresses, without pain or other symptoms unless 
 the disease has extended to the other tissues ; the medullary cavity at the 
 fractured end of the bone may be completely or partially occluded by a 
 new osseous formation ; and in such cases the absorption of pus by the 
 comparatively large venous vessels of this cavity is greatly facilitated. 
 
 The soft parts may also be the seat of dangerous trouble. The same 
 force that produced the wound and fracture may have also contused the 
 soft parts, destroying in a greater or less degree their nutrition, thus 
 giving rise to gangrenous sloughs, or in other cases to the formation of 
 abscesses, etc. I will also call attention to the fact that the laudable pus 
 
 1 Archiv der Heilkimde, Erst. Jahrg., Erst. Heft, S. 4. 'Ibid., S. 43. 
 
 8 Manual of General Pathology, p. 593.
 
 ETIOLOGY OF SPONTANEOUS PYAEMIA. 95<J 
 
 in these cases is most favorably situated for a rapid change into that 
 commonly called ichorous. The heat of the parts and the contact of the 
 pus with the atmosphere will not fail to effect its rapid decomposition. 
 
 ETIOLOGY OF SPONTANEOUS PYAEMIA. It is unquestionable that 
 cases of true pyaemia have been observed in which the etiology was not 
 traceable to a wound ; and it is equally certain that this failure to dis- 
 cover such a source of contamination in the majority of cases is no proof 
 that it did not exist. When it is remembered that a large portion of the 
 alimentary canal, the respiratory and the genito-urinary tracts, are so 
 situated that the existence of a contaminating wound might be absolutely 
 tmdiscoverable, we are compelled to admit the possibility of a local centre 
 of contamination in all these cases. But the question may be asked here 
 with propriety, " Is fatal pyaemia, independent of a wound, ever pro- 
 duced by breathing vitiated air?" The answers to this question must 
 generally be a negative, although it is certainly true that poisoning of 
 the blood does take place to a certain degree, as is abundantly shown by 
 the different symptoms arising in patients thus exposed who are not 
 suffering with wounds. It is said that dogs exposed in this way are 
 found to rapidly emaciate and suffer from severe and constant diarrhoea. 
 The various symptoms arising in patients confined in overcrowded and 
 pus-infected Avards, among which may be mentioned loss of appetite, 
 with diarrhoea and emaciation, are too well known to require an enume- 
 ration here. Therefore it appears highly probable that living in and 
 breathing a vitiated atmosphere may act as a strongly predisposing cause, 
 only requiring a slight scratch or abrasion of the skin, in which the 
 infection may be said to act as an exciting cause of pyaemia. 
 
 In reference to such complications the following questions are asked 
 by Roser : " Is it a specific deleterious material, a miasmatic or 
 contagious disease-poison, or, as it is generally expressed, a zymotic 
 agent ? Must we regard each particular typhus-like fever, with its 
 remarkable changes of blood, with its various localizations in all the 
 organs and membranes, with its chills, furred tongue, petechiae, delirium, 
 etc., as we regard typhus, scarlatina, variola, etc.? or, as Virchow teaches 
 us, is this pyrcmia, so greatly feared by all surgeons, only an ontological 
 idea ? Is the word pyaemia only a general name for three different condi- 
 tions viz. leticocythaemia, thrombosis, and embolism, or ichorrhamiia and 
 septicffimia? or are there, as many have supposed, two ways in which 
 pyaemia may originate ? Is there one primary miasmatic pyaemia analo- 
 gous to the other epidemic, so-called zymotic diseases ?^ and again, a sec- 
 ondary pyaemia arising from suppurative inflammation, wherein^ the 
 poison is formed in the patient's own body, which is infected by a single 
 organ ?" : 
 
 That this disease is caused by a specific deleterious material in the 
 
 ' " n> The 
 
 same 
 
 possible for pyaemia to originate spontaneously? Are 
 there any cases of sporadic origin, or are they always duetto en- 
 demic or contagious influences? No definite answer can be given to 
 these questions, although, undeniably, the weight of the argument 
 is strongly opposed to a sporadic origin. The term miasmatic, aa 
 
 1 Loc. cit., S. 39.
 
 960 PYAEMIA AND SEPTICAEMIA. 
 
 used by Roser, probably refers to the vitiated condition of the atmo- 
 sphere, as seen in the overcrowded surgical and obstetrical wards of 
 hospitals. In no other sense can the word be appropriately used in con- 
 nection with the subject of pyaemia. It is true, pysemic diseases are found 
 to prevail at certain seasons and in certain localities much more exten- 
 sively than under other circumstances. The same, however, is true of 
 cholera, typhus fever, scarlatina, variola, and other contagious diseases. 
 That pyaemia is contagious has been frequently demonstrated. I there- 
 fore conclude that the prevalence and spread of this disease must be 
 explained by the same rules as are applied to the existence and propaga- 
 tion of these allied affections. 
 
 This inquiry into the etiology of pyaemia brings before us again the 
 four hypotheses which have been given in explanation of the same 
 number of theories. The first and second have been already aban- 
 doned by the medical profession, after it was* satisfactorily demonstrated 
 that they were based on false theories, and consequently there remain 
 for our consideration only the third and fourth. 
 
 The third hypothesis assumes that a chemical poison is developed in 
 the wound-secretions, which when absorbed produces pyaemia. An 
 examination of the subject does not justify us in asserting that this 
 proposition has been proved, although it is certain that the results 
 of experimental inquiry demand for it a more extended investigation. 
 In all the analyses which have thus far been made the investi- 
 gators have entirely failed to give us an adequate knowledge of this 
 poison, and not a word has ever been said in regard to the agency by 
 which it is produced, although it is universally admitted to have 
 been only obtained from decomposing animal substances. It is there- 
 fore pertinent to the continuation of this inquiry to ask, By what 
 agency is the putrefaction of animal substances produced ? It has now 
 been fully shown that there can be but one answer given to this question 
 viz. the putrefaction of albuminoid substances can only be effected by 
 living organisms. We therefore conclude that the fourth hypothesis 
 brings us at least one step nearer the correct explanation of the etiology 
 of pyaemia than the third, since we justly assume that if there is a 
 chemical poison in decomposing albuminoid substances, it is produced 
 through the agency of living organisms. 
 
 ETIOLOGY OF SEPTKLEMIA. The first question which arises in the 
 discussion of the etiology of this morbid condition is entirely dependent 
 on the scope which we give to the word septicaemia. Sternberg says : 
 " The view which is entertained by high authorities, upon clinical and 
 experimental evidence, is that there are two forms of septicaemia the 
 one a septic toxaemia due to the effects of a chemical poison or poisons 
 evolved during the putrefactive decomposition of certain organic sub- 
 stances, especially of nitrogenous animal products ; the other an infective 
 disease produced by the rapid multiplication in the body of the infected 
 animal of a parasitic organism. The best-studied and most widely 
 known form of septicaemia, due to the presence of a parasitic organism, is 
 the disease known as anthrax charbon of the French, milzbrand of the 
 Germans but several other varieties are now well established, in which 
 similar symptoms and pathological results are produced by organisms 
 morphologically different from the bacillus anthracis. Among these may
 
 ETIOLOGY OF SEPTICAEMIA. 9G1 
 
 be mentioned the form of septicaemia in the mouse, so well studied by 
 Koch, which is due to a minute bacillus, and the form of septicaemia in 
 the rabbit, produced by the subcutaneous injections of human saliva, due 
 to micrococci, which has been studied by Pasteur, Vulpiau, and myself 
 independently." l 
 
 The terms septic toxaemia and septic intoxication are applied indis- 
 criminately to the same disease, and the committee appointed by the 
 London Pathological Society to investigate the nature and cause of those 
 infectious diseases known as septicaemia, etc. further report that " ordi- 
 nary wound-fever is merely septic intoxication in a very mild form, and 
 it is only necessary for the dose absorbed to be sufficient in quantity for 
 fatal consequences to ensue. Septic intoxication is, therefore, of the com- 
 monest possible occurrence as a complication of severe surgical injuries, 
 but it is in so mild a form as to bear but little resemblance to that experi- 
 mentally produced on animals." 2 The question which now arises is, 
 Shall septic intoxication be classified with septicaemia ? 
 
 We nave been long accustomed to speak of this complication as a 
 surgical or traumatic fever ; and consequently any change in this classifi- 
 cation must necessarily lead to confusion. Furthermore, it is now gener- 
 ally supposed there is much difference in the etiology of these morbid 
 conditions. It is claimed that septic intoxication arises from the absorp- 
 tion of a chemical poison evolved through the agency of living organ- 
 isms during the process of putrefaction in a wound, and that the condi- 
 tions are unfavorable for their development within the blood or tissues of 
 a living animal ; but in true septicaemia the organisms are developed in 
 the wound during putrefaction, and then find their way into the blood 
 and tissues of the body, where they rapidly multiply. Consequently, the 
 former condition tends to a rapid recovery unless the quantity of poison 
 primarily admitted to the system has been excessive while the latter tends 
 to a fatal termination. 
 
 Septic intoxication is regarded as a non-infective disease, and true sep- 
 ticaemia as an infective malady. The only etiological similarity between 
 these morbid conditions is found in the fact that they take their origin in 
 putrefaction, which is effected by the action of different organisms possess- 
 ing marked morphological differences and requiring essentially different 
 surroundings for the maintenance of life and reproduction. Thus, it is 
 supposed that in cases of septic intoxication the organism by which putre- 
 faction is caused in the wound-secretions can only live in the open air, 
 and that its life is commonly only of a few hours' duration. The brevity 
 of bacterial action in this instance may be due to a failure of the absorp- 
 tive power or to a changed condition in the wound-fluids, rendering them 
 unfit to support the organism. 
 
 It is now a well-recognized fact that all septic absorption ends so soon 
 as the wound-surfaces are covered with healthy granulations, but that 
 septic absorption, which produces septic intoxication, is most commonly of 
 a much shorter duration, and, consequently, that the wound complication, 
 which I prefer to designate traumatic fever, is essentially an acute disease, 
 and can only be lengthened out by unusually favorable circumstances for 
 the continuance of the absorption of the poison by which it is produced. 
 
 l Amer. Jour. Med. Sci., July, 1882, p. 70. 
 
 2 Trans. Pathological Soc. of London, vol. xxx. p. 14. 
 
 VOL. I. 61
 
 962 PYJEMIA AND SEPTICAEMIA. 
 
 The severity and danger of the disease will necessarily depend on the 
 amount of poison absorbed and the resisting power of the patient ; but 
 since there is no multiplication of the materies morbi within the body, a 
 rapid elimination by the natural emunctories may be reasonably expected 
 under favorable circumstances. 
 
 It should be observed here that the etiology of septicaemia differs from 
 that of traumatic fever, since the organisms in the former condition are first 
 formed in the wound-secretions, but quickly enter the body, where they 
 rapidly multiply ; consequently, Chauvel has defined surgical septicaemia 
 as follows : " The particular intoxication which results from the penetra- 
 tion and multiplication in the body of a specific microbe designated by 
 Pasteur under the name of septic vibrio." The bacterial origin of this 
 disease is now generally accepted, and the only question in the profes- 
 sional mind seems to be whether the organisms are the direct or indirect 
 cause of the malady. 
 
 There are also some other interesting questions which have arisen in 
 connection with the study of this subject, and are thought to be of suffi- 
 cient importance to merit mention here. It has long been known that 
 dissecting wounds are most dangerous when made while examining 
 the body very soon after the death of the subject. Recent observations 
 seem to justify the conclusion that the greatest activity of the septic agent 
 is often, if not always, attained before the odor of putrefaction has become 
 fairly perceptible ; and even before this odor has reached its maximum 
 degree of offensiveness the danger from septic poisoning has generally 
 disappeared. In some cases septic intoxication is promptly followed by a 
 slight inflammation in and about the wound, which may entirely disappear 
 within a few hours, but only to reappear after a lapse of eight to fifteen 
 days, with the first vigorous physical exercise of the patient. Two cases 
 of this kind have recently come under my observation. In both instances 
 the wounds were located in the hands, and the exercise which developed 
 the septicaemia consisted in rowing a boat, and while thus engaged the 
 local symptoms reappeared with such severity as to cause the patients to 
 quickly discontinue the labor. The reappearance of the local inflamma- 
 tion in both these instances was quickly followed by a rigor and the rapid 
 development of other constitutional symptoms, although prior to the 
 recurrence there was no pus, nor even marked inflammatory action, in 
 any part of the hands. 
 
 Professional attention was first called to the above-stated facts by 
 Panum in 1855, who discovered that the maximum toxic action of 
 putrid substances is generally developed during the first hours of bodily 
 activity. In this stage of incubation in cases of surgical septicaemia, if 
 we admit the bodily action as an etiological factor, we observe a striking 
 resemblance to one of the leading characteristics of all the infectious dis- 
 eases, which unquestionably depend on some sort of septic poison. 
 Furthermore, this analogy becomes most striking if we contrast the effects 
 arising from dissecting wounds with those of the bites .of poisonous ser- 
 pents and rabid animals. 
 
 Further investigation is required to settle the perplexing questions of 
 etiological and pathological differences in these allied morbid conditions, 
 for although much has been accomplished during the last two decades, 
 still much more remains to be done. It has only recently been discovered
 
 ETIOLOGY OF SEPTO-PY&MIA PATHOLOGY OF PYAEMIA. 963 
 
 that the septic material in septicaemia is absorbed by the lymphatics 
 while in pyaemia the poison enters the body through the veins. 
 
 ETIOLOGY OF SEPTO-PY.EMIA. It is now generally admitted that 
 remittent fever and typhoid may be associated, and this morbid condi- 
 tion is commonly designated by the term typho-malarial fever. The 
 etiology is unquestionably dependent upon the action of the two distinct 
 and entirely dissimilar poisons. Scarlatina is likewise frequently compli- 
 cated by diphtheria, and here we have the combined action of two poisons, 
 each commonly designated as septic and supposed by many physicians to 
 be similar. 
 
 In a like manner, it is believed that septicaemia and pygemia may be 
 associated, and take their origin in dual poisons ; but since the etiology 
 of both these morbid conditions has been already described, it is not 
 deemed necessary to dwell longer on septo-pyaemia under this division of 
 our subject. 
 
 PATHOLOGY OF PYAEMIA. The study of the pathology of pyaemia is 
 advanced by adopting the following classification, which is based on 
 recognized post-mortem lesions. The pathological appearances in these 
 forms of the disease differ widely, although the clinical symptoms are 
 often similar. In pyaemia simplex the pathological conditions are essen- 
 tially more negative. This variety of the disease can only destroy life 
 by the height and duration of the fever which is maintained in connec- 
 tion with the continued existence of ichorous pus. There is found, as an 
 essential basis of this form of disease, extensive suppuration in the sub- 
 cutaneous tissues. 
 
 The arguments in favor of the admission of pus-corpuscles into the 
 blood are as follows: 1. The blood in pya3mia is known to contain more 
 white granular spherical bodies than are normal. The question has been 
 raised. Are they pus-cells or white blood-corpuscles ? The answer is 
 difficult, and has not yet been attained. Virchow, in the mean time, has 
 proved that we cannot differentiate, morphologically, between the blood- 
 and pus-corpuscles. 2. Cohnheim has demonstrated the existence of the 
 wandering corpuscles in cases, of inflammation. Therefore it appears 
 probable that in cases of pyaemia the blood may contain the pus-corpuscles, 
 but further investigation is needed to establish this fact. However, the 
 establishment of this point would still leave the more important undeter- 
 mined. 
 
 There are often important changes observed in the blood of patients 
 dead of pyaemia, to which I now desire to direct attention. The red 
 corpuscles of the blood, even in the early stage of the disease, in many 
 cases show signs of disintegrating into molecules, and are observed to be 
 accumulated in masses without showing the slightest tendency to form 
 rouleaux. There is a steady increase in the number of pus- or white 
 corpuscles in the blood of pyaemic patients during the whole course of the 
 disease in fatal cases. The condition of the red corpuscles, already men- 
 tioned, becomes more and more marked toward the fatal termination. 
 
 In all cases of pyaemia multiplex the increased coagulability of the 
 blood may be observed in the early stages of the disease, and steadily 
 increases as the disease progresses. 
 
 In pyaemia simplex this condition is less marked, although generally 
 present, "while we know septicaemia diminishes or destroys the coag-
 
 964 PYAEMIA AND SEPTICAEMIA. 
 
 ulability of the blood. Hereby the possibility is given, at least on the 
 cadaver, to differentiate between pyaemia simplex and septicaemia, although 
 cases occur of the more fatal septic infection in which the post-mortem 
 condition is a complete or almost complete negative. Therefore, iu these 
 cases the differential diagnosis on the cadaver must be limited to this, that 
 we are able to demonstrate the existence of a purulent o'r ichorous deposit." 
 It will be readily observed that the difference in diagnosis mentioned above 
 relates to pyaemia and septicaemia, and not to the different varieties of the 
 former disease. 
 
 The following facts should be constantly kept in mind by the surgeon 
 to enable him to differentiate between the two forms of pyaemia : In 
 pure cases of purulent infection, without metastasis, the disease is called 
 pyaemia simplex, and in cases with metastasis, pyaemia multiplex. The 
 various conditions on which the metastasis may depend are shown by 
 Hueter, who says : " The metastatic abscesses of pyaemia multiplex met 
 with in the lungs, liver, spleen, and other internal organs are regarded, 
 with the greatest probability, as a result of the embolic process. The 
 metastatic inflammation of the serous membranes, of the cellular tissues, 
 and of the parotid glands, and probably also a few metastatic inflamma- 
 tions of the internal organs, are at present supposed to arise from a 
 general inflammatory diathesis." ' It has already been shown by nume- 
 rous experiments on animals that metastatic abscesses in the lungs, 
 liver, and other visceral organs only arise after the introduction of 
 ichorous pus, while healthy pus has uniformly failed to produce these 
 results. 
 
 It now remains to be shown how the introduction of ichorous pus acts 
 in the production of pyaemia multiplex. The ichorous pus, having 
 found its way into the venous circulation, gives rise to the formation of 
 thrombi in the veins ; these clots become more or less broken up, and 
 are carried forward by the blood to the right auricle ; from this auricle 
 to the right ventricle ; from this ventricle to the pulmonary artery, and 
 through its ramifications to every part of the lungs. In the minute 
 ramifications of this vessel are found wedge-shaped clots of various sizes 
 in different conditions, some softened and others still firm. The possi- 
 bility of these clots ever passing through the lungs, and afterward being 
 arrested in other visceral organs, has been demonstrated on animals. It 
 has been shown that fine particles of foreign matter injected into the 
 veins have passed through the lungs and subsequently lodged in the 
 liver. This theory enables us to account, upon a mechanical basis, 
 for the existence of the metastatic abscesses in the liver which have 
 apparently originated as the result of primary infection. 
 
 In other cases these abscesses are supposed to arise from secondary infec- 
 tion. Thus, ichorous pus, having found its way into the venous circulation, 
 produces primarily venous thrombi, which, as in other instances, break 
 up, the clots being carried in the same manner into the terminal branches 
 of the pulmonary artery, where they are designated as emboli. The first 
 action of the emboli is the mechanical closure of these vessels, thus 
 depriving the surrounding parts of nutrition to a greater or less extent. 
 It will be proper now to recall the fact that the composition of these 
 emboli is such as to favor rapid suppuration ; this commonly commences 
 1 Billroth's Handbuch der Chirurgie, S. 88.
 
 PATHOLOGY OF PYAEMIA. 965 
 
 in the clot and surrounding tissues, having been preceded by a brief 
 stage of congestion and inflammation. There is also occasionally found 
 around these points more or less extravasation. The metastatic abscess 
 thus formed in the lungs is favorably situated for the production of sec- 
 ondary infection. From this abscess thrombi arise in the pulmonary 
 veins, which become disintegrated, and are carried to the auricle, thence 
 to the left ventricle, and finally through the aorta, and find lodgment in 
 the terminal branches of the arteries of the various organs, where they 
 produce the characteristic lesions. 
 
 The organs which most frequently become the seat of this secondary 
 infection are the liver, spleen, kidneys, brain, and eyes. 
 
 Let us now briefly examine this mechanical theory. Do metastatic 
 abscesses arise from a single cause or from a combination of causes ? I 
 am inclined to the opinion that the proximal cause of metastatic abscesses 
 in the visceral organs is the existence of emboli in the terminal branches. 
 The vitiated atmosphere surrounding the patient, the existence of a 
 wound, and the formation of ichorous pus are conditions which should 
 not be lost sight of. These are the elements acting on the blood, pro- 
 ducing in it morbid changes, and may therefore be regarded as predis- 
 posing causes. The morbid conditions of the blood, the increased 
 number of white blood-corpuscles (possibly pus), the disintegration and 
 other changes in the red corpuscles, may be regarded as the exciting 
 causes of metastatic abscesses. It is thus readily observed that emboli 
 may form in the lungs and liver at the same time, or the origin of 
 those in the lungs may precede the formation in other organs. 
 
 Is the formation of emboli in the terminal branches of arteries 
 always dependent on the disintegration of thrombi? The answer to this 
 question must, I think, be a negative, although in surgical practice it 
 rarely happens that the emboli take their origin from any other cause. 
 In the large majority of cases, unquestionably, the thrombi primarily 
 exist in the vicinity of the wound in which ichorous pus is generated ; 
 but it not infrequently happens during the process of disintegration th'at 
 broken-up clots are carried forward by the current of blood, receiving 
 accretions on the way, until finally they fill a large venous trunk. In 
 confirmation of these facts relating to the primary origin of thrombi, it 
 is said to have been observed in epidemics of puerperal fever, which 
 were complicated with metastatic abscesses of the visceral organs, that 
 the thrombi occurred in the pelvic veins. In case of wounds of the 
 lower extremity the clot is frequently found in the common iliac vein, 
 although probably it should always be regarded as a secondary forma- 
 tion. In rare cases the only thrombi discovered at the autopsy are found 
 situated far away from the injury. 
 
 Observation fully establishes the fact that, after death from pyaemia, 
 pathological changes are much more frequently met with in the lungs 
 than in any of the other organs. This certainly strengthens the embolic 
 theory. Billroth mentions eighty-three cases of true pyaemia multiplex, 
 in which the metastatic abscesses occurred as follows : seventy-five times 
 in the lungs, seventeen times in the spleen, eight times in the liver, and 
 four times in the kidneys. Sedillot remarks that in one hundred cases 
 of pyaBinia we find the lungs aifected in ninety-nine, the liver and 
 spleen in eight, the muscles in seven, and the heart and peripheric cell-
 
 966 PYAEMIA AND SEPTICAEMIA. 
 
 ular tissue in five cases. The brain and kidneys are comparatively sel- 
 dom involved. 
 
 The theory previously mentioned as the embolic relates to the aggre- 
 gation of fibrin into clots ; but another theory has been recently advanced 
 by E. Wagner, who found in many cases the capillaries in the lungs filled 
 with fat, and was inclined, from the direction it extended in these vessels, 
 to explain a certain number of the pysemic cases by the fat emboli ; but 
 it has been shown that the existence of the fat emboli in pyaemia is 
 purely accidental and possesses no significance. Pyaemia multiplex very 
 frequently occurs without fat emboli, and vice versa; either process may 
 complicate the other, and so the fat emboli may acquire special import- 
 ance by obstructing the respiration, and probably also in their M*ay the' 
 embolic fat may serve as a carrier of putrid material. 
 
 MORBID ANATOMY. The external appearance of the body varies 
 greatly. The skin, in those cases in which the patient was jaundiced be- 
 fore death, will be found in every part of the body to be of a dark orange 
 or dirty icteric tinge, but in other cases it may present a pale or anaemic 
 appearance. There are also sometimes found circumscribed ecchymoses 
 or purpuric patches, while the edges of ulcers or open wounds are gen- 
 erally of a blackish or dirty yellow color. The lips and finger-nails 
 present a livid appearance ; epithelial defects are observed in the cornea, 
 but these had their origin there before the death of the patient. 
 
 The eyes in some cases are sunken deeply in their sockets, and where 
 the disease has been protracted there is often very great emaciation. 
 Rigor mortis is commqjaly well marked after a few hours. When death 
 occurs from puerperal pyaemia there are generally found some indications 
 of the recent parturition, although the principal lacerations or injuries 
 may be confined to the womb. All fluids disappear from external wounds 
 before the death of the patient, and they remain dry afterward. 
 
 In some cases the cellular tissue is the seat of diifuse suppuration. 
 The pus formed is thin, fetid, and unhealthy. This suppuration is lim- 
 ited to certain parts of the body, as an injured extremity, or, as fre- 
 quently happens, it may be found on the trunk and limbs at the same 
 time. The pus in this form of suppuration is exceedingly apt to burrow, 
 on account of the peculiarities of the tissue in which it occurs, and also 
 the condition of the surrounding structures, especially the relaxed and 
 flabby condition of the skin. These abscesses in some instances are 
 superficial, in others deep-seated. 
 
 There are few changes which occur in the muscles, and these are not uni- 
 form or constant. They are occasionally the seat of abscesses, which have 
 been observed in the heart, tongue, and other organs. The muscles may 
 be of a light-brown or greenish color when they have been covered a 
 considerable time with pus, and are sometimes softened and pultaceous. 
 Suppuration may also take place beneath the fascia of the tendons. 
 
 The brain and its membranes are frequently found in a perfectly 
 healthy state after death from pyaemia, although when the diseased pro- 
 cess has extended during the life of the patient to the lungs and pleura, 
 giving rise to great dyspnoea, there will generally be observed some con- 
 gestion of the membranes, an increased quantity of fluid in the brain- 
 substance and ventricles, and also an increased fulness of the meningeal 
 veins and sinuses. Occasionally there have been observed suppurative
 
 MORBID ANATOMY. 967 
 
 meningitis, blood extravasations on the surface of the brain, lymph-deposits 
 on the membranes, softening of the cerebral tissues, and circumscribed 
 abscesses in the substance of the brain, which in some cases have been 
 traceable to embolism of its vessels. The changes in the spinal cord and 
 its membranes are probably similar to those found in the brain, but these 
 parts appear to have been rarely examined. 
 
 Virchow found emboli of the retinal and choroidal vessels. Heiberg 
 found these vessels occluded with colonies of micrococci. There have 
 also been observed opacity of the cornea, sloughing of the conjunctival 
 epithelium, suppurative infiltration into the periphery of the vitreous 
 body, and deposits of pus in Petit's canal and in the anterior and posterior 
 chambers. Pysemic ophthalmia has been observed somewhat frequently 
 in puerperal cases, especially when preceded by endocarditis, with deposits 
 on the semilunar or mitral valves. In surgical cases it is rarely seen. 
 
 Toynbee " relates several cases of purulent infection following sup- 
 puration of the ear. Cases of disease in the mastoid cells terminate 
 fatally, he says, from two different causes : first, from purulent infection, 
 arising from the introduction of pus into the circulation through the 
 lateral sinus ; second, from disease of the cerebellum or its membranes. 
 Cases of purulent infection, he further remarks, have not been met with 
 where the disease occurs in the tympanic cavity." l 
 
 Numerous lesions of the osseous system have been noted in pyaemia, 
 probably from the fact that this disease results very frequently in cases 
 of bone-lesions, but these changes have very little diagnostic importance. 
 The following have been observed : thickening or infiltration of the 
 periosteum, which may be found to separate readily from the bone 
 after the death of the patient, or there may be pus found between the 
 periosteum and the bone. In the bone-structure there were found caries 
 and necrosis, "while in other cases the whole thickness of the compact 
 tissue is perforated in a honeycomb-like manner by minute cavities filled 
 with thickish pus or caseous matter of a pinkish-white color." 2 " To 
 sum up, the chief morbid alterations met with in the bones are congestion, 
 dilatation of the Haversian canals and cancellated tissue, tending to abscess 
 formation, and the excavation of the cavities by the unhealthy pus." ' 
 
 The pathological lesions of the joints commence with marked conges- 
 tion of the synovial membranes and increase in the synovial fluids, and 
 afterward the fluid is mixed with pus ; these conditions are followed by 
 erosion of the cartilage and ligaments, the former thus becoming separated 
 from the bone. Both the small and large joints are occasionally the seat 
 of morbid changes. 
 
 The parotid gland is occasionally the seat of a secondary inflammation 
 during the progress of pyaemia, and this may endanger life by interfering 
 with respiration and deglutition. The lymphatic glands are only second- 
 arily affected, and even this takes place very rarely. The changes in the 
 glandular system, when observed, are similar to those which happen in 
 other tissues of the body viz. congestion, inflammation, and suppuration. 
 
 The arteries are usually found empty after death from this disease, and 
 the coats are sometimes apparently thickened. The veins, on the con- 
 trary, are commonly found filled, or even distended, with firm fibriuous 
 clots. They are sometimes also found inflamed or altered, although more 
 
 1 Braidwood on Pyaemia, pp. 168, 169. 2 Ibid, p. 192. 3 Ibid, p. 194.
 
 968 PYAEMIA AND SEPTICAEMIA. 
 
 commonly healthy. The distended condition of the veins gives rise to 
 the cord-like feeling often mentioned by different observers. In some 
 cases of phlebitis there may be pus deposited between the coats of 
 these veins. The most important pathological changes are found in 
 the blood. These changes occur early in the disease, become more 
 marked toward its fatal termination, and may be always studied after 
 death. It is generally admitted that pus is frequently found in the blood 
 of these patients ; but it has been shown by numerous experiments thai 
 healthy pus never produces the pathological changes which characterize 
 this disease. Pyaemia is only produced by the presence in the blood of 
 ichorous pus or some other decomposing animal substance, or some material 
 having its origin in the decomposition of the same, and no decomposition 
 in these substances is ever effected except through the agency of living 
 organisms. It therefore follows that the discovery of living organisms 
 in the blood of those sick and dead of this disease has given a renewed 
 interest to the study of its pathology. The recent investigations made 
 by Pasteur, Koch, Birch-Hirschfeld, and the London Pathological Society 
 show conclusively that in all cases of pyaemia and septicaemia organisms 
 are present in the blood during the entire course of the disease, and 
 that in the former there is found the globular, and in the latter the 
 rod bacteria. It has further been observed in each morbid condition that 
 the severity of the disease is always increased in proportion to the increase 
 of the organisms in the blood, and that the bacteria found within the body 
 are of the same species as those in the wound from which they have gained 
 admission. The micrococci found in the blood of pysernic patients are 
 surrounded by the decomposed products of the red and white corpuscles, 
 which appear in the blood-plasma in the form of pale granular bodies. 
 There is likewise in this disease an increased coagulability of the blood, 
 and it steadily increases as the disease progresses. In this condition there 
 may be found in the blood-vessels both thrombi and emboli. The 
 thrombi are occasionally observed as firm fibrinous clots, but they may 
 be likewise found in the rapidly fatal cases to have undergone suppura- 
 tive changes. These changes begin in the centre of the clots, which often 
 contain true pus or a greenish or puriform fluid. 
 
 The pericardium may contain a small amount of serum tinged with 
 blood, but it is seldom covered with recent lymph. Both the lung-tissue 
 and pleurae are commonly inflamed in this disease. The costal and vis- 
 ceral layers may be agglutinated by old adhesions, but are more com- 
 monly united together by recently formed lymph. The pleural cavities 
 often contain some opaque, muddy, sero-purulent fluid, mixed with 
 blood and having masses of lymph floating in it. 
 
 The lungs are more frequently the seat of metastatic abscesses and 
 other morbid changes in pyaemia multiplex than any other organs of the 
 body. There may be found emboli in the branches of the pulmonary 
 veins, and in the lung-tissue metastatic abscesses surrounded with capil- 
 lary congestion and other evidences of inflammation; " The smaller ves- 
 sels, trying to overcome this afflux of blood, may produce ecchymosis or 
 extravasation beneath the lining membrane of the air-vesicles, but the 
 minute capillary congestions are generally observed as red points studded 
 over the pulmonary surface, which by and by exhibit yellowish-white or 
 bluish-white centres. While one part, generally the lower half of the
 
 MORBID ANATOMY. 969 
 
 lung is thus hepatized, solid, and of a dark greenish color, the remainder 
 of the lung is emphysematous and more or less oedematous. A section 
 of the former presents the same appearance as is observed in the luno- s 
 of pneumonic patients. Whether these incipient abscesses are developed 
 from the minute points of congestion before mentioned, by the breakino- 
 down of the thrombic clots in their centres, or whether the pus is devel- 
 oped out of the serum exuded by the walls of the engorged capillaries 
 cannot be easily determined, and has as yet not been decided. These 
 secondary Abscesses vary in size from that of a hemp-seed to that of a 
 hen s egg. These are generally situated on the periphery of the lungs 
 and m the lower lobe, although in some cases they are found imbedded 
 deeply m the pulmonary tissue. The contents of these abscesses are 
 similar to those found in other parts of the body in this disease. The 
 bronchial mucous membrane is commonly of a bright pink color, while 
 its secretion is increased in quantity, and may be clear and frothy. These 
 changes are the result of acute bronchial catarrh. Lobular pneumonia 
 has been frequently observed as a complication of pyaemia, and is sup- 
 posed by some authors^ to be caused by the vitiated condition of the 
 blood ; but probably it is more frequently occasioned by infarctions and 
 embplic abscesses, which have been previously mentioned in this con- 
 nection. 
 
 Billroth and Sedillot observed pathological lesions involving a solution 
 of continuity in the spleen, liver, and kidneys, in the order in which they 
 are mentioned ; other authors, however, assert that the liver, next to the 
 lungs, is the most frequent seat of purulent deposits. Enlargement of 
 the spleen is frequently met with in cases of pycemia multiplex. The 
 metastatic abscesses found in the spleen and kidneys are much smaller 
 than those found in the lungs and liver, but in other respects are of a 
 similar character. The capillary congestion and the accompanying 
 infarctions require no special attention here. The liver, like the spleen, 
 is sometimes enlarged, and at other times is found to have undergone 
 fatty degeneration to a greater or less degree; in which condition its 
 tissues are generally soft and friable. Abscesses in the liver are so much 
 like those in the lungs as to need no separate description. The same 
 may be said of other pathological changes found in this organ in pyaemia 
 multiplex. The abscesses found in the kidneys vary from the size of a 
 hemp-seed to that of a bean, and are surrounded by the usual zone, 
 marking more or less definitely the extent of the inflammation. The 
 capsule is generally healthy. There are also, in very rare cases of this 
 disease, abscesses found in the stomach and intestines, involving the 
 thickness of the mucous membrane ; and it is further supposed that these 
 abscesses may be found occasionally on any portion of the mucous mem- 
 brane lining the alimentary canal. Post-mortem examinations in pyaemia 
 multiplex have established the fact that there is no organ in the body 
 that may not become the seat of pathological lesions in this disease ; but 
 there is unquestionably a vast difference in the relative frequency of these 
 changes in the various organs. In some instances of this disease peri- 
 tonitis is developed, with its concomitant changes in this membrane and 
 the abdominal fluid, which is generally increased in quantity and some- 
 times slightly tinged with blood, but more frequently remains clear. 
 1 Braidwood, op. at., p. 173 et seq.
 
 970 PYAEMIA AND SEPTIC^MIA. 
 
 This inflammation is commonly dependent on an extension of the inflam- 
 matory process from a metastatic abscess, which may be situated near 
 the periphery of some organ covered with peritoneum, although it is 
 claimed that pleuritis occasionally occurs in connection with pyaemia 
 independent of metastatic abscesses in the lungs. 
 
 The careful study of the pathology of pyaemia multiplex renders it 
 exceedingly probable that the immediate agency in the production of all 
 these lesions is the presence in the blood of a particular species of living 
 organism, and that all the morbid changes which occur in the visceral 
 organs are secondary to those which take place in the blood, but that 
 the former are only dependent on the latter in a minor degree. The 
 pathological changes effected by these organisms seem to be as follows, 
 and to occur in the following order : viz. disorganization of the blood, 
 especially a destruction of the red and white blood-corpuscles ; the forma- 
 tion of granular bodies around the organisms out of this delms ; the 
 production of an increased coagulability of the blood ; the lodgment in 
 the blood-vessels of these granular bodies, which are increased in size by 
 a deposit of fibrin ; these obstructions occur most frequently in minute 
 ramifications of the pulmonary arteries ; nutrition is effected locally by 
 these infarctions, and generally by the vitiated condition of the blood, 
 which enables the organisms under these favorable circumstances to pene- 
 trate the adjacent tissues and produce the metastatic abscesses and other 
 accompanying lesions. 
 
 The pathological changes in pyaemia simplex are of the same kind as 
 those which have just been described as characterizing pyaemia multiplex, 
 with the exception of the metastatic abscesses, which are always absent. 
 Furthermore, the disease in both instances is believed to have its origin 
 from the same causes, and the dissimilarities in the pathological lesions 
 are equally susceptible of a rational explanation, as are those of scarlatina 
 simplex and scarlatina maligna. 
 
 There were reported by the committee of the London Pathological 
 Society some interesting details pertaining to this form of pyaemia. Their 
 report shows that among the one hundred and fifty-five cases classed as 
 pyaemia there were twenty-four xBases without visceral abscesses; and 
 furthermore it shows that in twenty-three of these cases there was no 
 suppuration, although local inflammations affected many of the different 
 tissues, since these patients suffered with arthritis, cellulitis, pleuritis, 
 meningitis, pericarditis, and carditis. It is also added that "the post- 
 mortem appearances, in addition to the local secondary inflammation 
 before noted, were in many cases those changes common to all forms of 
 blood poisoning. Out of the twenty-four cases, the following are noted : 
 Swollen spleen, nine times ; congestion of the lungs, ten times ; swollen 
 liver, six times; cloudy swelling of the kidney, fourteen times." 1 
 
 In this form of pyaemia it has been supposed by some authors that the 
 materies morbi occasionally produces death before the metastatic abscesses 
 have had time to develop, but this is not always the case. The same 
 committee report on the above-mentioned twenty-four cases, on this 
 point, as follows : " The duration of the cases before the fatal ter- 
 mination was very various. It is tolerably accurately recorded in 
 eighteen cases : of these five died in the first week, five in the second, 
 
 1 Trans. London Pathological Soc,., vol. xxx. p. 26.
 
 MORBID ANATOMY. 971 
 
 f u V n A be thirdj aud tlie remaim 'ng four survived to the thirtieth, fortv- 
 nmth, fifty-second, and sixty-second days." 1 
 
 The pathology of pyaemia multiplex having been already fully described 
 and since the only essential difference in these morbid conditions consists 
 m the complete absence of the metastatic abscesses in cases of pyaemia 
 simplex, it is therefore thought unnecessary to dwell here longer on this 
 subject. 
 
 The morbid anatomy of septicaemia has been carefully studied of late 
 and it is now known that the most characteristic lesions are found in the 
 blood and the alimentary canal. 
 
 As a manifestation of the general poisoning of the blood, it might be 
 expected that putrefaction would follow rapidly after the death of the 
 patient. In fact, Davine defines septicaemia as "putrefaction of a living 
 body." Observation has now thoroughly confirmed that which was 
 formerly an ^ anticipation. Panum, Hemmer, and Bergmann have each 
 called attention to the fact that rapid decomposition follows the death of all 
 animals in which septicaemia has been produced for experimental pur- 
 poses. It has also been observed that putrefaction in the human cadaver 
 begins much sooner, and progresses much more rapidly, under similar 
 circumstances, when the death has been produced by this disease than 
 when it has occurred from any other cause. Furthermore, this rapid de- 
 composition is not limited to the internal organs, but may be frequently 
 strongly marked on the surface of the body after the lapse of twelve 
 hours, although it has been kept in a comparatively dry and cool atmo- 
 sphere. In those cases where the septicaemia has originated in an external 
 wound it has been uniformly observed that putrefaction goes on most 
 rapidly in the vicinity of the wound after the death of the patient. 
 
 In every case of fatal septicaemia the post-mortem examination will 
 show that the coagulability of the blood has been diminished or destroyed. 
 In fact, it has been abundantly shown that in all cases of true septicaemia 
 the coagulability of the blood is more or less diminished. The few im- 
 perfect clots of blood found after death are of a deep-black color. The 
 putrefaction of the soft tissues is greatly hastened by the presence of this 
 blood ; and, consequently, this process goes on most rapidly in the most 
 dependent portions of the body, especially along the course of the large 
 veins. The septicaemic blood possesses a peculiar putrefactive odor, and 
 it is occasionally found to be acid in its reaction, according to Vogel 
 and Scherer, making it highly probable that it will end in the forma- 
 tion of the carbonate of ammonium. The chemical examinations of sep- 
 ticaemic blood which have heretofore been made have completely failed to 
 give satisfactory results in regard either to the existence or nature 
 of the materies morbi in this disease, although, without doubt, there has 
 occasionally been found, principally in the blood of those who have died 
 of acute septic intoxication, a poisonous substance, which Bergmann des- 
 ignated sepsin. Microscopic examinations have shown that in the blood 
 and also in various organs of those who have died of septicaemia there 
 are always present, under these circumstances, a large number of the rod 
 bacteria ; in fact, they are more numerous than after death jfrom any other 
 infectious disease. Furthermore, they are found in the blood, lymph- 
 glands, and cellular tissues during the whole course of the disease. 
 1 Trans. London Pathological Soc., p. 25 et seq.
 
 972 PYMML&. AND SEPTICAEMIA. 
 
 There are no pathological changes in the central nervous system which 
 arise directly from septicaemia, although in some cases, when there has 
 been some cardiac complication or very severe dyspnoaa from any cause 
 immediately prior to the death of the patient, there may be found hyper- 
 semia of the membranes of the cerebro-spinal axis. The brain and spinal 
 cord remain unchanged. 
 
 The endo- and pericardium occasionally present a somewhat mottled 
 appearance resembling ecchymosis, which is evidently a deposit from the 
 blood, and may be washed off with water. The inner surface of the ventri- 
 cles presents a similar appearance from the same cause. In addition to those 
 changes which have been mentioned there are occasionally found some slight 
 traces of an inflammatory process in these parts ; but it never extends to the 
 formation of pus or ulceration, which frequently happens in cases of pysemia. 
 The quantity of pericardial fluid is sometimes increased in septicaemia, 
 and is generally somewhat thickened, cloudy, and slightly tinged with 
 blood. The changes in the pleural surfaces are the same as those which 
 have been noted in the pericardium, but any increase of the fluid within 
 the pleural sacs is an exception to the general law, and is very rarely seen. 
 The lungs are generally found slightly congested, but there may be some 
 ecchymosis in exceptional cases. Pus is never found in the lungs or 
 within the pleural cavities in pure unmixed septicaemia. The patholog- 
 ical changes in the liver resemble those in the lungs. This organ is 
 commonly found in a state of passive congestion, while the color of its 
 tissues is slightly darkened. The congestion of the kidneys and spleen in 
 this disease is much more marked than that of the lungs and liver. The 
 parenchymatous tissue of the kidneys is commonly found in an cedematous 
 condition, and the tubuli uriniferi are more or less affected by a catarrhal 
 inflammation, which is manifested by the exfoliation of granular epithe- 
 lium. The same catarrhal condition, but in a milder form, is found to 
 affect the mucous membrane of the bladder. In females the ovaries, 
 uterus, and vagina are in a state of hypersemia, with more or less 
 catarrhal inflammation of the latter organ. Septicaemia invariably 
 causes pregnant females to abort. There is commonly softening of the 
 spleen. The alimentary canal is almost constantly affected by acute 
 intestinal catarrh, with enlargement of the intestinal follicles and mesen- 
 teric glands, while there are frequently hemorrhages from the serous and 
 mucous membranes. The various muscles of the body and the extrem- 
 ities are found to be of a dark brownish-red after the death of the 
 patient, instead of possessing their natural pale-red color. It may now 
 be stated, finally, that the pathological changes in septicaemia are less 
 marked than those of pyaemia multiplex. 
 
 The semiology, etiology, and pathology of septo-pyaemia consist in a 
 blending, in different degrees, of the essential parts of pyaemia and septi- 
 caemia ; and since the pathology of both these diseases has been presented 
 separately, it is deemed unnecessary to enter into a consideration of this 
 combination. 
 
 SYMPTOMS OF PY^MIA. Pyaemia very rarely, if ever, develops except 
 in connection with an open suppurating wound, and consequently it must 
 generally be regarded as a wound complication or as a secondary diseased 
 condition. . Those open wounds are unquestionably the most favorably 
 situated for the development of this disease which involve the medullary
 
 SYMPTOMS OF PYAEMIA. 973 
 
 cavities of the long bones, owing to the liability of unhealthy <uppura- 
 tion the difficulty of complete drainage, and the favorable anatomical 
 conditions for absorption. 
 
 Every form of pyaemia is frequently preceded by a distinctly marked 
 prodromal stage, which varies in duration from four days to two weeks 
 In fact, the ordinary precursor of this disease, in all those cases in which 
 the bones are involved, is an attack of osteo-myelitis ; but in other cases 
 the patient often complains of malaise, giddiness, headache, pain in the 
 limbs, weakness, and loss of appetite, while the experienced surgeon 
 will be deeply impressed with the patient's rapid emaciation and cadav- 
 erous face. These symptoms are soon followed by jaundiced skin, etc. 
 The Commencement of an attack of pyaemia is commonly manifested by 
 a chill. The importance which will naturally be attached to this phe- 
 nomenon in connection with an open wound must depend to a certain 
 degree on the circumstances attending its occurrence ; and therefore the 
 following question will present itself: Is the chill associated with sup- 
 puration ? A negative answer to this question, based on the fact that 
 insufficient time has elapsed since the occurrence of the injury to render 
 suppuration possible, can never fail to be a source of satisfaction to the 
 surgeon, whose experience has taught him to dread pyaemia. 
 
 Billroth has observed in 83 cases of true pyaemia multiplex that 
 62 commenced with a chill, and 21 without ; in 81 cases of septicaemia 
 and simple pyaemia 24 commenced with a chill and 57 without. The 
 number of chills in each individual patient occurred according to the 
 following table : 
 
 Number of patients 19 21 14 15 9 5 2 3 4 1 1 1 
 
 Number of chills 1 234 5 6 7 8 9 10 13 14 
 
 In one patient during three weeks sixteen chills were observed, and 
 probably the longer the duration of the disease the greater is the number of 
 chills. Still, there are chronic cases with a single chill, and acute cases with 
 many. It rarely occurs that a patient has more than one chill in twenty- 
 four hours. Billroth noticed among his patients only sixteen who had two 
 chills, and only six who each had three chills, in one day. The experi- 
 ence that fewer chills occur during the evening and night than in the 
 morning and afternoon has been confirmed by statistics. Among 287 
 chills, 220 occurred from 8 A. M. to 8 P. M., while during the night, from 
 8 P. M. to 8 A. M., only 67 were observed. By this arbitrary division of 
 the twenty-four hours Billroth desired to take into consideration the daily 
 exacerbation in cdnnection with the usual daily irritation of the wound, 
 the bandaging, and other manipulations. He saw, for example, a chill 
 occur three times from the introduction of a sound, and twenty times 
 after the opening of an abscess. The time which elapsed from the first 
 injury to the first chill is shown in the following table : 
 
 First chill began, times 14 19 15 9 4 3 2 4 
 
 Length of time after injury, in weeks 1 2 345678 
 
 Patients who had fever before the operation were more inclined to 
 early chills than recently-injured healthy individuals. Billroth's experi- 
 ence was to have only the first chill before the end of the first week. It 
 may be further stated that nervous, irritable patients suffer much more
 
 974 PY^MIA AND SEPTIC^MIA. 
 
 frequently from chills than those of a phlegmatic temperament. This 
 fact h;>s given rise to the opinion that the absorption of pus acts especially 
 on the central nervous system. 
 
 The chills in pyaemia are supposed by Billroth to be associated with 
 inflammation, and he says : " It must be mentioned, as a matter of obser- 
 vation, that chills occur almost exclusively in the commencement of an 
 acute inflammation, and are intermittent only in intermittent fever and 
 reabsorption of pus, while they do not occur in acute septicaemia. " * 
 But the fever in pyaemia rarely intermits entirely ; it is generally lower, 
 however, in the morning than in the afternoon. This symptom is even 
 more important than the rigors in enabling the surgeon to make a correct 
 diagnosis. Let it, however, be remembered that the temperature fre- 
 quently becomes very high within a few hours after the receipt of an 
 injury or the performance of a surgical operation ; that this high tem- 
 perature may be due to septic absorption, and that this diseased condition 
 is what we designate as septicaemia. Another condition, less marked, with 
 an elevated but somewhat lower temperature, is usually spoken of as trau- 
 matic fever. In this condition the fever may gradually increase for a few 
 days, and then disappear. 
 
 One important peculiarity of the temperature in pyaemia are the sud- 
 den and great changes ; thus, at one hour the temperature may be slightly 
 raised above the normal, and at the next the thermometer may mark 105 
 F. These sudden changes of temperature are of frequent occurrence, are 
 not observed to the same extent in any other disease, and therefore sup- 
 ply a very important diagnostic indication. It is impossible to kiiow^ 
 or even to anticipate with any degree of certainty, when the highest 
 temperature will exist; consequently, Billroth and other writers have 
 suggested the desirability of having a thermometer constantly kept in a 
 position to indicate every change in the heat of the body, and a careful 
 attendant to note the same ; but, thus far, I am not aware that this has 
 been attempted, probably on account of the inconvenience to the patient 
 and the additional labor in nursing it would entail. It has been 
 further observed that during the existence of a chill the temperature 
 continues to steadily increase, and the maximum seen during the whole 
 course of the disease is attained during the hot stage which immediately 
 follows the rigors. " This condition is followed by profuse cold perspira- 
 tions. The perspirations which accompany this disease are most profuse, 
 like those of advanced phthisis. They never precede the rigors, but may 
 occur independently of them. They are either continuous in their dura- 
 tion, or exhibit more or less distinct exacerbations. They are occasionally 
 accompanied by sudamina, and they do not abate with the use of any 
 
 known remedy Occasionally perspiration is scanty ; but before 
 
 death a cold clammy sweat and a tawny discoloration of the skin occur." 2 
 
 Besides the sudamina there are frequently observed on the skin vesicles, 
 pustules, and boils, purpuric patches, and various discolorations. There 
 is frequently observed to arise in the neighborhood of the wound a reddish 
 erythematous blush, which soon extends to the whole limb, and commonly 
 begins to disappear in the early part of the second week. This recent!}' 
 occurred to a patient under my care, and was speedily followed by an 
 abscess of the knee-joint. The wound was situated at the hip-joint, 
 
 1 Surgical Pathology, p. 344. 2 Braid wood, op. cit., p. 112.
 
 SYMPTOMS OF PYMMIA, 975 
 
 and the first change in the color of the integument took place around 
 its lips. The redness extended rapidly downward until it covered the 
 foot, and even the toes ; but the extension upward was slight, not much 
 above the nates, on which there was situated at the time a bed-sore. It 
 observed the same order in passing off as in coming on i. e. where it first 
 made its appearance it first disappeared. The superficial veins leading 
 from the wound were inflamed and cord-like. This condition of the 
 integument and the abscess of the knee-joint were followed by diarrhoea, 
 on which medicines had no beneficial effect. It continued, with occa 
 sional vomiting, until the death of the patient. 
 
 The pulse in pyaemia may be nearly normal as regards frequency, while 
 at other times very rapid. It has been remarked in some cases that 
 the pulse seldom rose above 90 per minute until near death. The pulse, 
 although only moderately accelerated at the commencement of the 
 disease, always becomes more rapid, quick, feeble, and irregular toward 
 the termination of the unfavorable cases, while in cases of recovery it 
 returns gradually to the normal standard. 
 
 In all cases in which the blood has been examined during the progress 
 of pyaemia the examiners have agreed in regard to its extreme coagula- 
 bility, the diminution of the number of red corpuscles, and the increase 
 of the granular spherical bodies. The red corpuscles, even in the earlier 
 stages of the disease, show evident indications of disintegrating ; and these 
 become more and more marked as the disease progresses, while there is a 
 steady increase in the number of pus- or possibly of white blood-corpus- 
 cles. Epistaxis occasionally occurs, and also venous oozing from the 
 wound. 
 
 The condition of the tongue in pyaemia may be regarded as an 
 important symptom, indicating the state of the alimentary canal not, 
 however, during the prodomal stage, but after the disease has progressed 
 a few days. It is then observed that the tongue has become peculiarly 
 smooth, dry, and often excessively red. This smoothness is caused by 
 the collapse of the papillae, and the dryness by a diminished secretion. 
 The organ now frequently appears as if covered with a thin layer of 
 collodion which had been caused to dry on the surface, so as to 
 present a glazed look. Again, the tongue may be covered with brown 
 crusts and the teeth with sordes. These brown crusts and sordes are 
 usually seen in advanced cases, following the first condition described. 
 Much importance is attached to these brown crusts by many experienced 
 surgeons, and although there may be very marked improvement in all 
 other symptoms, still they insist on a very guarded prognosis until the 
 tongue has assumed a healthy appearance. Aphthae on various parts of 
 the mouth and pharynx are frequently present in the more chronic cases, 
 but are usually absent in acute cases. Herpes of the lips sometimes 
 occurs in the commencement of the disease. 
 
 Vomiting is comparatively rare, but there is, even in the early 
 stages, a complete failure of the appetite, with great thirst. Singultus 
 is rarely present in genuine .pyaemia, but frequently so in septicaemia, 
 and occasionally in septo-pyaemia. Diarrhoea is ^ not so frequent or the 
 stools so copious in pyaemia as in septicaemia. Billroth observed in one 
 hundred and eighty cases of pyaemia thirty-two cases of diarrhoea. It is 
 impossible to determine whether those cases in which the diarrhoea
 
 976 PYJEM1A AND SEPTICAEMIA. 
 
 occurred were pure or mixed pyaemia. The stools are often of a pappy 
 consistence, and passed involuntarily in bed. There are, however, severe 
 cases of pyaemia with high fever, and accompanied by obstinate con- 
 stipation. 
 
 Examination of the heart may, in rare cases, show the existence of 
 pericarditis, although usually the only indications of disease are the too 
 feeble sounds. Auscultation and percussion of the lungs may yield un- 
 satisfactory results when the metastatic abscesses are small and scattered, 
 for the same reason as in miliary tuberculosis. The large deposits in the 
 lungs are by these means readily determined. There may be a sensation 
 of suffocation, the pneumonic sputa, the friction sound of pleurisy, or the 
 signs of pleuritic effusion; and the existence of these symptoms or signs 
 would naturally aid in the diagnosis of metastatic abscesses. 
 
 Enlargement of the liver and spleen may be determined before death, 
 and in connection with other symptoms would aid in diagnosing deposits 
 in these organs. 
 
 The urine in the first stage of this disease is scanty, high-colored, con- 
 tains a large amount of salts, and is of a high specific gravity. Epithelial, 
 fibrinous, and blood casts, and also albumen, are occasionally found in it 
 during the course of the disease. Billroth mentions a case in which there 
 was complete suppression, with uraemia. 
 
 In many cases of pyaemia suppuration of the joints, one after another, 
 takes place with great rapidity and with comparatively little pain, but 
 occasionally some swelling, redness, etc. are present. In most cases these 
 suppurations are easily diagnosed. Instead of suppuration taking place 
 in the joints, there are cases in which it occurs in the cellular tissue ; and 
 I have recently seen a case where abscess after abscess formed with such 
 rapidity that within a single week the patient was literally covered with 
 abscesses from the crown of his head to the soles of his feet. 
 
 Delirium generally exists during some stage of the disease, more fre- 
 quently the last, and is then mild in its character, although active delirium 
 has been observed in the first stage. Patients are low-spirited and very 
 apprehensive of death. The face at the beginning of the attack may be 
 flushed or pallid, but toward the end it always becomes careworn and 
 haggard. The breath occasionally has a sweetish or purulent odor. 
 
 The changes in the wound are in some cases very marked, even in the 
 first stage of the disease. The suppuration, which has been previously 
 free and healthy, may be suddenly checked, the wound becoming dry. 
 The discharge, if it continues, becomes scanty, thin, ichorous, or greenish. 
 The granulations, if previously healthy, may soon slough. These changes 
 may not always appear in the first stage, but should they not then take 
 place they may be expected later in the disease. 
 
 SYMPTOMS OF SEPTIC^MIA. These are commonly developed within 
 twenty-four hours after the receipt of an injury or the performance of 
 a surgical operation, and they may be sketched as follows : Frequent 
 pulse; tongue, lips, and throat dry; skin hot and the temperature 
 of the body high. The patient replies accurately to questions, but 
 \\ith some hesitation. He is much inclined to sleep, has entirely 
 failed to take nourishment, drinks frequently when aroused from his 
 lethargic condition, and has vomited everything taken into his stomach 
 since the receipt of the injury or the performance of the operation. If
 
 SYMPTOMS OF SEPTICAEMIA. 977 
 
 the dressings are now removed from the wound, the foul odor of putre- 
 faction greets the attendants. In cases of amputation-wounds consider- 
 able discoloration of the flaps may be observed, the edges being black- 
 ened. Above these blackened edges the integument is reddened and 
 slightly cedematous. The wound having been closed with sutures, which 
 are now removed, there escapes a few drachms possibly ounces of 
 highly offensive fluid, the decomposed remains of blood, etc. A fur- 
 ther examination of the flaps on their inner surfaces show that their 
 capillary circulation has ceased. The tissues, instead of presenting a life- 
 like appearance, are now of a very dark color and occasionally mottled 
 with dull grayish spots, although the movements of the ligature at the 
 point where it embraces the femoral artery, for example, show that the 
 blood still rushes against the artificial boundary. 
 
 Let us now leave our patient, without further comment, for the next 
 forty-eight hours, when we will resume the examination. We now find 
 the same dryness of the mouth that was previously noticed ; the pulse is- 
 more frequent, and has become very feeble ; he complains of much thirst, 
 has vomited frequently, and has taken very little nourishment, and that 
 only at the earnest solicitations of the attendants. The temperature is 
 higher than at the former examination, and has been steadily increasing ; 
 in the morning it is lower, however, than in the evening of the same day. 
 The patient is lethargic, and is suffering with a profuse diarrhoea. The 
 odor of the stools is highly offensive ; they are properly described as rice- 
 water evacuations. The abdomen is tympanitic; the body bathed in per- 
 spiration ; thje respirations rapid ; the urine scanty, high-colored, and con- 
 tains albumen. The examination of the stump shows that gangrene has 
 extended rapidly, involving not only the flap, but a portion of the adja- 
 cent tissues. The stench arising from the wound is almost stifling. The 
 decomposing fluids are continually forming. That portion of the thigh 
 not already gangrenous is now very cedematous, and the integument cov- 
 ering it is much discolored, being of a dark, icteric, or reddened hue. 
 
 We now allow twenty-four hours to elapse, and then make our final 
 examination. The patient's tongue is more moist; the body still bathed 
 in perspiration ; the eyes dull ; the conjunctive icteric, and the same hue 
 extends to the body, though in a less marked degree ; the pulse has 
 become very frequent, feeble, and not easily counted ; the temperature is 
 below normal. Singultus is now present, and has been so during the last 
 twenty-four hours. Bronchial symptoms, combined with marked oedema 
 of the right lung, have appeared ; the diarrhoea continues the same ; the 
 gangrene is still extending. 
 
 It must be admitted that the report here offered shows only the 
 symptoms that are found in a single class of cases. The symptoms 
 vary greatly in different cases, but they are especially marked in the 
 acute sepsis mentioned by Massanneuve under the head of ganyrtne 
 foudroyante. In these cases there appears, immediately after the receipt 
 of an injury, enormous oedema about the wound, which extends rapidly 
 in every possible direction, followed by the death of the patient within 
 a few hours unless prompt measures are adopted. The puncture of the 
 cellular tissue or of the blood-vessels involved in the oedema prior to the 
 death of the patient gives rise to the escape of a highly offensive gas. 
 Roser mentions a case of this disease in which he promptly amputated 
 
 VOL. I. 62
 
 978 
 
 PYJEMIA AND SEPTICAEMIA. 
 
 the limb of the patient through the healthy parts, without even waiting 
 for the administration of an anaesthetic, and his patient recovered. 
 
 The symptoms of septicaemia must necessarily depend greatly on the 
 condition of the patient and the amount of septic material introduced, 
 but it is not deemed necessary to dwell longer on this subject. 
 
 DIAGNOSIS. It is thought that a brief presentation of the etiological, 
 pathological, and semiological differences may be advantageous to busy 
 physicians who desire to obtain, with the least expenditure of time, an 
 accurate knowledge of the chief points of distinction between these morbid 
 conditions. This effort at differentiation is merely intended to place the 
 most important characteristics in marked contrast ; and consequently it 
 should be remembered that it is not our intention to give here the complete 
 etiology, pathology, or semiology of either of these morbid states, but only 
 tHeir essential differences. Furthermore, it is thought that the following 
 arrangement will facilitate the object which we desire to accomplish : 
 
 ETIOLOGY. 
 
 PY^IMIA. 
 
 1. Pyaemia generally, commences with 
 
 the putrefaction in an open wound 
 of the secondary wound-fluids pus, 
 etc. in which there are developed 
 globular bacteria, which enter the 
 blood and certain tissues of the 
 body, where they multiply and pro- 
 duce constitutional disturbances. 
 
 2. Pyaemia is commonly preceded by 
 
 some local inflammatory wound- 
 complication, such as suppurative 
 periostitis, osteo-myelitis, etc., and 
 is rarely developed before the end 
 of the second week after the receipt 
 of the injury. 
 
 SEPTIC^MIA. 
 
 1. Septicaemia generally commences with 
 
 the putrefaction in an open wound 
 of the primary wound-fluids blood, 
 serum, etc. in which there are de- 
 veloped rod bacteria, which enter 
 the blood and certain tissues of the 
 body, where they multiply and pro- 
 duce constitutional disturbances. 
 
 2. Septicaemia is commonly a primary 
 
 wound-complication, which is gene- 
 rally developed within forty-eight 
 hours after the receipt of the in- 
 jury- 
 
 PATHOLOGY. 
 
 1. Increased coagulability of the blood. 
 
 2. There are metastatic abscesses in va- 
 
 rious parts of the body, especially 
 in the lungs, liver, and kidneys : 
 serous cavities frequently contain 
 sero-purulent deposits; similar de- 
 posits are often found in the joints; 
 abscesses in the cellular tissue ; and 
 also abundant evidence of the ex- 
 istence during the life of the patient 
 of pyaemic endo- and pericarditis. 
 
 1. Diminished coagulability of the blood. 
 
 2. Complete absence of purulent or ich- 
 
 orous deposits in all cases of un- 
 mixed septicaemia. Post-mortem 
 appearances may be completely 
 negative, with the exception of the 
 condition of the blood, although 
 there is often some oedema of the 
 lungs. 
 
 SEMIOLOGY. 
 
 1. Pyaemia commonly commences with 
 
 a chill. 
 
 2. Fever variable, but rarely entirely 
 
 intermits. 
 
 8. Sudden and great changes in temper- 
 ature, followed by profuse perspira- 
 tion. 
 
 1. Septicaemia commonly commences 
 
 without a chill. 
 
 2. Fever steadily increases, but is lower 
 
 in the morning. 
 
 3. The temperature is high at the be- 
 
 ginning of the disease, increases 
 until near the fatal termination, 
 when it falls below the normal. 
 The skin is moist, but without 
 profuse sweatings.
 
 TREATMENT. 
 
 979 
 
 PYAEMIA. 
 
 4. Pulse variable; toward the fatal end 
 
 rapid, feeble, and irregular. 
 
 5. Fades at the beginning flushed or 
 
 pallid, toward the end careworn. 
 
 6. Tongue smooth, dry, and excessively 
 
 red, later brown-coated, and even 
 the teeth coated with sordes. 
 
 7. Diarrhoea with stools of a pappy con- 
 
 sistence. 
 
 8. Epistaxis. 
 
 9. Mild delirium toward the fatal end. 
 
 10. Aphthae in the mouth and throat, 
 sudamina, vesicles, pustules, and 
 purpuric patches. 
 
 SEPTICAEMIA. 
 
 4. Pulse rapid, and gradually increases 
 
 in frequency toward the fatal end. 
 
 5. Facies expressive of a dull, listless 
 
 condition throughout the whole 
 course of the disease. 
 
 6. Tongue, lips, and throat dry at the 
 
 commencement, toward the end 
 _moist. Thirst is marked. 
 
 7. Eice- water evacuations, very offensive ; 
 
 obstinate vomiting. 
 
 8. Epistaxis rarely occurs. 
 
 9. A lethargic condition from the begin- 
 
 ning, increasing toward the fatal 
 end. 
 
 10. Icteric hue of conjunctivas ; singul- 
 
 tus often present. 
 
 The differences in the local manifestations occurring in and around the 
 wound, during the progress of these diseases, may be summed up as 
 follows : 
 
 At the commencement of this disease 
 the suppuration is commonly checked, 
 the wound becoming dry, and if a 
 discharge continues, it becomes scanty, 
 thin, ichorous, greenish, etc. The 
 granulations, when previously healthy, 
 soon slough, and venous oozing some- 
 times takes place. There occasionally 
 appears in the later stages of this 
 disease around the wound a reddish 
 erythematous blush, which soon ex- 
 tends over the whole limb. 
 
 The odor of putrefaction is commonly 
 very marked within twenty-four hours 
 after the receipt of the injury, the 
 integument slightly reddened about 
 the wound, and the surrounding parts 
 somewhat cedematous. The wound- 
 tissues soon assume a dark-brown 
 color, and are occasionally mottled 
 with dull grayish spots, while the 
 edges of the wound are at the same 
 time blackened, although the move- 
 ments of the ligature, when arteries 
 have been tied, show us that the blood 
 still rushes against its artificial bound- 
 ary. 
 
 TREATMENT. It must be admitted that the management of either 
 pyaemia or septicaemia, when fully developed, is always unsatisfac- 
 tory, and generally unsuccessful; consequently, the success which has 
 attended the use of the prophylactic measures employed in connection 
 with the treatment of wounds during the last ten years has given much 
 satisfaction to the medical profession. The committee of the London 
 Pathological Society reports as follows on this subject: "The accumu- 
 lation of septic matter in the uterus after labor, in contact with the 
 raw surface left by the separation of the placenta, would also present the 
 conditions favorable to acute septic intoxication. In the present day, 
 when the necessity of thorough drainage of wounds is so thoroughly 
 understood, and the means at the surgeon's command for carrying it out 
 are so efficient, it can only be under peculiar circumstances that a suffi- 
 cient quantity of putrid serum or pus to yield .the fatal dose of the septic 
 poison is allowed to accumulate in the wound. Moreover, the antiseptic 
 treatment of wounds,' now so 'largely adopted, by preventing decomposi- 
 tion of course renders septic intoxication impossible. Ovariotomy would 
 seem to furnish conditions most favorable to septic intoxication, and a 
 large proportion of the deaths occurring in the first forty-eight hours
 
 980 PY^MIA AND SEPTICAEMIA. 
 
 have always been attributed to it. The proportion of fatal cases from 
 this cause has, however, of late been greatly diminished by drainage, and 
 more especially by the employment of the antiseptic treatment." l 
 
 AVe cannot repeat too frequently or too emphatically the fact that the 
 treatment of pyaemia and septicaemia, when fully developed, is almost 
 invariably unsuccessful, and that consequently he who desires to save the 
 greatest number of lives must make every exertion and use all avail- 
 able means to prevent their development a task which fortunately 
 has now been brought within the scope of possibility in the large 
 majority of cases. Every surgeon will readily admit that, were it 
 possible to secure union by first intention in all cases of wounds, then 
 it would be impossible for either septicaemia or pyaemia to occur in sur- 
 gical practice. Therefore, it follows that the character of the wound, the 
 method of operation, the surroundings of the patient, the character of the 
 treatment, become proper points to consider in this division of the sub- 
 ject. The character of the wound and its relations to pyaemia and septi- 
 caemia have already been briefly referred to under the etiology of these 
 disease^. The various methods of operating, with their respective advan- 
 tages and disadvantages, are of course not suitable topics for discussion 
 in this work. 
 
 The surroundings of the patient form a subject of vast importance in a 
 prophylactic view, and should never be lost sight of in the construction 
 of hospitals. I desire here to express my firm conviction that surgical 
 pyaemia is essentially and almost wholly a hospital disease. The question 
 of surroundings for the patient presents to my mind the following 
 demands as a sine qua non for obtaining the best possible results in sur- 
 gery : (1) Absolute cleanliness. This demand should be strictly enforced 
 in regard to the wound, the patient's body, the bedding, and everything 
 else, including nurses and instruments. (2) Absolute purity of the 
 atmosphere. (3) Moderate and equable temperature, containing a proper 
 amount of moisture. (4) Froper quantity of nutritious and easily 
 digestible food, with suitable drinks, etc. (5) Cheerful and pleasant 
 surroundings, especially in companions, nurses, and other attendants. 
 It may be objected to these conditions that they can never be obtained. 
 I must confess that perfection in every detail cannot always be attained, 
 but I am thoroughly convinced that he who makes a determined effort in 
 this direction will succeed far better than that person who is constantly 
 looking about for some excuse for negligence. 
 
 The question of treatment brings up the entire subject of antiseptics. The 
 favorite remedies of this class are carbolic and salicylic acids, permanganate 
 of potassium, chloride of zinc, bichloride of mercury, and liquor sodae chlor- 
 inatae. There is no doubt that good results may be obtained with any of these 
 remedies. The surgeon should never forget that he uses medicines merely 
 as agents to enable him to accomplish certain objects ; and, keeping this 
 in mind, he need very seldom fail with his antiseptic when the object is 
 to prevent putrefaction in an open wound. Therefore it appears certain 
 that each method of treatment may possess special advantages in par- 
 ticular cases, and probably the same may be said of the antiseptic itself. 
 The importance of this subject may be more fully appreciated when it is 
 remembered that it is generally admitted by the best surgical authorities 
 1 Trans. Path. Soc. of London, vol. xxx. p. 15.
 
 TREATMENT. 981 
 
 that more lives are lost from septic infection than from all other causes 
 combined during a war. The further consideration of this subject may 
 be arranged for convenience under the heads of local and general treat- 
 ment. 
 
 The local treatment of the wound should, if possible, be of such a 
 character as to prevent the absorption of either putrid substances or pus. 
 It therefore becomes highly important, in cases of amputation and other 
 operations, that all tissues injured to such a degree as to be likely to 
 excite either putrefaction, irritation, or inflammation should be removed. 
 The same care is necessary in removing all foreign bodies from the wound 
 in cases where no operation is to be performed. The amputation of the in- 
 jured limb may be necessary to prevent the development of these diseases, 
 or it may be resorted to in certain rare cases after the origin of pyaemic symp- 
 toms ; however, in the latter instance great care should be taken to remove 
 all the tissues already infiltrated with serum, otherwise nothing will be 
 gained. The use of the surgeon's knife at the proper time may be the best 
 prophylactic against both pyaemia and septica3iuia, but it should be directed 
 by an intelligent mind and the instrument guided by a practiced hand. 
 Again, it is found that opening a large medullary cavity may be attended 
 with danger to the patient. This fact teaches us an obvious lesson. 
 
 The wound existing or the operation having been performed, the surgeon 
 now turns his attention to the prevention of putrefaction and inflammation. 
 The first source of danger requiring attention from the surgeon is the 
 fluid escaping from the wounded surface. Do not allow it to undergo 
 putrefaction in contact with the wound. It should not be forgotten that 
 pyaemia is an infectious disease, having its origin in a local nidus, an 
 open wound, in which putrefaction of pus or other wound-fluid is taking 
 place. The question of amputation, or of the extirpation of the parts for 
 the relief of this disease, should only be entertained when the surgeon is 
 confident that he can remove the whole of the infiltrated tissues. In 
 other words, the performance of these operations after the disease has 
 become constitutional can never be advantageous to the patient. Even 
 in those cases where infiltration is limited to the lymphatics, unless 
 all these glands so affected are removed the operation will be unsuccess- 
 ful. It has been further recommended in the treatment of this disease, 
 in order to prevent the formation of metastatic abscesses, to ligate the 
 veins in which thrombi have formed or may be reasonably expected to 
 form, at some convenient point between the heart and these obstructed 
 points. The value of this proceeding has never been fully determined, 
 and may be reasonably questioned. The formation of metastatic abscesses 
 in various parts .of the body within the reach of the surgeon's scalpel 
 demands his attention ; and we have been taught by experience that they 
 should be speedily opened, which generally lowers the temperature and 
 diminishes the danger from septic absorption. In the performance of 
 this operation Lister's antiseptic system of wound-treatment should be 
 strictly adhered to, since it unquestionably gives the best results which 
 can be obtained under the circumstances. When the metastatic inflam- 
 mation which occasionally appears in the thyroid and parotid glands dur- 
 ing the course of this disease terminates in the formation of pus, this 
 should be speedily evacuated. This prompt action is often required, 
 particularly for the relief of the grave symptoms which are apt
 
 982 PYAEMIA AND SEPTICAEMIA. 
 
 to arise in connection with respiration and deglutition. The accumula- 
 tion of pus within the joints in pysemic cases should, it is now thought, 
 be treated in the same manner as abscesses in the cellular tissues i. e. 
 the articulations should be opened and thoroughly disinfected, and after- 
 ward kept in a perfectly aseptic condition, and also rendered absolutely 
 immovable during the treatment. 
 
 Having directed attention to the more important local measures, we 
 may now briefly enter on the consideration of some of the constitutional 
 remedies. In the general treatment of pyaemia there have been recom- 
 mended at various times a great variety of drugs, but the general want of 
 success attending their use leaves comparatively few to be mentioned here. 
 The mineral acids are still employed, and are found to be at least agreeable 
 drinks, and as such can be still recommended. The sulphites of magne- 
 sium, sodium, potassium, and lime were recommended by Giovanni Polli 
 for the treatment of typhus fever, scarlet fever, small-pox, septicaemia, and 
 pyaemia. He further suggested that the medicine should be given until 
 the whole quantity taken bore to the weight of the patient's body the pro- 
 portion of 1 to 1000. The experiments made on animals with these salts 
 seem to confirm their value in the treatment of septic diseases. It is cer- 
 tainly true that animals treated with these salts are not so easily affected 
 by septic poison as those which have not received this treatment. Fur- 
 ther, it has been shown that putrid substances when mixed with either 
 permanganate of potassium or the sulphite of sodium, and then injected, 
 are harmless, although the same quantity of putrid matter injected with- 
 out either of these salts destroys life. 
 
 Brandy and other alcoholic stimulants have been strongly recommended 
 an account of their well-known antiseptic properties. The sulphate of 
 quinia is certainly, in most cases of pyaemia, a valuable agent. In large 
 doses it enables the surgeon to reduce the temperature of the patient, and 
 in smaller doses it frequently serves a valuable purpose as a tonic. It 
 has also considerable value as an antiseptic. 
 
 Lattiu has recommended the use of large doses of ergotine in infec- 
 tious fevers, but this substance, when employed in the treatment of 
 pyaemia, should be given in the formative stage of the disease. The use 
 of drastic cathartics should be avoided, as should that of sudorifies, on 
 account of their prostrating effects. In some cases hypnotics may be 
 required to secure sleep. 
 
 Tonics are always more or less useful. The free use of stimulants and 
 nutritious food is also indicated. Brandy, wine, and whiskey may be 
 advantageously used as stimulants. Musk, ammonia, and camphor are 
 occasionally required. However, it should not be forgotten that in cases 
 where the disease has become fully developed the usual termination is 
 death, few recoveries being recorded. In the early stages of tin's affec- 
 tion, by the removal of the patient from an overcrowded hospital ward 
 to some place where pure air and proper hygienic arrangements can be 
 obtained, recovery may take place, but under other circumstances the 
 prognosis is exceedingly grave. 
 
 The treatment of septicaemia in most particulars is the same as that of 
 pyaemia. The first effort should be to prevent the development of the dis- 
 ease, and the second to care for the patient in cases where the affect iou has 
 already developed. It is not, of course, in our power to limit or in any way
 
 TREATMENT. 983 
 
 regulate the primary injury, for we are obliged to take the patient as he 
 is. The amount of injury to living tissue may be great or small. The 
 question of an operation, the character of the same, and the subsequent 
 management must be determined in accordance with the circumstances 
 of eacli particular case. 
 
 The primary death of the parts is generally due chiefly to the injury 
 itself; the secondary, frequently to bad surgical management. Let us 
 now take a case in which the primary injury has been severe, greatly 
 diminishing, but not destroying, the circulation in the injured parts. 
 Here the immediate application of ice would be injurious, but a warm 
 application might assist nature. It is humiliating to the profession 
 that we are obliged even at this date to admit that the' treatment of 
 septicamia is largely symptomatic. The profuse choleraic diarrhoea 
 which generally accompanies this disease may be regarded as an effort 
 of nature to eliminate the septic poison ; but, nevertheless, it is so pros- 
 trating in its effects that it requires to be controlled with properly selected 
 astringents, and these remedies may be still further aided by the use 
 of stimulants and tonics. 
 
 The treatment of septicaemia may be summarized as follows : (1) A strict 
 adherence to the five rules given under the head of the prophylactic treat- 
 ment of pyaemia. (2) The avoidance of all putrefaction in contact with the 
 wound, especially prior to the development of sufficient granulations to 
 completely cover its surface. This object is to be accomplished by 
 the removal of all necrotic tissues, the avoidance of putrescent fluids 
 by cleanliness, and the proper use of antiseptic agents. (3) Free use of 
 the alkaline sulphites and hyposulphites. These drugs should be used in 
 all cases where there is reason to anticipate the development of septic 
 diseases, as soon after the receipt of the injury as practicable, but should 
 not be neglected even after the disease has become fully developed. (4) 
 Sulphate of quinia should be used in all cases where the temperature is 
 above 100 F., and its persistent use in large doses may be necessary to 
 prevent the fever from rising still higher. It will be remembered in this 
 connection that experience has taught us that " a temperature of 108.5 
 F. is the limit beyond which life can no longer exist," 1 and even a much 
 lower temperature is not without dangers. "The essential danger of 
 fever in acute diseases consists, then, in the deleterious influence of a 
 high temperature on the tissues." 2 
 
 The treatment of puerperal septicffimia, although requiring the appli- 
 cation of the same principles as any other form of this disease, may be 
 briefly described as follows : The womb should be maintained in a 
 firmly-contracted state by the proper use of ergot, even as a prophylactic 
 measure, and also during the whole course of the disease ; the uterus and 
 vagina should be kept in an aseptic condition by the efficient use of anti- 
 septics ; sulphate of quinia should be given in large doses, and repeated 
 as often as may be necessary in order to lower the temperature ; and 
 morphia or some form of opium should be employed for the relief of 
 the pain. 
 
 1 Liebermeister, New Sydenham Soc. Trans., vol. Ixvi. p. 278. * Ibid., p. 280.
 
 PUERPERAL FEVER. 
 
 BY WILLIAM T. LUSK, M.D. 
 
 DEFINITION. Puerperal fever is an infectious disease, due, as a rule, 
 to the septic inoculation of the wounds which result from the separation 
 of the decidua and the passage of the child through the genital canal in 
 the act of parturition. 
 
 To maintain this definition it is, however, necessary to group by them- 
 selves cases of childbed fever dependent upon causes which are operative 
 in the non-puerperal condition, though the latter imparts to these causes 
 oftentimes an exceptional activity and virulence. In this category are to 
 be placed especially scarlatina, typhus, typhoid, and malarial fevers. It 
 is to be borne in mind that the zymotic fevers may provoke in the puer- 
 peral woman the same inflammatory lesions commonly associated with 
 puerperal fever. 1 This is in accordance with the well-known surgical 
 experience that a febrile paroxysm from any cause exerts an unfavorable 
 influence upon a wounded surface. 
 
 Like all brief statements, the writer is well aware that the foregoing 
 definition is necessarily imperfect, and stands in need of further limita- 
 tions to meet the requirements of exactness. Exceptions, however, either 
 apparent or real, w r ill be noted hereafter in their proper connections. 
 
 FREQUENCY. In a careful search through the records preserved by 
 the Health Department of New York City, I found that from 1868 to 
 1875 inclusive the total number of deaths for nine years was 248,533. 
 Of these, 3342 were from diseases complicating pregnancy, from the acci- 
 dents of child-bearing, or from diseases of the puerperal state; or, in other 
 words, 1 : 75 of all the deaths occurring during that period was the 
 result of the performance of what we are in the habit of regarding as a 
 physiological function. 
 
 The deaths from miscarriage, from shock, from prolonged labor, from 
 instrumental delivery, from convulsions, from hemorrhage, from rupture 
 of the uterus, and from extra-uterine pregnancy, and deaths from eruptive 
 fevers, from phthisis, and from inflammatory non-puerperal affections com- 
 plicating childbirth, made a total of 1395, or about 42 per cent.of the entire 
 number. The remaining 1947 cases, variously reported as puerperal fever, 
 puerperal peritonitis, metro-peritonitis, phlebitis, phlegmasia doleus, pyae- 
 mia, and septica3mia, represent the very serious sacrifice of life resulting from 
 inflammatory processes which have their starting-point in the generative 
 apparatus. If we apply the general term, puerperal fever, to this class 
 of cases, it will be seen that the malady is the cause of nearly one one- 
 1 Hervieux, Traite clinique et pratique des maladies puerperales, pp. 1073 el seq. 
 984
 
 MORBID ANATOMY. 935 
 
 hundred-and-twenty-seventh of all the deaths occurring in the city. 
 The actual number of births for the nine years in question was roughly 
 estimated at 284,000 'an estimate erring upon the side of liberality. The 
 total number of deaths to the entire number of confinements was, then 
 at least in the proportion of 1 : 85, or, from puerperal fever alone/in the 
 proportion of 1 : 146. Garrigues 2 examined the records of the various 
 city institutions during the period in question, and from them estimated 
 the number of births which took place in hospitals at 10,572. The 
 recorded deaths were 420. Deducting these from the totals given above, 
 the general death-rate in civil practice from puerperal causes in New 
 York City was in the proportion of 1 : 94. Max Boehr 3 in his now- 
 famous statistics reckons that one-thirtieth of all married women in 
 Prussia die in childbed. The Puerperal Fever Commission 4 appointed 
 by the Berlin Society of Obstetrics and Gynaecology arrived at the con- 
 clusion that from 10-15 per cent, of the deaths occurring in women 
 during the period of sexual activity were due to childbed fever, and that 
 this disease destroyed nearly as many lives as small-pox or cholera. But 
 puerperal fever differs from either small-pox or cholera in that the latter 
 presses largely upon the aged and the very young, while the former 
 gathers its victims exclusively from a selected class viz. from women in 
 adult life, the mothers of families, whose loss, as a rule, is a public as 
 well as a private calamity. 
 
 For those who regard statistics with habitual distrust it may perhaps 
 be well to state that the foregoing frightful picture is no exaggeration, 
 but is less sombre than the actual truth. 
 
 Before proceeding to consider the nature of puerperal fever it is 
 desirable to first recall the anatomical lesions with which it is associated. 
 These, it will be found, are for the most part inflammatory processes 
 having their starting-point in injuries of the genital passage produced by 
 parturition, complicated in many cases by septic changes in the blood, by 
 secondary degeneration of parenchymatous organs, and at times by 
 phlegmonous and erysipelatous affections in remote as well as in the 
 adjacent serous and cutaneous tissues. 
 
 MORBID ANATOMY. The primary lesions connected with puer- 
 peral fever are so various that the student will find it conve- 
 nient to classify them according as they are situated in the mucous 
 membrane of the utero-vaginal canal, the parenchyma of the uterus, 
 the pelvic cellular tissue, the peritoneum, the lymphatics, or the 
 veins. Not, indeed, that such an arrangement is strictly in accord- 
 ance with clinical experience as a rule, the inflammatory processes are 
 rarely limited to a single tissue but because the prognosis and treatment 
 
 1 This estimate was based upon the assumption that the natural birth-rate is 33 to the 
 1000 a proportion believed by the statisticians of the Board of Health to be approxi- 
 matively correct, though probably somewhat in excess of the reality. P. Osterloh has 
 recently stated that my statistics were computed in so arbitrary a manner as to render 
 deductions from them valueless. In this, however, he is mistaken. The most conscien- 
 tious care was taken in their preparation; wherever the possibility of error existed the 
 fact was distinctly indicated, and all calculations were made in such a way that whatever 
 corrections might be required would strengthen the conclusions. 
 
 2 "On Lying-in Institutions," Trans. Am. Gyn. Soc.. vol. ii., 1878. 
 
 s " Untersuchungen iiber die Haiifigkeit des Todes im "VVochenbett in Preussen," 
 ZtitRchr. f. Geburtsk. und Gynaek., vol. iii. p. 82. 
 4 Zeitschr. /. Geburtsk. und Gynaek., vol. iii. p. 1.
 
 986 PUERPERAL FEVER. 
 
 are determined in great measure by the tissue-system which is predomi- 
 nantly affected. The significance of puerperal inflammations, wherever 
 seated, likewise depends upon whether they are local and circumscribed 
 or whether they present a spreading character. 
 
 Personally, I have found the following classification of Spiegelberg J 
 of great utility as a means of keeping in mind the principal points to 
 which inquiry should be directed in estimating the significance of the 
 febrile conditions of childbed : 
 
 1. Inflammation of the Genital Mucous Membrane. Endocolpitis and 
 endometritis. 
 
 a. Superficial. 
 
 b. Ulcerative (diphtheritic). 
 
 2. Inflammation of the Uterine Parenchyma, and of the Subserous and 
 Pelvic Cellular Tissue. 
 
 a. Exudation circumscribed. 
 
 6. Phlegmonous, diffused ; with lymphangitis and pyamia (lymphatic 
 form of peritonitis). 
 
 3. Inflammation of the Peritoneum covering the Uterus and its 
 Appendages. Pelvic peritonitis and diffused peritonitis. 
 
 4. Phlebitis Uteriua and Para-uteriua, with formation of thrombi, 
 embolism, and pyaemia. 
 
 5. Pure Septicaemia. Putrid absorption. 
 
 EXDOCOLPITIS AND ExcoMETRiTis. In the superficial, catarrhal form 
 of inflammation the mucous membrane of the vagina is swollen and hyper- 
 aernic, the papillae are enlarged, and the discharge is profuse ; in the vagi- 
 nal portion of the cervix the labia uterina are oedematous and covered 
 with granulations which bleed at the slightest touch in the cavity of the 
 body there are increased transudatioii of serum and abundant pus-forma- 
 tion. The deep structures of the uterus are usually not affected. Some- 
 times the inflammation extends to the tubes salpingitis or, passing 
 outward through the fimbriated extremities, it may spread over the adja- 
 cent peritoneum. 
 
 The small wounds at the vaginal orifice are at times converted into 
 ulcers with tumefied borders. These so-called puerperal ulcers are covered 
 with a greenish-yellow layer. They are associated usually with redema- 
 tous swelling of the labia. Under favorable sanitary conditions the 
 deposit, which consists in the main of pus-cells, clears away and the sur- 
 face heals by granulation. The ulcerative form of inflammation is very 
 rare outside of crowded hospitals. 
 
 Diphtheritic ulcers are situated with greatest frequency in the neigh- 
 borhood of the posterior commissure or around the vaginal orifice. In 
 rarer instances they are found upon the anterior wall and in the fornix of 
 the vagina, in the cervix, and upon the site of the placenta. The borders 
 are red and jagged; the base is covered with a yellowish-gray, shreddy 
 membrane; the secretion is purulent, alkaline, and fetid; and the adja- 
 cent tissues are cedematous. From the vulva they may extend to the 
 perineum or pursue a serpiginous course down the thighs. In the uterus 
 and about the cervix they vary as regards size, and are either of a rounded 
 shape or form narrow bands. The intervening portions of tissue which 
 have not undergone destructive changes swell and stand out in strong 
 1 " Ueber das Wesen des Puerperalfiebers," Volkmann's Samml. klin. Vortr., No. 3.
 
 METRITIS AND PAEAMETEITIS. 987 
 
 relief. Where the entire inner surface has become necrosed, it is often 
 covered with a smeary, chocolate-brown mass which, when washed awav 
 with a stream of water, leaves exposed either the deepest layer of the 
 mucous membrane or the underlying muscular structures. 
 
 The difference between the superficial ulcerations of the genital canal 
 and the diphtheritic form involving destruction of the deeper tissues is 
 due to the presence in the latter of minute organisms termed micrococci 
 the relations of which to puerperal infection will be considered in a sub- 
 sequent division. 
 
 METRITIS AND PARAMETEITIS. In ulcerative endometritis, and even 
 in the extreme catarrhal form, the parenchyma of the uterus likewise be- 
 comes involved. The changes which are designated under the term metritis 
 consist in the first place of oedematous infiltration of the tissues. As a 
 consequence, the organ contracts imperfectly and becomes soft and flabby, 
 so that sometimes, upon post-mortem examination, it bears the imprint 
 of the intestines. 
 
 In diphtheritic endometritis the gangrenous process may attack the 
 muscular tissue, and give rise to losses of muscular substance a condi- 
 tion known as necrotic eudometritis or putrescence of the uterus. 
 
 Inflammatory changes are rarely lacking in the intermuscular connec- 
 tive tissue, which exhibits in places serous or gelatinous infiltration, with 
 afterward pus formation, and with here and there small abscesses. The 
 sero-puruleut infiltration of the connective tissue is specially marked 
 beneath the peritoneal covering of the uterus either behind or along the 
 sides at the attachment of the broad ligaments. In the same situations 
 the lymphatics, which normally are barely perceptible to the naked eye, 
 are ^ sometimes enlarged to the si/e of a quill, and are characterized by 
 varicose dilatations occurring singly or presenting a beaded arrangement. 
 In the substance of the uterus the dilated vessels are liable to be mistaken 
 for small abscesses. The pus-like substance contained in the lymphatics 
 is composed of pus-cells and of micrococci. From the cellular tissue 
 surrounding the vagina, or that beneath the peritoneal covering of the 
 uterus, the inflammation may spread by contiguity of tissue between the 
 folds of the broad ligament, and thence pass upward to the iliac fossae. 
 Usually the process is unilateral. After the inflammation has crossed the 
 liuea termiualis it may take a forward direction above the sheath of the 
 ilio-psoas muscle to Poupart's ligament, or it may creep upward, follow- 
 ing the course, according to the side aifected, of the ascending or descend- 
 ing colon, to the region of the kidney. It is rare for inflammation of 
 the cellular tissue to travel around the bladder to the front. In such 
 cases it pursues its course between the walls of the bladder and the uterus, 
 and along the round ligament to the inguinal canal. In a few cases the 
 cellulitis mounts above Poupart's ligament, between the peritoneum and 
 the abdominal wall. 
 
 The course of the inflammation is not simply fortuitous, but follows 
 prearranged pathways in the connective tissue. Konig 1 and Schlesinger* 
 have shown that when air, water, or liquefied glue is forced into the cellu- 
 lar tissue between the broad ligaments the injected mass has a tendency 
 to invade the iliac fossae. In Schlesinger's experiments, if the canula of 
 the syringe was inserted into the anterior layer of the broad ligament, 
 1 Arch, der Hellkunde, 3 Jahrg., 1862. 2 Gynaekologische Studien, No. 1.
 
 988 PUERPERAL FEVER. 
 
 the glue spread between the folds to the abdominal end of the Fallopian 
 tube; thence, following the track of the vessels, it passed to the linea 
 terminalis ; and finally mounted upward along the colon or swept forward 
 to Poupart's ligament until the advance was stopped at the outer border 
 of the round ligament. If the injection was made to the side of the cer- 
 vix through the posterior layer at the junction of the cervix and the 
 body, the posterior layer gradually bulged out, the peritoneum was lifted 
 from the side wall of the pelvis, and the glue passed beyond the vessels 
 to reach the iliac fossa. If the injection was made to the side of the cer- 
 vix through the anterior layer, the glue passed between the bladder and 
 the uterus, and forward along the round ligament to the inguinal canal, 
 while another portion of the fluid passed between the layers of the broad 
 ligament, and reached the peritoneal covering of the side walls behind 
 the round ligament. If the injection was made in the median line in a 
 peritoneal fold of Douglas's cul-de-sac, the fluid travelled forward upon 
 one side along the round ligament and thence to the posterior wall of the 
 bladder. 
 
 The term parametritis, introduced into use by Virchow, is, properly 
 speaking, limited to inflammation of the connective tissue immediately 
 adjacent to the uterus, the older one of pelvic cellulitis furnishing a 
 more comprehensive designation for cases where, as a consequence of a 
 progressive advance from the point of departure in the genital canal, the 
 remoter regions have likewise been invaded. Connective-tissue inflam- 
 mation presents, as the first essential characteristic, an acute 03dema, the 
 fluid which fills the gaps and interspaces consisting of transuded serum 
 rendered opaque by the presence of pus-cells or possessing a gelatinous 
 character. In the mild, uncomplicated cases the redenia disappears rap- 
 idly. Where the cell-collections are of moderate extent the entire pro- 
 cess may vanish without leaving a trace of its existence. If the cell- 
 elements, on the other hand, are present in great abundance, they, as a 
 rule, first undergo fatty degeneration, and, after the absorption of the 
 fluid portion, form a hard tumor composed of a fine granular detritus, 
 which under favorable circumstances likewise after a few weeks becomes 
 absorbed. In rare cases abscess-formation in the tumor results. 
 
 In the cellulitis resulting from septic infection, especially in cases com- 
 plicated by diphtheritis, the tissues seem as if soaked with dirty serum, 
 and contain scattered yellowish deposits, which soon present, even to the 
 naked eye, the appearance of pus-collections. This sero-purulent oadema 
 is always associated with lymphangitis, the lymphatic vessels possessing 
 varicose dilatations and beaded arrangements similar to those already 
 described in the uterine tissue. The foregoing changes are most distinct 
 in the firm connective tissue adjacent to the uterus and at the hilum of 
 the ovary, while they are less clearly traced in the looser structure of the 
 broad ligament (Spiegel berg). 
 
 In favorable cases the inflammation is circumscribed, or at least is 
 limited, by the nearest lymphatic glands. In cases of intense infection 
 it spreads rapidly, and justifies the title bestowed upon it by Virchow of 
 parambtritic malignant erysipelas. 
 
 PELVIC AXD DIFFUSED PERITONITIS. Inflammation of the pelvic 
 peritoneum may result from severe attacks of" catarrhal endometritis, 
 the inflammatory process either traversing the uterine tissue or passing
 
 PHLEBITIS AND PHLEBO-THROMBOSIS. 989 
 
 through the Fallopian tubes to the adjacent serous membrane; or it 
 may proceed, secondarily, from the stretching and irritation occasioned 
 by an associated parametritis. 
 
 As a rule, pelvic peritonitis is not attended with much exudation. The 
 latter is situated upon the folds of the peritoneum limiting the cul-de-sac 
 of Douglas, upon the ovaries, and upon the broad ligaments. In favor- 
 'able cases it consists of fibrinous flakes and fluid pus. If the latter is 
 abundant, it may become encysted by the formation of adhesions between 
 the pelvic organs. 
 
 General peritonitis may result from the extension of a pelvic peritoni- 
 tis, or from the transport of poison through the lymphatics into the peri- 
 toneal sac. In the first case the entire peritoneum is injected, and the 
 contents of the abdominal cavity are loosely bound together by pseudo- 
 membranes, composed of pus and coagulated fibrine. The intestines are 
 at the same time distended and the diaphragm is pushed upward. In 
 the so-called peritonitis lymphatica the inflammatory symptoms are at the 
 outset lacking. The abdominal cavity is found filled with a thin, stinking, 
 greenish or brownish fluid composed of serum and micrococci. The 
 intestines are lax and redematous, and the muscular structures-are para- 
 lyzed, with resulting tympanitic distension. The peritoneal covering 
 of the intestines is devoid of lustre, and covered with injected patches, 
 or is stained of a dark-brown color. Death often ensues before the 
 occurrence of exudation. 
 
 Septic forms of pelvic inflammation are often associated with oophori- 
 tis, the dilated lymphatics either extending to the substance of the ovaries, 
 where they may lead to the production of small abscesses, or, as a result 
 of blood-dissolution, the organs become soft, pulpy, and infiltrated with 
 discolored serum, and present hemorrhagic spots distributed over the 
 surface. 
 
 PHLEBITIS AND PHLEBO-THROMBOSIS. The formation of thrombi 
 in the uterine and pelvic veins is sufficiently common during the puer- 
 peral period. The coagulation may result from compression or from 
 enfeeblement of the circulation. A predisposition to its occurrence is 
 created by relaxation of the uterine tissue. A normal thrombus is in 
 itself harmless. In time it becomes organized, and the occluded vessel 
 is converted into a connective-tissue cord, or a channel may form through 
 it which permits the passage of the blood-stream. When, however, pus 
 or septic matters obtain access to a thrombus, it undergoes rapid disinte- 
 gration, and the particles get swept away into the circulation until arrested 
 in the ramifications of the pulmonary artery. $ Wherever these poisoned 
 emboli happen to lodge inflammation is set up in the adjacent tissues, and 
 abscesses result (pyaemia multiplex). Sometimes countless collections of 
 pus may form in the lungs. Less commonly abscesses are found in the 
 liver or spleen, originating either from emboli which have already made 
 the pulmonary circuit or from thrombi in the pulmonary veins. 
 
 Inflammation of the veins (phlebitis) sometimes occurs when the 
 vessels have to traverse tissues in or near the uterus infiltrated with 
 purulent or septic materials. The endothelium then undergoes prolif- 
 eration, and thrombosis is produced. Phlebitic thrombi do not necessa- 
 rily break down, and may in that case act as a barrier to the progression 
 of septic germs into the circulation (Spiegelberg). As a rule, however,
 
 990 PUERPERAL FEVER. 
 
 under the influence of inflammation and infection, they become converted 
 into puriform masses. 
 
 The thrombi grow by accretion in the direction of the heart. They 
 may extend from the uterus through the internal spermatic, or through 
 the hypogastric and common iliac veins, to the vena cava. Sometimes 
 the thrombus may be traced back to the placental site. 
 
 SEPTICAEMIA. From these local conditions, sooner or later, secondary 
 affections develop in distant organs. The general affection is, in great 
 part at least, likewise of local origin. Sometimes, however, where the 
 poison, which enters the system through the lymphatics and veins, is 
 very active and abundant, death may follow from acute septicaemia before 
 the changes in the sexual organs have had time to develop. The fatal 
 result in these cases is probably due to paralysis of the heart. After 
 death post-mortem decomposition rapidly sets in, the blood is sticky, and 
 swelling is found in the various parenchymatous organs. 
 
 The secondary affections consist in the metastatic abscesses already 
 noticed as produced by infected emboli, in circumscribed purulent collec- 
 tions due to the conveyance of septic materials into the blood-current 
 through the lymphatics, in ulcerative endocarditis, in inflammations of 
 the pleura, the pericardium, and the meninges, and in purulent inflam- 
 mation of the joints. 
 
 A study of the nature of puerperal fever will best show how inti- 
 mately these seemingly distinct processes are linked together. 
 
 EARLIER VIEWS COXCERXIXG THE NATURE OF PUERPERAL FEVER. 1 
 According to the teachings of Hippocrates, Galen, and Avicenna, of 
 Ambrose Pare", of Sydenham, and of Smellie, the fevers of puerperal 
 women were attributable to the suppression of the lochia. For twenty 
 centuries this doctrine was accepted almost without dispute, the best 
 clinical observers confounding a symptom which is often lacking with the 
 cause of the disease itself. 
 
 In 1686, Puzos 2 taught that milk, circulating in the blood, is attracted 
 to the uterus during pregnancy and to the breasts after confinement, but 
 that milk metastases may form in other parts, and produce the symptoms 
 of malignant or intermittent fever. In 1746, A. de Jussieu, Col de 
 Villars, and Fontaine advanced in support of this theory the fact that 
 they had found, on opening the abdomen in women who had died from 
 an epidemic which raged that year in Paris, a free lactescent fluid in the 
 lower portion of the abdominal cavity and clotted milk adherent to the 
 intestines. This doctrine, which seemed to be based upon, and to accord 
 with, observation, found many adherents in France. It lost ground, how- 
 ever, when, in 1801, Bichat pointed out the true nature of the abdominal 
 effusions of women who had died in childbed, and demonstrated that 
 they were to be found likewise in peritoneal inflammations occurring in 
 men and in non-puerperal women. 
 
 While, during the second half of the eighteenth century, the doctrine 
 of milk metastasis held full sway in France, in England and Germany 
 the dominant leaders in medicine referred the causes of puerperal fevers 
 to inflammations of the womb and of the peritoneum. With the 
 advances made in pathological anatomy in the beginning of the present 
 
 1 For data given, and for a great variety of historical information, vide TTervieux, TraitS 
 clinique et pratique des maladies puerperales. 2 Premier Memoire sur les Depots lacleux.
 
 EARLIER VIEWS CONCERNING PUERPERAL FEVER. 991 
 
 century, France taking the lead 'stress was likewise laid upon inflam- 
 mations of the veins and of the lymphatics. The vitality of the doctrine 
 of local inflammations is well shown by the records kept by the Health 
 Board of this city, where a large proportion of the deaths returned from 
 childbed fever are entered under the head of metritis, of peritonitis, of 
 metro-peritonitis, and of puerperal phlebitis. 
 
 In opposition to the doctrines of the so-called localists, the theory that 
 puerperal fever is an essential fever, and as much a distinct disease as 
 typhus fever, typhoid fever, or relapsing fever, has been strenuously 
 advocated by some of the most distinguished clinical teachers who have 
 devoted their attention to obstetrical science. 
 
 Fordyce Barker, the most recent exponent of the essentiality of 
 puerperal fever, in his classical work upon the Puerperal Diseases, states 
 the arguments against the local origin of the diseases as follows : 1st, 
 that puerperal fever has no characteristic lesions ; 2d, that the lesions 
 which do exist are often not sufficient to influence the progress of the dis- 
 ease or to explain the cause of death ; 3d, that there may be inflam- 
 mation, even to an intense degree, of any of the organs in which the 
 principal lesions of puerperal fever are found, and yet the disease will 
 lack some of the essential characteristics of puerperal fever ; 4th, that 
 the lesions are essentially different from spontaneous or idiopathic inflam- 
 mations of the tissues where these lesions are found ; 5th, that puerperal 
 fever is often communicable from one patient to another through the 
 medium of a third party, and that this is not the fact in regard to simple 
 inflammations in puerperal women. 
 
 However, neither Barker, nor those who entertain views similar to 
 his, question the local origin of many febrile affections in childbed, but 
 claim that purely local inflammations have each their characteristic symp- 
 toms, which differ from those of true puerperal fever, that puerperal fever 
 is a zymotic disease of unknown origin, and that local lesions, where they 
 coexist, are not the primary source of trouble, but are secondary to changes 
 in the blood. 
 
 In 1850, James Y. Simpson 1 published a short paper "On the 
 Analogy between Puerperal and Surgical Fever." This article may 
 well be regarded as the foundation of the modern doctrine coucern- 
 
 matical demonstration, the paper furnishes a brilliant example of the 
 scientific foresight which is able to discern the truth even where the evi- 
 dence lacks completeness. 
 
 In 1847, Semmelweis, who was at that time clmical assistant to the 
 Lying-in Hospital at Vienna, made the startling assertion that " puer- 
 peral patients were chiefly attacked with puerperal fever when they had 
 been examined by the physicians who were fresh from contact with the 
 poisons engendered by cadaveric decay ; that fever ensued in the practice 
 of those who after post-mortem examination washed their hands in the 
 usual manner, whereas no fever or but few cases of disease followed when 
 the examiner had previously washed his hands in a solution of ^chloride 
 of lime." In the face of insult, ridicule, and abuse Semmelweis mam- 
 1 Edinlurgh Medical Journal.
 
 992 PUERPERAL FEVER. 
 
 tained this position for years, almost unaided, with fanatical persistency. 
 It was easy for his opponents, for the most part managers of the great 
 lying-in asylums, to show from clinical experiences the weakness of so 
 one-sided a theory. But the employment of the equivocal demonstration 
 falsus in uno, falsus in omnibus, served only as a temporary defence 
 against the laxity which prevailed in hospital management only a quarter 
 of a century ago. Though Semmelweis died with no other reward than 
 the scorn of his contemporaries, it is impossible at the present day to so 
 much as contemplate the abuses he attacked without a shudder. 
 
 In 1860, Semmelweis published the result of his ripened experience in 
 a treatise entitled Die Aetioloyie der Begriff und die Prophylaxis des Kind- 
 bettfiebers, in which, abandoning his earlier exclusive position, he main- 
 tained that puerperal fever arises from the absorption of putrid animal 
 substances, which produce first alterations in the blood, and secondly 
 exudations. He distinguished between cases in which the infection was 
 introduced from some external source, and which he believed to be the 
 most frequent variety, and those where the poison was generated in the 
 system. The sources from which the infection is derived he believed to 
 be 1st, from the dead body, regardless of age, sex, or disease, no matter 
 whether the latter is of puerperal or non-puerperal origin, the virulence 
 depending upon the stage of decomposition ; 2d, diseased persons, whose 
 malady is associated with decomposition of animal tissue, no matter 
 whether the affected person suffers from childbed fever or not, the 
 decomposing matter alone furnishing the product from which infection 
 is derived ; 3d, physiological animal substances in the process of 
 decomposition. As carriers, of infection he regarded the fingers and 
 hands of the physician, midwife, or nurse, sponges, instruments, soiled 
 clothing, the atmosphere, and, in brief, anything which, after being defiled 
 with decomposing animal matter, was brought into contact with the geni- 
 tals of a woman during or subsequent to parturition. Absorption takes 
 place from the inner surface of the uterus or from traumata in the genital 
 canal. Infection seldom occurs in pregnancy, because of the closure of 
 the os iuternum, the absence of wounded surfaces, and because of the 
 rarity with which examinations are made ; during dilatation infection is 
 common, but exceptional daring the period of expulsion, because the 
 inner uterine surface is at that time rendered inaccessible by the advance 
 of the child ; in the placental and puerperal period infection occurs from 
 utensils and instruments, but chiefly through the access of atmospheric 
 air when the latter is loaded with decomposing organic matter. In rare 
 instances auto-infection may result from spontaneous decomposition of 
 the lochia, of bits of decidua, of coagula of blood, of necrosed tissue, or 
 in consequence of severe instrumental labors. In a word, puerperal 
 fever was according to Semmelweis no new specific disease, but a variety 
 of pyaemia. 
 
 I have been thus particular in giving prominence to the labors of 
 Semmelweis partly from justice to a man who was hated and despised 
 in his lifetime, and partly because I believe that few outside of Germany 
 are really cognizant of the immense service he rendered to humanity, or 
 that to him is really due a large part of what is now current doctrine 
 concerning the nature and prophylaxis of puerperal fever. 
 
 THE NATURE OF PUERPERAL FEVER AS REGARDED FROM THE
 
 PUERPERAL FEVER FROM THE MODERN STANDPOINT. 993 
 
 STANDPOINT OF MODERN INVESTIGATION. The older beliefs in the 
 suppression of the lochia and the metastases of milk have long since 
 been relegated to the domain of old nurses' lore, and do not call for 
 serious discussion. The localist theory, that puerperal fever is a metritis, 
 a peritonitis, a phlebitis, or an inflammation of the lymphatics, is, as 
 mortuary records show, still adhered to by many practitioners, and, as 
 we have seen, is justified by the fact that puerperal fever is, with rare 
 exceptions, associated at some period of its progress with certain inflam- 
 matory processes which have their starting-point in the generative appa- 
 ratus. But the localist theory leaves out of view the existence of blood- 
 poisoning, and yet the coexistence of a blood-poison with the local lesions 
 is an essential feature of puerperal fever. It was this defect which gave 
 to the advocates of the specificity of puerperal fever their real importance. 
 The outcome of modern investigation tends, however, to prove that the 
 puerperal poison is of a septic nature, and that the usual points of intro- 
 duction of the poison are the lesions of the parturient canal. This does not, 
 indeed, exclude other points of entry, for clinical experience renders it 
 probable that, under certain conditions, the poison may be primarily 
 introduced into the blood through the respiratory and digestive organs. 
 Puerperal fever is really a surgical fever, modified, however, by the 
 peculiar physiological conditions which belong to the puerperal state. 
 The argument against its septic origin is based chiefly upon mistaken 
 ideas concerning the nature of septicaemia. So long as the symptoms of 
 the latter were derived for the most part from the effects observed as a 
 consequence of injecting putrid materials into the veins of dogs, a con- 
 fusion arose from the fact that the results obtained were commonly those 
 of putrid intoxication, and not those of true septicaemia. Under such 
 circumstances it was not difficult to formulate definitions of septicsemia 
 which could be show T n to be at variance with the phenomena which ordi- 
 narily exist in puerperal fever. 
 
 The argument that the infectious diseases of childbed are of a septic 
 nature can best be understood by presenting the proofs in their orderly 
 sequence. 
 
 1st. It is demonstrable that septic poisons are capable of producing 
 the lesions ordinarily associated with puerperal fever. Thus, it is a 
 matter of ordinary experience that the retention of a small bit of the 
 membranes within the uterus will produce fetid lochia, and, as the result 
 of infection, a febrile condition, which, as a rule, subsides with the expul- 
 sion of the offending body and the use of disinfectant washes. A viru- 
 lent form of fever is not unfrequently occasioned by retained coagula or 
 placeutal debris \Yhich have undergone decomposition. I was once sent 
 for to see a puerperal patient suffering fYom fever on the fourth day 
 following her confinement, On entering the room I found the stench 
 intolerable ; turning down the sheets, I discovered that the patient was 
 lying in a decomposing mass, and learned that her doctor had forbidden, 
 after the birth of her child, the removal of the soiled linen and blankets. 
 The patient died in the third week from pyaemia multiplex. 
 
 Haussmann 1 reported a case of auto-infection in the rabbit which termi- 
 nated fatally. A portion of the membrane, retained in the left cornu, 
 
 1 " Entetehung der iibertragbaren Krankheiten des Wochenbettes," Beitr. sur Geburtsk. 
 und Gynaek.," Bd. iii. Heft 3, p. 345. 
 VOL. I. 63
 
 994 PUERPERAL FEVER. 
 
 led to diphtheritic losses of substance in the lower portion of the vagina, 
 to hemorrhagic enteritis, and to peritonitis. The same author produced 
 death from septicaemia by injecting into the gravid uterus of one rabbit 
 serum from the abdomen of another which had died from infection. 
 The post-mortem examination showed the muscles filled with granules 
 and the peritoneum injected, but no fibrino-purulent exudation. Injec- 
 tions into the uterus of pus from the abdomen of a woman who had died 
 from infectious puerperal disease produced no effect upon rabbits two 
 weeks gravid, while in the second half of pregnancy premature delivery 
 and death occurred, in one case in one and a half, in another in two and a 
 half, days. In the animal which died in thirty-six hours there was com- 
 mencing perimetritis and peritonitis, while in the one that died after the 
 lapse of sixty hours the abdomen was found to contain fibriue and pus. 1 
 D'Espine injected into the uterus of a rabbit which had just produced 
 her young pus from the abdomen of a woman who had died from puer- 
 peral disease two days before. This was subsequently followed by other 
 injections of fetid fluids during the four days following. On the twelfth 
 day the animal died. The autopsy revealed peritonitis, most marked in 
 the pelvic cavity, inflammatory alterations in the vagina, uterus, and 
 tubes, small abscesses in the body of the uterus, softened clots in the veins 
 of the broad ligaments, and infarctions of the liver. 2 Sch filler found that 
 subcutaneous injections of septic material in female animals during preg- 
 nancy produced a diphtheritic ulcerative process on the uterine surface, 
 which determined the separation of the placenta; diphtheritic patches, 
 likewise, were found in the cornua of the uterus. 3 
 
 Thus we find that in the human subject and in experiments made upon 
 animals septic poisons introduced into the system following or near deliv- 
 ery produce lesions similar to those found in puerperal fever. As a 
 further coincidence, we notice that, as in puerperal fever, the lesions from 
 direct septic poisoning have nothing characteristic about them, producing 
 in one case pyaemia, in another partial peritonitis, in another general peri- 
 tonitis, in another diphtheritis, while in others the lesions are compara- 
 tively trivial, these differences being due to variable facta, such as the 
 qualities of the septic poisons, the points of entry into the organism, and 
 the resistance offered by the invaded tissues. 
 
 2d. Septicaemia is a disease characterized by the invariable presence in 
 the organism infected of minute bodies generally termed bacteria* 
 
 Until very recently the whole subject of septicaemia has been in a state 
 Df well nigh hopeless confusion. From Gaspard and Panum, through a 
 long list of experimenters, hardly any two arrived at precisely similar 
 
 1 Contribution d F 'etude de la septicemie puerperale, Paris, 1873, p. 28. *Ibid., p. 394. 
 
 8 " Experimentelle Beitriige zum Studium der septischen Infection," Deutsch. Zeiischr. 
 fiir Chir., Bd. vi. p. 141. 
 
 4 In 1865, Mayrhofer (Mnn. Schr. f. Geburlsk., vol. xxv., p. 112, 1865), at that time 
 clinical assistant to the Lying-in Service of Brann in Vienna, stimulated by the researches 
 of Pasteur, maintained that septic endometritis was the result of putrid fermentation 
 within the uterine cavity, and drew attention to the vibrios a term which he applied to 
 the round as well as to the rod-like bacteria as the source, and not the product, of putre- 
 faction. He claimed that while in puerperal processes vibrios are always present, in 
 healthy women they never occur before the second, third, or fourth day, and not always 
 even then. The chief progress that has been made as regards our knowledge of puerperal 
 fever in the last ten years has been in the direction of strengthening Mayrhofer's argu- 
 ment by careful experiment, and by defining the action of microscopic fungi in the pro- 
 duction of septic morbid proc esses.
 
 PUERPERAL FEVER FROM THE MODERN STANDPOINT. 995 
 
 results. Something like an approach to order has, however, been pro- 
 duced since it has begun to be understood that the effects produced by 
 septic fluids vary with the quality of the poison and the method of 
 experimentation, and that to obtain identity in the result there must be 
 identity in all the conditions. Thus, Samuel has shown that the same 
 organic substance produces different effects at different stages of decompo- 
 sition; again, that the enteritis which is commonly quoted as characteris- 
 tic^of septic poisoning occurs, as a rule, in animals when the septic fluid 
 is injected directly into the blood, and is rare when it finds its way into 
 the circulation through the lymphatics, as is the case usually in clinical 
 experiences. 1 There is one experimental point of extreme practical 
 importance too in connection with puerperal septicaemia viz. that if the 
 injection of a septic fluid be made directly into a vessel, toxic effects 
 speedily follow, but are transitory, unless the amount of the fluid be 
 large, or its virulence exceptional, or the animal very young; 2 whereas 
 very small amounts injected subcutaneously, by developing rapidly- 
 spreading phlegmonous inflammation, resembling malignant erysipelas in 
 man, are capable, after a period of incubation, of producing fatal results ; 
 or they may, if injected into a shut cavity or underneath a fascia, lead to 
 the development of an inflammation of an ichorous character. In other 
 words, the eliminating organs suffice, under ordinary conditions, to remove 
 from the blood the same amount of septic fluid which would prove fatal 
 if injected into the tissues. 3 To produce similar results the injections 
 into the blood need to be repeated at intervals. This experience leads 
 us to the conclusion that in the tissues septic poison possesses the ca- 
 pacity of self-multiplication, and that in the local inflammation set up a 
 reservoir is formed from which poison is continuously poured into the 
 circulation. 
 
 This capacity of self-multiplication which septic fluids possess has 
 recently been found to be coincident with the presence of certain parasitic 
 bodies, generically termed bacteria. All carefully-made experiments serve 
 to show that if a septic fluid be deprived of these organic bodies by boil- 
 ing or filtration while it continues capable of producing inflammation, the 
 inflammation is usually of diminished intensity and remains local in its 
 character ; 4 whereas the bacteria retained upon the filter possess all the 
 virulent properties of the original fluid. 5 This does not alone necessarily 
 prove that the virus resides in the bacteria, for it does not exclude the 
 possibility that both the virus and the bacteria remain upon the filter. 
 
 So far, attempts at isolating the microspores of septicaemia and culti- 
 vating them separately in vehicles composed of water holding in solution 
 inorganic constituents, or sterilized fluids containing organic matters, or 
 of the semi-solid gelatinous substances recommended by Koch, have been 
 only partially successful in proving them to be the sole source of infec- 
 
 1 Loc. dt., p. 349. 
 
 s "Traube und Gescheidlen, Versiiche uber Faiilniss und den Widerstand des lebender 
 Organisrnus," Settles. Ges.f. valerlandische Cullur, Feb. 13, 1874. 
 
 3 In some instances in which absorption from the tissues is very rapid the effects of sub- 
 cutaneous injections may be similar to those produced by injections made directly into the 
 circulation, and the local lesion be insignificant. 
 
 * In filtration through porous earthenware cylinders the filtrate possesses no phlogo- 
 genic properties. 
 
 5 Tiegel, Correspondenzblatt far Schweizer Aertze, 1871, S. 1275; Klebs, Archiv fur eip. 
 Pathol. und Pharmo.kol., Bd. i. Heft. 1, S. 35.
 
 996 PUERPERAL FEVER. 
 
 tion. Some earlier experiments of Tiegel and Klebs 1 Avere attended with 
 positive results, and more recently confirmatory evidence has been 
 furnished by Pasteur and Doleris. 2 Ililler, rarely quoted now, arrived 
 at different conclusions. He found that bacteria washed in pure water 
 were innocuous. 3 But pure water had long before been proven by 
 observers to be inimical to the well-being of the organisms in question. 
 Schiiller says that Killer's experiments prove apparently that while a 
 putrid fluid may be in the highest degree poisonous, its component parts 
 viz. either the fluid or the bacteria singly are neither deadly nor 
 poisonous. 4 The fact is, that isolation experiments are subject to what lias 
 hitherto been in most experiments an unavoidable source of error. As 
 Davaine noted early in his observations, the physiological action of 
 bacteria is very dependent on the constitution of the medium in which 
 they are developed, which is in entire harmony with what is known of 
 organisms much higher in the scale. " Many plants," says Burdon- 
 Sanderson, 5 " containing active principles, become inert when transplanted 
 from an appropriate soil." Bucholtz, in a series of experiments designed 
 to test the influence of antiseptics upon the vitality of bacteria, found not 
 only a difference between those taken directly from the infusion and those 
 cultivated in artificial fluids, but between bacteria derived from the same 
 source and cultivated in modifications of the nutrient medium. 6 Then, 
 too, it is not always safe to transfer to the human species the results of 
 experiments made upon the lower animals. Indeed, among animals, not 
 only in different species, but in varieties of the same species, differences 
 in the susceptibility to septicsemic poisons are found ranging from grada- 
 tions as to the intensity of the effect produced to absolute immunity. In 
 anthrax, a disease analogous to the one in question, the bacterial origin 
 has been established beyond dispute by the inoculation of isolated bacilli, 
 which multiply in the blood and permeate in enormous numbers the 
 lungs, liver, kidneys, spleen, and glandular structures. If the same 
 unequivocal testimony has as yet not been obtained from isolation experi- 
 ments as regards septicaemia, it is reasonable to suppose that this is due to 
 the defects in the technique, for which it is presumable the ingenuity of 
 investigators will in future find the remedy. 
 
 It is, however, from the constant presence of the bacteria in infected 
 wounds, and their distribution through the tissues, that the argument in 
 favor of connecting septic symptoms with the bacteria has been mainly 
 deduced. Here the ground is sufficiently solid, and, judged by ordinary 
 laws. of scientific evidence, the pathological importance of the microspores 
 
 1 Archw. filr exp. Pathologie und Pharmakoloyie, " Beitriige znr Kenntniss der Pathogenen 
 Schistomyceten," Band iv. Heft 3, S. 241 und ff. ; Tiegel, loc. cit. 
 
 2 In this connection may be mentioned some very interesting experiments by Dr. George 
 Gafi'ky (Experimentellen Erzengte Septiccem.ie, Mittheilungen awt den Kaiserlich, Oesundh. 
 Amle), in which micrococci from the blood of septicsemic mice were succcessfully cultivated 
 in a gelatine preparation, and produced, when inoculated in small quantities, the symp- 
 toms identical with those obtained by inoculating the blood itself. 
 
 3 " Exp. Beitriige zur Lehre von der organisirte Natur der Contagion und von der 
 Faiilniss," Archw. fur klinische Chirurgie, Bd. xvii. Heft 4, S. 669 u. ff. 
 
 * " Exp. Beitriige zum Studium der septischen Infection," Deutsche Zeitschrift filr Chi- 
 rurgie, Bd. vi. S. 162. 
 
 1 " Lectures on the Relations of Bacteria to Disease," British Mfd. Journal, March 27, 
 1875. See also Klebs, " Beitriige zur Kenntniss der Pathogenen Schistomyceten," Arch, 
 fur Pathol. und Pharmakol., Bd. iii. S. 321. 
 
 ' " Antiseptica und Bacterien," Arch.f. e.cp. Pathol. und Pharmakol., Bd. iv., Heft 1 und 2.
 
 PUERPERAL FEVER FROM THE MODERN STANDPOINT. 997 
 
 may be regarded as established. To be sure, we find them in tongue- 
 scrapings of healthy individuals, but tongue-scrapings are poisonous if 
 injected^ into the tissues. That they do not ordinarily prove so in the 
 mouth is no more singular than that woorari can be swallowed with 
 impunity. Tiegel l has endeavored to show that round bacteria are found 
 normally in the internal organs of the body ; but Koch 2 states that he 
 has on many occasions examined normal blood and normal tissues by 
 means which prevented the possibility of overlooking bacteria, or of con- 
 founding them with granular masses of equal size, and that he has never 
 in a single instance found organisms. 
 
 It is stated that bacteria are sometimes absent from the blood with- 
 drawn during life in septic diseases. As, however, their constant presence 
 has been confirmed in the vessels and glomeruli of the kidneys, it is fair 
 to assume that those organs, acting as filters, must have received the 
 colonies observed in them from the general circulation. 
 
 The difficulty of obtaining bacteria from the blood in many cases dur- 
 ing life in septic diseases does not, however, as was once supposed, invali- 
 date the theory of their pathogenic importance. Septicaemia is at present 
 employed as a collective term for a number of processes which may occur 
 singly or in combination with one another. When a relatively large 
 quantity of a putrid fluid is injected into the veins of an animal, death 
 follows from the action of a chemical poison (sepsin). The blood during 
 life rarely displays the presence of bacteria, the latter disappearing in the 
 circulation. In animals thus poisoned blood does not possess infectious 
 properties. This form is termed putrid intoxication. That the poison in 
 these cases is, however, produced by the bacteria is shown by experiments 
 of Gutmauu, 3 who demonstrated that bacteria from a drop of putrid 
 blood cultivated in Cohn's solution developed in the fluid a poison which, 
 when injected into the veins of dogs, occasioned death with all the symp- 
 toms of putrid intoxication. Still more conclusive were the experiments of 
 Koch. This observer injected four drops of putrid blood beneath the skin 
 of mice. The latter died in from four to eight hours. There were no 
 bacteria in the blood, and the blood was not infectious. When, however, 
 a single drop was injected, the mice often remained unaffected, but in a 
 third of the cases they became ill after twenty-four hours, death occurring 
 in from forty to sixty hours. The blood during life communicated the 
 same disease to other mice, and bacilli were always present in large num- 
 bers. In these cases the dissolved poison in the fluid injected was too 
 small in amount to destroy life, and death resulted only after a period 
 of incubation as a consequence of the multiplication of bacilli in the 
 blood and in the tissues. 
 
 In another class of cases Koch experimented, not with putrid blood, 
 but with a fluid produced by macerating a piece of mouse-skin in dis- 
 tilled water. Of this he injected a syringeful into the back of a rabbit. 
 The result was peritonitis, swelling of the spleen, gray wedge-shaped 
 patches in the liver, and in the lungs were found dark-red patches the 
 size of a pea, devoid of air all appearances in harmony with what is 
 designated as pyasmia. Oval micrococci were found in great numbers 
 
 1 Arch. f. Path. Anat. u. Physiol. u.f. klin. Med., vol. Ix. p. 453. 
 
 2 On Traumatic Infective, Diseases, iSew Sydenham Soc. publication p. 15. 
 
 8 Vide Semmer, "'Putride Intoxication," etc., VirchouSs Arch., vol. Ixxxi. p. 109.
 
 998 PUERPERAL FEVER. 
 
 everywhere throughout the body. But the point of special interest in 
 the present connection is the fact that wherever these micrococci come in 
 contact with the red blood-corpuscles the latter stick together and become 
 arrested in the minute capillary network. The thrombi thus formed 
 are further enlarged by the deposition of micrococci, which multiply, 
 block up individual capillary loops, and invade contiguous tissues. In 
 the blood-current itself, however, the micrococci do not increase in num- 
 bers, and cannot always be found in the circulation upon a single exam- 
 ination, but Doleris 1 assures us that in puerperal fever by repeated 
 trials, especially after a chill, he has never failed to demonstrate their 
 presence. 
 
 As to the exact manner in which these minute bodies exercise their 
 pernicious influence, whether they operate mechanically, or whether they 
 produce a virus in the process of nutritive activity, or whether, as is 
 probable, both suppositions are correct, must be decided by future inves- 
 tigations. It is enough for us to note that the connection between sepsis 
 and bacteria is intimate and vital. 
 
 3d. Pathogenic bacteria are invariably associated with puerperal fever, 
 and to them the infectious qualities of the disease are due. I have been 
 explicit regarding the evidence concerning bacteria in septic diseases, 
 because it places the question of the infectious group of puerperal fever 
 cases in the following position: Experiences occurring clinically, as well 
 as those produced upon animals, teach us that certain lesions and symp- 
 toms, similar to those we are accustomed to regard as characteristic of 
 puerperal fever, results from septic poisoning. In a large class of cases, 
 however, the connection between childbed fever and sepsis has been 
 deduced rather from analogy than direct proof. For those who chose to 
 regard such as due to a specific poison peculiar to the puerperal state 
 there was really no objection. If, however, bacteria are characteristic of 
 septic poisoning, the question presents itself in a different light, and we 
 have to inquire whether, in the less obvious cases, bacteria are present in 
 puerperal fever in the proportions and groupings that we find them in 
 other diseases due to putrid infection. Now, it is precisely proof of this 
 nature that has recently been abundantly rendered. 
 
 Waldeyer, 2 Orth, 3 Heiberg, 4 and Von Reeklinghausen 5 found the 
 tissues and lymphatics of the parametria filled with pus-like masses, 
 which consisted, in addition to pus-cells, chiefly of bacteria. Bacteria 
 swarmed in the fluid of the peritoneal cavity. In one case examined by 
 Waldeyer six hours after death, while the body was still warm, the peri- 
 toneal exudation was like an emulsion, and furnished an abundant deposit 
 which consisted almost entirely of bacteria. Orth injected ten minims 
 of peritoneal fluid from a woman dead of puerperal fever into the abdo- 
 men of a rabbit. As the animal was dying he broke up the medulla 
 oblongata, and found in the peritoneal fluid enormous quantities of these 
 
 1 La Fievre Puerperale, etc., p. 120. 
 
 2 "Ueber das Verkommen von Bacterien bei dcr diphtheritischen Form des puerperal 
 Fiebers," Archivfiir Oynaekoloffie, vol. iii. p. 293. 
 
 3 *' Untersuchungen iiber puerperal Fieber." Virchoufs Archiv, vol. Iviii. p. 437. 
 
 4 Die puerperalen und pycemischen Processe. Leipzig, 1873. 
 
 5 For the views of Von Recklinghausen I am indebted to his pupil Steurer. Vide the 
 writer's paper on " The Nature, Origin, and Prevention of Puerperal Fever," Trans, of 
 tlie International J/ec/. Conyr&te, Phila., 1876.
 
 999 
 
 organisms. In puerperal fever round bacteria have been likewise found 
 though in less quantities, in the lymphatics of the diaphragm and in the 
 fluids of the pleura, the pericardium, and the ventricles of the brain. In 
 post-mortem examinations of fresh subjects the serous fluids, withdrawn 
 under proper precautions, do not contain round bacteria except in cases 
 of septic infection. 1 Orth found in the purulent contents of the vessels 
 of the funis, in children who died of sepsis, precisely the same formations 
 as existed in the exudations of the mother. 
 
 Dpleris, in a remarkable essay already referred to, published in 1S80, 2 
 furnishes not only conclusive evidence of the presence of bacteria in the 
 various tissues and serous cavities of women dying of puerperal fever, 
 but has added the evidence of their pathogenic character by cultivating 
 them apart in sterilized fluids, and by reproducing in anima'ls, by means 
 of subcutaneous injections of the isolated bacteria, the infarctions, the 
 the blood-changes, and the suppurative processes of the original disease. 
 
 ^ So far, the generic term bacteria has been employed to indicate the 
 disease-germs which are the active agents of infection in puerperal fever. 
 It is not, however, intended to assume that the germs of septic processes 
 are all identical, or that they all produce precisely the same pathological 
 conditions. Koch, indeed, maintains that a distinct specific bacterial form 
 is found in such closely-allied affections as pyaemia, septicaemia, gangrene, 
 and erysipelas, the different forms possessing, however, this link in com- 
 mon viz. that they are alike generated in putrefying media. Singularly 
 enough, the bacterium termo and the bacterium commune to which the 
 fetidity of matters undergoing putrefaction is due are in themselves 
 harmless. They are rapidly destroyed in the circulation, and are not 
 inoculable. Fetid discharges from wounds are not therefore necessarily 
 dangerous. The putrid odor serves a useful purpose, as it gives warning 
 of the existence of conditions which favor the development of life-destroy- 
 ing organisms ; but the latter may develop without the concurrence of 
 the forms which give rise to putrefaction a fact of considerable import- 
 ance in view of the common belief that septic infection is excluded by 
 the absence of fetid odors. 
 
 In puerperal fever Dole'ris found the prevailing pathogenic organisms 
 consisted of bacilli or rods, and micrococci or round bacteria in the vari- 
 eties of micrococci, simple points ; diplococci, double points ; and chains 
 or wreaths. The bacilli he regarded as the source of acute, rapid septi- 
 caemia, while pus-production was associated with the multiplication of the 
 round bacteria, and especially of the diplococci. 
 
 4th. The presence of germs in puerperal fever serves not only to fix cases 
 hitherto doubtful in the category of septic diseases, but affords the most sat- 
 isfactory explanation of the protean phenomena of puerperal fever itself. 
 
 "We have seen, from both Koch's and Gutmann's experiments upon 
 animals, that death may occur independently of bacteria by the rapid 
 absorption of a chemical poison developed in a putrefying fluid. Clinical 
 experiences, such as the speedy death sometimes observed when retained 
 coagula or portions of placenta undergo decomposition within the uterine 
 cavity, renders it probable that similar cases of putrid intoxication are 
 
 1 Klebs, " Beitrtige zur Kenntniss der Pathogenen Schistomyceten," Archiv fur exp. 
 Pathol. und Pharmakol., vol. iv. p. 441 et seq. 
 
 2 La Fievre Puerperale et les Oryanismes Infer ieurs.
 
 1000 PUERPERAL FEVER. 
 
 not unknown in puerperal women, though, so far, the anatomical demon- 
 stration of the fact has not been furnished. 
 
 In cases, however, where puerperal fever has a distinct period of incu- 
 bation, and progresses step by step to the fatal ending, bacteria are always 
 found invading the tissues of the genital canal. In rare cases they pass 
 by the Fallopian tube to the peritoneal cavity and excite salpiugitis and 
 peritonitis. More commonly from local lesions they enter the canalicular 
 spaces of the connective tissue forming the framework of the genital 
 canal, which is continuous with the subperitoneal connective tissue of the 
 pelvis. From the canalicular space they enter the lymphatics. Cellulitis 
 is excited by their presence, and the lymphatic glands become inflamed 
 and enlarged. In pernicious forms they produce a sero-puruleut oedema, 
 which spreads rapidly with a wave-like progress after the manner of 
 erysipelas ; or in milder cases the progress of the disease-germs is arrested 
 by the lymphatic glands or the resistance oifered by the tissues them- 
 selves, and the ordinary circumscribed phlegmon is produced. By the 
 lymphatics which accompany the vessels of the Fallopian tubes they 
 reach the ovaries (puerperal ovaritis), and by the broad ligaments they 
 pass to subperitoneal tissues of the iliac and lumbar regions. Through 
 the same system they are conveyed to the great serous cavities of the body. 
 In the peritoneum they give rise, unless death occurs too speedily, to 
 pycemic peritonitis, which, unlike the traumatic form, is attended with 
 but little pain, and for which the claim has been set up that it is peculiar 
 to puerperal fever. The wide stomata upon the abdominal surface of 
 the diaphragm allows the facile entrance of the organisms into its lym- 
 phatics. Waldeyer found in diaphragmitis the lymphatics of the dia- 
 phragm filled with bacteria. And thus, following the lymphatic system, 
 if we only admit that bacteria are the active agents of sepsis, the fre- 
 quency, in severe types of puerperal fever, of inflammation of the serous 
 membranes of the peritoneum, the pleura?, the pericardium, the meninges, 
 and the joints finds an easy explanation. Nor is it altogether accident 
 which determines in different cases the precise serous membranes which 
 are affected. The widespread ramifications of the lymphatic system 
 would naturally give rise to eccentric inflammations in place of those 
 following the apparent continuity of tissues. 
 
 The ductus thoracicus is the principal channel through which the bac- 
 teria enter the blood. It is possible that they may further obtain access 
 into the circulation through the radicles which furnish the communica- 
 tions between the capillaries and the lymphatics. We have seen that 
 nacteria are found with difficulty in the blood during life. A few hours 
 after death they swarm in that fluid. That they do, however, enter the 
 general circulation during life is incontestable. Steurer writes : " As the 
 kidneys are the great filters of the human system, I never neglected to 
 examine them, and almost invariably found micrococci filling the arterioles 
 and glomeruli." This is in correspondence with what occurs in other 
 septic diseases, and accounts for the albumiuuria and interstitial nephritis 
 which often supervene in the advanced stages. 
 
 The action of the bacilli upon the blood differs materially from that, 
 of the round bacteria. So soon as the latter come in contact with the red 
 corpuscles, the corpuscles stick together and form larger or smaller clots 
 in the blood. They then are no longer able to pass through the minute
 
 PUERPERAL FEVER FROM THE MODERN STANDPOINT. 1001 
 
 capillary networks, but are arrested in the larger or smaller vessels 
 (Koch). The micrococci in the resulting infarctions multiply, and migrate 
 into the vessels and cellular tissue of the neighborhood. Thus fresh foci 
 of infection are formed. Or by their destructive action they may, when 
 situated near the serous surfaces, penetrate into the serous cavities, and in 
 this way indirectly occasion peritonitis, pleurisy, meningitis, and purulent 
 inflammations of the joints. When the micrococci enter directly into 
 the circulation, they sometimes, in passing through the heart, adhere to 
 the endocardium and the valves, where they cause exudation and ulcera- 
 tion, and give rise to the so-called endocarditis ulcerosa puerperalis. 1 The 
 red globules of the blood undergo changes of shape, assume a stellate 
 aspect, and rapidly disappear. The white globules are greatly increased 
 in numbers, and the blood itself becomes nearly colorless. A certain 
 amount of light is thrown upon these blood-changes by Doleris, who 
 added micrococci to the fresh blood of a frog and watched the ensuing 
 changes under the microscope. The micrococci could be seen in the act 
 of penetrating the red globules, which thereupon lost their color and 
 became shrunken, and, following the discharge of the organisms, which 
 meantime had multiplied in an astonishing manner, little or nothing of 
 the original globules remained. 
 
 In the bacillar form of septicaemia the blood is dark and has a semi- 
 gelatinous appearance, compared by French writers to partially-cooked 
 gooseberry jelly. The red globules, though they exhibit the various stages 
 of deformation, are not diminished in number. The disease is further 
 characterized by ecchymoses and minute apoplectic eifusions, and by the 
 absence of pus-formation. In the artificial septicaemia produced by Koch 
 in mice by means of bacilli the rod-like organisms were found to enter 
 the % white corpuscles and to compass their destruction. They did not 
 cause the red globules to adhere together, and there was no clogging of 
 the capillary circulation. All the principal structures of the animals 
 subjected to experiment were infiltrated with bacilli. The distribution of 
 the latter was apparently accomplished by the blood-vessels, and not by 
 the lymphatics, the bacilli probably effecting their entrance into the ves- 
 sels by virtue of their penetrative power, in place of traversing preformed 
 pathways. Possibly it is this action of the bacilli which causes the weak- 
 ening of the vessel-walls, as evidenced by the large number of red cor- 
 puscles which pass out from them. 
 
 In puerperal fever it is rare to find either round bacteria or bacilli 
 acting singly as the agent of infection. As a rule, both forms exist to- 
 gether in varying proportions, the predominant form, however, determin- 
 ing in general the character of the symptoms. 
 
 Thrombosis of the veins may be a physiological phenomenon, or may 
 be due to an alteration of the blood, to weakness of the heart, or to local 
 influences. So long as the clot remains firm its influence is limited to 
 disturbances of the circulation. The pysemic symptoms viz. suppura- 
 tion of the coagulum, the separation of emboli, and the formation of 
 metastatic abscesses are always dependent upon the presence of round 
 bacteria. In phlebitis the latter are found in the endothelium and in the 
 sheaths of the veins. The inflammation of the veins is followed by 
 
 1 Heiberg, Die puerperalen und pynmischen Prncense, Leipzig, 1873, pp. 22 and 34, with 
 references to cases reported by Wiege and Eberth.
 
 1002 PUERPERAL FEVER. 
 
 thrombosis. According to Doleris, micrococci derived from the blood 
 are deposited upon the central extremities of the clots ; beyond these 
 depots a fresh inflammation is set up, followed by fibrinous coagulation. 
 Thus the micrococci become imprisoned between two plugs. The same 
 process may be repeated until a series of abscesses are formed. For a 
 time no mischief may ensue. Finally, however, the resistance of the 
 outworks is overcome, an embolus becomes detached, and an infectious 
 abscess is opened into the blood an event which is announced by an 
 intense chill and the familiar systemic derangement. 
 
 In septic diseases death takes place from apnoea, partly from the inabil- 
 ity of the blood-corpuscles to carry oxygen to the tissues, and partly 
 from paralysis of the nerve-centres. 1 
 
 In hospital epidemics of puerperal fever diphtheritic patches situated 
 upon the lesions of the vulva and in the course of the utero-vagiual 
 canal are sometimes observed. Steurer found these patches were always 
 associated with loss of substance, and were composed of disintegrated 
 fibrin, white and red blood-globules, and colonies of round bacteria in 
 great abundance. Morphologically, these so-called diphtheritic patches 
 are identical with those which appear in the throat. Fallen 2 has 
 reported an instance of the simultaneous occurrence of puerperal diph- 
 theritis in the mother and throat diphtheritis in the two- weeks' old 
 child. In lying-in hospitals it is the genital organs, as the locus resis- 
 teutice miuoris, and not the throat, which are the usual points of attack. 
 
 The question as to the extent to which erysipelas and puerperal fever 
 are cognate diseases is in a fair way to be solved by recent investigation. 
 Orth took the contents of a vesicle from an erysipelatous patient which 
 contained bacteria in great abundance, and employed the same for injec- 
 tions under the skin of rabbits. In this way he succeeded in producing 
 in these animals a species of erysipelas maliguum. In the subcutaneous 
 cedema and affected portions of the skin he found enormous masses of 
 bacteria, so far exceeding in quantity the amount introduced as to prove 
 an abundant new production. 3 Samuel produced similar results by the 
 injection of ordinary putrid fluids containing round bacteria. An affec- 
 tion resembling simple erysipelas he obtained most frequently by the 
 application of fluid to a wound torn open after the second or third day. 4 
 Lukomski found that erysipelas could be produced by fluid containing 
 micrococci even when putrefaction did not exist. The contents of erysip- 
 elatous vesicles containing no micrococci excited no morbid manifestations. 
 Where the erysipelatous process was fresh and progressing micrococci 
 were found in great abundance in the lymphatics and canalicular spaces. 
 AVhere the process was retrogressive, there were no micrococci to be found, 
 even in cases in which inflammation existed to an intense degree. 5 Doleris 
 submitted to the culture-process of Pasteur fluid obtained from vesicles 
 which developed in the course of facial erysipelas in a man of forty years. 
 Micrococci in chains were found in the liquids employed identical with 
 those he had discovered in puerperal fever. In many cases I have seen 
 an erysipelatous inflammation start from a puerperal diphtheritic ulcer 
 
 1 Schiiller, "Exp. Beitriige zur Studium der Septischen Infection," Deutsche Zeitschr.f* 
 Chir., vol. vi. p. 149 et seq. 2 Trans. N. Y. Obvt. Soc., 1876-78, p. 78. 
 
 8 Untersuchungen iiber Ervsipel.," Arch, fur ez/. Puthol. und PharmakoL, Bd. i. S. 81. 
 * Arch, fiir exp. Path, und Pharmak., Bd. i. S. 335, u.ff. 
 6 " Untersuchungen iiber Erysipel.," Virchow's A rchiv, Bd. Ix. S. 430.
 
 PUERPERAL FEVER FROM THE MODERN STANDPOINT. 1003 
 
 upon the iutroitus vaginae, and extend outward over the buttocks, the 
 thighs, and the lower portion of the abdomen. 
 
 Virchow 1 has so far given in his adhesion to the new school as to 
 say : " Especially in this connection are to be mentioned the diphtheritic 
 process and the erysipelatous, especially erysipelas maliguum. The 
 granular deposit in diphtheritically affected tissues, of which I formerly 
 spoke, has more and more proven to be of a parasitic character. What 
 we formerly regarded as simple, organic granules, as infiltration or exu- 
 dation, has since proven to be a dense aggregation of micro-organisms 
 which penetrate ^ into the tissues and cells to compass their destruction." 
 
 Thus we find in surgical fever, in puerperal fever, in diphtheria, and in 
 erysipelas the presence of a common element which links them together, 
 and which establishes the relationship which has long been recognized as 
 existing between these various processes. 
 
 4th. The differences between surgical and puerperal septicaemia are due 
 to differences partly structural and partly physiological in the wounded sur- 
 faces exposed to septic contamination. 
 
 A certain amount of misapprehension has arisen from the circumstance 
 that along with many coincidences in the symptoms of puerperal and 
 surgical fever there are observable differences which, from a purely 
 clinical point of view, would justify a separate classification of the two 
 affections. It will not do, however, to ignore the fact that the conditions 
 which prevail in the parturient canal subsequent to labor have no strict 
 analogue in the lesions which the surgeon is called upon to treat, and that 
 therefore a complete identity as to all the clinical features of puerperal 
 and surgical fever would hardly be within the range of possibility. 
 
 In the puerperal state it is necessary to take into account the blood- 
 changes induced by pregnancy, the effects of shock and exhaustion in 
 protracted labors, the frequency of hemorrhage, the deep situation of 
 puerperal \vouuds, the presence of clots, decidua, and dead tissue in a 
 state of disintegration or decomposition, the ease with which deleterious 
 matters are absorbed by the wide lymphatic interspaces, the serous infil- 
 tration of the pelvic tissues, the exaggerated size of the lymphatics and 
 veins, and the proximity of the peritoneal cavity. 
 
 Samuel, 2 in speaking of the immunities and dispositions to septic 
 poisoning, says : " The statistical frequency of septic puerperal disease 
 is due to the length of the parturient canal, to the fact that through this 
 long passage there must pass all the pathological and physiological excre- 
 tions, and to the soiling of these parts with fingers, instruments, and 
 secretions which have become the bearers of sepsis." He found, on the 
 other hand, that it was extremely difficult to produce a progressive ichor- 
 ous condition by daily painting an open stump with a septic fluid, 3 though 
 the same was readily obtained when an infinitesimal quantity of septic 
 fluid was injected underneath a fascia. 
 
 5th. In the present state of our scientific knowledge it is necessary to 
 admit that thew is a limited number of febrile and inflammatory dis- 
 turbances occurring in puerperal ivomen, the bacterial origin of which 
 may be fairly questioned. As illustrations of this class may be men- 
 
 1 Die Fortsehritte der Kriecfs Heilkunde, Berlin, 1874. 
 
 2 "Ueber die Wirkung des Faiilniss Process auf den lebenden Orgamsmus," Arch.f. 
 cxp. Pathologic, vol. i. p. 343. 8 Loc. cit., p. 339.
 
 1004 PUERPERAL FEVER. 
 
 tioned : 1. Cases of catarrhal endometritis due to errors of diet and 
 exposure. Indeed, I have frequently, in hospital practice, been able to 
 trace severe cases of cellulitis, pelvic peritonitis, and general peritonitis 
 occurring in the winter season to the patient getting out of bed dripping 
 with perspiration, and clad only in a night-dress, and going thus bare- 
 footed over a cold, uncarpeted floor to the water-closet. 2. Cases of 
 puerperal disorders proceeding from emotional causes, the nervous system 
 furnishing the first impulse to the disturbed action. 3. Cases of exces- 
 sive vulnerability in non-pregnant women ; individuals are sometimes 
 found so susceptible that a parametritis follows a simple application of 
 the tincture of iodine to the cervix. 4. Cases of pelvic peritonitis start- 
 ing from old intra-peritoueal adhesions. 5. Cases of peritonitis and 
 retro-peritoneal inflammations secondary to ulcerative processes in the 
 ca3cum or the descending colon. This condition is apt to be masked 
 during pregnancy, but starts into activity during childbed as a conse- 
 quence of fecal accumulation or of excessive purgation. 
 
 It is by no means easy to decide as to the precise nature of local inflam- 
 mations following lacerations of the cervix and the bruising or crushing 
 of the soft parts in long or instrumental labors. The marvellous absence 
 of heat, pain, redness, and swelling in wounds treated in strict accordance 
 with the principles of Lister, the very slight reaction when the atmo- 
 sphere is pure, and the severity of these symptoms in overcrowded hos- 
 pitals, tend indeed to strengthen the belief that even the simplest inflam- 
 mations proceeding from wounds owe their origin in great part to septic 
 germs. But, on the other hand, in hospital practice it is not uncommon 
 to observe puerperal inflammations and febrile conditions which possess 
 this distinctive peculiarity that they in no wise visibly affect the health 
 of puerperal patients in their vicinity. The symptoms of blood-poison- 
 ing too are either absent or present to a subordinate extent. Probably 
 the difficulty is best solved by assuming with Genzmer and Volkmann 1 
 that there is such a thing as an aseptic surgical fever due to the absorp- 
 tion of the products of physiological tissue-changes at the seat of injury. 
 In surgical cases, even w r here the precautions of Listerisui have been 
 faultlessly observed, febrile movements of considerable intensity, but of 
 no prognostic signification, are of frequent occurrence. While in puer- 
 peral women we can never exclude the possibility of the septic infection 
 of puerperal wounds, it is in accordance with clinical experience to assume 
 that a high fever belonging to the aseptic class may coincide with a septic 
 process of insignificant proportions. 
 
 GENERAL SYMPTOMS. As in other infectious diseases, there is, from 
 the time of the entry of the poison into the system up to the outbreak 
 of fever, a distinct period of incubation. The first febrile symptoms 
 usually occur within three days of the birth of the child. An attack 
 coming on a few hours after childbirth is indicative of infection during 
 or previous to labor. The third day is the one upon which ordinarily 
 the beginning of the fever is to be anticipated. After the fifth day an 
 attack is rare, and at the end of a week patients may be regarded as 
 having reached the point of safety. Apparent exceptions to this rule 
 are probably referable to cases of mild parametritis, in which the initial 
 
 1 Genzmer and Volkmann, " Ueber septisches und aseptiscbes Wundfieber," SammJ, 
 klin. Vortrdge, No. 121.
 
 GENERAL SYMPTOMS. 1005 
 
 fever and the pain were insufficient to attract attention to the existence 
 of local inflammation. 
 
 The symptoms of puerperal fever vary with the character of the local 
 affections and with the extent to which the general system participates in 
 the disturbed action. The different groups of puerperal processes possess 
 the following pathognomonic symptoms viz. increased temperature, 
 enlargement of the spleen, disturbed involution, and sensitiveness of the 
 uterus upon pressure (Braun). 
 
 In most cases the fever is ushered in by chilly sensations or by a well- 
 defined chill. This symptom, however, does not possess much prognos- 
 tic importance. A chill is significant of a sudden change between the 
 temperature of the skin and that of the surrounding medium. It may, 
 therefore, be absent in pernicious forms of fever, provided only that the 
 temperature changes are inaugurated slowly, whereas it may follow a 
 trifling increase of the body-heat if, as sometimes happens in sleep, the 
 moist skin is exposed to cool currents of air. Repeated chills indicate 
 phlebitis and pyamia. 
 
 In order to grasp the many symptoms of puerperal fever, it is neces- 
 sary to keep separately in mind the clinical features of each of the lo^al 
 processes, although in fact the latter rarely occur singly, but to a greater 
 or less extent in combination with others. 
 
 The symptoms of ENDOMETRITIS AND ENDOCOLPITIS. The uncom- 
 plicated catarrhal inflammation of the uterus and vagina is the most fre- 
 quent and the mildest of the diseases of childbed. In endometritis the 
 uterus is large, flabby, and sensitive upon pressure ; the after-pains are 
 often unusually severe, involution is retarded, and the lochia become fetid, 
 remain sanguiuolent for a longer period than usual, and at the outset may 
 be temporarily suspended. Sometimes the large intestine is distended 
 with flatus. In endocolpitis the vaginal discharge is thin and purulent, 
 the patient experiences pain and burning in the acts of defecation and 
 urination, and, where the wounds of the vulva and vagina assume an 
 ulcerative character, there is often found at the same time inflammatory 
 cedema of the labia. 
 
 The fever iu these cases is ushered in frequently, but not always, by 
 chilly feelings, and the temperature reaches its height usually upon the . 
 evening of the third or fourth day, is remittent, almost intermittent in 
 character, and rarely exceeds 102 to 103 F. In mild forms the occur- 
 rence of the fever is often overlooked or is referred to disturbance pro- 
 duced by the secretion of the milk. In severer attacks the febrile symp- 
 toms may continue from three to seven days. At the end of a week the 
 swelling of the labia subsides, the discharge becomes thick, and ulcers, if 
 present, begin to assume a healthy granulating appearance. 
 
 In diphtheritic ulcerations, and -in endometritis due to decomposing 
 remains of the ovum, the load condition is often complicated by the 
 invasion of the neighboring tissues. 
 
 The symptoms of PARAMETRITIS and PERIMETRITIS (Pelvic perito- 
 nitis ] ). The symptoms of these two affections, as would be naturally 
 
 1 The following clinical history, together with the statistical details, is borrowed in 
 great part from the description of Olshausen (" Ueber puerperale Parametritis und Peri- 
 raetritis," Volkmann's Samml. klin. Vortr., No. 28), the exactitude of which I have had 
 abundant opportunity to verify.
 
 1006 PUERPERAL FEVER. 
 
 expected from the proximity of the peritoneum to the pelvic connective 
 tissue, for the most part overlap. It must be very rare for one form to 
 occur entirely independent of the other. For this reason it will be found 
 convenient to consider first the symptoms common to both morbid pro- 
 cesses, and subsequently to direct -attention to what are believed to be 
 points of distinction between them. 
 
 During the period of incubation there are usually no prodromic symp- 
 toms. Elevations of temperature in the course of the first twelve hours 
 following labor are equally frequent under perfectly normal conditions. 
 Suspicious symptoms are disturbed sleep, excessively painful after-pains, 
 and a pulse of 80 to 90. 
 
 The beginning of the fever occurs in 90 per cent, within the first four 
 days of childbed ; most frequently upon the second or third day, and 
 taking place upon the fourth day in scarcely 12 to 15 per cent, of the 
 cases. If five days have elapsed without fever, the period of danger, 
 with very rare exceptions, may be regarded as having passed. 
 
 At the outset the fever, especially in perimetritis, is ushered in by 
 chilly sensations or by an intense chill. The temperature rises rapidly, 
 though the highest point is usually not readied before the second, and in 
 rare cases not before the third, day. In most cases the heat in the axilla 
 exceeds 103, and may even mount up to 105. The decline occurs 
 gradually, the fever ending in 70 per cent, in the course of a week, in 
 20 per cent, in two weeks, and only in 10 per cent, extending beyond that 
 period. Protracted cases indicate abscess formation. 
 
 The fever does not, however, always pursue a regular course. In place 
 of progressively declining until the termination is reached, the high tem- 
 perature of the second day may be attained upon one or more occasions. 
 The morning remissions are at first slight, but become marked as the 
 disease approaches its close. In cases of long duration the morning 
 hours are often free from fever, a circumstance calculated to mislead a 
 physician who sees his patient but once a day. A pulse of 80 to 90 beats, 
 a disturbed sleep, lack of appetite, and sensitiveness to pressure upon the 
 sides of the uterus are, however, symptoms which should serve as a warn- 
 ing of some disturbing cause, and should lead the physician to renew his 
 visit in the latter part of the day. 
 
 If, from a mistaken notion that the morbid process has come to an end, 
 the patient is allowed prematurely to resume her household duties, the 
 pains across the abdomen and along the hip and thigh return, and an 
 examination reveals the existence of exudation in the pelvic cavity or 
 upon an iliac fossa. 
 
 Errors of this kind are most frequent in cases of parametritis associated 
 with slight peritoneal inflammation, as the local pain is then insignificant, 
 and the initial chill, happening on the third or fourth day, is apt to be 
 ascribed to engorgement of the breasts. 
 
 Relapses after the complete disappearance of febrile disturbance occur 
 in 15 to 20 per cent. They are usually shorter, but sometimes more 
 obstinate, than the original attack. As a rare exception may be men- 
 tioned cases with evening remissions and morning exacerbations. 
 
 In circumscribed pelvic inflammations the pulse rarely exceeds 120 
 beats to the minute. A pulse of 140, of more than half a day's duration, 
 betokens severe septic complications, and is therefore of evil omen. In
 
 GENERAL SYMPTOMS. 1007 
 
 some cases the slow pulse observed after labor makes its influence felt in 
 the first day or two of the fever, so that the curious phenomenon may 
 be witnessed of a temperature of 104 coinciding for a time with a pulse 
 ranging between 50 and 70 beats to the minute. 
 
 As regards other symptoms, headache and sleeplessness are rarely 
 absent Profuse sweating follows the first febrile attack, and frequently 
 recurs during the course of the disease. J 
 
 Pain is present at the onset in the majority of cases, and is then 
 usually most violent. The spontaneous pain, which is due to the affec- 
 tion of the peritoneum, subsides in great part in the course of one or two 
 days, but the sides of the uterus remain sensitive to pressure In the 
 rare cases of pure parametritis, however, this symptom may be absent 
 altogether. The pain, like that from the inflammation of serous mem- 
 branes, is of a lancinating character. Sometimes it is associated only with 
 the contractions of the uterus. After-pains occurring under unusual cir- 
 cumstances, as in primipara or after the third day, are to be regarded 
 with suspicion. 
 
 Vomiting occurs occasionally, but is comparatively rare unless the 
 peritonitis_ becomes diffused and spreads to the region of the stomach. 
 The appetite is lost, and only returns, as a rule, with the departure of the 
 fever. The tongue is coated and moist, and constipation is common. In 
 other cases there is diarrhoea with rumbling in the bowels, but without 
 pain or ^tenesmus. The urinary secretion is rarely interfered with, and 
 when this is the case it indicates the extension of the inflammation to the 
 peritoneum covering the bladder. 
 
 Most cases of perimetritis and parametritis terminate in five or ten 
 days, the fever and other symptoms gradually subsiding. When, as may 
 happen in exceptional instances, the temperature falls suddenly from a high 
 degree to one below the normal level, the body grows icy cold, the pulse 
 becomes small and irregular, and symptoms of collapse develop. But in 
 twelve to twenty-four hours the symptoms of collapse subside, and the dis- 
 ease reaches its end with a disappearance of the alarming manifestations. 
 If the fever subsides within a week exudation is somewhat rare. Its 
 continuance beyond that date should lead to a careful exploration of the 
 pelvic organs. The exudation is usually demonstrable in the course of 
 the second week or at the beginning of the third week. It is recognized, 
 according to its location, by external or by internal examination, or, 
 where the deposit is considerable, by both methods. In most cases the 
 deposit is extra-peritoneal, and is situated between the folds of the broad 
 ligament, above and to the sides of the vaginal cul-de-sac. It has gener- 
 ally a rounded form, though with less convexity than fibrous and ovarian 
 tumors. Sometimes, however, the tumor is flat below, like a board. It 
 seldom exceeds in size that of a large apple. In fresh exudations the 
 sensation produced is often that of a hard tumor surrounded by a softer 
 layer, due to continued succulence of the soft parts. In a few weeks they 
 may reach or exceed the hardness of a fibroid tumor. The older the 
 tumor, unless suppuration sets in, the less sensitive it becomes. Often 
 the exudation extends to the pelvic walls. The uterus, as a rule, is fixed, 
 and in cases of large tumors becomes pushed toward the opposite side, 
 while as a consequence of later shrinkage the fundus may be drawn per- 
 manently toward the affected side.
 
 1008 PUERPERAL FEVER. 
 
 The cul-de-sac of the vagina is rendered broader and flatter by the 
 pressure of the deposit, or, when the tumor is deep enough, the vaginal 
 surface may be rendered convex. Behind the uterus the exudation is as 
 it were flattened antero-postcriorly, and in some cases it may be felt in 
 the form of rigid bauds betM r een the posterior ligaments which enclose the 
 cul-de-sac of Douglas. The ante-uterine tumors have a spherical shape 
 and depress the vagina anteriorly. 
 
 Tumors situated in the iliac fossa have a more or less convex form, and 
 may be of such considerable size that the swelling may be recognized by 
 the eye through the abdominal walls. As the exudation between the 
 broad ligaments may in these cases have been slight from the beginning, 
 or may have subsequently disappeared by absorption, the iliac tumors 
 have often apparently a spontaneous origin. 
 
 Sometimes the uterus is surrounded by exudation, and the entire pelvis 
 appears as though it were a mould filled with a solid mass. The fornix 
 is then often pressed downward, and irregular rounded masses are to be 
 felt through the vaginal walls. 
 
 The recognition of paranietritic tumors through the abdominal cover- 
 ings is possible when they are situated above Poupart's ligament, in the 
 upper portion of the broad ligaments, aud in the iliac fossae. 
 
 The pain and the functional disturbances in the pelvic organs depend 
 upon the size and situation of these inflammatory deposits. Of the func- 
 tional troubles may be mentioned frequent and painful micturition, obsti- 
 nate constipation and difficult defecation, contractures of the ilio-psoas 
 muscles when the exudation is seated beneath the sheath or between the 
 muscle and the pelvic bones, disturbances of motility in the abductor 
 muscles, paresis of the lower extremities, and radiating pains in the upper 
 portion of the thigh and in the renal and lumbar regions, produced by 
 pressure upon the obturator, the crural, the cutaneous, and the sciatic 
 nerves. 
 
 So long as fever is present the exudation rarely diminishes. If absorp- 
 tion takes place in one point, growth almost certainly follows in 
 some other direction. When, however, the apyretic period is reached, the 
 exudation, as a rule, disappears rapidly, so that often in the course of six 
 weeks no trace of its existence remains. In a smaller number the solid 
 mass may persist for months or even years. 
 
 After the fever has departed the patient usually feels well. The sleep 
 and appetite return, the night-sweats disappear, the pulse often falls to 50 
 or 60 beats, and the temperature is in many cases for a time subnormal 
 in character. 
 
 Where the fever persists for from five to six weeks there is always a sus- 
 picion of abscess formation. With the exception of afternoon fever and 
 night-sweats the patient may feel very comfortable. Then the exudation 
 becomes sensitive, the spontaneous pains recur, sleep is lost, and locomo- 
 tion, defecation, and urination occasion acute suffering. The fever becomes 
 violent, chills announce the presence of pus, and finally, about the seven- 
 tieth or eightieth day, perforation of the abscess takes place. The usual 
 seat at which the pus is discharged is just above Poupart's ligament; 
 next in frequency perforation takes place into the colon, and in rare 
 instances into the bladder, the uterus, and vagina. Fortunately, of very 
 rare occurrence is the discharge of pus into the peritoneal cavity, which is
 
 GENERAL SYMPTOMS. 1009 
 
 naturally followed by acute peritonitis. Another likewise unfrequent but 
 most dangerous accident is the septic infection of the abscess an occur- 
 rence referred to by Olshausen to the diffusion of intestinal gases through 
 the walls of the tumor. 
 
 In suppuration of parametritic exudations the pus commonly forms in 
 small scattered collections, and rarely gives rise to large abscesses. 
 
 Although parametritis and perimetritis are usually found associated 
 together, there are always cases in which the one form of inflammation so 
 far predominates over the other as to justify an attempt to establish a 
 clinical distinction betAveen them. 
 
 ^ In the beginning of the attack, sharp pain, high fever, and tympanitic 
 distension of the lower abdomen are symptomatic of inflammation in the 
 pelvic peritoneum. Whether the cellular tissue is simultaneously impli- 
 cated can only be determined by a digital examination after the abdomi- 
 nal sensitiveness has subsided. The absence of the objective signs of 
 cellulitis would then contribute to prove that the case had been one in 
 which the peritoneum had been in the main affected. On the other hand, 
 moderate fever, pain elicited only on pressure, and tympanitic distension 
 confined to the colon, coinciding with exudation between the folds of the 
 broad ligament, would be indicative of a nearly pure cellulitis. 
 
 A palpable exudation is by no means the necessary product of peritoneal 
 inflammation. Indeed, in many cases, the distinctive symptoms of the 
 latter may be present for from four to eight days, and may then subside 
 without leaving a trace of its existence at the pelvic brim. 
 
 The demonstration of a fluid effusion by noting the change of level 
 upon shifting the position of the patient is rarely possible, either because 
 the quantity is too small or because it quickly becomes confined by pseudo- 
 membranous adhesions between the intestines. 
 
 Bandl 1 mentions as a sign of local peritonitis, sometimes noticeable, a 
 number of resistant points or tumors near the pelvic brim or above one 
 of the iliac fossa?, due to a matting together of the intestines or to their 
 adhesion to the uterine appendages. They are distinguished from solid 
 tumors by their emitting a tympauitic sound upon percussion and by their 
 changing position in consequence of an accumulation of urine in the blad- 
 der or of feces or gases in the bowels. Again, all tumors may be reck- 
 oned as intra-peritoneal which very rapidly form behind or to the side of 
 the uterus from enclosed exudation-products, and which at the same time 
 rise far above the level of the pelvic brim. If, however, they start from 
 the cul-de-sac of Douglas, and do not much exceed the linea terminalis, 
 or if they occupy an iliac fossa, it becomes very difficult to decide whether 
 they are of intra- or extra-peritoneal origin. The peritoneal exudation, 
 however, long remains soft and fluctuating. It arises, as a rule, behind 
 the uterus, and does not exhibit a tendency to spread to the sides or to 
 the anterior or posterior pelvic walls. 
 
 Still more difficult is it to decide as to the seat of exudations met with 
 beneath the abdominal walls. When diffused and continuous with a pel- 
 vic deposit the diagnosis is uncertain. 'It is only safe to assume the peri- 
 toneal origin of extravasations of a rounded form, of a fluctuating con- 
 sistence, and when they are situated high up and are disconnected from 
 exudation at the pelvic brim. An opening of the abscess through the 
 l Handbuch der Frauenkrankheiten, red. Von Billroth, 5te Absohnitt, p. . 
 VOL. I. 64
 
 1010 PUERPERAL FEVER. 
 
 navel would indicate a peritoneal source, while the discharge through the 
 abdominal parietes would point to a seat in the connective tissue. 
 
 After the perforation of an abscess the fever and pain subside; the 
 wound, if external, either closes in the course of one or two weeks, or 
 fistulas form which become the source of protracted suppuration. 
 
 In psoas abscesses the exudation extends beneath the sheath of the 
 muscle or between the iliacus and the bone. In puerperal patients they 
 proceed from an inflammation originating in the broad ligament. They 
 are situated too deep to be easily palpated. The pains they occasion are 
 referred rather to the hip or knee than to the abdomen. The contracture 
 of the psoas muscle furnishes a diagnostic sign which distinguishes this 
 form from the superficial abscesses of the iliac fossae. The pus eventually 
 is discharged beneath Poupart's ligament, in the lower portion of the 
 inguinal fossa, at some point upon the crest of the ilium, or exceptionally 
 along the thigh. Often the discharge is maintained for months. 
 
 The symptoms of GENERAL PERITONITIS. This form generally begins 
 with the usual symptoms of pelvic inflammation, but the tenderness, which 
 at first was limited to the side of the uterus, gradually spreads over the 
 entire abdomen. The abdominal pain is of a tearing, lancinating, some- 
 times colicky character. It is increased by the slightest bodily move- 
 ment, by jarring of the bed, or even by the weight of the bed-clothes. 
 
 As a consequence of the peritoneal inflammation and of the accom- 
 panying exudation, the muscular walls of the bowels become paralyzed, 
 and tympanitic distension results from the accumulation of gases. In the 
 dependent portions of the peritoneal cavity it is often possible to demon- 
 strate by percussion the presence of fluid exudation, though distinct 
 fluctuation is rarely to be made out. The size of the abdomen is due 
 much more to the tympanites than to the amount of effusion. Sometimes 
 the liver, with the diaphragm, is pushed by the swollen bowels to the 
 level of the fourth or third rib, and exercises such a degree of compres- 
 sion upon the posterior portion of the lungs as to place the patient in 
 danger of suffocation. The respirations are jerky and attended with a 
 moaning sound. 
 
 The loss of muscular power in the intestines permits the contents of the 
 middle portion to pass unchecked toward the duodenum, and thence, upon 
 accidental contractions of the abdomen, they may pass to the stomach and 
 be ejected by vomiting. The first vomited matter has a dark -green color, 
 and that ejected afterward presents the color of intestinal matter. Con- 
 stipation at the outset may be subsequently followed by colliquative 
 diarrhoea. 
 
 The fever begins, as a rule, though not always, with an intense chill, 
 the temperature rises to 104, and the pulse becomes small, hard, and 
 resistant. Its frequency rapidly increases, varying from 120 to 160 beats 
 to the minute. The skin is sometimes dry, sometimes dripping with per- 
 spiration. In fatal cases, as the end approaches, the temperature fre- 
 quently falls, while the pulse becomes more rapid, the face assumes a 
 pinched, anxious expression, sweat gathers upon the forehead, the extrem- 
 ities grow icy cold, and the patient dies in collapse. The duration of 
 peritonitis averages not more than from four to six day?. 
 
 In cases of recovery the pulse improves, the vomiting ceases, and the 
 tympanites disappears. The diffuse exudation then becomes converted
 
 GENERAL SYMPTOMS. ]Q11 
 
 into circumscribed tumors, which on palpation are felt on the side of the 
 pelvis and extending upward to the level of the umbilicus. Upon internal 
 examination the uterus is often found depressed by the weight of the 
 fluid, which likewise may bulge the cul-de-sac of Douglas into "the pelvic 
 cavity. Sometimes the exudation may become encysted above the pelvis 
 and leave the contents of the latter free. In still other cases the uterus 
 may become attached high up to the abdominal walls, so that the vaginal 
 portion disappears and the os is reached with difficulty. 
 
 The peritoneal exudation may, as in pelvic inflammations, become 
 absorbed and disappear. When, however, it is surrounded by loops of 
 intestines it is apt to undergo purulent and septic changes, and the 
 abscesses may then become discolored and filled with stinking gases. The 
 patient, whose previous improvement has been watched with delight, now 
 loses appetite, the pulse becomes frequent, the strength fails, and death 
 may follow from septic fever or from rupture of abscess into the abdom- 
 inal cavity. 
 
 In the pyaemia form a still more deadly variety of peritonitis the 
 symptoms differ materially from those which have been recounted. As, 
 however, it constitutes only a single one of the pathological changes con- 
 nected with the poisoning of the blood through the lymphatic system, its 
 consideration belongs properly to the study of the septic infection. 
 
 The symptoms of SEPTICAEMIA LYMPHATICA. The symptoms of 
 blood-poisoning in the infectious diseases of childbed vary to a consid- 
 erable extent according to the channel through which the septic germs 
 enter the general circulation. In the murderous epidemics which prevail 
 in lying-in hospitals the lymphatics are, as a rule, the vessels primarily 
 invaded. It is to this form that the cases already described belong, where, 
 with diphtheritic patches upon the utero-vaginal canal and sero-purulent 
 oedema of the parametrium, there are associated pysemic peritonitis and 
 deformation of the blood-corpuscles ; or where, following the migrations of 
 the round bacteria, the serous cavities become successively involved, septic 
 vegetations gather upon the heart, and the glomeruli of the kidneys be- 
 come choked with micrococci. The lymphatic form of septicaemia develops 
 soon after labor, and is always ushered in by a chill. The temperature 
 rises to 104 or even higher, and the pulse is thin and frequent. The 
 abdomen swells rapidly, without' being especially painful. Indeed, pain- 
 less distension of the intestines is one of the characteristics of an acute 
 invasion of the lymphatics. Peritoneal effusion is absent in cases which 
 run a rapid course, and is distinctly recognizable only in a peritonitis of 
 long continuance. The effusion is not so much due to exudation as to a 
 transudation of serum with which micrococci are commingled. At the 
 same time the tongue is moist, but slightly coated, and at times quite 
 clean. Sometimes there is diarrhoea due to catarrh or to a diphtheritic 
 affection of the colon. When the bowels have been constipated the 
 administration of a purgative may provoke discharges which it may be 
 found difficult to arrest. The skin is bathed in perspiration. At the 
 beginning and during the course of the disease bleeding at the nose is of 
 not infrequent occurrence. 
 
 Toward the end the pulse runs up to 140 to 160 beats, while in many 
 cases the temperature falls. Immediately after death the heat of the body 
 may for a short time exceed the highest point reached during life. The
 
 1012 PUERPERAL FEVER. 
 
 respirations are superficial and jerky. In many instances the face, the 
 neck, and the fingers are blue from defective oxygenation of the blood. 
 At the same time the skin becomes clammy and the extremities cold. 
 
 The sensorium, in cases which run a rapid course, is usually affected at 
 an early period. The patients appear somnolent, are restless in bed, have 
 light delirium, and respond only when spoken to loudly. As a rule, they 
 make but little complaint, and, were it not for the dyspnoea, would have 
 nothing to disturb their sense of comfort. Very few, even as death 
 approaches, have any idea of the danger that threatens them. Now and 
 then, in place of stupor, great restlessness, and even a maniacal condition, 
 is developed. Albumen is usually .found in the urine. 
 
 Pleurisy, so frequently associated with lymphatic septicaemia, is fre- 
 quently double, more rarely single, and begins, as a rule, with sharp pain 
 in the side and an aggravation of the previous dyspnoea. Pericarditis is 
 less frequent, and occurs usually without symptoms toward the close of 
 life. The joint affections are characterized by redness and swelling, and 
 by pain, which is sometimes so great that touching the inflamed part 
 suffices to arouse the patient from sopor. Sometimes fluctuation is felt, 
 but death occurs before perforation and discharge of the pus. 
 
 The most frequent ending is death, which follows in from two to 
 twenty-one days, and, as a rule, between four and seven days. Recovery 
 is, however, possible. 
 
 The symptoms of SEPTICAEMIA VEXOSA (phlebitis uteri na, pyaemia 
 metastatica). The putrid infection of a thrombus at the placental site may 
 take place within twenty-four to forty-eight hours after labor. Usually, 
 however, the approach is insidious, and the disease develops from an appar- 
 ently insignificant endometritis or parametritis ; or the patient, with the 
 exception perhaps of a tired feeling, of slight chilly sensations, and of pro- 
 fuse perspiration, may not have been conscious of any indisposition for 
 days preceding the attack, or even until the first getting up from childbed. 
 The initial chill in typical cases is characterized by its violence and dura- 
 tion. In some cases it may last for hours. It is accompanied and fol- 
 lowed by high temperature, the febrile attack ending with profuse perspi- 
 ration as in intermittent fever, with which it is apt to be confounded. The 
 fall in temperature often assumes the form of a prolonged remission. 
 
 In many cases the pulse rises and falls with the variations in the body 
 heat, while in others it remains permanently above the average. A fre- 
 quent pulse is always a suspicious symptom in childbed, even where the 
 other symptoms are apparently normal. 
 
 Erratic chills announce the lodgment of emboli in distant organs. 
 With the formation of metastatic abscesses in the lungs and other paren- 
 chymatous organs the typical character of the disease changes. In place 
 of chills occurring at irregular intervals, followed by remissions and 
 periods of apparent improvement, the fever is continuous, the pulse 
 becomes small and rapid, while sopor, slight delirium, a dry skin, a dry, 
 brown, cracked tongue, and a moderately tympanitic abdomen, give the 
 case the appearance of one of typhus fever. 
 
 Peritonitis is present in hardly one-third of the cases. The abdomen 
 is therefore flat and soft, and often is not sensitive upon pressure. Icterus, 
 due to disintegration of the blood-corpuscles, is an ominous symptom. 
 
 Death usually occurs in the second or third week. In the typhus-
 
 CAUSES. 1013 
 
 like cases, however, it may follow the first attack speedily. Recovery 
 is possible where the organs secondarily affected are not of too great 
 importance. 
 
 A combination of the lymphatic and venous forms of septicaemia is 
 not uncommon .in cases running a protracted course. 
 
 The symptoms of PUHE SEPTICAEMIA. Under the title of pure septi- 
 caemia should be placed cases in which the absorption of putrid materials 
 into the blood gives rise to symptoms of intense blood-poisoning without 
 the development of local lesions. A common example of this form is met 
 with in the fever which results from the presence in the uterus of decom- 
 posing coagula or portions of retained ovum, the fever subsiding with 
 the removal of the disturbing cause. In like manner we sometimes 
 meet with cases of intense septic poisoning followed by speedy death, in 
 which the post-mortem examination reveals only changes in the blood 
 and softening of the parenchymatous organs. The symptoms are often 
 similar to those produced by the injection of putrid materials containing 
 rod-like bacteria into the vessels of animals. As the long bacteria do 
 not possess the capacity of self-reproduction in the blood, to produce fatal 
 results the quantity of putrid fluid injected must be large or be frequently 
 repeated. This form is said not to be inoculable. 
 
 CAUSES. The effects of a poisoned state of the atmosphere as a cause 
 of puerperal fever is best observed in the so-called uosocomial malaria of 
 hospitals. In days gone by, before I had learned by experience that the 
 safe conduct of a lying-in service depends upon the fastidious exclusion of 
 every source of contamination, I had frequent occasion to witness febrile 
 outbreaks among puerperal women in the Bellevue Hospital, which were 
 instantly arrested by the simple transfer of the inmates of the affected ward 
 to a wholesome locality, though no changes were simultaneously made in 
 either the personnel or the utensils of the service. In these instances it 
 seems fair to assume that the previous unhealthy condition was not due 
 to the direct transfer of an inoculable matter from patient to patient by 
 the attendants, but by something residing in the air of the vacated apart- 
 ment. In the inquiry as to the production of this condition it can be 
 assumed that it is not caused by aggregation alone. The medical wards 
 of Bellevue, always crowded, have often furnished in times of need safe 
 receptacles for puerperal patients. It is certainly not due to the presence 
 of the ordinary constituents of the atmosphere. We must therefore 
 look for some additional element capable of unfavorably affecting the 
 economy. What this element really is, is demonstrated by a familiar 
 clinical experience. When the disturbance produced by nosocomial 
 malaria is not at an early stage arrested by change of locality, the secre- 
 tions of patients affected become iuoculable. Then the epidemic spreads 
 rapidly, and assumes continuously a more and more severe type. If 
 during an epidemic the external genitals be carefully watched, now and 
 then diphtheritic patches will be noticed to form upon them. At first 
 these patches may disappear or yield readily to treatment. When an 
 epidemic has assumed a pestilential form the patches, which may in 
 isolated cases make their appearance at any time in a hospital, are rarely 
 absent in fatal cases. The composition of the patches tells the tale of 
 what it is in the atmosphere which accomplishes the charnel-house work. 
 Favoring conditions have led to the multiplication of disease-germs
 
 1014 PUERPERAL FEVER. 
 
 in the air, and have fitted them to become the active producers of 
 disease. 
 
 In a patient dying in the early stages of an epidemic there may be no 
 diphtheritic manifestations, though the tissues and secretions are filled 
 with bacteria. As, however, the epidemic gains headway, the lesions of 
 the generative apparatus, and especially of the external organs, which are 
 most exposed to air, become covered with patches which swarm with 
 micrococci. Under the conditions named it is certainly more in accord 
 with ordinary scientific reasoning to conclude that the micrococci play an 
 important part in the production of puerperal fever than that the puerperal 
 fever produces the micrococci. 
 
 To be sure, bacteria or their spores are always present in the air, and it 
 may be fairly asked how patients are ever spared from their perverse 
 industry. The answer is, that the eifect produced by the atmosphere of 
 a hospital is dependent partly upon the quantity, and partly upon the 
 quality, of the suspended germs. Floating spores, when sparsely distrib- 
 uted, rarely possess the power of invading a healthy organism. In the 
 inauguration of an epidemic the first patient severely attacked is usually 
 one whose powers of resistance are broken down by prolonged labor, by 
 hemorrhage, by poverty, or some other condition leading to impaired 
 vitality. 
 
 Puerperal-fever epidemics due to contamination of the atmosphere, 
 and not to direct contagion, do not at once reach the maximum of inten- 
 sity. At first the temperature tables indicate the prevalence of milk 
 fever; next follow cases closely resembling those of mild paludal poison- 
 ing; and, finally, if these warnings are unheeded and reliance is placed 
 upon autiperiodic remedies rather than upon prompt closure of the threat- 
 ened ward, the pestilence develops. In the conduct of lying-in hospitals 
 it should never be forgotten that with the multiplication of the septic 
 germs the danger increases. 
 
 At the same time, the quality of the agents which pervade the air 
 where hospital patients are confined is an important element in the genesis 
 of febrile outbreaks. The bacterium termo, which causes putrefaction, is 
 not in itself, as we have already mentioned, a source of danger. A stink- 
 ing odor is not necessarily incompatible with a low mortality-rate. The 
 importance of the common forms of bacteria, according to Pasteur, results 
 from the fact that by their power to consume oxygen they pave the way 
 for the active development of the pernicious germs, nearly all of which 
 thrive only in media in which that element has been materially dimin- 
 ished. Again, there is reason to believe that the same germs are not 1 
 always equally active for evil. Gravitz claims that the ordinary varieties 
 of aspergillus and penicillium found everywhere on the surface of the 
 ground, on moistened walls, on food of every variety, on decaying leaves 
 and fruit, and whose spores are universally present in the purest air, can 
 by a succession of cultures be gradually brought to flourish in a warm 
 alkaline fluid, and that they then acquire the capacity to penetrate living 
 tissues, to proliferate in them, to excite local necroses, and to cause death 
 in the course of three days. The insistence of micrococci to carbolic and 
 salicylic acids is found experimentally to depend in a measure upon the 
 
 1 Gravitz, " Ueber Schimmel vegetationen im thierischen organismus," Virch. Arch., voL 
 Ixxxi, p. 355.
 
 CAUSES. 1015 
 
 nature of the vehicle in which they are cultivated (Buchholz). The 
 action of sept] C fluids varies too with the age of the infusions, with the 
 materials employed, and with the conditions under which the poison- 
 germs are generated. 
 
 Micrococci multiply in hospitals when organic materials favorable to 
 their growth are present in sufficient quantities. Perrin, Quenquand 
 and others have shown that the hospital wards in Paris, especially those 
 upon the surgical and maternity divisions, contain an infinite number of 
 vibrios, bacteria, and all the coccus forms (Charpentier). Robin 1 has 
 demonstrated the existence of albuminoid matters iu water condensed 
 upon vessels containing freezing mixtures and placed in overcrowded wards 
 of hospitals. When the results of crowding become manifest, these albu- 
 minoid matters not only impart a fetid odor and putrefy with great rapid- 
 ity, but rapidly impart putrefaction to healthy muscle and normal blood 
 with which they are brought into contact. Pasteur was able by the micro- 
 scopic examination of the lochia from patients in the services of Hervieux 
 and Lucas-Champonniere to predict, from the character of the contained 
 organisms, an impending attack of fever in advance of the slightest symp- 
 tom betokening danger. 
 
 It is unquestionably the lochial discharge which makes it such a diffi- 
 cult task to keep a maternity ward in a healthful condition. Putrid 
 blood has been found to be the most favorable material for septic experi- 
 ments. It was noticeable in Bellevue Hospital that febrile outbreaks 
 always arose in, and were usually confined to, the ward in the hospital 
 which, by a bad arrangement, was assigned to patients for the first four 
 or five days following confinement i. e. during the period of the lochia 
 cruenta. As puerperal fever is rare after the fifth day, this at first sight 
 would seem natural. But if a patient was transferred directly after con- 
 finement, during one of these unhealthy periods, to the ward containing 
 the patients who had passed the first five days, but had not completed the 
 ten days, she would escape the fever. It was always the same ward that 
 required to be disinfected. In a communicating apartment ail the con- 
 finements took place, and at all times, therefore, the conditions were pres- 
 ent for loading the atmosphere with the products of decomposing blood. 
 In the summer months, so long as the windows were open and the air was 
 diluted by the continuous passage of fresh currents, the patients enjoyed 
 immunity from nosocomial malaria. In the autumn, so soon as it 
 became necessary to close the windows partially on account of the cool 
 nights, it was not uncommon for the more trivial disturbances, such as so- 
 called milk fever, the hospital pulse, and catarrhal affections of the geni- 
 talia, to manifest themselves. Through the months of February, March, 
 and April the mortality was usually greatest. During the winter months 
 there was, as a rule, crowding of patients, insufficient ventilation, stagna- 
 tion of the air, and the rapid accumulation of disease-germs. That the 
 later winter months should prove the most perilous is in accordance not 
 only with the theory of continuous accumulation, but with the experi- 
 mental fact that weeks sometimes elapse before a decomposing substance 
 acquires the highest degree of virulence. 
 
 Apart from the nosocomial malaria of hospitals, there is reason to 
 believe in the influence at times of certain general widespiead atmospheric 
 1 Lemons sur les Humeurs, Paris, 1867, p. 195.
 
 1016 PUERPERAL FEVER. 
 
 states which affect the entire community. In the year 1871 the mortality 
 from childbed in New York was 399 ; in 1872, 503 ; in 1873, 431 ; in 
 1874, 439 ; and in 1875, 420. Now, the excess in the deaths for 1872 
 was due wholly to an increase in the cases of metria, those from ordinary 
 accidents remaining nearly the same as in the preceding years. The dis- 
 ease certainly did not extend into the city from the hospitals serving as 
 foci, for the mortality at Bellevue Hospital was hardly more than half 
 the usual average. There was no especial mortality that year from either 
 diphtheria, erysipelas, or scarlatina, but the aggregate mortality was the 
 largest known in the history of the city. There are no positive data con- 
 necting the civil deaths from puerperal fever in 1872 with parasiticisni, 
 but the prevalence of epizo5tics, of epidemic cartarrhal aifections, of 
 peculiarly fatal forms of pueumonia and other diseases which are now 
 attributed to the presence of minute organisms in the atmosphere, renders 
 such a source highly probable. 
 
 It is proper to say here that, though the argument is very strong in 
 favor of regarding the genitalia of puerperal women as the exclusive 
 point of entry of infectious materials into the system, it seems impos- 
 sible at the present time to make all the facts coincide with such a theory. 
 I have the records of a number of cases occurring during an epidemic of 
 puerperal fever in which patients were either attacked with fever previous 
 to parturition, or in whose cases the unusual length of labor, the fre- 
 quency of post-partum hemorrhage, and the imperfect contraction of the 
 uterus immediately after confinement were signs of some abnormal influ- 
 ence exercised upon the economy at an early period of labor previous to 
 the existence of traumatism. That deleterious materials may find other 
 channels for entering the system than a wounded surface is evidenced by 
 the cachectic condition not unfrequeutly produced in physicians by too 
 assiduous attendance in dissecting-rooms and places in which post-mortem 
 examinations are conducted. One severe and rapidly fatal case of puer- 
 peral fever which occurred in Bellevue Hospital I find it impossible to 
 attribute to any other cause than that the woman for five mouths pre- 
 vious to her confinement served as a helper in a lying-in ward. The 
 post-mortem examination disclosed no special local lesions, but her symp- 
 toms were those of intense septicaemia. French writers report instances 
 of toxsemic conditions developing in young midwives during puerperal- 
 fever epidemics. "While we are not prepared to go as far as Taruier, 
 who says, " It is probable that the lungs, by their extent and activity, 
 offer conditions most favorable to absorption, and that often, if not 
 always, it is by them that poisoning occurs," it does not yet seem time to 
 give up the idea that under exceptional circumstances the respiratory and 
 the digestive tracts may allow the passage of materials of a septic cha- 
 racter. 
 
 Another and frequent source of puerperal fever is by direct inoculation. 
 Any material of a septic character, introduced into the genital passages 
 of a woman during or after confinement, may produce a general infection 
 of the system. But the point upon which I wish especially to dwell is 
 that it is possible to trace epidemics of puerperal fever directly to the i^arry- 
 ing of puerperal poison from patient to patient through the medium of 
 attendants. In such cases changes in wards and the most rigid sanitary 
 precautions avail but little, so long as the affected personnel is continued
 
 CAUSES. 1017 
 
 in charge. Unless this fact is fully recognized, all the cleverest devices 
 in hospital construction will fail to prevent the occurrence of disasters. 
 In theory, the doctrine of the contagiousness of puerperal fever has ceased 
 to be the subject of dispute ; and yet no longer than thirty years ago it 
 was combated as a pernicious heresy by both Meigs and Hodge of Phila- 
 delphia, at that time regarded as the best authorities upon obstetrical ques- 
 tions in this country. Hodge, addressing his students, said : " The result of 
 the whole discussion will, I trust, serve not only to exalt your views of 
 the value and dignity of our profession, but to divest your minds of the 
 overpowering dread that you can ever become, especially in women under 
 the extremely interesting circumstances of gestation and parturition, the 
 ministers of evil that you can ever convey, in any possible manner, a 
 horrible virus so destructive in its effects and so mysterious in its opera- 
 tions as that attributed to puerperal fever ;" and Meigs, in his letters to 
 students, writes : " I prefer to attribute them to accident or to Providence, 
 of which I can form a conception, rather than to a contagion of which I 
 cannot form any clear idea, at least as to this particular malady." Con- 
 trasted with these rhetorical utterances, in an essay published in 1843 
 by Prof. Oliver Wendell Holmes, entitled Puerperal Fever as a Private 
 Pestilence, the opposing testimony in favor of contagion was presented 
 with equal literary and scientific skill. The evidence was complete and 
 conclusive, and has exercised a most beneficial influence upon the practice 
 of midwifery in America. With his many claims to our admiration and 
 esteem there is probably no title which Prof. Holmes "wears with greater 
 pride than that of pioneer in a movement that has done so much to pre- 
 vent the slaughter of innocent women and the wrecking of happy homes. 
 Thanks to changed theoretical views, physicians seem now rarely to be 
 the carriers of contagion. At least, in studying the records of New York 
 City for nine years, I find that the occurrence of two deaths from puer- 
 peral disease, following one another so closely as to lead to the suspicion 
 of inoculation, occurred to thirty physicians ; a sequence of three cases 
 occurred in the practice of three physicians : one physician lost three 
 cases, and afterward two, in succession ; one physician had once two 
 deaths, once three deaths, and twice four deaths, following one another ; 
 finally, a physician reported once a loss of two cases near together, then 
 of six patients in six months and then of six patients in six weeks. 
 Thus in the practice of more than twelve hundred physicians in nine 
 years I find, excluding cases occurring in hospitals, that the experience 
 of thirty-six only lends color to the idea that puerperal fever is due to 
 criminal neglect on the part of the medical profession. Undoubtedly in 
 many of these cases, too, the responsibility is only apparent, as when a 
 practitioner has, for example, had the misfortune to lose in one week a 
 woman from puerperal convulsions, and another in the following week 
 from placental hemorrhage. Singularly enough, not one of the sequences 
 mentioned occurred in the practice of a physician connected with a lying- 
 in hospital. In face of the charge that the physicians holding obstetrical 
 appointments in public institutions are active disseminators of puerperal 
 fever through populous communities, I find that the total loss from all 
 puerperal causes, occurring in the private practice of ten physicians inti- 
 mately associated with such institutions, numbered during the nine years 
 but twenty-one cases. Of these, thirteen were the result of ordinary acci-
 
 1018 PUERPERAL FEVER. 
 
 dents, and only eight cases of metria proper, of which one was developed 
 before the physician was called in attendance ; whereas a single physician, 
 holding no hospital appointment, lost during the same time twenty-seven 
 cases, of which twenty-one were cases of metria. 
 
 There is, however, a survival of the older ideas, chiefly to be seen 
 among the laity, in propositions to secure absolute immunity from puer- 
 peral fever in hospital patients by confining them in wooden structures 
 or by conducting births under carbolic acid spray. 
 
 I have been interested in endeavoring to ascertain how far experience 
 corresponds with Semmelweis's oi'iginal theory that puerperal fever owes 
 its origin to poisonous materials obtained from dissecting-rooms and 
 introduced into the genital canal by the hands of physicians attending 
 cases of labor. With this view I have made personal application to a 
 number of gentlemen who have engaged in midwifery practice while 
 performing the functions of demonstrators of anatomy in our medical 
 schools. H. B. Sands, of the College of Physicians and Surgeons, 
 reports that in the five years during which he held the office of demon- 
 strator he attended about sixty cases of labor. All did well. He lost 
 his first patient, from childbed, a short time after he had resigned his 
 position in the dissecting-room. J. W. Wright, the present professor 
 of surgery in the Medical Department of the New York University, who 
 held for one year the position of demonstrator in the Woman's College, 
 writes me that "during the year I attended one hundred and four cases, 
 including twenty-two forceps cases, two of craniotomy, two of podalic 
 version, and four of breech presentation. Of this number I lost two 
 cases, one from phlegmasia dolens complicating uraemia, from both of 
 which troubles the patient had suffered during her previous labor, and 
 one from double pneumonia, the result of unusual exposure following 
 confinement. Out of these one hundred and four cases I can recall but 
 three or four cases of metritis, and those of a mild character ; I have 
 never thought they had any special connection with my duties in the 
 dissecting-room. 1 may add that for ten years I have attended a pretty 
 large number of confinements each year, and that during the whole of 
 this time I have been in the habit of making autopsies as occasion has 
 offered, and of handling and examining pathological specimens both in 
 and out of the dissecting-room, notwithstanding which my death-rec- 
 ord among this class of cases has been unusually low." Samuel B. 
 Ward, formerly demonstrator at the Woman's College, at present pro- 
 fessor of surgery in the Medical School at Albany, writes : " While I 
 was daily in the dissecting-room during the winter sessions of the school 
 from 1868 to 1872, I attended thirty-two confinements, of which I have 
 notes. All of the patients recovered, nor did any of thern^ suffer from 
 any complication that could be traced to infection." It is familiarly 
 known that after Semrnelweis had introduced the practice, among the 
 physicians attending patients at the large lying-in hospital in Vienna, of 
 washing the hands in a solution of chloride of lime, there was a great 
 diminution in the mortality which prevailed, notwithstanding which G. 
 Braun reports, however, that in 1857, in the month of July, in two 
 hundred and forty-five deliveries there were seventeen deaths. The 
 following month Klein gave orders to suspend the use of disinfect- 
 ants. By chance, in August there were only six deaths out of two him-
 
 CAUSES. 1019 
 
 clred and fifty confinements, and in September, of two hundred and 
 seventy-five patients, none died. From 1857 to 1860 the mortality was 
 slight, though disinfectants were not used, while during the three follow- 
 ing years, in spite of the systematic' and persistent employment of these 
 agents, the death-rate once more assumed formidable proportions. 1 
 
 Of course I do not wish to underrate the importance of Semmelweis's 
 labors. There is no question but that it is a perilous experiment to pass 
 from the dissecting-room to a patient in labor without employing rigorous 
 measures to disinfect the hands and all parts of the person brought into 
 contact with the dead body. But it is well to call attention to the fact 
 that puerperal fever is not due to any single, simple cause, nor can be 
 effectually guarded against by a single precaution ; and, again, that an 
 infectious poison does not of necessity exist in every cadaver examined. 
 Hausmann found that injections into the vagina of gravid rabbits, in the 
 latter half of pregnancy, of serum from the corpse of a person who had 
 not died of septicaemia produced no fatal results, while rapid death 
 resulted from injections, under the same conditions, of pus from the 
 abdomen of a woman who had died from puerperal infectious disease. 2 
 Barues and other English writers lay considerable stress upon cases 
 of puerperal fever due neither to contagion nor to atmospheric con- 
 ditions, but to the poisoning of the patient by her own secretions. 
 There is justification for this view in the fact that even normal lochia 
 contain bacteria, and when inoculated into animals produce in them 
 affections of an ichorrhsemic and scpticasmic nature. When death takes 
 place the tissues of animals thus treated are found to be filled with round 
 bacteria. Furthermore, the disease artificially produced is in itself infec- 
 tious, and can be continuously propagated in other animals. But it may 
 be asked, "Does not this admission cut both ways? How is it possible, 
 if even normal lochia possess virulent qualities, that childbed is ever 
 unattended by accessions of fever?" To this we can only answer that 
 the reasons for immunity in ordinary cases are only known in part. 
 Karewski 3 and other experimental investigators have shown that the 
 virulence of the lochia increases proportionately to the number of days 
 that have transpired since the birth of the child, and that during the 
 first three days the lochia are comparatively harmless. Meantime, the 
 retraction of the uterus, the closure of the sinuses, and the formation 
 upon the wounded surfaces of protecting granulations, all act as natural 
 barriers to the penetration of poison-germs. But, aside from these 
 reasons, there is undoubtedly an unknown quantity calling for further 
 investigation, which, in the absence of positive knowledge, ^ye are con- 
 tent to term the predisposition of the individual patient. The vagina 
 after childbirth possesses all the conditions most favorable for the pro- 
 duction of putrefaction viz. the access of air, fostering warmth, and 
 stagnating fluids charged with dead tissue. It is probable that the first 
 of Ihcse needful conditions is, in normal labors, happily wanting in the 
 uterine cavity. In these days of intra-uterine medication it is well to 
 1 Brann, Hiic.kbllcke auf die Gesundheits Verhiilhwse unter den Wochnerlnnen, u. s. w., 
 S. 32, 33. 
 
 den
 
 1020 PUERPERAL FEVER. 
 
 bear in niiud the relatively greater frequency of infection through vaginal 
 and cervical wounds, as compared with that which takes place through 
 the denuded intra-uteriue surface. The term auto-infection may, with 
 propriety, be employed as a distinctive appellation to designate those 
 attacks of fever which, in the absence of any demonstrable cause, occur 
 in the early days of childbed, and which there, quoad vitam, pursue a 
 favorable course, and to cases of so-called late infection i. e. where, 
 after the fifth day, the accidental opening of a healing wound permits 
 the tardy absorption of poisonous secretions ; but with the reserve that 
 the primary cause is, in point of fact, atmospheric, and the predisposing 
 condition the susceptibility of the individual. Cases of auto-infection 
 are in this country extremely rare, if not unknown altogether, in salu- 
 brious or rural districts. 
 
 On another occasion I have shown that in New York City the death- 
 rate from puerperal fever is nearly twice as great during the six months 
 from December to May, inclusive, as from June to November. The 
 greatest mortality occurred in February and March, comprising rather 
 more than one-fourth the entire amount. The smallest number of deaths 
 occurred in September and October, in which mouths but one-thirteenth 
 of the entire number took place. 
 
 That puerperal fever, in its harvest of death, does not spare the 
 wealthy and well-to-do classes is too familiar a truth to be worthy of 
 discussion. That, however, the wealthy do enjoy special immunities 
 as compared with the less-favored members of society, I have shown 
 by comparisons made between sections of the city which, though lying 
 side by side, exhibit in a marked degree the two extremes of wealth 
 and poverty. Thus, the mortality among the representatives of the 
 lower social strata, in proportion to population, was from three to six 
 times as great as that among the more fortunate classes. 
 
 RELATIONS TO ZYMOTIC DISEASES. In investigating, some years ago, 
 the nature, causes, and prevention of puerperal fever, 1 I prepared, from 
 the statistics of the Health Board of New York City, tables extending 
 over a period of nine years to answer the inquiry as to whether there was 
 any relation between the frequency of deaths from scarlatina, diphtheria, 
 and erysipelas and those from metria. Previous to their publication I 
 was anticipated in my deductions by a paper upon the same subject by 
 Matthews Duncan. 2 Neither Duncan nor myself found any such re- 
 lation existing between the statistical frequency of puerperal fever and 
 the zymotic diseases mentioned. There was, however, nothing in our 
 investigations to invalidate any direct testimony which tends to show that, 
 in individual cases, a real connection between puerperal fever and the 
 zymotic diseases may exist. Indeed, it seems to me to be fairly estab- 
 lished that a poison may be conveyed from patients suffering from either 
 of the foregoing morbid processes which may be absorbed by the puer- 
 peral woman, and may in her give rise to an infectious fever possessing 
 an intense degree of virulence. My friend Prof. Barker has recently 
 drawn attention to the important relations of intermittent fever to the 
 puerperal state. I have not, however, thought it advisable to complicate 
 
 1 Trn*. of tie International Med. Congress, Philadelphia, 1876. 
 
 2 'On the Alleged Occasional Epidemic Prevalence of Puerperal Pvspmia, or Puerpe- 
 ral Fever and Erysipelas," Edinburgh Med. Journal, March, 1876, p. 774.
 
 PREVENTION. 1021 
 
 the present discussion with any extended notice of his very valuable 
 observations. So far as malarial fever occurs unequivocally as such in 
 puerperal women, there is no more reason for establishing a special cate- 
 gory for puerperal malaria than for puerperal typhoid or puerperal small- 
 pox. In the class of cases characterized by sharp chills, intense fever, 
 irregular remissions, and profuse perspiration, which pursue a pernicious 
 course unaffected by antiperiodic remedies, the nature is extremely 
 dubious. The same symptoms are likewise characteristic of certain 
 forms of pyaemia, and I cannot learn that such cases are familiar in the 
 practice of those of our physicians who practise outside of cities in dis- 
 tricts where malarial affections are most prevalent. 
 
 PREVENTION. Of the 3342 deaths from puerperal causes in New 
 York City from 1868 to 1875, inclusive, 420 occurred in hospital, or 
 one-eighth of the entire number. Of the 1947 cases of metria, about 
 300, or not quite one-sixth, were contributed by the hospitals. After 
 such a showing the first impulse would be to cry out loudly for the 
 suppression of the maternities. But a wiser policy suggests an inquiry 
 as to whether the large mortality mentioned is an evil necessity. The 
 following reports will show how much may be done in the present 
 state of our scientific knowledge to so control the conditions which 
 favor the generation of puerperal diseases in large hospitals as to make 
 them safe asylums for the needy. 
 
 Goodell l has stated that at the Preston Retreat in 756 cases of labor 
 there have been but 2 deaths from septic disease. Winckel 2 of the 
 Lying-in Institution in Dresden reported, in 1873, 18 deaths from metria, 
 or 1.8 per cent., but from the 10th of January to the 7th of July in 570 
 births there was but 1 case of septic disease ; in the year 1872 the 
 death-rate exceeded 5 per cent. The reduction in mortality was no for- 
 tuitous circumstance, but was due to rigid measures for the prevention 
 of disease. Stadfeldt 3 reduced the mortality from puerperal fever in the 
 Maternity Hospital of Copenhagen from 1 to 37, the proportion between 
 the years 1865 and 1869, to 1 in 87 between the years 1870-74. 
 Johnston 4 reports, in the Rotunda Hospital of Dublin, during the seven 
 years of his mastership, 7860 births with 169 deaths, of which 85, or 1 
 in 91, were from metria. Braun von Fernwald 5 in sixteen years reports 
 61,949 confinements in the vast Maternity Hospital of Vienna, with 825 
 deaths from puerperal fever, or 1.3 per cent. In a visit made by me to 
 the Vienna Maternity in 1883, I was informed that the recent mortality, 
 including difficult operations, had been reduced to one-half of 1 per cent. 
 Spiegelberg 6 lost, in 901 confinements at Breslau, only 5 cases of puer- 
 peral fever. Beurmann 7 reports that in the Hdpital Lariboisiere, under 
 the administration of M. Siredey, the death-rate in 1877 was 1 in 145, 
 and in 1878, 1 in 199, confinements;' in the Hopital Cochin, under the 
 charge of M. Polaillon, the total mortality from 1873 to 1877 was 1 to 
 108.7. In 1877 there was but 1 death from puerperal causes in 807 
 confinements. Upon Prof. Streng's division of the magnificent mater- 
 
 1 On the Mean* employed at the Preston Retreat for the Prevention and Treatment of Puer- 
 peral Diseases, p. 13. 2 Berichte und Studien, Leipsic, 1874, S. 183. 
 
 3 Lea maternites, leur organwa.tion et administration, Copenhagen, 1876. 
 
 4 Clinical Reports, from 1870 to 1876, inclusive. 
 
 6 Lehrbuch der gesammien GynaeMorjie, S. 885. _ wt&i 748. 
 
 7 Rccherches sur la mortality desfemmes en couches dans lea h6pitaux, Paris, 18/9.
 
 1022 PUERPERAL FEVER. 
 
 nity in Prague, I was told that, in 188283, in over 1100 confinements 
 there had been no death from septic causes. 
 
 When the maternity service was transferred in 1872 from Bellevue 
 Hospital to BlackwelPs Island, it became necessary to make some pro- 
 vision for so-called street-cases i. e. women taken suddenly in labor 
 without homes, and representing the extremes of penury and want. 
 At first they were received, in part, by the various private institutions 
 of charity in New York City, but these in 1877 decided to exclude them 
 thenceforth, on the ground that their condition at the time of their recep- 
 tion was such as to endanger the lives of the inmates for whom the 
 charities were specially provided. An old engine-house was then put in 
 readiness by the city, and under the name of the Emergency Hospital 
 was placed under the charge of Henry F. Walker 1 and myself. The 
 number of confinements in the Emergency has averaged 220 annually. 
 The death-rate from all causes has been 2 per cent., which, though large, 
 is not an unfavorable showing when we remember that the patients all 
 belong to the homeless class, that all were taken in labor before their 
 entrance, and that many of them were in a deplorable condition at the 
 time of their admission. The hospital, too, receives a considerable num- 
 ber of patients annually who are sent there only after protracted, and 
 often severe, operative measures have been fruitlessly attempted outside 
 its walls. 2 The building possesses, for maternity purposes, two fairly 
 ventilated rooms. Excellent nurses are furnished by the New York 
 Training School for Nurses. Mr. Osborn, a liberal private citizen, has 
 had constructed in the rear, but detached from the main house, a small 
 pavilion, modelled after that of Tarnier, for the reception of infectious 
 cases. The Commissioners of Charities have promptly responded to every 
 call made upon them to extend the facilities for the care of patients. 
 
 Surely these results do not support the idea that it is better for a 
 woman to be confined in a street-gutter than to enter the portals of 
 a lying-in asylum. Goodell's experience shows that a hospital for 
 respectable married women may be so conducted that its inmates may 
 enjoy absolutely a greater degree of safety than do women in their homes 
 surrounded by all the aids that wealth can command. Equally good 
 results are not to be obtained in hospitals which are open to unfortunates 
 of every class. But there is much misapprehension and confusion of 
 ideas respecting the fate of these women when no charitable provision is 
 made for them. In Copenhagen the Maternity Hospital is closed for 
 from six to eight weeks in the summer-time. During this period unmar- 
 ried parturient women receive pecuniary assistance from the hospital to 
 enable them to obtain a place in which to be confined. Now, Stadfeldt 
 reports a larger mortality among this class than among those delivered in 
 the hospital. Yet they are confined at a favorable season of the year, 
 without any communication with the furniture, the sage-femmes, or the 
 
 ' Dr. Walker lias since resigned, and my present colleague is Prof. Win. M. Polk. 
 
 2 From Oct., 1883, to Aug., 1884, there have been confined 168 women in the hospital. 
 Twenty were brought in from the street just after the birth of the child. Of these 
 188, not one suffered from any puerperal affection. There were 2 deaths 1 from intes- 
 tinal ulcerations, possibly the result of the corrosive sublimate irrigations, and 1 from 
 exhaustion. This latter patient had been thirty-six hours in labor before she was 
 brought to the hospital, and died four hours after admission. Under the admirable 
 management of Miss Hart, the matron, in addition to the slight mortality, there haa 
 likewise been almost complete absence of even trivial temperature elevations.
 
 PREVENTION. 1023 
 
 physicians of the hospital. As they fortunately receive nothing but 
 money, that can hardly be suspected of communicating contagion. What 
 their fate would be in New York City perhaps may be judged from the 
 following facts : Excluding cases confined in hospitals, nearly one-thirtieth 
 of all the deaths and one-twenty-fourth of the cases of metria between 
 1867 and 1875 are reported by four practitioners. Ten practitioners out 
 of twelve hundred signed the death-certificates of one-fifteenth of the 
 women dying from puerperal causes, and one-tenth of the cases of 
 metria. . But it is not to be supposed that these deaths were all the result 
 of malpractice and incompetence. The true history of most of them 
 probably was that the doctor was engaged to attend the case of confine- 
 ment for a small fee, with the understanding that he should make no 
 calls subsequently, unless specially summoned by the friends of the 
 patient. The latter, left to ignorant care or perhaps without any assist- 
 ance whatever, and exposed to all the pernicious influences bred by 
 poverty, when illness supervened probably did not call the physician to 
 her aid until the time for help had passed, so that in the end his profes- 
 sional functions were confined to procuring the requisite permit for burial. 
 
 Humanity demands that charity should furnish places of refuge in 
 which poor outcasts can receive assistance during the perils of child- 
 bearing. If we must, then, have maternities, we should make them 
 safe, and this can be in great measure accomplished by remembering 
 the twofold source of danger arising from a poisoned atmosphere and 
 direct inoculation. A hospital must be clean, spacious, and well-venti- 
 lated, or its atmosphere will become charged with the spores of septic 
 fungi and produce nosocomial malaria. The most rigid sanitary pre- 
 cautions observed by the attendants will not prevent a badly-ventilated 
 ward from becoming unwholesome, unless unoccupied wards are kept to 
 which patients can be transferred upon the first admonition of danger. 
 Goodell states that at the Preston Retreat the wards are used invariably 
 in rotation. In connection with the Maternity at Copenhagen there are 
 a number of small supplementary hospitals scattered through the city, 
 which serve as safety-valves for the central institution. Artificial 
 methods of ventilation render the task of keeping the wards wholesome 
 comparatively easy. They do not need, however, to be complicated and 
 expensive. The good repute of the Rotunda Hospital, it seems to me, 
 is in large measure due to the natural ventilation afforded by open 
 fireplaces. 
 
 In the Vienna Clinic, according to C. Braun, the mortality between 
 1834 and 1862 averaged 6 per cent., and in 1842 the enormous total of 
 521 deaths to 3067 confinements was reached. With the introduction in 
 
 1862 of what is known as Bohm's heating and ventilation system an 
 immediate improvement was experienced. In the sixteen years from 
 
 1863 to 1878, inclusive, the total mortality has been 1.6 per cent., though 
 in that time 5464 practitioners have received an obstetrical training in its 
 wards. In commenting upon this change, Braun says : " I have now 
 from practical experience arrived at the knowledge of the fact that^ the 
 rapid and thorough prevention of putridity by adequate ventilation is to 
 be regarded as a good preventive measure against puerperal fever ; that 
 it is not the number of patients in a lying-in hospital, nor yet the number 
 of patients in a single room, but the deficient circulation of air a fault
 
 1024 PUERPERAL FEVER. 
 
 which may inhere to separate compartments in the smallest maternities 
 which is the important feature in the spread of puerperal fever ; that 
 puerperal women are to be protected from childbed diseases not by 
 isolated buildings and gardens, nor by walls, but by the permanent 
 introduction of great quantities of pure, warm air." He then adds, 
 what is in thorough accord with my own experience, " Before new 
 institutions are built greater attention than heretofore should be paid 
 to the ventilation of the old structures, and, where this is found defec- 
 tive, a system should be substituted corresponding to the scientific 
 requirements." 
 
 In the year 1872 puerperal fever destroyed 28 women of 156 who 
 were confined in the Bellevue Hospital. The service was then broken 
 up, and a great outcry arose against "tainted hospitals." Wooden 
 pavilions were accordingly erected on Blackwell's Island for the recep- 
 tion of lying-in women. These buildings were constructed upon what 
 is known as the cottage plan. They were favorably situated in an airy 
 location remote from the general hospital. They were, however, heated 
 by large iron stoves, and no means of ventilating the wards was pro- 
 vided, except by lowering the windows. In less than three months from 
 their occupancy an epidemic of puerperal fever made it necessary to 
 remove the service for a time to the Charity Hospital. The same result 
 followed every subsequent attempt to utilize them for maternity purposes, 
 until, after three years' trial, it was found necessary to abandon them 
 altogether. 
 
 In private practice it is likewise important that the lying-in room 
 should be provided with plenty of light and air. The physician should 
 insist upon the value of ventilation as a means of contributing to the 
 speedy recovery of childbed women. By hermetically sealing the win- 
 dows, through false fears of his patient's taking cold, he exposes her to 
 the risk of becoming poisoned with her own exhalations. 
 
 But the early experiences of the Hdpital Cochin and the Hopital Lari- 
 boisire, costly, palace-like structures, with every appliance of art, prove 
 that fresh air alone does not protect patients from the consequences of 
 inoculation. 
 
 The great improvement in the condition of maternity patients in recent 
 years has been due to the application of Lister's principles to obstetric 
 practice. Complete antisepsis in the surgical sense is, of course, imprac- 
 ticable. Adequate antisepsis has, however, been proved to result from 
 the observance of a variety of precautions which have been the slow out- 
 come of experience. These, in brief, in hospitals, consist in protecting 
 the patient from every known form of contamination, and in the prompt 
 removal and isolation of every puerperal woman who manifests febrile 
 symptoms. 
 
 In citing the examples of the Hopital Cochin and the Hdpital Lari- 
 boisidre, I was led to the selection because these hospitals most strikingly 
 illustrate the extent of the triumph of the new doctrines. Whereas at 
 the Lariboisiere the mortality in 1854, the year of its opening, exceeded 
 10 per cent., as a result of the prophylactic measures adopted by M. 
 Siredey the mortality was 1 to 145 in 1877, and 1 to 199 in 1878. And 
 at the H6pital Cochin, in 1878, Lucas-ChamponnieTe, with 770 confine- 
 ments, was able to report but 2 deaths from puerperal causes.
 
 PREVENTION. 1025 
 
 As regards details, the bedsteads should be of iron and should be fre- 
 quently scrubbed with a carbolic solution ; after each confinement the 
 palliasse upon which the woman lay should be washed in boiling water 
 and the straw should be burned ; in place of the usual rubber covering to 
 the bed, Tarnier recommends tarred paper, which is antiseptic, and costs 
 so little that it need be used in but a single case ; all soiled linen should 
 be instantly removed from the ward, either to be burned or disinfected by 
 prolonged boiling; sponges should be banished, as, when they have once 
 been soaked with blood, not even carbolic acid can make them safe ; 
 nurses employed in the puerperal wards ought not to have access to cases 
 of labor, as D'Espine and Karewski 1 have shown that the lochia of even 
 a healthy person on the third day will poison a rabbit; a patient attacked 
 with fever should be immediately removed, and the nurse in attendance 
 should go with her. At the Emergency Hospital, with the first appear- 
 ance of catarrhal affection of the genital organs or of so-called milk 
 fever, the wards are immediately emptied and fumigated with sulphur- 
 ous acid. In spite of recent scepticism regarding the value of the fumes 
 of sulphurous acid as a germicide and disinfectant, I do not hesitate to 
 express, after long experience, my firm conviction as to their efficacy. 
 
 Doleris 2 formulates the indications for effective prophylaxis as follows: 
 1, prevent the introduction of germs (antisepsis before confinement) ; 2, 
 paralyze their action (antisepsis after confinement) ; 3, shut up the doors 
 veins, lymphatics, and Fallopian tubes (employment of means which 
 promote uterine contraction). 
 
 The first duty of the physician is to refrain from attending a case of 
 labor when fresh from the presence of contagious diseases or from contact 
 with septic materials, whether derived from the dissecting-room or the 
 clinic. Scepticism regarding these sources of danger is sure in the long 
 run to be severely punished. In a doubtful case the least concession 
 should consist in a full bath and a complete change of clothing. A special 
 coat for confinement purposes, stained with blood and amniotic fluid, is 
 liable to convey infection. In every case of labor, whether in hospital or 
 private practice, the hands and forearms should be freely bathed in a car- 
 bolic solution before making a vaginal examination. A nail-brush should 
 form a part of the ordinary obstetric equipment. Frequent examinations 
 during labor should be avoided. All instruments employed during or 
 subsequent to confinement should be carefully disinfected. In prolonged 
 labors, after operation, in cases of dystocia, or where the membranes 
 have ruptured prematurely and the foetus is dead, it is a useful precaution 
 after delivery to wash both uterus and vagina with warm carbolized water 
 or solution of corrosive sublimate (1 : 2000). In Vienna both Spaeth 
 and Brauii after difficult labors introduce a suppository of iodoform, 2 
 to 2| inches in length, into the uterine cavity. The formula recom- 
 mended consists of 
 
 ^. Iodoform i, 20 grammes ; 
 
 Gummi Arabici, 
 
 Glycerine, 
 
 Amyli puri, da. 2 grammes ; 
 
 Ft. Bacilli, No. iij. 
 
 : D'Espine, " Contribution* d ? etude de la septicemie puerperde," p. 18 ; Karewski, loc. dt. 
 *Lafievre puerperde, 1880, p. 303. 
 VOL. I. 65
 
 1026 PUERPERAL FEVER. 
 
 In their introduction the half-hand (left) should be passed to the cervix ; 
 the iodoform bacillus should be seized by a pair of polypus forceps and 
 pushed into the cervical canal. The hand in the vagina should then be 
 used to shove the suppository upward past the internal os. No symptoms 
 of poisoning from the iodoform have been observed. The disinfection 
 is complete and prolonged. In hospitals the woman should be bathed 
 before entering the lying-in ward, and the vagina should in all cases 
 be disinfected w r ith carbolic acid or corrosive sublimate both before and 
 immediately after labor. The conduct of labor under carbolic acid spray 
 is commended by Fancourt Barnes. Dole"ris advises the application of 
 a compress soaked in carbolic fluid to the external genitals during the 
 progress of labor. Tarnier advises dressing the vulva, so soon as the 
 head begins to emerge, with a pledget soaked in carbolized oil (1 : 10). 
 With the recession of the head during the interval between pains a por- 
 tion of the oil is carried upward into the vagina. 
 
 In the puerperal period the warm carbolized douche stimulates uterine 
 retraction and promotes the rapid healing of wounds in the vaginal canal ; 
 in hospital practice it possesses the additional advantage of preventing the 
 accumulation of putrid albuminoid matters in the air. In private prac- 
 tice the patient should employ a new syringe ; in hospitals every woman 
 should be supplied with a glass tube to be attached to the irrigator. 
 When not in use these tubes should be immersed in carbolic acid. The 
 stream injected into the vagina should be continuous, like that furnished 
 by the fountain syringe. With my hospital patients, in place of cloths 
 to the vulva I have been in the habit of using oakum. By soaking the 
 latter in a solution of carbolic acid the vulva is surrounded by an anti- 
 septic atmosphere. 1 
 
 Pedantic as these directions may seem, they are justified by experience, 
 and the carrying out of the details given easily becomes a matter of habit. 
 That by such precautions puerperal fever is destined to be erased from the 
 list of dangerous diseases attacking the woman in childbed is saying more 
 than is warranted. Nevertheless, it is true that a physician ought never 
 to lose the sense of personal responsibility for its occurrence. Indeed, 
 puerperal fever ought to be regarded as a preventable disease, and an 
 attack as the evidence that some source of danger has been overlooked, 
 though, owing to the imperfection of our knowledge, it may easily happen 
 that even with the keenest scrutiny the precise cause in an individual case 
 may escape detection. 2 
 
 1 I know that of late there has been a strong reaction against the use of vaginal injec- 
 tions in normal childbed, but personally I have experienced none of the disagreeable 
 effects ascribed to them. Indeed, both my hospital and private patients alike speak of 
 them as soothing and grateful. I therefore have had no ground to discontinue them. That 
 they are indispensable I do not claim. They are no longer used in Vienna, in Prague, 
 nor in the New York Maternity, and yet, none the less, their results have since been in 
 the highest degree satisfactory. At these institutions, however, vaginal disinfection is 
 vigorously resorted to during and immediately subsequent to labor, and during childbed 
 some form of antiseptic pad over the vulva is employed. 
 
 2 Since the above was written Dr. Garrigues has furnished a most extraordinary exam- 
 ple of the efficacy of the antiseptic treatment at the New York Maternity Hospital. 
 From the years 1875 to 1882, inclusive, the number of confinements was 2827 ; the deaths 
 116, or a little over 4 per cent. The highest percentage was reached in 1877 viz. 6.67 ; 
 the lowest in 1881, when it fell to 2.36. In 1883, of 345 women confined, 30 died. In 
 September of that year there were 9 deaths, and of 5 puerperre who were seriously ill, 
 1 died later. At this time he introduced a series of reforms of which the following,
 
 PREVENTION. ]Q27 
 
 Before terminating this section upon the prophylaxis of puerperal fever 
 1 take great satisfaction in furnishing from Taruier's recent treatise the 
 Allowing description, by Pinard, of the ingenious pavilion designed by 
 larmer to make it possible to secure for hospital patients, at the mini- 
 mum expense, the benefits of isolation, and to provide for each room in 
 the pavilion all the conditions favorable to rapid and complete disin- 
 fection. 
 
 The pavilions are two-storied and of a rectangular shape, twenty-four 
 feet m width by forty-six feet in length. The front and rear face to the 
 north and south, the ends to the east and west. Two main partitions 
 divide the interior into three divisions. Each end division is subdivided 
 by a central partition into two chambers, so that each story has five com- 
 partments a central one for the attendants, and four at the four corners 
 destined for the reception of patients. On the ground floor the central 
 compartment consists of a vestibule facing to the north, and an office 
 facing to the south. On the former are placed the staircase, the water- 
 closet^ and a reception-closet. In addition to the main entrance there are 
 three interior doors one leading to the water-closet, one to the closet, and 
 one to the office. The latter, for the occupation of the person on dutv, 
 contains a heater, a portable bath, a table, chairs, and wardrobe. T^'o 
 windows face the south. The office has two doors, one opening into the 
 vestibule, and the other, in the opposite side, opens directly outward. 
 The four corner rooms for patients have each a door and a window, the 
 latter looking from the end of the partition and reaching to the floor, and 
 the former opening out from the fa9ade. These four rooms are therefore 
 not only independent of one another, but have no communication with 
 the vestibule or the central office. On the second floor the arrangement 
 is similar, except that the rooms open upon a balcony, by means of which 
 communication from the outside is rendered possible. Upon each faade 
 a glazed screen furnishes shelter in rainy weather. The screen extends 
 to the roof, but is not in direct contact with the walls, a space being 
 left for a current of air. The eight rooms for patients, four on each 
 story, are severally fourteen feet long, eleven and a half feet wide, and ten 
 feet high. Below, the floors are of asphaltum ; above, of flags or slates. 
 The walls and ceilings are stuccoed and covered with oil paint. The 
 corners are rounded to prevent the accumulation of dust. To facilitate 
 
 omitting details, gives the essentials: "Wards fumigated with sulphurous acid fumes, and 
 the floors and furniture washed with a solution of corrosive sublimate (1 : 1000). Every 
 patient, on entering the lying-in ward after the bath, had her abdomen, buttocks, genitals, 
 and thighs washed with sublimate solution (1 : 2000). During labor vagina irrigated 
 with latter solution. In prolonged labors irrigation repeated every three hours. Great 
 care of hands on part of doctor and nurses. Glycerine and corrosive sublimate (1 : 1000) 
 used for lubricating fingers before making internal examinations. Antiseptic pad applied 
 to the head during its egress, and to the vulva until the secondines had been expelled. 
 Absorbent cotton covered with netting soaked in corrosive sublimate solution applied to 
 external genitals during childbed period. This latter applied and removed with the 
 same care as in dressing a wound after a capital operation. Irrigation, first of the vagina 
 and afterward of the uterus, immediately after labor in cases where the hand or instru- 
 ments had been passed into the uterine cavity. 
 
 When the details of this treatment were first published by Garrigues, many took a 
 humorous view of it, but mark the result: In the following 162 confinements there were 
 no deaths, and from October to July, inclusive, of the present year, of 409 patients con- 
 fined, though many operations were performed, 5 died ; but of these, 3 only were from 
 septic causes, and they, Garrigues believes, were the result of the neglect of certain of 
 the prescribed details.
 
 1028 PUERPERAL FEVER. 
 
 washing, the floors slant toward a gutter communicating by means of 
 a pipe with the sewer. In each room panes of glass enable patients and 
 the office attendant to see one another, so that surveillance is secured with- 
 out sacrificing the principle of isolation. The furniture of the rooms 
 consists of an iron bedstead with metallic springs. The pillow, bolster, 
 and palliasse are stuffed with straw. In addition, each room is provided 
 with a night table, a round table, a chair, a stool, and a crib all of iron. 
 A bell-rope at the bedside, the wire of which passes to the office by the 
 outside of the building, enables the patient to summon assistance. Each 
 room likewise contains a washstand, with faucets for hot and cold water, 
 the latter supplied from a cistern on the roof, the former from the office 
 heater. The patients remain in the rooms where they are confined until 
 they are discharged. When this takes place the chamber is aired, the 
 furniture is removed and washed with care, the straw is burned, and the 
 walls are washed with an abundant supply of water. If a patient is 
 taken ill, she is carefully isolated, and has assigned to her her own 
 especial attendant and physician, who do not come into contact with other 
 puerperal patients. 
 
 That the plans of construction in the Tarnier pavilions would require 
 some modification to adapt them to the rigor of our winters seems prob- 
 able, but the principles which they illustrate are sufficiently vindicated by 
 the results so far reported viz. 6 deaths in 1062 confinements, whereas 
 in the old Maternity the death-rate, formerly amounting to 5 per cent., 
 still aggregates 2 to the 100. 
 
 TREATMENT. When the septic germs characteristic of putrid infec- 
 tion have once entered the blood, they are beyond the reach of 
 the physician. Except, however, in cases of acute septicaemia, where 
 the quantity of poison introduced at the outset is excessive, the 
 patient rallies from the immediate shock, and, provided no fresh pyro- 
 genic material finds its way into the system, recovery is to be antici- 
 pated. The indications for treatment are, therefore, to neutralize 
 the puerperal poison at the point of production, in order to prevent its 
 causing further mischief, and to adopt measures calculated to enable the 
 patient to tolerate its presence, when once absorbed, until it is either 
 eliminated or loses its harmful properties. 
 
 Toward the fulfilment of the first indication it is to be recom- 
 mended that in every case of fever of puerperal origin the vagina 
 be cleansed with a 2 to 3 per cent, solution of carbolic acid or 
 corrosive sublimate (1 : 3000) every four to six hours. The douche 
 in itself is absolutely harmless. In most cases the infection starts 
 from the wounds of the vagina and of the cervix. Then, too, the tend- 
 ency of the secretions to stagnate in the vaginal cul-de-sac, bathing as 
 they do the cervical portion, is a prolific source of septic trouble. In all 
 but the mildest cases the vaginal orifice should be examined with refer- 
 ence to the existence of puerperal ulcers. All necrotic patches should be 
 touched with hydrochloric acid, with a 10 per cent, solution of carbolic 
 acid, with iodoform, or, what I personally prefer, a mixture composed of 
 equal parts of the solution of the persulphate of iron and the compound 
 tincture of iodine. The latter acts as a powerful antiseptic, while the 
 former, by corrugating the tissues, closes the lymphatics and shuts up 
 the portals through which the septic germs penetrate into the system.
 
 TREATMENT. 1029 
 
 Infra-uterine injections should be resorted to with extreme circum- 
 spection. They are not indicated by a simple rise of temperature. A 
 very large proportion of the febrile attacks which occur in childbed run 
 an absolutely favorable course. Unless the infection and this is not the 
 rule, but the exception proceeds from the uterine cavity, they are 
 unnecessary. In circumscribed inflammations, where the morbific poison 
 loses its virulence at a short distance from the puerperal lesion, they are 
 often injurious. It is difficult, if not impossible, to so conduct them as 
 to avoid opening up afresh recent granulating wounds. Yet the practice 
 of local disinfection is warmly advocated by Fritsch, Schiiller, Langen- 
 buch, and Schroeder as a prophylatic against puerperal affections. On the 
 other hand, Braun von Fernwald, with his vast opportunities for judg- 
 ing obstetrical questions, writes with reference to this : " We must pro- 
 test against injections made by physicians into the uterine cavity. Such 
 meddlesomeness is more likely to do harm than good." This corresponds 
 with my own experience. In theory, the proposition to treat the uterus 
 as one would any other pus-secreting cavity seems rational, but I have 
 found that every attempt to carry the theory to its logical conclusion in 
 hospital practice has been followed by a rise in the puerperal death-rate. 
 Ruuge reports an epidemic of puerperal fever in Gusserrow's clinic brought 
 about by the employment of mtra-uterme irrigations, during which the 
 mortality rose to 3.8 per cent. With the abolition of the irrigations the 
 mortality sank to .39 per cent. In 1880, Fischel 1 introduced the so-called 
 permanent irrigations into the Prague maternity. Of 880 patients, 9 
 died of sepsis. The irrigations were then prohibited. The following 
 year, of 933 patients, only 2 died from the same cause, and in 1882, of 
 521 patients, there were no deaths from sepsis. Fehling, who limited 
 the use of intra-uterine injections to special momentary indications, 
 reported, in 1880, 415 confinements without a single death. 
 
 Among the accidents which have been referred to the use of injections 
 are convulsions, shock, and carbolic-acid or corrosive-sublimate poison- 
 ing; but the chief danger lies in the possibility of conveying the infec- 
 tious materials, from the vagina to the previously normal uterus. There 
 seems to be no question as to the superior effectiveness of corrosive sub- 
 limate as a germicide. It not only acts more rapidly than carbolic acid, 
 but its action is more permanent. In the usual proportion of 1 : 2000 it 
 is apt, when repeated frequently as a vaginal douche, to corrugate the 
 vagina and cervix. When used for intra-uterine irrigation great pains 
 should be taken that no portion of the fluid remain behind in the uterine 
 cavity. Since its introduction into the Emergency Hospital there has 
 been one death from ulceration in the colon, which possibly was attribu- 
 table to its use. It is to be hoped the claim that corrosive sublimate is 
 an efficient antiseptic in the proportion of 1 : 10,000 may -prove well 
 founded. 
 
 In pressing the necessity of caution and discrimination, 1 have ot, 
 however, intended to discourage the employment of intra-uterine anti- 
 sepsis in cases where it is strictly indicated. Thus, it would be folly, 
 in a fever due to the decomposition of placental d6bris, of shreds of 
 decidua, of strips of membrane, or of retained coagula, -or in diphthentis 
 of the mucous membrane, to treat the general symptoms and neglect 
 1 "Zur Therapie der Puerperalen Sepsis," Arch.f. Gynaek., vol. xi. p. 41.
 
 1030 PUERPERAL FEVER. 
 
 the local cause of difficulty. In a specific case it may prove difficult 
 to decide as to the correct course to pursue. lu general it may 
 be stated that it is proper to wash out the entire length of the genital 
 canal when fever follows prolonged operations conducted within the 
 uterine cavity or the birth of a dead foetus, and in cases of fever asso- 
 ciated with a fetid discharge which persists in spite of the vaginal douche, 
 with the presence of recognizable portions of the ovum or its dependencies 
 in the lochia, with the repeated discharge of decomposed coagula, or with 
 a large, flabby uterus. It will, however, be seen that with proper dis- 
 infection during and immediately after labor, the occasions for late iiitra- 
 uteriue injections are extremely rare. 
 
 The operation of cleansing the uterus should be conducted w r ith the 
 most scrupulous care. The syringe employed should produce a continu- 
 ous and not an interrupted stream, and all air should be expelled from 
 the pipe. The tube to be passed through the cervix should be of glass, 
 of the size of the little finger, and bent somewhat to conform to the 
 pelvic curve. The vagina should first be subjected to a thorough dis- 
 infection, by way of precaution against conveying septic materials into 
 the uterus. The introduction of the tube should be made with the 
 guidance of two fingers passed through the external os. But slight 
 force is requisite to reach the internal os. It is neither necessary 
 nor desirable to push the tube to the fuudus. The fluid injected 
 should be tepid, and, if carbolic acid is used, of the strength of two or 
 three drachms to the pint ; if corrosive sublimate is employed, the strength 
 should not exceed 1 : 3000. It should be introduced very slowly, and 
 pains should be taken to ensure its unimpeded escape, which can usually 
 be accomplished by pressing the anterior wall of the cervix forward by 
 means of the glass tube. Langenbuch recommends securing permanent 
 drainage by leaving a bit of rubber tubing in the cervical canal a plan 
 concerning the merits of which I am not able to speak from experience. 
 The tube is said to be Avell tolerated, and to possess the advantage of en- 
 abling subsequent injections to be performed without disturbing the patient. 
 
 In many cases the results of intra-uteriue treatment are very striking. 
 Often the temperature falls notably within an hour or two of the opera- 
 tion. This result is, however, rarely permanent. Usually the fever 
 recurs, and the operation has to be repeated. The patient should be 
 carefully watched, and with the first sign of returning danger the injec- 
 tion should be repeated. Two or three injections may thus be called 
 for in twenty-four hours, and they may require to be continued for a 
 week. Still, by the means indicated a certain pretty large pi-oportion of 
 women seemingly destined to destruction in the end make favorable 
 recoveries. 1 
 
 Ehrendorfer 2 relates a case of septic endometritis and erysipelas start- 
 
 1 The admirable monograph of Dr. T. G. Thomas, entitled The Prevention and Treatment 
 of Puerperal Fever, has already done much good in calling the attention of the profession 
 at large to the practice of local disinfection. His experience, however, based upon a very 
 large consulting practice, has perhaps been of a kind to furnish him with an undue pro- 
 portion of puerperal cases calling for intra-uterine treatment. With increasing care in 
 the management of labor anil of the birth of the child there seems reason to hope that 
 the necessity for the treatment he so eloquently advocates may, in the near future, dis- 
 appear entirely. 
 
 * '' Ueber die Verwendung der Jodoform staebchen bei der intrauterinen nach behaiid- 
 lung im Wochenbette," Arch.J. Gynaek., vol. xxii. S. 88.
 
 TREATMENT. 1031 
 
 ing from the genital organs, in Spaeth's Clinic, where, after seven days 
 of ineffective uterine irrigations, two bacilli, containing together ten 
 grains of iodoform, were introduced into the uterus. The washings 
 with carbolic acid were then stopped. On the next day the discharge 
 was diminished and the odor was less marked. On the fourth day two 
 new iodoform bacilli were introduced. The patient, in spite of the fact 
 that the erysipelas spread over nearly the entire body, eventually 
 recovered. 
 
 Of the symptoms, the first in order which calls for treatment is 
 usually the peritoneal pain. It is, as we have seen, commonly of a 
 lancinating character, and is associated with hurried breathing . and 
 extreme frequency of the pulse. So soon as the pain is once fairly 
 under control the violence of the onset begins to abate. It should be 
 met, therefore, by the hypodermic injection of from one-sixth to one- 
 third grain of morphia in solution. The anodyne action should be 
 maintained by doses administered by the mouth in quantities and at 
 intervals suited to the severity of the case. The most important object 
 to be secured is freedom from spontaneous pain. It is, moreover, good 
 practice to push the opiate until pain elicited by pressure is likewise 
 controlled, provided it can be accomplished without producing narcosis. 
 In susceptible patients and in localized inflammations the quantity 
 required may not be very great, while in acute general peritonitis the 
 tolerance of the drug exhibited by puerperal women is sometimes ex- 
 traordinary. Thus, a patient of Alonzo Clark took the equivalent 
 of 934 grains of opium in four days ; a patient ' of Fordyce Barker 
 13,969 drops of Magendie's solution in eleven days; and one of my 
 own, at the Maternity, the equivalent of over 1700 grains of opium in 
 seven days. 1 In this latter instance the patient was to all appearance 
 moribund when the treatment was begun. Thus, the features were 
 pinched, the face was drawn, the pupils were dilated, the finger-tips 
 were blue and cold, the respirations were rapid, and the pulse was 
 scarcely perceptible. In this condition the large doses of opium did not 
 produce narcosis, but were followed by restoration of the circulation, by 
 normal breathing, and by the disappearance of the symptoms of shock. 
 Any attempt to relax the treatment was at once succeeded by a recurrence 
 of the alarming symptoms. At the expiration of the disease the opium 
 was discontinued abruptly without detriment to the patient. ^ 
 
 In contrast to cases of acute peritonitis an extreme susceptibility to opium 
 is often observed in the pytemic variety. Here opiates seem to me rarely 
 to do good. They do not hinder the migrations of the round bacteria, 
 there is rarely pain to relieve,' and I have sometimes thought that their 
 adminstration was simply the addition of a second poison to the one 
 which already was overwhelming the nervous system. 
 
 In pelvic peritonitis, in the course of forty-eight hours plastic exuda- 
 tion is thrown out and the pain to a great extent subsides. From this . 
 time very moderate doses of opium, as a rule, are needed to make the 
 patient comfortable. 
 
 In France leeches applied to the abdomen are much used as a means ot 
 relieving peritoneal sensitiveness. That they do this is beyond question. 
 
 i The details of this case have been reported in the Am. Jour, of Obit., Oct., 1880, 
 p. 864, by Dr. F. M. Welles, who conducted the administration of the opium.
 
 1032 PUERPERAL FEVER. 
 
 Their disuse in this country is due probably more to popular prejudice 
 than to their inefficacy. 
 
 In the beginning of an attack a turpentine stupe to the abdomen is a 
 source of comfort to many women, while the sharp counter-irritation exer- 
 cises possibly a favorable influence upon the course of the disease. At a 
 later period I commonly employ flannels wrung out in water and covered 
 with oil-silk to prevent speedy evaporation. It is an old experience that 
 in the beginning of a puerperal fever the provocation of loose stools by 
 purgatives is frequently followed by a fall in the temperature and a great 
 improvement in the patient's condition. The result, however, is far from 
 uniform, as in other cases these artificial diarrhreas have a tendency to 
 aggravate the peritoneal symptoms. Owing to this uncertainty in their 
 action, purgative remedies should be administered with caution, not from 
 any theory as to their eliminative powers, but because of the ascertained 
 existence of fecal accumulation. In pelvic inflammations castor oil in 
 two- or three-tablespoonful doses, or five to ten grains of calomel rubbed 
 up with twenty grains of bicarbonate of sodium, as recommended by 
 Barker, may be given when thus indicated. After the bowels have once 
 been freed, however, the purgative should not be repeated. In cases of 
 intense local inflammation and in general peritonitis enemata should alone 
 be employed for the removal of constipation. 
 
 Every increase of body-heat is associated with rapid tissue-waste, with 
 enfeebled heart-action and with exhaustion of the nerve-centres. Since 
 the modern recognition of the deleterious effects of high temperatures per 
 se, antipyretic remedies in place of the old-time cardiac sedatives have 
 come to play the leading role in the treatment of fevers. 
 
 Of internal antipyretic agents quinia enjoys a deservedly high repute. 
 In the remitting forms of fever it may be administered in five-grain doses 
 at intervals of four to six hours. Given thus in medium doses, it moder- 
 ates the fever, diminishes the sweating, and in most patients lessens gas- 
 tric and intestinal disturbances. In continued fevers it should, on the 
 contrary, be given in a single dose large enough to procure a distinct 
 remission. By making a break in the febrile symptoms, if only of a few 
 hours' duration, a retardation of the destructive processes is accomplished. 
 At the first administration twenty to thirty grains may be given. In 
 favorable cases the temperature falls in the course of a few hours below 
 101. When the high temperature is only temporarily held in check, at 
 the end of twenty-four hours, if all symptoms of cinchonism have dis- 
 appeared, the same dose should be repeated. If the doses mentioned, 
 given in the manner prescribed, produce no perceptible effect upon the 
 fever, their continuance may be regarded as unnecessary. 
 
 C. Braun and Richter speak favorably of the action of salicylate of 
 sodium. 1 It possesses antipyretic properties, though in a less degree than 
 quinia. It is, however, rapidly absorbed, circulates through all the 
 parenchymatous organs, and finally is discharged unchanged in the urine. 
 It is said by Binz, in small doses, to hinder the action of the disease- 
 producing ferments, while it leaves untouched the normal ferments of the 
 organism. It is of special service where quiuia is not well tolerated, or 
 when given fifteen to twenty grains at a time every four to six hours as 
 
 1 Kichter, "Ueber intrauterine Injectionen," etc., Zeitschr. fur Geburtsk. und Gynaek.. 
 Bd. ii. Heft 1, p. 146.
 
 TEE A TMEST. 1033 
 
 an adjuvant to large single doses of quinia. The remedy should be 
 continued until all traces of febrile disturbance have disappeared. 
 
 A more powerful remedy than salicylic acid, where quinia has failed 
 is the Warburg's tincture. Some patients find, however, that it is some- 
 what difficult to retain upon the stomach. 
 
 Not many years ago, owing to the encomiums of Fordyce Barker, 1 
 the tincture of veratrum viride was in great favor in puerperal fever as 
 a means of reducing the excited pulse of inflammation. The plan recom- 
 mended was to administer five drops hourly, in conjunction usually with 
 morphia, until the pulse was brought down to 70 or 80 beats to the min- 
 ute. If the pulse had once been reduced, then three, two, or one drop 
 hourly would be found sufficient to control it. Vomiting and collapse 
 from its use were no cause for alarm, as they were temporary symptoms, 
 and were followed by a fall of the pulse to 30 or 40 a minute, which was 
 rather of favorable prognostic significance. In the rapid pulse of exhaus- 
 tion, however, veratrum should not be given. Since the introduction of 
 the thermometer into practice the reduction of the pulse by veratrum has 
 been found to be associated with a fall in the temperature of the body. 
 Of late, however, veratrum has gone rather out of vogue, not because it 
 is not a very effective agent, but because its adminstration is an art to be 
 acquired, and cannot safely be entrusted to an unskilled assistant. Then, 
 too, in the last ten years there has grown up a better acquaintance with 
 less dangerous remedies. 
 
 Braun recommends in severe cases, where quinia alone is without, 
 effect, to give in addition from twelve to twenty-four grains of digitalis in 
 infusion per diem until its specific action is produced. Unlike veratrum, 
 digitalis effects a permanent slowing of the heart. By prolonging the 
 cardiac diastole and contracting the arterioles it allows the left ventricle 
 to fill, restores the arterial tension, diminishes correspondingly the intra- 
 venous pressure, and promotes absorption. Its tendency to produce gas- 
 tric disturbances and the distrust felt as to its safety have prevented its 
 becoming popular in practice. 
 
 Alcohol as an adjuvant to treatment is indicated in all cases, whether 
 quinia or salicylic acid or veratrum be simultaneously employed. It 
 stimulates and sustains the heart, it retards tissue-waste, and is in itself an 
 antipyretic of no mean value.- Usually I give it in conjunction with 
 quinia, one or two teaspoonfuls hourly of either whiskey, rum, or brandy, 
 in accordance with the recommendation of Breisky. 2 But many years 
 before I had learned from my friend Prof. Barker that the specific influ- 
 ence of veratrum was in many cases not obtained until the use of alcohol 
 was combined with it. 
 
 The antipyretic action of drugs is probably due for the most part to 
 some direct influence they exert upon the oxygenation of the tissues. Of 
 course the less the fire the less the heat. It is well, however, to support 
 their internal administration by the external employment of cold. Cold 
 owes its effect in fevers partly to the abstraction of heat from the body- 
 surface, and in a still more important degree to the impression which it 
 produces upon the nervous system. In healthy persons the action of cold 
 is to increase the consumption of oxygen and the production of carbonic 
 
 1 The Puerperal Diseases, p. 347. 
 
 2 Ueber Alcohol und Chinin-behandlung, Bern, 1875.
 
 1034 PUERPERAL FEVER. 
 
 acid. The additional heat thus generated renders it possible to sustain 
 the vicissitudes of climate. In fevers the primary effect of cold is simi- 
 lar in character. Its main therapeutical action is derived from its sec- 
 ondary influence upon the nerve-centre which regulates the body-heat. 
 If the cold employed be sufficiently intense or sufficently prolonged, there 
 follows, not always immediately, but in the course of an hour or two, a 
 marked lowering of the temperature, which can only be accounted for by 
 assuming an indirect influence exerted through the sympathetic nerve and 
 the medulla oblongata. This peculiarity renders the external application 
 of cold a most valuable addition to the therapeutical resources available 
 in fevers. 
 
 In cases of moderate severity frequently sponging the patient with cold 
 water will be found to be a grateful practice. An ice-cap to the head, 
 where the blood lies near the surface, will often affect the entire temper- 
 ature of the body. From immemorial times it has been employed to 
 control delirium and promote sleep. An ice-bag placed over the inguinal 
 region is locally beneficial to deep-seated pelvic inflammations, and, ac- 
 cording to Braun, is capable of effecting a rapid fall of temperature. 
 Ice-cold drinks should be freely allowed. 
 
 Schroeder recommends a permanent stream of cold water in the uterine 
 cavity by means of a large irrigator and a drainage-tube ; others advise 
 cold rectal injections maintained for long periods by the aid of a tube 
 with a double current. 
 
 In fevers of great violence the systematic application of cold by means 
 of baths or the wet pack is capable in some cases of rendering important 
 service. The temperature of the bath should range from 70 to 80. Its 
 duration should not exceed ten minutes. The patient should, when re- 
 moved to the bed, be wrapped in a sheet without drying, and should be 
 comfortably covered. In employing the wet pack two beds should be 
 placed side by side. The body and thighs of the patient should be 
 wrapped in a sheet wrung out in cold water, and be allowed to remain in 
 the pack from ten to twenty minutes. As the sheet becomes heated the 
 patient should be placed in a fresh one upon the second bed, and the trans- 
 fers should be continued until the desired fall of temperature is effected. 
 Braun claims that four packs are equivalent in action to one full bath. 
 
 Both these methods are, however, open to the objection that they can- 
 not be carried out without considerable disturbance of the patient 
 a point of no small importance in cases of peritonitis. G. B. Kibbie 
 has invented a fever-cot which obviates the ordinary difficulties of this 
 mode of treatment. The cot is covered with " a strong, elastic cotton 
 netting, manufactured for the purpose, through which water readily 
 passes to the bottom below, which is of rubber cloth so adjusted as to 
 convey it to a vessel at the foot." T. G. Thomas, 1 who has em- 
 ployed this apparatus extensively to reduce high temperatures after 
 ovariotomies, explains as follows the modus operand!: "Upon this cot 
 a folded blanket is laid, so as to protect the patient's body from cutting by 
 the cords of the netting, and at one end is placed a pillow covered with 
 india-rubber cloth, and a folded sheet is laid across the middle of the cot 
 about two-thirds of its extent. Upon this the patient is now laid ; her 
 
 1 " The Most Effectual Method of Controlling the High Temperature occurring after 
 Orariotomy," JV. Y. Med. Jour., August, 1878.
 
 TREATMENT. 1035 
 
 clothing is lifted up to the armpits, and the body enveloped by the folded 
 sheet, which extends from the axillae to a little below the trochanters. 
 The legs are covered by flannel drawers and the feet by warm woollen 
 stockings, and against the soles of the latter bottles of warm water are 
 placed. Two blankets are then placed over her, and the application of 
 water is made. Turning the blankets down below the pelvis, the physi- 
 cian now takes a large pitcher of water, at from 75 to 80, and pours it 
 gently over the sheet. This it saturates, and then, percolating the net- 
 work, it is caught by the india-rubber apron beneath, and, running down 
 the gutter formed by this, is received in a tub placed at its extremity for 
 that purpose. Water at higher or lower degrees of heat than this may 
 be used. As a rule, it is better to begin with a high temperature, 85, or 
 even 90, and gradually diminish it. The patient now lies in a thor- 
 oughly soaked sheet, with warm bottles to her feet, and is covered up 
 carefully with dry blankets. Neither the portion of the thorax above 
 the shoulders nor the inferior extremities are wet at all. The water is 
 applied only to the trunk. The first effect of the affusion is often to 
 elevate the temperature a fact noticed by Currie himself but the next 
 affusion, practised at the end of an hour, pretty surely brings it down. 
 It is better to pour water at a moderate degree of coldness over the sur- 
 face for ten or fifteen minutes than to pour a colder fluid for a shorter 
 time. The watej* slowly poured robs the body of heat more surely than 
 when used in the other way. The water collected in the tub at the foot 
 of the bed, having passed over the body, is usually 8 or 10 warmer 
 than it was when poured from the pitcher. On one occasion Dr. Van 
 Vorst, my assistant, tells me that it had gained 12. At the end of 
 every hour the result of the affusion is tested by the thermometer, and 
 if the temperature has not fallen another affusion is practised, and this 
 is kept up until the temperature comes down to 100, or even less. It 
 must be appreciated that the patient lies constantly in a cold wet sheet, 
 but this never becomes a fomentation, for the reason that as soon as it 
 abstracts from the body sufficient heat to do so it is again wet with cold 
 water and goes on still with its work of heat-abstraction. I have kept 
 patients upon this cot enveloped in the wet sheet for two and three weeks, 
 without discomfort to them and with the most marked control over the 
 degree of animal heat. Ordinarily, after the temperature has come 
 down to 99 or 100, four or five hours will pass before affusion again 
 becomes necessary." 
 
 Since reading this account, I have made a good many trials of the 
 method upon puerperal women, and have not found that it agrees with 
 all in an equal degree. In some instances the affusions have been fol- 
 lowed, in spite of hot bottles to the feet and the administration of stimu- 
 lants, by such' a degree of depression and impairment of cardiac force, 
 as shown by the persistent coldness of the extremities, that it has been 
 necessary to discontinue them. On the other hand, I can look back 
 upon cases, apparently so desperate that the condition of the patients was 
 looked upon as hopeless, where they proved the means of saving life as 
 by a miracle. Of course, the difference depends upon whether the high 
 temperature is the sole cause of the alarming symptoms, or whether the 
 latter are in part due to blood-dissolution and secondary changes in the 
 parenchymatous organs.
 
 1036 PUERPERAL FEVER. 
 
 The use of the coil in fever, whether of rubber or of metal tubing, I can 
 highly recommend. Either the night-dress or a towel should be placed 
 between the coil and the skin. A current of cold water passing through 
 the tube rapidly abstracts the surface heat, and is usually grateful to the 
 patient. The lowering of the temperature by this means is much slower 
 than by cold affusions. Disturbance of the patient is, however, avoided, 
 and the method, so far as I have tried it, has been free from the objec- 
 tions incident to the direct application of Avater to the skin. 
 
 It is hardly necessary to state that in puerperal, as in other fevers, the 
 patient's strength requires to be sustained and the waste of tissue to be 
 repaired, as far as possible, by the regulated administration of liquid food, 
 as milk and beef-tea, in such quantities as can be borne by the stomach, 
 and at one to two hours' intervals. 
 
 In the treatment of encysted peritoneal effusions, and in inflammatory 
 exudations into the pelvic and adjacent cellular tissue, after the acute 
 symptoms have subsided the attention should be directed to the afternoon 
 fever and to promoting the assimilation of food. So soon as the sweating 
 and fever are checked the absorption of the plastic materials begins. The 
 most important agents for accomplishing this object are quiuia, in mode- 
 rate doses, combined with some form of alcohol and with tepid sponging. 
 Deep-seated pain in the iliac region is best relieved by a large blister upon 
 the side over the point where the tenderness is felt. Prolonged rest in 
 bed should be enjoined. Even after convalescence is well advanced, so 
 long as the exudation remains unabsorbed the resumption of household 
 duties is pretty certain to be followed by a relapse or by the development 
 of a chronic condition of a most intractable description. The sooner the 
 patient's stomach can be got to digest and absorb beefsteak and iron the 
 more speedy will be her recovery. 
 
 In pelvic exudations the hot vaginal douche, warm baths, and the 
 application of flannels wrung out in water to the abdomen aid in dimin- 
 ishing the local pain, and, perhaps, in causing a disappearance of the 
 tumor. The action of mercurials or of iodide" of potassium in melting 
 away plastic inflammatory materials is sometimes very striking, but more 
 frequently they either do no good or else do harm by disturbing the 
 digestion. 
 
 If fever, chills, and sweating announce the presence of pus, the most 
 careful exploration should be made to determine, if possible, the seat 
 of suppuration. It is of great advantage to treat pelvic abscesses as 
 abscesses are treated elsewhere in the body. If the redness of the skin 
 above Poupart's ligament indicates a tendency to point in that direction, 
 an aspirator-needle should be introduced to make sure of the diagnosis. 
 If the sac is near the surface, a free incision should be made and the pus 
 should be allowed to escape. In many cases I make these incisions three 
 to four inches in length. The redness of the external skin makes it cer- 
 tain that the abscess has become adherent to the abdominal wall, and that 
 the incision consequently will not communicate with the peritoneum. 
 After the abscess has been opened it should be cleansed twice daily, and 
 the cavity should be filled with oakum. If, after a time, the granulations 
 become flabby, Peruvian balsam or iodoform should be introduced into the 
 sac at each change of the dressing. I can recommend this plan as essen- 
 tially a mild procedure. With a large opening for the discharge of
 
 TREATMENT. 1037 
 
 pus the fever and sweating disappear, the appetite returns, and the 
 abscess fills rapidly by granulation. With a small incision hectic is 
 apt to persist, and the abscess to end in the formation of interminable 
 fistulse. 
 
 If softening and bagginess or distinct fluctuation indicate that the 
 pus can be reached through the vaginal cul-de-sac, the aspirator-needle 
 should be inserted deeply at the suspected point, and if a large amount 
 of pus is detected, an incision should be made with a long-handled 
 bistoury, using the needle as a director, and making the opening large 
 enough to permit the introduction of a drainage-tube. I prefer for 
 this purpose a self-retaining Nelaton catheter, which is easily passed 
 by means of a uterine sound inserted into the eye at the extremity. 
 Through the tube without disturbing the patient the pus-cavity can 
 be washed as frequently as required, and with drainage and cleanliness 
 cases of the longest standing may be expected to recover. 
 
 P. F. Munde 1 has reported a number of cases of chronic character 
 where the aspiration of pus has been followed by rapid absorption of the 
 intra-pelvic exudation. The presence of pus was suspected because of a 
 boggy, doughy feeling in the exudation tumor. 
 
 1 " Diagnosis and Treatment of Obscure Pelvic Abscess," etc., Arch, of Med., December, 
 1880.
 
 BERIBERI. 
 
 BY DUANE B. SIMMOXS, M. D. 
 
 DEFINITION. Beriberi is a disease of inanition, most common in 
 tropical countries, though found in high latitudes (41 N.), especially in 
 low-lying seaboard towns, during the summer months, and is both 
 endemic and epidemic. It is usually chronic in form, but is subject to 
 exacerbations of varying degrees, and has for its characteristic symptoms 
 anaesthesia of the skin, hyperresthesia and paralysis of the muscles, 
 anasarca, palpitation, cardiac and arterial murmurs (in the wet form), 
 praecordial oppression, and abdominal pulsation. 
 
 HISTORY AND GEOGRAPHICAL DISTRIBUTION. It was for a long 
 time confounded with a great variety of other diseases. The Anglo- 
 Indian physicians of Ceylon and the Malabar coast were no doubt the 
 first to recognize the specific nature of the disease, though it is claimed 
 that Chinese medical works of the thirteenth century contain a fairly 
 accurate description of it. 
 
 The literature of beriberi, at the first glance, appears to be very 
 meagre, as some of the most popular medical works make no mention of 
 the disease at all, while others only give it a passing notice. Its bibli- 
 ography, however, is very considerable, as may be seen in the exhaustive 
 list in Billings' .Index Catalogue, but for want of space we refer only 
 to the most recent contributions to the subject. These are an article 
 by A. LeRoy dc Mericourt; 1 an essay by Tarissau, entitled Beriberi in 
 Brazil ; an article by Anderson, 2 and an essay by myself. 3 
 
 For a long time beriberi was supposed to have a peculiar territorial 
 limitation. It is now known to be more or less prevalent on all the 
 islands and shores of Eastern Asia and Africa from Japan to the Cape of 
 Good Hope, and in Brazil. 
 
 ETIOLOGY. I know of no disease in regard to which a greater diver- 
 sity of opinion exists as to its cause. Indeed, as one has observed, 
 " autant d'auteurs, autant d'opinions diverses." Ten years' study and 
 observation of the malady under a great variety of circumstances and 
 conditions have led me to the definite conclusion that its exciting cause is 
 a specific poison or germ, having many striking resemblances in its mode 
 of production to paludal or marsh miasm, though entirely distinct and 
 separate from it. A great variety of predisposing causes, however, exert 
 a powerful influence in rendering individuals or classes susceptible to the 
 
 1 Dictionnaire Encyclopedique des Sciences Medicales, Paris, 1876. 
 
 * Guy's Hospital Reports. 3 Chinese Maritime Customs Medical Report (1880). 
 
 1038
 
 CLINICAL HISTORY AND SYMPTOMS. 1039 
 
 disease, such as age, sex, 1 occupation, race, mode of life, diet, and cli- 
 mate. 
 
 _ CLINICAL HISTORY AND SYMPTOMS. There are three forms of the 
 disease : 1st. Beriberi hydrops (wet beriberi), in which there is a hydne- 
 mic condition of the blood, distension of the general areolar tissue, with 
 serum, and effusion into the serous cavities. 2d. Beriberi atrophia (dry 
 or atrophic beriberi), in which there is a notable deficiency of fluids in 
 the vessels and areolar tissue, and atrophy of the muscles. 3d. Mixed 
 beriberi, in which the above forms lose the sharp lines of distinction and 
 merge into each other. Cases complicated with dysentery, diarrhoea, and 
 especially with continued fevers of the typhoid type, are not uncommon. 2 
 These last, besides being of grave prognosis, are frequently very embar- 
 rassing and difficult of diagnosis. 
 
 In general terms, wet beriberi may be divided into two stages 
 the prodromic stage and the stage of attack ; and into several types the 
 acute or pernicious, and the chronic. From the very insidious nature of 
 the approach of the disease, sometimes extending over a period of several 
 weeks, it is often very difficult, or even impossible, to determine the 
 exact time of its invasion. It is generally admitted that a residence of 
 some weeks in an infected locality is necessary before any decided symp- 
 toms make their appearance. As in many other diseases of slow develop- 
 ment, the symptoms of the prodromic stage are certain not easily defined 
 feelings of indisposition, such as an occasional sense of chilliness, inapt- 
 itude for mental exertion, and especially a tired feeling in the lower 
 extremities. A period of uncertain length now intervenes, during which 
 the characteristic symptoms appear and constitute the stage of attack. 
 The first of these symptoms is, generally, anaesthesia of the skin over the 
 anterior tibial muscles, in the tips of the fingers, and around the mouth, 
 in the order given. Paralysis in varying degrees next declares itself in 
 certain groups of muscles, usually those immediately underlying the 
 regions of anaesthesia. One of the consequences of this is a drooping 
 of the toes, causing the patient while walking to lift the feet high so as 
 to clear the ground, thus occasioning the peculiar gait noticed by many 
 observers as characteristic of the disease. A sense of constriction in the 
 muscles of the calves is experienced at the same time, arising from a veri- 
 table contraction, which causes their apparent enlargement and hardening, 
 with tension of the tendo achillis. A feeling of tightness in the chest 
 usually accompanies this condition, due, no doubt, to partial paralysis of 
 the muscles of respiration. If firm pressure be now made upon the 
 muscles in various parts of the body, a greater or less degree of tender- 
 ness will be found to exist in many of them, and especially those occupy- 
 ing the posterior part of the leg, back of the forearm, inside of the arm, 
 and upper part of the chest. Tenderness of the periosteum of the long 
 bones and a peculiar roughness of their surfaces often exist also. _ Pal- 
 pitation of the heart, especially on making any considerable exertion, is 
 a frequent and often troublesome symptom, even at this stage of the 
 disease. 
 
 Up to this point the above symptoms are common to both the wet and 
 
 1 Women suffer from the disease much less frequently than men. 
 
 2 Some authors have designated fatty or convulsive forms of the disease, which J 
 think unnecessary.
 
 1040 BERIBERI. 
 
 dry forms of the malady, and to them the characteristic features either of 
 beriberi hydrops or atrophia are now added. The first manifestation of 
 anasarca, the pathognomonic symptom of wet beriberi, is in an cedematous 
 condition of the areolar tissue of the anterior part of the legs. This, in 
 reality, is more or less general even at an early stage of the disease, as is 
 evident from the plump appearance of the patient and a certain sallow- 
 white color of the skin, especially of that of the face. In uncomplicated 
 cases the temperature is normal, or it may be at times a little below the 
 normal point. There is also little or no increase in the frequency of the 
 pulse. Its quality, however, is changed, and somewhat characteristic for 
 both forms of the disease. Thus in the wet form it is full, large, and 
 easily compressible, indicating a great diminution of arterial tone, while 
 in the dry form there is nearly an opposite condition. If the heart be 
 now examined, a decided systolic murmur will be heard, most distinctly 
 over the pulmonary valves ; and in most cases of wet beriberi it exists 
 in all the large arterial trunks. The heart furnishes the usual signs of 
 dilatation and want of tone. In the dry form the cardiac murmurs are 
 either slight or wanting altogether, and the area of cardiac duluess is 
 variable, and frequently diminishes as the disease advances. 
 
 In both wet and dry beriberi the appetite is little impaired in the 
 earlier stages, but if in the former the stomach is over-distended, there 
 is increased prsecordial oppression, and sometimes sudden death. The 
 bowels in the wet form are sluggish, and urine scanty ; in the other there 
 is but little deviation from the normal in these respects. 
 
 The cases of the subacute type nre by far the most numerous. From 
 this it is evident that the acute or pernicious type of the malady is, in 
 most cases, only an exaggeration of the subacute, as observed in some 
 other diseases, notably rheumatism and those of marsh malarial origin. 
 The term pernicious is, strictly epeaking, applicable to the wet form of 
 the disease only, as the dry form is rarely, if ever, rapidly fatal. A 
 marked case of wet beriberi is always to be regarded as dangerous, from 
 the suddenness with which pernicious symptoms often declare themselves. 
 In these the anasarca (which, as has been stated, constitutes the leading 
 clinical difference between the two forms of the malady) plays an import- 
 ant role. It often happens that in the course of a few hours the local 
 osdema in the extremities and the slight puffiness of the face become general 
 and extreme, and the neck is enormously swollen by the distension of the 
 veins, both deep and superficial. The pleural and pericardial sacs are 
 more or less distended vrith serum, thus mechanically embarrassing the 
 action of the organs they contain. The action of the heart now becomes 
 laborious, the lungs cedematous and filled with coarse rales, and a terrible 
 sense of suffocation comes over the patient, causing him to seek relief by 
 constant change of position. The stomach is irritable, a greenish-yellow 
 fluid is vomited, and death closes the scene. The acute stage of dry beri- 
 beri, on the contrary, is characterized by a rapid diminution of the fluids 
 of the body and muscular atrophy. 
 
 The annual appearance in the same individual of either wet or dry 
 beriberi, and its long continuance, constitute the chronic type of the 
 disease. 
 
 MORBID ANATOMY. The morbid anatomical changes in beriberi vary 
 considerably with its form. Few, if any, observers claim seriously to
 
 MORBID ANATOMY. 1041 
 
 have found in either the wet or dry form of the disease evidences of acute 
 inflammatory action in any of the tissues or organs. The blood un- 
 doubtedly undergoes important morbid changes, whereby its nutritive and 
 oxygenating power is impaired, indicating that this is a disease of inan- 
 Ilns shows itself most markedly in necrobiotic and degenerative 
 changes, especially in the muscular tissues, which are the seat of the 
 leading morbid phenomena in all stages of both forms of this disease 
 I he respiratory, digestive, and glandular systems rarely undergo morbid 
 changes other than those of a secondary or passive kind, such as eno-oree- 
 meut with serum and venous blood. 
 
 ^ The condition of the organs contained in the cranial and spinal cavities 
 is variable and inconstant. According to some observers, the substance 
 of the brain and spinal cord is hardened. The greater number by far, 
 however, have found it more or less softened. 1 The heart in wet beriberi 
 is habitually large and flabby, its muscular tissue softened and of a pale- 
 yellow and macerated appearance. Its cavities are engorged with dark 
 blood, sometimes fluid, but more often clotted. These clots are often 
 voluminous in the right heart, semi-fibrinous, and extend into the pul- 
 monary artery and great venous trunks, which are enormously enlarged. 
 The cardiac muscular tissue I always found to have undergone metamorphic 
 changes, varying from granular clouding to advanced fatty degeneration. 2 
 The tissue of the paralyzed voluntary muscles undergoes degenerative 
 changes in both forms of the disease. In the extreme atrophy of dry 
 beriberi I have not unfrequently found many of the sarcolemma sheaths 
 completely emptied of their contents. The power of regeneration in 
 these cases is often wonderfully displayed by an almost complete restor- 
 ation of the lost elements, and, in a corresponding degree, of the function 
 of the part. 
 
 It ^ would appear that in wet beriberi the heart is first weakened by 
 paresis of the cardiac ganglia, with consequent incomplete emptying of its 
 cavities. This, in connection with rapid degenerative changes in its muscu- 
 lar tissue, causes the walls to yield to the blood-pressure, producing dilata- 
 tion and tricuspid insufficiency, with regurgitation and consequent capil- 
 lary stasis and dropsy. Vaso-motor nerve-paralysis, acting at the same 
 time on the pulmonary artery and arterioles, and on other large arterial 
 trunks, probably gives rise to the murmurs heard in them. In the dry 
 form of the disease the vaso-motor nerve-paralysis is less pronounced, 
 and the degenerative changes in the muscular tissue of the heart slower, 
 while the marked decrease in the fluids of the system and the great fail- 
 ure of nutrition tend toward atrophic changes. From this it follows 
 that we usually have, instead of a large dilated heart, a small weak one, 
 with a narrow tricuspid orifice instead of a dilated one ; little or no inter- 
 
 1 The former condition was undoubtedly observed in autopsies made of the dry or atro- 
 phic form of the disease, though this fact is not mentioned. The latter, or softened, 
 condition of the cerebro-spinal contents belongs to the wet form of the disease (my own 
 cases being of this kind). I regard this softening as not ante-mortem, but as consecutive 
 to serous imbibition (as observed by Eismann and Sanders in chlorosis), and as taking 
 place during the last moments of life or after death, when the vital forces no longer oppose 
 themselves to the mechanical disintegrating power of the fluid with which the nervous as 
 well as all the other tissues of the body are engorged. 
 
 2 1 believe this to be the condition of the heart-muscle in all cases of death from the 
 wet form of beriberi. In this opinion I am supported by Oudenhoven and many of the 
 Dutch observers. 
 
 VOL. I. 6
 
 1042 EEEIBEEL 
 
 costal pulsation, arid hence less cardiac dulness ; no venous distension or 
 capillary stasis, and hence no dropsy. 
 
 PROGNOSIS. In temperate climates the prognosis of uncomplicated 
 beriberi is favorable in a majority of cases. In seasons of its epidemic 
 prevalence, however, all cases of the wet form of the disease must be 
 carefully watched, as it not uiifrcquently happens that grave symptoms 
 suddenly appear at a time when no danger has been anticipated. An un- 
 favorable prognosis may be ventured -when, in a case of wet beriberi, relief 
 is not obtained by free purging or when vomiting sets in. In dry beri- 
 beri the termination in death is exceedingly rare as a direct result of 
 the action of the poison producing the disease, so that when death does 
 occur it is chiefly from exhaustion. The time of recovery depends on 
 the amount of muscular degeneration, and also upon the season of the 
 year when the attack occurred, as all cases of both forms of beriberi 
 usually get well without treatment during the winter mouths. 
 
 TREATMENT. The well-established fact of the influence of certain 
 localities in the production of beriberi makes the removal of the 
 patient from them a hygienic measure of great importance, and this is 
 frequently the only treatment necessary if it can be done early. The 
 effect of the change is often almost magical, especially if it be made to 
 an elevated locality and among the mountains. 
 
 Diet is an important element in the treatment of beriberi. At the head 
 of the list of foods to be avoided is rice. Coarsely prepared grains, such 
 as wheat, barley, certain kinds of beans, 1 apparently because of more or 
 less laxative properties, are preferable as articles of food. 
 
 No drug has been discovered possessing specific properties in this dis- 
 ease. In the wet form, medication consists in the administration of drugs 
 calculated to draw off the excess of serum in the areolar tissues and in 
 the serous sacs. First in point of efficacy for this purpose are the 
 hydragogue cathartics. In my own practice the sulphate of magnesia, 
 in large and repeated doses, has given the best results; elaterium, a 
 powder of jalap, squill, and digitalis, and, in fact, any medicine which 
 will give frequent and copious stools, are sure to afford marked relief to 
 the more urgent symptoms, and in many cases will alone effect a cure. 
 Care must be taken, however, not to exhaust the patient, though I have 
 never seen the judicious use of this method of treatment do harm. 
 
 Copious bleeding is recommended by Anderson, especially in the stage 
 of greatest danger, but I have never been able to convince myself of its 
 safety. 
 
 The almost specific virtue claimed by the old Indian physicians for 
 treeak farook is no doubt due to its cathartic properties. 
 
 Diuretics are indicated for the same reason as cathartics, and any of 
 the more active are productive of good results. They are too slow in 
 their action, however, to be relied on otherwise than as adjuvants to 
 cathartics. I have found juniper gin to answer an excellent purpose, 
 both as a stimulant and diuretic, where there was danger of exhaustion 
 from the free use of cathartics. 
 
 The medical treatment of dry beriberi differs materially from that of 
 
 1 A small red bean called adzuke, possessing both laxative and diuretic properties, is a 
 favorite remedy with the Japanese for beriberi. It is used alone or mixed with rice, and 
 is not unfrequently the only means resorted to for the successful cure of mild cases.
 
 TREATMENT. 1043 
 
 the wet disease. Cathartics and diuretics are alike useless, and the for- 
 mer injurious. The ordinary means, such as electricity, strychnia, fric- 
 tions, etc., employed in cases of muscular atrophy and paralysis from other 
 causes, are indicated when the active stage has passed, but they are use- 
 less, and even injurious, before this time. The muscular hyperaesthesia 
 common to both forms of the disease may be generally greatly relieved 
 by anodyne liniments containing aconite. The internal use of the latter 
 is highly recommended by some. Hypodermic injections of morphia 
 afford relief to the painful sense of constriction in the calves of the legs 
 so often complained of.
 
 INDEX TO VOLUME I. 
 
 A. 
 
 Abdomen, state of, in cholera, 741 
 
 in general peritonitis of puerperal 
 
 fever, 1010 
 
 in relapsing fever, 390 
 in septicaemia, 977 
 in septicaemia lymphatica, 1011 
 in septicaemia venosa, 1012 
 Abdominal cavity, lesions of, in general peri- 
 tonitis of puerperal fever, 989 
 glands, lesions of, in typhoid fever, 264 
 organs, alterations of, in scarlet fever, 531 
 Abortion from septicaemia, 972 
 Abortive form of the plague, 777 
 of relapsing fever, 395 
 of typhoid fever, 298 
 of typhus fever, 354 
 
 Abortive treatment of erysipelas, value, 638 
 Abscess in symptomatic parotitis, date of 
 
 pointing, 627 
 
 metastatic, of lungs, complicating relaps- 
 ing fever, 404 
 Abscesses complicating cholera, 735 
 
 variola, 445 
 
 following the plague, 781 
 frequency of, in pyaemia, 976 
 in erysipelas, treatment, 638 
 in para- and perimetritis, 1008 
 in puerperal fever, 989 
 metastatic, of pyaemia, modes of produc- 
 tion, 963 
 
 of pyaemia, treatment, 981 
 pelvic, of puerperal fever, treatment, 1036 
 pulmonary, in puerperal fever, 989 
 Acids, mineral, use of, in cholera, 768 
 Aconite, use of, in rubeola, 580 
 in scarlet fever, 543 
 in yellow fever, 651 
 
 Acute diseases, relation of, to rubeola, 561 
 form of glanders in man, 920 
 
 in horse, 914 
 Adenitis complicating scarlet fever, 511 
 
 vaccination, 468 
 
 Adenopathy complicating erysipelas, 634 
 Adhesions from infiltration, 55 
 Adulteration of food, 197 
 Adynamic form of typhus fever, 354 
 Age, influence of, on causation of anthrax 
 
 in man, 940 
 
 of cerebro-spinal meningitis, 802 
 of diphtheria, 680 
 
 Age, influence of, on causation of erysipelas 
 
 630 
 
 of influenza, 860 
 of idiopathic parotitis, 620 
 of the plague, 775 
 of pertussis, 830 
 of relapsing fever, 371 
 of rotheln, 583 
 of rubeola, 561 
 of typhoid fever, 242 
 of typhus fever, 342 
 proper for vaccination, 477 
 Aged, typhoid fever in the, 301 
 Agminated glands, lesions of, in cholera, 745 
 Air, amount supplied in ventilation, 179 
 carbonic acid as a cause of impurity, 177 
 -currents, direction of, test, 178 
 distribution of, in ventilation, 180 
 estimation of carbonic acid, 178 
 fresh, value of, in convalescence, 20fi 
 humidity of, as a cause of disease, 133 
 impure, as a cause of disease, 177 
 
 influence of, on causation of glanders, 
 
 912 
 impurities of, due to offensive effluvia, 
 
 181 
 
 sources of impurity, 177 
 standards of impurity, 178 
 transmission of the plague by, 776 
 velocity of, in ventilation, 180 
 vitiated, as a cause of pyaemia, 9o9 
 supply, method of calculating amount of, 
 
 in ventilation, 179 
 Albuminoid infiltration, 72 
 Albuminuria complicating diphtheria, 674 
 relapsing fever, 407 
 scarlet fever, 525 
 typhus fever, 355 
 following rubeola, 574 
 in typhoid fever, treatment, 334 
 Alcohol, use of, in algid form of pernicious 
 
 malarial fever, 608 
 in anthrax, 938, 944 
 in cerebro-spinal meningitis, 831 
 in cholera, 767 
 in influenza, 876 
 in puerperal fever, 1033 
 in pyaemia, 982 
 in scarlet fever, 544 
 in typhoid fever, 324 
 in typhus fever, 366 
 
 Algid form of pernicious malarial fever, 606 
 1045
 
 1046 
 
 INDEX. 
 
 Algid causes of death, G07 
 frequency, 607 
 
 mortality-rate, 607 
 symptoms, 606 
 treatment, 607 
 
 Alum, use of, in pertussis, 845 
 Ammonium bromide, use of, in pertussis, 846 
 carbonate, use of, in scarlet fever, 544 
 chloride, use of, in diphtheria, 704, 705 
 Amyloid bodies, 86 
 degeneration, 84 
 Anaesthesia of skin in beriberi, 1039 
 
 significance of, in general diagnosis, 165 
 Anesthetic form of leprosy, 791 > 
 Analysis of urine, importance of, in general 
 
 diagnosis, 165 
 Anasarca, 69 
 
 complicating scarlet fever, 529 
 date of appearance in scarlet fever, 529 
 in beriberi, 1040 
 Anginose form of anthrax, 941 
 
 ,of scarlet fever, 510 
 
 Animals, cerebro-sninal meningitis in, 804 
 diphtheria in, 68'3 
 
 transmission of diphtheria from, 683 
 Animal vaccine, advantages, 475 
 Anodyne liniments, use of, in beriberi, 1043 
 Anorexia in relapsing fever, 389 
 in typhoid fever, 285 
 in typhus fever, 350 
 
 significance of, in general diagnosis, 162 
 ANTHRAX, OR MALIGNANT PUSTULE, 926 
 Synonyms, 926 
 Definition, 926 
 History, 926 
 
 Geographical distribution, 926 
 Etiology specific origin, 928 
 Modes of transmission, 928 
 Transmission from eating flesh of an- 
 thrax animals, 928 
 by milk, 929 
 by insects, 929 
 by alkaline soils, 929 
 Season, relation of, to causation, 931 
 Plethora, relation of, to causation, 981 
 Sex, relation of, to causation, 931 
 Age, relation of, to causation, 931 
 Bacillus, 931 
 
 relation to causation, 931 
 
 physical characters, 932 
 
 eflect of heat and cold on activity, 
 
 933 
 
 effect of oxygen on activity, 933 
 mode of entering body, 933 
 effect on blood-vessels, 934 
 Forms, 934 
 Symptoms Incubation period, 934 
 
 duration of, 934 
 Apoplectiform form, 934 
 Anthrax fever, 934 
 Localized external anthrax, 935 
 Character and seat of lesions, 935 
 Morbid anatomy changes in blood, 935 
 Spleen, 935 
 Lymphatic glands, 935 
 Connective tissue and muscles, 935 
 Gastro-inteetinal tract, 936 
 
 ANTHRAX Morbid anatomy of vagina and 
 
 uterus, 936 
 
 Liver and kidneys, 936 
 Diagnosis from other bacteridian dis- 
 eases, 936 
 Swine plague, 936 
 Prognosis, 936 
 Mortality, 936 
 Treatment, 937 
 Preventive, 936 
 Drainage of anthrax soil, 937 
 Disinfection of stables, etc., 937 
 Disposal of carcases of sick animals, 
 
 937 
 
 Isolation, 937 
 Bv inoculation, 937 
 Methods of, 937 
 Pasteur's method, 937 
 Dangers in, 938 
 General, alcohol, 938 
 Use of carbolic acid, 938 
 nitro-muriatic acid, 938 
 potassium iodide, hypodermical- 
 
 ly, 938 
 quinia sulphate, hypodermical 
 
 ly, 938 
 Local, 938 
 Cauterization, 938 
 Incision of nodule, 938 
 Anthrax or Malignant Pustule in Man, 939 
 Svnonyms, 939 
 Ilistory, 939 
 Etiology, 939 
 
 Origin from lower animals, 939 
 Modes of infection, 939 
 direct, 939 
 
 by handling sick animals, 939 
 by insect-bites, etc., 939 
 by food, 939 
 by blood, 939 
 by air, 939 
 Occupation, relation of, to causation, 
 
 939 
 Age and sex, relation of, to causation, 
 
 940 
 Relative susceptibility of man and 
 
 animals, 940 
 Forms, 940 
 
 Symptoms of incubation period, 940 
 Local lesions, 940 
 Temperature, 940 
 Relation of, to local lesions, 940 
 Malignant anthrax, 940 
 Symptoms, 940 
 local, 940, 941 
 general, 941 
 
 Anthrax intestinalis, 941 
 Symptoms, 941 
 general, 941 
 eruptions, 941 
 gastro-intestinal tract, 941 
 nervous system, 941 
 Duration, 941 
 Anthrax angina, 941 
 Symptoms, 941 
 general, 941 
 local, 941
 
 INDEX. 
 
 1047 
 
 Anthrax Duration of anthrax angina, 940 
 Morbid anatomy, 941 
 Changes in blood, 942 
 Spleen, 942 
 
 Lymphatic glands, 942 
 Liver and kidneys, 942 
 Skin and mucous membranes, 942 
 Appearance of pustule, 942 
 Position of bacillus, 942 
 Diagnosis signs, pathognomonic of, 942 
 From bites of insects, 942 
 Boils and carbuncles, 942 
 Plague-boil, 942 
 Glanderous nodule, 942 
 Importance of detection of bacillus, 942 
 
 Of malignant anthrax oedema, 942 
 Internal anthrax, 943 
 Prognosis, 943 
 Mortality, 943 
 Treatment Preventive, 943 
 Disinfection, 943 
 Local, 943 
 Cauterization of preliminary papule in 
 
 external form, 943 
 Method of cauterization, 943 
 Excision of parent nucleus, 943 
 Caustics used in, 943 
 Hypodermic injections into swelling, 
 
 943 
 
 Constitutional, 944 
 Carbolic acid, use of, 944 
 Alcohol, use of, 944 . 
 Diet, 944 
 
 Of anthrax oedema, 944 
 Antipyretics, use of, in relapsing fever, 428 
 Antipyretics, use of, in cerebro-spinal men- 
 ingitis, 833 
 Antisepsis in septicaemia, 983 
 
 value of, iu prevention of puerperal fever, 
 
 1024 
 
 Antiseptic treatment of scarlet fever, 545 
 Antiseptics, use of, in cholera, 770 
 in glanders in man, 924 
 in pyaemia, 980 
 
 Aphasia in cerebro-spinal meningitis, 810 
 Apoplectic form of anthrax in animals, 934 
 Appetite in cerebro-spinal meningitis, 814 
 as a guide to necessary amount of food, 
 
 195 
 loss of, significance, in general diagnosis, 
 
 162 
 
 Arcus senilis, significance, in general diag- 
 nosis, 151 
 Argyria, 93 
 
 Arsenic, use of, in relapsing fever, 427 
 Arsenical poison as cause of obscure dis- 
 eases, 193 
 Arterial emboli, 63 
 
 murmur in beriberi, 1040 
 thrombosis following typhoid fever, 293 
 Arteritis from thrombosis, 61 
 
 in pyaemia, 967 
 Articular enlargement, significance of, in 
 
 general diagnosis, 160 
 Artificial alimentation in diphtheria, 713 
 Asthenic form of simple continued fever, 
 233 
 
 Asthenic form of inflammation, 46 
 Ataxic form of typhus fever, 354 
 Ataxo-adynamic form of typhus fever, 354 
 Atmosphere, impure, influence of, on causa- 
 tion of puerperal fever, 1013, 1014 
 necessity of, for prevention of pyaemia 
 
 and septicaemia, 980 
 
 Atmospheric variations as a cause of diph- 
 theria, 682 
 Atrophy following diphtheritic paralysis, 
 
 676 
 
 Atropia, use of, in relapsing fever, 429 
 Auditory nerve, lesion of, in cerebro-spinal 
 meningitis, 824 
 
 B. 
 
 Bacillus of anthrax, characters of, 931, 932 
 
 mode of entering body, 933 
 of glanders, 914 
 of pearly distemper, innocuousness of, 
 
 from cooking, 105 
 species of, 142 
 tuberculosis, 99 et seq. 
 description, 100 
 duration of effects, 104 
 cultivation, 100 
 local and general effects of invasion, 
 
 103 
 
 methods of detection, 102 
 milk as a means of dissemination, 105 
 mode of entrance into intestinal canal, 
 
 104 
 
 into respiratory organs, 104 
 typhosus, 258 
 Bacteria in healthy bodies, 144 
 
 influence of, on causation of pyaemia, 958 
 liability to error, from minuteness, 143 
 of cholera, 748 
 of leprosy, 791 
 of puerperal fever, 995 
 Bacterium termo as a cause of putrefaction, 
 
 142 
 Barometric variations, influence of, on course 
 
 and causation of disease, 134 
 Bartholini's glands, suppuration of, compli- 
 cating typhoid fever, 296 
 Baths, cold, use of, in puerperal fever, 1034 
 
 in relapsing fever, 428 
 warm, use of, in hydrophobia, 907 
 
 in variola, 453 
 
 Bed-linen, as a means of disseminating ty- 
 phoid fever, 253 
 
 Bed-sores, complicating relapsing fever, 400 
 typhoid fever, 297 
 typhus fever, 355 
 in typhoid fever, treatment of, 335 
 Belladonna as a prophylactic in scarlet 
 
 fever, 536 
 use of, in cerebro-spinal meningitis, 833 
 
 in pertussis, 846 
 Benignant tumors, 114 
 Benzoic acid as a prophylactic in scarlet 
 
 fever, 537 
 BERIBERI, 1038 
 Definition, 1038 
 Geographical distribution, 1038
 
 1048 
 
 IXDEX. 
 
 BERIBERI History, 10"8 
 Etiology Specific poison, 1038 
 
 resemblance of, to marsh-ruiasm, 
 
 1038 
 
 Predisposing causes, 1039 
 Varieties, 1039 
 
 Symptoms Anaesthesia of skin, 1039 
 Muscular paralvsis, 1039 
 Peculiarity of gait, 1039 
 Cramps, 1039 
 Muscular tenderness, 1039 
 Periosteal tenderness, 1039 
 Palpitation of heart, 1039 
 Symptoms, special Of wet form, 1040 
 Anasarca, 1040 
 Quality of pulse, 1040 
 Cardiac murmur, 1040 
 Arterial murmur, 1040 
 Of dry form, 1040 
 Quality of pulse, 1040 
 Condition of heart, 1040 
 Morbid anatomy, 1040 
 Alterations in blood, 1041 
 Heart, 1041 
 Muscles, 1041 
 Prognosis, 1042 
 
 Treatment By change of residence, 1042 
 By diet, 1042 
 Of wet form by hydragogue cathartics, 
 
 1042 
 
 Sulphate of magnesium, 1042 
 Elaterium, 1042 
 Treeak farook, 1042 
 Diuretics, 1042 
 Juniper gin, 1042 
 
 Of the dry form by electricity, 1043 
 Strychnia, 1043" 
 Frictions, 1043 
 
 Use of anodyne liniments, 1043 
 Use of hypodermics of morphia, 1043 
 Bites of rabid dogs, treatment, 905 
 Bladder, diphtheria of, general sepsis from, 
 
 G74 
 
 lesions of, in rabies, 903 
 in relapsing fever, 414 
 symptoms of diphtheria of, 674 
 Blindness in cerebro-spinal meningitis, 811 
 Blisters, use of, in cerebro-spinal meningitis, 
 
 830 
 
 Blood, alterations of, in anthrax, 935-942 
 in beriberi, 1041 
 
 in cerebro-spinal meningitis, 824 
 in cholera, 747 
 in pyaemia, 9b'8 
 in relapsing fever, 411 
 in scarlet fever, 530 
 in septicaemia, 971 
 in typhoid fever, 268 
 in typhus fever, 356 
 
 altered, as a cause of symptomatic par- 
 otitis, 626 
 
 condition of, in pynemia, 9G3 
 contamination of, sources, in pyaemia, 958 
 degeneration of, complicating diphtheria, 
 
 675 
 
 Blood-vessels, calcification of, 88, 90 
 changes in inflammation, 43 
 
 Blood-vessels, lesions of, in typhoid fever. 
 
 267 _ 
 
 new formation of, 55 
 
 Body, portion of, most suitable for vaccin- 
 ating, 477 
 Bones, chronic diseases of, following rubeola, 
 
 574 
 cranial, lesions of, in symptomatic parotitis, 
 
 626 
 
 in glanders, 922 
 in pyaemia, 967 
 Bone-marrow, lesions of, in relapsing fever, 
 
 417 
 
 Boric acid, use of, in diphtheria, 709 
 Bovine vaccine, 473 
 Bowels, state of, in relapsing fever, 390 
 in remittent fever, 602 
 condition of, in typhus fever, 350 
 Brain, lesions of, in cerebro-spinal menin- 
 gitis, 823 
 in cholera, 746 
 in glanders, 923 
 in relapsing fever, 413 
 in typhoid fever, 266 
 in typhus fever, 358 
 
 and membranes, lesions of, in cerebro- 
 spinal meningitis, 822 
 and membranes, lesions of, in pyaemia, 966 
 and spinal cord, lesions of, in rabies and 
 
 hydrophobia, 903 
 
 softening of, following cerebro-spinal men- 
 ingitis, 820 
 
 Breath, odor of, in typhus fever, 353 
 Bright's disease, aggravation of, by influenza, 
 
 870 
 
 Bromine, use of, in diphtheria, 708 
 Bromide of potassium, use of, in relapsing 
 
 f fever, 430 
 
 Bronchi, lesions of, in rabies and hydro- 
 phobia, 902 
 symptoms of formation of diphtheritic 
 
 membrane, 671 
 
 Bronchial glands, lesions of, in influenza, 872 
 Bronchitis, complicating influenza, 868 
 rubeola, 571 
 typhoid fever, 294 
 typhus fever, 355 
 
 frequency of, in typhoid fever, 277 
 in rubeola, treatment, 581 
 in septicaemia, 977 
 in typhus fever, 353, 354 
 Broncho-pneumonia, complicating diphthe- 
 ria, 672 
 
 Bryce's test of vaccinal infection, 461 
 Buboes, characters of, in grave form of the 
 
 plague, 778 
 date of appearance of, in grave form of 
 
 the plague, 778 
 of the plague, treatment, 784 
 pathology of, in the plague, 781 
 seat of, in grave form of the plague, 778 
 
 c. 
 
 Cadaveric rigidity after cholera, 741 
 Caecum and colon, lesions of, in tvphoid 
 fever, 263
 
 INDEX. 
 
 1049 
 
 Calcification, 87 
 causes, 87 
 
 of blood-vessels, 88, 90 
 of thrombi, 60, 89 
 
 Calabar bean, use of, in cerebro-spinal men- 
 ingitis, 834 
 
 Calm stage of yellow fever, 645 
 Calomel as a specific in typhoid fever, 336 
 use of, in cholera, 766 * 
 
 in hemorrhagic form of pernicious ma- 
 larial fever, 613 
 
 Camphor, use of, in cholera, 768 
 Cancer, 117, 123 
 
 hereditary nature, 129 
 relation of, to epithelial tumors, 118 
 Capillary bronchitis, complicating influenza, 
 
 _868 
 Capillaries, intestinal, lesions of, in cholera, 
 
 745 
 
 Carbolic acid, nse of, in anthrax, 938 
 in diphtheria, 707 
 in glanders, 924 
 in scarlet fever, 545 
 Carbonic acid, as a cause of impure air, 177 
 
 amount of, in pure and impure air, 178 
 Carbuncles, character of, in grave form of 
 
 the plague, 778 
 
 seat of, in grave form of plague, 778 
 Cardiac degeneration, complicating diphthe- 
 ria, 675 
 
 following typhoid fever, 293 
 complicating typhus fever, 355 
 dilatation, complicating scarlet fever, 523 
 inflammation, complicating scarlet fever, 
 
 522 
 
 murmur in beriberi, 1040 
 sounds in typhoid fever, 276 
 thrombi in diphtheria, 687 
 Caseation, 79 
 
 Cataract, hereditary, nature, 129 
 Catarrh, absence of, in rubeola, 568 
 
 of influenza, treatment, 874 
 Catarrhal affections as predisposing causes 
 
 of pertussis, 839 
 inflammation, 52 
 
 pneumonia, complicating influenza, 869 
 pock in vaccinia, 463 
 symptoms in inflnerrza, 866 
 
 in prodromal stage of rubeola, 564 
 Causes of olitis in scarlet fever, 520 
 Caustics* nse of, in hydrophobia, 905 
 Cauterization, use of, in external anthrax, 
 
 938, 943 
 Cathartics, use of, in wet beriberi, 1042 
 
 in scarlet fever, 554 
 
 Cellular tissue, lesions of, in pyaemia, 966 
 Cellulitis, pelvic, in puerperal fever, 988 
 Cerebral softening from embolism, 65 
 
 symptoms in yellow fever, 644 
 Cerebro-spinal meningitis, 795 
 Certificates of death, duty of a physician in 
 
 regard to, 210 
 
 Cesspools beneath dwellings, dangers of, 192 
 contamination of water by, 192 
 evils of, 126 
 
 Change of residence as cause of typhoid fever, 
 244 
 
 Cheesy degeneration, 79 
 
 metamorphosis, 79 
 Chicken-pox, 481 
 
 Child-bed fever, relation to erysipelas, 630 
 Childhood, influence of, on occunenceof per- 
 tussis, 839 
 Children, causes of frequency of diphtheria 
 
 in, 682 
 
 typhoid fever in, 301 
 Chills in pyaemia, 973 
 Chinolin, use of, in diphtheria, 703 
 Chloral hydrate, use of, in cerebro-spinal 
 
 meningitis, 834 
 in hydrophobia, 907 
 in pertussis, 846 
 in relapsing fever, 430 
 Chloride test for detecting pollution of wa- 
 ter-supply, 192 
 
 Chloroform, use of, in cholera, 768 
 in hydrophobia, 907 
 in relapsing fever, 431 
 CHOLERA, 715 
 Definition, 715 
 Synonyms, 715 
 History, 715 et seq. 
 Etiology predisposing causes, 720 
 Influence of high temperature in origin 
 
 and spread, 720 
 
 Season, influence of, on causation, 720 
 Over-crowding and filth as causes, 720 
 Intemperance as a cause, 721 
 Contagiousness, 721 
 Modes of transmission, 721 
 Channels of entrance into system, 721 
 Propagation of, by fomites, 721 
 
 by drinking-water, 723 
 Cases illustrating spread of, by drinking- 
 water, 724 
 Influence of height of subsoil-water on 
 
 prevalence, 722 
 
 Humidity of soil as a cause, 722 
 Special fomites of, 723 
 Cases illustrating spread of, by fomites, 
 
 727 
 
 Cases illustrating contagiousness, 728 
 Objections to contagious nature, 729 
 Individual immunity, 730 
 Different grades of, from intensity of 
 
 poison, 731 
 Specific origin, 747 
 Nature of poison, 743 
 Influence of bacteria in production, 748 
 Koch's investigations in regard to ba- 
 cilli, 745, 749 
 Symptoms, 731 
 Mild forms, 732 
 " Cholerine " stage, 732 
 Number of stools in mild forms, 732 
 Character of stools in mild forms, 732 
 Grave forms, 733 
 Physiognomy in grave forms, 733 
 Stools in grave forms, 733 
 Typhoid state, 734 
 Stage of collapse, 734 
 Reaction, 734 
 Convalescence, 735 
 Temperature, 736
 
 1050 
 
 IXDEX. 
 
 CHOLERA Symptoms : Difference between 
 axillary, vaginal, and rw.tal tem- 
 perature, 736 
 Special symptoms Low temperature of 
 
 mouth, 736 
 
 Condition of skin, 736 
 Color of skin, 737 
 Condition of heart and pulse, 737 
 Veins, 737 
 Vomiting, 738 
 Character of vomit, 738 
 Diarrhoea, 738 
 Results of diarrhoea, 738 
 Characters of stools, 739 
 Condition of urine, 739 
 Cramps, 740 
 Causes of cramps, 740 
 State of abdomen, 741 
 
 of nervous system, 741 
 Complications and sequelse, 735 
 
 Complicated bv diphtheritic exudations, 
 
 735 
 
 Inflammation of parotid and sub- 
 maxillary glands, 735 
 Abscesses and ulcers, 735 
 Cutaneous eruptions, 735 
 Morbid anatomy general appearance 
 
 after death, 741 
 Cadaveric rigidity, 741 
 Muscular contractions after death, 741 
 Appearance, post-mortem, of abdominal 
 
 cavity, 743 
 
 Changes in stomach, 743 
 Intestinal canal, 743 
 Intestinal mucous membrane, 743 
 Nature of exfoliation from intestinal 
 
 canal, 744 
 Changes in isolated and agminated 
 
 glands, 745 
 Capillaries and veins of intestinal 
 
 canal, 745 
 Liver, 745 
 Gall-bladder, 746 
 Spleen, 746 
 Heart, 746 
 Pericardium, 747 
 Lungs, 746 
 
 Brain and spinal marrow, 746 
 Kidneys, 746 
 Blood," 747 
 
 Diagnosis from cholera morbus, 750 
 from irritant poisoning, 752 
 Order of symptoms as a ground for, 753 
 Prognosis, 753 
 
 Symptoms indicating favorable and un- 
 favorable, 7-54 
 
 Mortality in different epidemics, 754 
 Influence of age, 754 
 Sex, 754 
 
 Social condition, 754 
 Treatment, 759 
 Preventive, 755 
 Disinfection, 758 
 
 Modes of applying disinfectants, 758 
 Importance of maintaining high de- 
 gree of health during epidemics, 
 758 
 
 CHOLERA Treatment : Quarantine and san- 
 itary cordons for prevention, 755 
 
 Mode of carrying out quarantine, 757 
 Cases illustrating value of quarantine, 
 
 757 
 
 Use of drinking-water during epidem- 
 ics, 759 
 
 General management, 760 
 Importance of early recognition, 732 
 Necessity of rest, 760 
 
 of prompt, 760 
 Diarrhoea, 760 
 Vomiting, 761 
 Hiccough, 762 
 Injection of sodium chloride into veins, 
 
 762 
 
 Stage of collapse, 763 
 Diet of stage of reaction, 763 
 For restoration of circulation in 
 
 of collapse, 763 
 Stage of reaction, 763 
 Undue reaction, 764 
 Urinary suppression in stage of reac- 
 tion, 764 
 
 Convalescence, 764 
 Use of venesection in, 764 
 Emetics, 765 
 Calomel, 766 
 Alcohol, 767 
 Opiates, 767 
 Mineral acids, 768 
 Camphor, 768 
 Chloroform, 768 
 Intravenous injections, 768 
 Hot applications, 769 
 Cold affusions, 769 
 Of cramps, 769 
 Necessity of cold water to allav thirst, 
 
 770 
 
 Use of antiseptic remedies, 770 
 Cholerine, 732 
 
 Chorea, following typhoid fever, 293 
 Chronic diseases, relation of, to rubeola, 561 
 forms of erysipelas, 634 
 of glanders, 915, 923 
 
 Cicatrix, condition during incubation of hy- 
 drophobia, 895 
 
 in hydrophobia, excision, 906-908 
 in vaccinia, description, 460 
 Classification of puerperal inflammations, 
 
 986 
 Cleanliness, importance of, in prevention of 
 
 pyremia, 980 
 in variola, 454 
 
 Climate, as a cause of disease, 185 
 definition of term, 185 
 influence of, on causation of influenza, 860 
 on causation of rabies and hydrophobia, 
 
 887 
 
 of rubeola, 560 
 
 Clinical history of influenza, 864 
 Clothing as a cause of disease, 198 
 Cloudy swelling, 72 
 Coagulation of exudations, 43 
 Cohnheim's theory of production of morbid 
 growths," 106
 
 IXDEX. 
 
 1051 
 
 Colchicura, use of, in dengue, 885 
 Cold as a cause of disease, 133 
 
 and damp, influence of, on causation of 
 
 glanders, 912 
 
 bath, use of, in diphtheria, 702 
 in puerperal fever, 1034 
 in typhoid fever, 327 
 Centra-indications to use of, in diphtheria, 
 
 703 
 
 Use of, in algid form of pernicious mala- 
 rial fever, 608 
 
 in cerebro-spinal meningitis, 830 
 in cholera, 769 
 in diphtheria, 702 
 in puerperal lever, 1033 
 in tlie hyperpyrexia of scarlet fever, 
 
 541 
 
 in scarlet fever, 542 
 in yellow fever, G51 
 
 water, intra-uterine injections of, in puer- 
 peral fever, 1034 
 
 mode of applying, in scarlet fever, 542 
 Cold stage of intermittent fever, 592 
 of intermittent fever, theory of cause, 593 
 
 treatment, 594 
 
 of yellow fever, treatment, 653 
 Cold water, use of, in typhus fever, 364 
 Collapse in cerebro-spinal meningitis, treat- 
 ment, 831 
 in cholera, 734 
 
 treatment, 763 
 
 of lungs, complicating influenza, 869 
 Collections of water, influence on health of 
 
 a community, 187 
 Colloid degeneration, 83 
 
 metamorphosis, 83 
 
 Color of skin, significance of, in general di- 
 agnosis, 159 
 Coma, in cerebro-spinal meningitis, 812 
 
 significance of, in general diagnosis, 166 
 Comatose form of pernicious malarial fever, 
 
 608 
 
 Diagnosis, 609 
 Symptoms, 609 
 Treatment, 609 
 
 Coma-vigil in typhus fever, 349 
 Compresses, hot water, use of, in variola, 4-53 
 Complications of cholera, 735 
 of erysipelas, 633 
 of idiopathic parotitis, 623 
 of influenza, 868 
 of pertussis, 843 
 of plague, 780 
 of relapsing fever, 396-410 
 of rb'theln, 587 
 of rubeola, 570 
 
 causes, 570 
 of scarlet fever, 510 
 of typhoid fever, 292 
 
 treatment, 335 
 of vaccination, 468 
 of vaccinia, 464 
 of varicella, 483 
 of variola, 445 
 Confluent small-pox, 440 
 Conjunctiva, condition of, in human glan- 
 ders, 921 
 
 Conjunctiva, symptoms of diphtheria of, 670 
 Conjunctiva! diphtheria, local treatment, 712 
 Conjunctivitis, diphtheritic, symptoms, 670 
 Consanguineous marriages, effects, 131 
 Constipation in cerebro-spinal meningitis, 
 
 814 
 
 in grave form of the plague, 779 
 in rubeola, treatment, 58 1 
 in typhoid fever, treatment, 333 
 in typhus fever, treatment, 307 
 significance of, in general diagnosis, 163 
 Constitutional infection, absence of, in vac- 
 cinia, 460 
 
 of syphilis, hereditary nature, 127 
 taints, conveyance of, by vaccination, 471 
 treatment of anthrax, 944 
 
 of pyaemia, 982 
 
 Contagion as a cause of disease, 135, 200 
 definition of, 200 
 of dengue, 884 
 
 of erysipelas, manner of propagation, 630 
 of erysipelas, nature, 630 
 of influenza, 862 
 
 of relapsing fever, transmission, 373 
 of rabies and hydrophobia, 891 
 of rabies and hydrophobia, dissemination, 
 
 891 
 
 of rotheln, nature, 583 
 of rubeola, modes of dissemination, 558 
 mode of entering the body, 558 
 nature, 557 
 
 in typhus fever, nature, 343* 
 modes of transmission, 344 
 Contagium of variola, duration of activity, 
 
 435 
 
 mode of entering body, 435 
 nature, 435 
 
 period of greatest activity, 435 
 Contagious diseases, characteristics, 137 
 Contagious nature of cholera, objections to, 
 
 729 
 
 Contagiousness of anthrax, 928 
 of cerebro-spinal meningitis, 803 
 of cholera, 721 
 of dengue, 884 
 of diphtheria, 678 
 of erysipelas, 630 
 of glanders, 911 
 of influenza, 862, 863 
 of leprosy, 788 
 of the plague, 776 
 of puerperal fever, 1017 
 of pyremia, 960 
 
 of rabies and hydrophobia, 891 
 of scarlet fever, 494 
 of typhoid fever, 248 
 of typhus fever, 343 
 
 period of greatest, 345 
 of varicella, 481 
 of variola, 435 
 
 Convalescence, choice of diet, 20fi 
 in cerebro-spinal meningitis, 819 
 
 management, 835 
 in cholera, 735 
 
 management, 764 
 in chronic glanders in man, 922 
 in dengue, 8S2
 
 1052 
 
 ETDEX. 
 
 Convalescence in grave form of the plague, 
 
 779 
 
 in erysipelas, management, 639 
 in influenza, treatment, 875 
 in relapsing fever, 393 
 in scarlet fever, management, 544 
 in typhoid fever, management, 335 
 in typhus fever, management, 368 
 Convulsions during hot stage of intermittent 
 
 fever, treatment, 597 
 in cerebro-spinal meningitis, 810 
 in relapsing fever, 384 
 complicating rubeola, 572 
 in prodromal stage of rubeola, .565 
 in rubeola, treatment, 581 
 in yellow fever, treatment, 653 
 Cooking, necessity of a physician's know- 
 
 ledge of," 196 
 Corpuscles, pus-, 43 
 Corrosive sublimate, use of, as antiseptic in 
 
 puerperal fever, 1025, 1029 
 Coryza, chronic, following rubeola, 574 
 complicating scarlet fever, 520 
 of scarlet fever, treatment, 546 
 Cough, in rubeola, treatment, 581 
 
 significance of, in general diagnosis, 158 
 Counterirritants, use of, in pertussis, 848 
 Course of vaccinia, 458 
 irregularities, 460 
 Cow-pox, 456 
 
 spontaneous, 456 
 Cramps in beriberi, 1039. 
 in cholera, 740 
 treatment, 769 
 causes, 740 
 
 Cretinism and goitre, hereditary nature, 128 
 Croup, respiration, 157 
 Croupous inflammation distinguished from 
 
 croup, 49 
 of fauces, complicating scarlet fever, 
 
 516 
 
 membrane, 685 
 characters, 685 
 mode of formation, 685 
 metamorphosis, 80 
 Crust in vaccinia, composition, 4<M 
 Crusts, objections to use of, in vaccination, 
 
 476 
 
 Cubebs, use of, in diphtheria, 709 
 Cultivation of bacillus tuberculosis, 100 
 Curare, use of, in treatment of hydrophobia, 
 
 907 
 Cutaneous deposits in glanders, microscopic 
 
 characters, 917 
 diphtheria, treatment, 713 
 lesions of glanders in man, 922 
 symptoms of glanders in man, 921 
 Cysts, definition, 1 15, 121 
 
 Deaf-mntism following cerebro-spinal men- 
 
 ingitis, 819 
 
 Deafness in cerebro-spinal meningitis, 811 
 Death, causes of, in cerebro-spinal menin- 
 
 gitis, 818 
 in glanders, 915 
 
 Debility in cerebro-spinal meningitis, 813 
 
 in influenza, treatment, 876 
 
 influence of, in causation of glanders, 912 
 
 in relapsing fever, 386 
 Decline, stage of, in pertussis, 841 
 Decubitus, significance of, in general diag- 
 nosis, 150 
 Definition of anthrax, 926 
 
 of beriberi, 1038 
 
 of cerebro-spinal meningitis, 795 
 
 of cholera, 715 
 
 of contagion, 200 
 
 of cysts, 115, 121 
 
 of dengue, 880 
 
 of diphtheria, 656 
 
 of erysipelas, 629 
 
 of glanders, 909 
 
 of idiopathic parotitis, 620 
 
 of influenza, 851 
 
 of leprosy, 785 
 
 of pernicious malarial fever, 605 
 
 of pertussis, 836 
 
 of the plague, 771 
 
 of puerperal fever, 984 
 
 of pyaemia, 953 
 
 of rabies and hydrophobia, 886 
 
 of relapsing fever, 3(59 
 
 of remittent fever, 598 
 
 of rotheln, 582 
 
 of rubeola, 557 
 
 of fceptitternia, 953 
 
 of simple continued fever, 231 
 
 of symptomatic parotitis, 625 
 
 of term "climate," 185 
 
 of typhoid fever, 237 
 
 of typho-malarial fever, 614 
 
 of vaccinia, 455 
 
 of varicella, 481 
 
 of variola, 434 
 
 of yellow fever, 640 
 Degeneration, 72 
 
 amyloid, 84 
 
 cheesy, 79 
 
 colloid, 83 
 
 fibrinous, 80 
 
 fatty, 74 
 
 granular, 72 
 
 hyaline, 80 
 
 lardaceous, 84 
 
 mucous, 82 
 
 of tubercle, 96 
 
 parenchymatous, 73 
 
 waxy, 84 
 Deglutition, difficult, in idiopathic parotitis, 
 
 treatment, G24 
 Delirium in cerebro-spinal meningitis, 812 
 
 in erysipelas, treatment, 637 
 
 in idiopathic parotitis, treatment, 624 
 
 in pyamiia, 971 
 
 in relapsing fever, 384 
 
 in typhoid fever, 278 
 treatment, 334 
 
 in typhus fever, 348 
 treatment, 366 
 
 in yellow fever, treatment, 653 
 
 significance of, in general diagnosis, 166 
 Demonstration of bacillus of glanders, 914
 
 INDEX. 
 
 1053 
 
 DENGUE, 879 
 
 Svnonyms, 879 
 Jlistory, 879 
 Definition, 880 
 Etiology, 883 
 
 Specific origin, 884 
 
 Contagiousness, 884 
 Symptoms prodromal stage, 880 
 
 Mode of onset, 880 
 
 Temperature, 881 
 
 Pulse, 881 
 
 Delirium, 881 
 
 Facies, 881 
 
 State of gastro-intestinal tract, 881 
 
 State of tongue, 881 
 
 Stomach and bowels, 881 
 
 State of urine, 881 
 
 Eruptions, 881 
 
 Hemorrhages, 882 
 
 Prostration, 882 
 
 Convalescence, 882 
 Duration of, 882 
 Morbid anatomy, 882 
 
 Specific nature of, 882 
 
 Kelation to acute articular rheumatism, 
 883 
 
 Changes in abdominal organs, 883 
 Diagnosis, 884 
 
 From acute articular rheumatism, 884 
 
 From yellow fever, 884 
 Prognosis, 885 k 
 
 Treatment, 885 
 
 Use of colchicum, 8S5 
 quinia, 885 
 opium, 885 
 Depletion, local, use of, in cerebro-spinal 
 
 meningitis, 830 
 Depressing emotions, as a cause of typhoid 
 
 fever, 245 
 Dermatitis, complicating vaccination, 4G8 
 
 vaccination, treatment, 4G9 
 Desquamation, date of, in mild scarlet fever, 
 
 500 
 
 in erysipelas, 633 
 in relapsing fever, 377 
 Desiccation in varicella, 482 
 
 in variola, 440 
 Diagnosis, general, 148 
 
 divisions of, 148 
 
 main direction of inquiries, 148 
 
 proper method of procedure, 150 
 
 significance of alteration of voice in, 158 
 of anthrax in animals, 936 
 
 in man, 942 
 
 of cerebro-spmal meningitis, 826 
 of cholera, 750 
 of comatose form of pernicious malarial 
 
 fever, 609 
 of dengue, 884 
 of diphtheria, 689 
 of erysipelas, 635 
 of idiopathic parotitis, 624 
 of glanders in horse, 918 
 of glanders in man, 923 
 of influenza, 872 
 of intermittent fever, 594 
 of leprosy, 792 
 
 Diagnosis of the plague, 782 
 
 of pyaemia from septiesemia, 978, 979 
 
 of remittent fever, GOO 
 
 of rabies and hydrophobia, 900 
 
 of relapsing fever, 418-422 
 
 of rotheln, 587 
 
 of rubeola, 575 
 
 of scarlet fever, 532 
 
 of simple continued fever, 234 
 
 of symptomatic parotitis, 627 
 
 of typhoid fever, 311-314 
 
 of typho-malarial fever, 616 
 
 of typhus fever, 358, 359 
 
 of vaccinia, 464 
 
 of varicella, 483 
 
 of variola, 447 
 
 of varioloid, 444 
 
 of yellow fever, 648 
 
 Diaphoretics, use of, in yellow fever, 649 
 Diarrhoea in cerebro-spinal meningitis, 814 
 
 in cholera, 738 
 results, 738 
 treatment, 760 
 
 in mild scarlet fever, 503 
 
 in pyaemia, 975 
 
 in relapsing fever, 405 
 
 in rubeola, treatment, 581 
 
 in septicaemia, 977 
 treatment, 983 
 
 in typhoid fever, 287 
 
 treatment, 331 
 
 Diarrhceal diseases from impure water, 182 
 Diathesis, 127 
 
 hereditary, transmission, 130 
 Diet in anthrax, 944 
 
 in beriberi, 1042 
 
 in cerebro-spinal meningitis, 834 
 
 in cholera, 763 
 
 in convalescence, 206 
 
 in erysipelas, 639 
 
 in glanders, 924 
 
 in influenza, 874 
 
 in relapsing fever, 430 
 
 in pertussis, 848 
 
 in puerperal fever, 1036 
 
 in pypemia, 982 
 
 in rubeola, 579 
 
 in typhoid fever, 323 
 
 in typho-malarial fever, 619 
 
 in typhus fever, 362 
 
 in yellow fever, 654 
 
 of convalescence, 206 
 Digestion, condition of, in cerebro-spinal 
 
 meningitis, 814 
 Digestive tract, condition of, in glanders, 921 
 
 in idiopathic parotitis, 623 
 Digitalis, use of, in puerperal fever, 1033 
 in relapsing fever, 428 
 in scarlet fever, 543 
 in typhoid fever, 330 . 
 
 in yellow fever, 651 
 
 DlPHTHKRIA, 656 
 
 Synonyms, 656 
 Definition, 656 
 History, 656 et seq. 
 
 Panum's view regarding relation of 
 bacteria to, 667
 
 1054 
 
 INDEX. 
 
 DIPHTHERIA Etiology : Age, influence of, 
 
 on causation, 680 
 
 Sex, influence of, on causation, 680 
 Causes of frequency of, in childhood. 
 
 680 
 Pharyngeal, buccal, and nasal catarrh a 
 
 cause of, in children, 680 
 Physiological causes of, greater frequen- 
 cy in childhood, 681 
 Family predisposition, 681 
 Thermometric and barometric changes 
 
 a cause, 682 
 Season as a cause, 682 
 Filth as a cause, 682 
 Polluted air as a cause, 682 
 water as a cause, 683 
 milk as a cause, 683 
 Contagiousness, 678 
 Modes of transmission of poison, 678 
 In the lower animals, 683 
 Traumission of, from lower animals to 
 
 man, 683 
 
 Artificial production of membrane, 684 
 Invasion, 676 
 
 duration of incubation period, 679 
 Symptoms Prodromal stage, 667 
 duration, 667 
 
 localized redness of mucous mem- 
 branes, 667 
 Different manifestations of diphtheritic 
 
 process, 668 
 Severe form, 668 
 
 appearance of membrane in severe 
 
 form, 668 
 
 Gangrenous condition of membrane, 669 
 Swellings of glands at angle of jaw as 
 sign of invasion of nasal cavities, 
 66!), 670 
 
 Mode of invasion of nasal cavities, 669 
 Mode of spread to nasal cavities, 669 
 Nasal form, 669 
 Conjunctival form, 670 
 Aural form, 670 
 Laryngeal form, 671 
 Formation of membrane in larynx, 671 
 Tracheal and bronchial forms, 671 
 
 primary form, 672 
 Oral form, 672, 673 
 Intestinal form, 673 
 Of wounds, 673 
 Eruption of, G74 
 Vulvar and vaginal forms, 674 
 In puerperal women, 674 
 Vesical form, 674 
 Placental, 674 
 
 Liability of open wounds, 672, 679 
 Tendency to second attacks from cbronic 
 nasal and pharyngeal catarrh fol- 
 lowing, 670 
 Complications and sequelae, 672 
 
 complicated by fibrinous pneumonia, 
 
 672 
 
 by broncho-pneumonia, 672 
 by erysipelas, 673 
 by urticaria and purpura, 674 
 by kidney affections, 674 
 by albumin uria, 674 
 
 DIPHTHERIA complicated by granular de- 
 generation of blood, 675 
 by cardiac degeneration, 675 
 by symptoms of cardiac degeneration, 
 
 675 
 
 by embolism, 675 
 by acute endocarditis, 671 
 by leucocythaemia and Hodgkin's dis- 
 ease, 675 
 
 by nervous diseases, 675 
 by paralysis, 676 
 seat of, 676 
 
 date of appearance, 676 
 fatty degeneration and atrophy fol- 
 lowing, 676 
 sensory, 676 
 Secondary form, 671 
 
 Morbid anatomy characters of the mem- 
 brane, 685 
 
 Mode of formation of membrane, 6S5 
 Varieties of membrane in, 686 
 Bindfleisch's definition of diphtheritic 
 
 inflammation, 686 
 Changes in the heart, 686 
 
 fatty and granule degeneration, 686 
 endocarditis, 687 
 cardiac thrombi, 687 
 Changes in lungs, 687 
 Spleen, 687 
 Liver, 687 
 Kidneys, 687 
 Muscles, 687 
 Lymphatic glands, 687 
 Mucous membranes. 688 
 Influence of different mucous mem- 
 branes upon characters of false 
 membrane, 688 
 epithelia upon growth and spread of 
 
 false membrane, 688 
 Changes in intestines, 689 
 
 nervous system, 689 
 
 Diagnosis significance of localized pha- 
 ryngeal injection, 689 
 From muguet or thrush, 690 
 
 Follicular stomatitis, 690 
 Significance of glandular swelling, 61)0 
 
 lymphadenitis in nasal form, 690 
 Of laryngeal form, 691 
 Significance of absence of fever, 691 
 Of paralysis, 691 
 
 Prognosis symptoms indicating favor- 
 able, 692 
 unfavorable, 692 
 
 Significance of glandular swelling, 692 
 In nasal, 692 
 
 Of fetid and putrid discharges, 693 
 Of epistaxis, 693 
 In laryngeal, 692 
 In trachea), 692 
 Of tracheotomy, 692 
 
 significance of state of pulse after, 692 
 of dry respiration after, 692 
 of temperature-range after, 692 
 of character of membrane, 692 
 Influence of temperature, 693 
 state of pulse, 693 
 complications, 693
 
 IXDEX. 
 
 1055 
 
 DIPHTHERIA Prognosis : Influence of 
 
 bronchitis and pneumonia, 693 
 endocarditis, 693 
 albuminuria, 693 
 affections of sensoriuin, 693 
 purpura, 693 
 
 icteric discoloration of skin. 693 
 Of relapses, 694 
 Treatment hyperpyrexia, 694 
 Reflex symptoms, 694 
 Vomiting, 694 
 Futility of expectant, 694 
 Use of stimulants, 694 
 Amount of stimulants necessary, 695 
 Importance of general treatment, 695 
 Futility of venesection, 695 
 Prophylactic, 696 
 Danger of self-infection, 696 
 Prevention of self-infection, 696 
 Isolation, 696 
 Closure of schools and public places 
 
 during epidemics, 697 
 Disinfection, 698 
 Special, 701 
 Local, 701, 709 
 
 by steam, 701 
 Use of water, 702 
 
 Ice and cold, 702 
 
 Cold baths, 702 
 Mode of applying cold, 702 
 Centra-indications to use of cold, 703 
 Solvents of pseudo-membrane, 703 
 Use of lime-water, 703 
 
 Slaking lime, 703 
 
 Lactic acid, 703 
 
 Pepsin, neurin, and chinolin, 703 
 
 Papayotin, 703 
 
 Pilocarpine, 704 
 objections to, 704 
 
 Turpentine inhalations, 704 
 
 Ammonium chloride, 704 
 
 Mercury, 705 
 
 Tincture of chloride of iron, 70G 
 
 Carbolic acid, 707 
 
 Salicylic acid, 707 
 
 Quinia, 708 
 
 Bromine, 708 
 
 Boric acid, 709 
 
 Sodium salicylate, 709 
 
 Ozone, 709 
 
 Sulphur and cubebs, 709 
 
 Chlorate of potassium, 699 
 Dose of chlorate of potassium, 700 
 Danger in large doses of chlorate of 
 
 potassium, 701 
 
 Mechanical removal of membrane, 709 
 Cauterization of membrane, 709 
 Glandular swellings, 710 
 Abscess of glands, 710 
 Of nasal form, 710 
 
 danger of permitting sleep in, 712 
 
 local applications, 710 
 Of conjunctiva! form, 712 
 Of laryngeal form, 712 
 
 use of emetics, 712 
 Of paralysis, 713 
 
 by strychnia, 713 
 
 DIPHTHERIA Treatment of paralysis by 
 
 electricity, 713 
 artificial alimentation, 713 
 Of cutaneous form, 713 
 Diphtheria, complicating rubeola, 573 
 scarlet fever, 514 
 
 of genitalia in puerperal fever, 1002 
 Diphtheritic endometritis, 987 
 
 exudations, complicating rubeola, 735 
 membrane, cauterization, 709 
 
 mechanical removal, 709 
 conjunctivitis, 670 
 
 treatment, 712 
 inflammation, causes, 51 
 
 distinguished from diphtheria, 50 
 paralysis, treatment, 713 
 pock in vaccinia, 463 
 Disease, 35 
 Causes, 125, 175 
 
 arsenical poisoning, 193 
 climate, 185 
 cold, 133 
 
 contagion, 135, 200 
 epidemic influences, 135 
 errors of diet, 135 
 exciting, 125 
 exercise, abnormal, 134, 198 
 
 deficient, 135 
 functional, 134 
 habitation, 186 
 heat, 133 
 hereditary, 132 
 humidity of atmosphere, 133 
 improper clothing, 198 
 impure air, 177 
 ice, 185 
 water, 182 
 ingestive, 135 
 intemperance, 197 
 mental, 204 
 minute organisms, 141 
 predisposing, 125 
 pre-natal, 126, 175 
 
 poisons and misuse of medicines, 135 
 soil, condition of, 187 
 Definition of, 1 35 
 Elevation of site, influence of, 134 
 Means of discovery, 175 
 Abdominal, hot climate as a cause, 133 
 Respiratory, cold as a cause, 133 
 Prevention, 175 
 Respiration in, 156 
 Theory of bioplastic, 140 
 chemical, 138, 140 
 fermentation, 138 
 germ, 138 
 
 points of objection, 142 
 undecided state, 147 
 Zymotic, table of, 136 
 Disinfectants, varieties, 202 
 Disinfection in anthrax, 937, 943 
 in cholera, 758 
 in diphtheria, G98 
 of glanders, 925 
 in the plague, 784 
 in puerperal fever, 1025, 1028 
 in pyaemia and septicamia, 980
 
 1056 
 
 INDEX. 
 
 Disinfection in scarlet fever, 201, 538 
 in typhus fever, 362 
 methods, 201 
 practical difficulties, 201 
 principles, 201 
 Dissecting poison, relation of, to causation 
 
 of puerperal fever, 1018 
 wounds, relation of, to causation of septi- 
 caemia, 962 
 
 Dissemination of influenza, 863 
 in typhoid fever, 249 
 of puerperal fever by physicians. 1018 
 Diuretics, use of, in scarlet fever, 555 
 
 in wet beriberi, 1042 
 DRAINAGE AND SEWERAGE, 213 
 Back, ventilation of traps, 221 
 Disposal of liquid wastes by irrigation, 225 
 Frequency of leakage in waste-pipes, 222 
 Necessity of, in prevention of typhoid 
 
 fever, 321 
 Of houses, 188 
 Necessity of abundant water-supply in, 
 
 220 
 
 Of soil, 226 
 
 Perfect, fundamental requirements, 213 
 Kemoval of human excrement, 215 
 
 of liquid household wastes, 220 
 Varieties of grease-traps, 221 
 Ventilation of waste-pipes, 223 
 Drainage-pipes, effects of large traps, 220 
 of too large bore, 220 
 of vertical position, 220 
 Drinking-water as a medium of dissemi- 
 nating typhoid fever, 248 
 propagation of cholera by, 723 
 Dropsies, 67-71 
 
 Drugs, use of, in the plague, 784 
 Dry form of beriberi, symptoms, 1040 
 
 treatment, 1043 
 
 Duration of cerebro-spinal meningitis, 818 
 of dengue, 882 
 of anthrax, 940, 941 
 of acute form of glanders in horses, 915 
 of chronic form of glanders in horses, 915 
 of acute form of glanders in man, 921 
 of chronic form of glanders in man, 922 
 of influenza, 865 
 of malignant scarlet fever, 508 
 of mild scarlet fever, 506 
 of prodromal stage of rubeola, 565 
 of remittent fever, 602 
 of rabies and hydrophobia, 900 
 of septicaemia lymphatica, 1012 
 Dysentery complicating relapsing fever, 406 
 
 t\ plius fever, 355 
 
 Dyfephagia, significance of, in general diag- 
 nosis, 162 
 Dyspnoea, causes, 157 
 
 E. 
 
 Ear, affections of, in rubeola, treatment, 581 
 diseases of, complicating rubeola, 570 
 displacement of lobe in idiopathic paro- 
 titis, 624 
 
 internal, lesions of, in cerebro-spinal men- 
 ingitis, 824 
 
 Ear, lesions of, in pyaemia, 967 
 
 in symptomatic parotitis, 626 
 middle, suppuration of, in cerebro-spinal 
 
 meningitis, 811 
 symptoms of diphtheria, 670 
 Ears, significance of appearance of, in gen- 
 eral diagnosis, 151 
 
 Early stages of yellow fever, treatment, 649 
 Earth-closets, 218 
 
 Effluvia, offensive, symptoms due to, 181 
 Effusions, 67 
 causes, 68-71 
 
 distinguished from exudations, 67 
 Elaterium, use of, in wet beriberi, 1042 
 
 in dry beriberi, 1013 
 Electricity, use of, in diphtheritic paralysis, 
 
 713 
 Elevated temperature as a cause of typhoid 
 
 fever, 246 
 Emaciation, causes, 160 
 
 significance of, in diagnosis, 159 
 Einboli, action of, in production of meta- 
 
 static abscesses in pyaemia, 967 
 Embolism, 62 
 
 complicating diphtheria, 675 
 from septic thrombus, 66 
 hemorrhagic results, 64, 65 
 in typhoid fever, treatment, 335 
 mechanical effects, 63 
 necrosis from, 64, 65 
 results, 64 
 
 softening, cerebral, from, 65 
 symptoms, 66 
 Embolus, 62 
 arterial, 63 
 venous, 63 
 terminations, 65 
 Emetics, use of, in cerebro-spinal meningitis, 
 
 830 
 
 in cholera, 765 
 during cold stage of intermittent fever, 
 
 595 
 
 in influenza, 876 
 in laryngeal diphtheria, 712 
 in pertussis, 845 
 Emphysema, aggravation of, by influenza, 870 
 
 significance of, in general diagnosis, 159 
 Endocarditis, acute, complicating diphthe- 
 ria, 675 
 
 in diphtheria, 687 
 in puerperal fever, 990 
 
 Endo- and pericardium, lesions of, in septi- 
 caemia, 972 
 
 Endocolpitis in puerperal fever, 986, 1005 
 Endometritis in puerperal fever, 986 
 Enthetic febrile diseases, hereditary nature, 
 
 130 
 
 Epidemic causation of disease, 135 
 Epidemics of rubeola, frequency, 560 
 
 frequency in the new-born, 563 
 Epiglottis, symptoms of diphtheria, 671 
 Epistaxis in relapsing fever, 393 
 complicating rubeola, 570 
 in remittent fever, 602 
 in rubeola, treatment, 580 
 in typhoid fever, 273 
 treatment, 3o5
 
 INDEX. 
 
 1057 
 
 Epithelia, influence of different, in spread 
 
 of diphtheritic membrane, 688 
 Ergot, use of, in cerebro-spinal meningitis, 
 
 833 
 
 Ergotine, use of, in pyaemia, 982 
 Eruption, absence of, in rubeola, 568 
 causes of absence of, in mild scarlet fever, 
 
 505 
 
 in cerebro-spinal meningitis, 816, 817 
 in dengue, 881 
 in diphtheria, 674 
 in influenza, 866 
 in malignant scarlet fever, 507 
 in mild scarlet fever, 504 
 in pyaemia, 974 
 in relapsing fever, 376 
 in rotheln, 585, 586 
 in rubeola, 566 
 
 peculiarities in character, 569 
 
 in seat, 509 
 relapses, 570 
 
 retrocession of, in rubeola, treatment, 580 
 in tubercular form of leprosy, 789 
 in typhoid fever, 273 
 in typhus fever, 351 
 in varicella, 487 
 in variola, 437 
 characters, 438 
 position, 438 
 in varioloid, 444 
 Eruptive stage of rubeola, duration of, 567 
 
 symptoms of, 565 
 of variola, treatment, 452 
 ERYSIPELAS, 629 
 Definition, 629 
 Synonyms, 629 
 Classification, 629 
 History, 629 
 Etiology, 629 
 
 Unity of the origin, 629 
 Age and sex as a causa, 630 
 Season as a cause, 630 
 Contagiousness, 630 
 Nature of contagion, 630 
 Manner of propagation, 630 
 Relation to childbed fever, 630 
 Symptoms initial, 631 
 
 Characters of cutaneous lesions, 631 
 Course of cutaneous lesions, 631 
 Severe varieties of cutaneous lesions, 
 
 632 
 
 Migration of cutaneous lesions, 632 
 Swelling of integument, 632 
 Starting-point of cutaneous lesions, 632 
 Physiognomy, 632 
 Condition of tongue, 633 
 
 of fauces and buccal membrane, 633 
 General symptoms of grave form, 633 
 pulse, 633 
 temperature, 633 
 Occurrence of gangrene, 233 
 Resolution, 633 
 Desquamation, 633 
 Complications and sequelae, 633 
 Complicated by lymphangitis and aden- 
 
 opathy, 634 
 By pneumonia, 634 
 
 VOL. I. 67 
 
 ERYSIPELAS complicated by plenritis, 634 
 By inflammation of joints, 634 
 By inflammations of serous mem- 
 branes, 634 
 
 By pyaemia and septicaemia, 634 
 By eye diseases, 634 
 Followed by seborrhoea of scalp, 633 
 
 By loss of hair, 633 
 Modification of previous skin disorders. 
 
 634 
 
 Chronic forms, 634 
 
 Variety and nature of chronic forms, 634 
 Morbid anatomy, 635 
 Changes in skin, 635 
 Viscera, 635 
 Mucous surfaces, 635 
 Diagnosis, 635 
 
 From dermatitis, 636 
 From eczema, 636 
 From erythema, 636 
 From pemphigus, 636 
 From scarlet fever, 636 
 From urticaria, 636 
 
 Prognosis symptoms indicating unfavor- 
 able, 636 
 
 Treatment preventive, 636 
 Hygienic, 637 
 General, 637 
 Hyperpyrexia, 637 
 Delirium, 637 
 Local, 637 
 
 Value of abortive, 638 
 Surgical, 638 
 
 Mouth complications, 638 
 Nasal complications, 638 
 Abscesses, 638 
 Value of expectant, 639 
 Convalescence, 639 
 Diet, 639 
 Use of quinia, 637 
 
 tincture of the chloride of iron, 637 
 Erysipelas, complicating diphtheria, 673 
 typhus fever, 355 
 vaccination, 469 
 variola, 445 
 
 relation of, to puerperal fever, 1002 
 Etiology, general, 125 
 of anthrax in animals, 928 
 
 in man, 939 
 of beriberi, 1038 
 of cerebro-spinal meningitis, 801 
 of cholera, 720 
 of dengue, 883 
 of diphtheria, 680 
 of erysipelas, 629 
 of glanders in horse, 911 
 
 in man, 919 
 
 of idiopathic parotitis, 620 
 of influenza, 859 
 of leprosyj 787 
 of pertussis, 838 
 of the plague, 774 
 of puerperal fever, 1013 
 of pyaemia, 955 
 
 of rabies and hydrophobia, 887 
 of relapsing fever, 370 
 of remittent fever, 598
 
 1058 
 
 INDEX. 
 
 Etiology of rotheln, 583 
 of rubeola, 557 
 of scarlet fever, 487 
 of septicaemia, 960 
 of septo-pyaemia, 963 
 of simple continued fever, 232 
 of symptomatic parotitis, 625 
 of typhoid fever, 242 
 of typhus fever, 341 
 of varicella, 481 
 of variola, 435 
 of yellow fever, 640 
 
 Eucalyptus, use of, in typhoid fever, 331 
 Excision of cicatrix for prevention of hydro- 
 phobia, 908 
 
 of primary nucleus in anthrax, 943 
 Exciting cause, mechanical nature of, in 
 
 symptomatic parotitis, 626 
 of the plague, 775 
 of typhoid fever, 248 
 of typhus fever, 343 
 
 Excrement, human, disposal of, by privy- 
 vaults, 219 
 
 dry conservancy, 21 8 et seq 
 removal of, by water-carriage, 215 
 Exercise, abnormal, as a cause of disease, 134 
 amount necessary for health, 198 
 as a part of a systematic education, 199 
 deficiency of, a cause of disease, 135 
 Du l>ois Reyraond's definition, 198 
 importance of, in preservation of health, 
 
 198 
 
 relation of, to mental work, 199 
 Expectant treatment of erysipelas, value, 639 
 Expectoration, significance of, in diagnosis, 
 
 158 
 
 External anthrax, localized, 935 
 Exudation, distinction from transudation, 42 
 in inflammation, 42 
 
 in peri- and parametritis of puerperal fe- 
 ver, 1007 
 
 in pelvic peritonitis, 9S9 
 Eye, affections of, following cerebro-spinal 
 
 meningitis, 819 
 in rubeola, treatment, 581 
 condition of, in cerebro-spinal meningitis, 
 
 810 
 
 diseases of, complicating erysipelas, 634 
 rubeola, 571 
 variola, 445 
 lesions of, in cerebro-spinal meningitis, 
 
 8-24 
 
 in pyaemia, 967 
 
 Eyes, appearance of, significance in gen- 
 eral diagnosis, 151 
 
 F. 
 
 Face, appearance of, in typhus fever, 348 
 Family predisposition to diphtheria, 681 
 Faradization, use of, in rabies and hydro- 
 phobia, 907 
 Farcy, 909 
 
 Fatigue as a cause of typhus fever, 342 
 Fat, sources of, in the body, 74 
 Fatty degeneration, 74 
 causes. 78 
 
 Fatty degeneration, following diphtheritic 
 
 paralysis, 676 
 infiltration, 76 
 metamorphosis, 74, 79 
 Fauces, condition of, in cerebro-spinal men 
 
 ingitis, 814 
 in erysipelas, 633 
 in malignant scarlet fever, 508 
 in typhoid fever, 286 
 inflammation of, complicating rubeola, 
 
 571 
 significance of appearance of, in general 
 
 diagnosis, 152 
 
 Faucial and nasal mucous membrane, con- 
 dition of, in mild scarlet fever, 504 
 Febrifuge, use of, in relapsing fever, 428 
 Febrile stage of grave form of the plague, 
 
 778 
 
 Fermentation theory of disease, 138 
 Fever, agents producing heat in, 40, 41 
 definition, 38 
 inflammatory, 37 
 
 distinguished from idiopathic, 37 
 influence of vaso-motor system on produc- 
 tion of heat in, 39 
 intermittent, 592 
 malarial, 589 
 pernicious malarial, 605 
 puerperal, 984 
 relapsing, 369 
 remittent, 598 
 sanitary effects, 41 
 scarlet," 486 
 
 secondary, in variola, 439 
 simple continued, 231 
 symptoms, 38 
 temperature, 38-40 
 traumatic, 37 
 typlio-malarial, 614 
 typhoid, 237 
 typhus, 338 
 yellow, 640 
 Fibrinous degeneration, 80 
 
 inflammation, 49 
 Filtering power of soil, 187 
 Filth as a cause of cholera, 721 
 diphtheria, 682 
 the plague, 774 
 relapsing fever, 370 
 Foetus, effects of maternal impression upon, 
 
 131 
 Fomites, propagation of cholera by, 721 
 
 special, of cholera, 723 
 Food, adulterations, 197 
 
 appetite as a guide to necessary amount, 
 
 195 
 
 as a cause of disease, 195 
 infants, 196 
 patient's sensations as a guide to choice 
 
 of, in disease, 205 
 popular errors in regard to, 195 
 
 to overeating, 195 
 preparation of, necessity of a physician's 
 
 knowledge of, 196 
 proper, necessity of, in prevention of 
 
 pyaemia and septicaemia, 980 
 transmission of anthrax by, 929
 
 1050 
 
 Formad on peculiarities of scrofulous habit, 
 
 101 
 
 Forms of anthrax in animals and man, 934, 
 940 
 
 of leprosy, 789 
 
 of the plague, 777 
 
 of rabies, 895 
 
 of relapsing fever, 395 
 
 of vaccine, 476 
 Fourth ventricle, lesions of, in cerebro- 
 
 spinal meningitis, 824 
 Framum lingua?, ulceration of, in pertussis, 
 
 841 
 Frequency of puerperal fever, 984 
 
 of typho-malarial fever, 616 
 Frictions, use of, in dry beriberi, 1043 
 Frontal pains in influenza, 867 
 Fruit, propagation of mahiria by, 591 
 Fulminant form of the plague, 779 
 Furious form of rabies, 896 
 Furuncles, complicating variola, 445 
 
 G. 
 
 Gait, peculiarity of, in beriberi, 1039 
 Gall-bladder, lesions of, in cholera, 746 
 
 in typhoid fever, 266 
 Gangrene, 56 
 
 complicating vaccination, 468 
 following typhoid fever, 293 
 
 typhus fever, 355 
 in erysipelas, 633 
 in symptomatic parotitis, treatment of, 
 
 628 
 
 of neck, complicating scarlet fever, 512 
 pulmonary, complicating relapsing fever, 
 
 404 
 
 Gangrenous affections following rubeola, 574 
 Gastro-intestinal canal, condition of, in 
 
 dengue, 881 
 
 condition of, in yellow fever, 644 
 lesions of, in anthrax, 936 
 in influenza, 872 
 in rabies and hydrophobia, 902 
 in relapsing fever, 413 
 symptoms in influenza, 866 
 in mild scarlet fever, 505 
 in malignant scarlet fever, 507 
 of septicaemia lymphatica, 1011 
 Gelsemium, use of, in yellow fever, 651 
 GENERAL ETIOLOGY, 125 
 General dropsies, 71 
 
 treatment of erysipelas, 639 
 
 of glanders in horse and man, 919, 920 
 Genitalia, gangrene of, complicating variola, 
 
 446 
 
 Geographical distribution of anthrax, 926 
 of beriberi, 1038 
 of glanders, 909 
 of rabies and hydrophobia, 886 
 of relapsing fever, 3G9 
 of typhoid fever, 241 
 Germ, specific, of glanders, nature of, 914 
 of rabies and hydrophobia, 892 
 
 point of election of, 892 
 Germ-theory of disease, 138 
 of scarlet fever, 488 
 
 Giddiness, significance of, in general diag- 
 nosis, 166 
 
 GLAKDERS (FARCY), 909 
 Synonyms, 909 
 Definition, 909 
 History, 909 
 
 Geographical distribution, 909 
 Etiology Contagiousness, 911 
 Specific nature, 911 
 Predisposing causes, 912 
 Ill-health, relation of, to causation, 912 
 Cold and damp stables, relation of, to 
 
 causation, 912 
 Debility from chronic diseases, relation 
 
 of, to causation, 912 
 Infection, channels of, 913 
 Particular nature of the germ, 914 
 Virulence of the germ, 914 
 Modes of culture of germ, 914 
 Demonstration of bacillus of, 914 
 Symptoms in horses, 914 
 Acute form, 914 
 
 Incubation period, 914 
 Mode of onset, 914 
 Local lesions, 915 
 Appearance of nostrils, 915 
 
 of lymphatics, 915 
 Enlargement of joints, 915 
 Appearance of ulcers, 915 
 Mode of death in, 915 
 Chronic form, 915 
 
 Premonitory symptoms, 915 
 Condition of general health, 915 
 Local lesions, 915 
 Lymphatics, 915 
 
 Bronchial and pulmonary form, 916 
 Acute cutaneous form (farcy), 916 
 
 Local lesions, 916 
 
 Chronic cutaneous form (chronic 
 farcy), 916 < 
 
 Local lesions, 916 
 Duration, 915 
 Morbid anatomy, 916 
 
 Nasal lesions, characters of, 917 
 Pulmonary lesions, characters of, 917 
 , Cutaneous lesions, characters of, 917 
 Diffuse glanderous swellings, 917 
 of nose, 918 
 of lungs, 918 
 of muscles, 918 
 Diagnosis, 918 
 
 Value of inoculation in, 918 
 Prognosis, 918 
 
 Unfavorable nature of, 918 
 Treatment in animals, 918 
 Not commendable, 918 
 Local, 918 
 General, 919 
 Diet in, 919 
 Preventive, 919 
 Extermination of disease in animals, 
 
 919 
 
 Glanders in Man, 919 
 History of, 919 
 Etiology, 919 
 Modes of infection, 919 
 immediate, 919
 
 1060 
 
 INDEX. 
 
 Glanders in Man Etiology: Modes of in- 
 fection, mediate, 920 
 Influence of occupation, 920 
 Influence of ill-health, 920 
 Symptoms incubation period, 920 
 Appearance of wound, 920 
 General, 920 
 Mode of onset, 920 
 
 Character and seat of local lesions, 921 
 Appearance of sores, 921 
 Condition of nasal mucous membrane, 
 
 921 
 
 of submaxillary glands, 921 
 of conjunctiva, 921 
 Digestive tract, 921 
 Nervous system, 921 
 Temperature in, 921 
 Pulse in, 921 
 Chronic form, 921 
 General, 921 
 Local, 921 
 
 Cutaneous lesion, 922 
 Respiratory lesions, 922 
 Lymphatic glands, 922 
 Digestive tract, 922 
 Convalescence, 922 
 Duration of acute forms, 921 
 
 of chronic forms, 922 
 Morbid anatomy changes in mucous 
 
 membranes, 922 
 Lungs and pleurae, 922 
 Gastro-intestinal tract, 922 
 Spleen and liver, 922 
 Joints, 922 
 Bones, 922 
 
 Brain and membranes, 923 
 Microscopy of lesions, 923 
 Diagnosis, 923 
 
 Pathognomonic signs in, 923 
 From "rheumatic fever, 923 
 Chronic form, from pyaemia and septi- 
 caemia, 923 
 From syphilis, 924 
 From miliary tuberculosis, 924 
 Presence of bacillus not conclusive, 924 
 Value of inoculation in, 924 
 Prognosis unfavorable nature of, 924 
 Treatment External cases, 924 
 Erysipelatoid swellings, 924 
 Abscesses and tumors, 924 
 Nasal ulcers, 924 
 
 Importance of general treatment, 924 
 Use of antiseptics, 924 
 Diet, 924 
 Preventive, 925 
 
 Extinction of affection in animals, 925 
 Necessity of disinfection, 925 
 Glanderous swelling, diffuse, 917 
 Glands at angle of jaw, swelling of, sympto- 
 matic of nasal invasion, in diph- 
 theria, 669, 670 
 Glandular abscesses in diphtheria, treatment, 
 
 710 
 
 degenerations, 72 
 
 swellings in diphtheria, treatment, 709 
 Glycosuria, complicating relapsing fever, 
 410 
 
 Gout, hereditary nature, 127 
 Granuloma, 120, 124 
 
 Grave forms of cholera, physiognomy, 734 
 stools, 733 
 symptoms, 732 
 of the plague, 777 
 of relapsing fever, 395 
 Grease-traps, varieties, 221 
 GROWTHS, MORBID, 105 
 Gums, significance of state of, in general di- 
 agnosis, 151 
 
 H. 
 
 Habits, depressing, as a cause of cerebro- 
 
 spinal meningitis, 802 
 Hsematemesis, significance of, in general di- 
 agnosis, 163 
 in relapsing fever, 390 
 Haematoidin, 91 
 Hsematoma, 115, 122 
 Haematuria in relapsing fever, 390 
 Haemoglobin, 90 
 
 Haemophilia, hereditary nature, 129 
 Haemoptysis, significance of, in general diag- 
 nosis, 163 
 
 Haemostatics, use of, in yellow fever, 652 
 Hair, appearance of, in typhoid fever, 275 
 
 loss of, following erysipelas, 633 
 Headache in cerebro-spinal meningitis, 808 
 in idiopathic parotitis, 624 
 in influenza, 867 
 treatment, 874 
 in relapsing fever, 383 
 in typhoid fever, 277 
 
 treatment, 334 
 in typhus fever, 348 
 
 treatment, 366 
 
 Health, importance of exercise in preserva- 
 tion, 198 
 
 Health-resorts, disease from, 185 
 Hearing, impairment of, following cerebro- 
 spinal meningitis, 819 
 disorders of, in relapsing fever, 400 
 modifications of, in typhoid fever, 279 
 
 significance of, in general diagnosis, 166 
 Heart, alterations of, in beriberi, 1041 
 condition of, in beriberi, 1040 
 in cholera, 737 
 in pyaemia, 976 
 in typhus fever, 351 
 disease, complicating influenza, 870 
 lesions of, in cholera, 746 
 in diphtheria, 686 
 in relapsing fever, 411 
 in septicaemia, 972 
 in typhoid fever, 267 
 in typhus fever, 357 
 and blood-vessels, lesions of, in rabies and 
 
 hydrophobia, 902 
 palpitation of, in beriberi, 1039 
 Heart-clot, complicating relapsing fever, 402 
 rubeola, 672 
 scarlet fever, 523 
 Heat as a cause of disease, 133 
 
 use of, in cholera, 769 
 Hemorrhages in dengue, 882
 
 INDEX. 
 
 1061 
 
 Hemorrhages in hemorrhagic form of per- 
 nicious malarial fever, treatment, 
 612 
 
 in remittent fever, treatment, 605 
 in yellow fever, 646 
 
 treatment, 651 
 intestinal, in typhoid fever, 287, 288 
 
 treatment, 332 
 Hemorrhagic form of pernicious malarial 
 
 fever, 609 
 causes, 610 
 
 seat of hemorrhages, 610 
 symptoms, 611 
 treatment, 612 
 of scarlet fever, 509 
 of variola, treatment, 454 
 infarction, 64 
 rubeola, 569 
 small-pox, 442 
 
 variola, morbid anatomy of pock in, 447 
 Hepatic abscess following typhoid fever, 295 
 Heredity as a cause of disease, 175 
 influence of, on marriage, 176 
 relation of, to life insurance, 175 
 as a cause of leprosy, 787 
 Hereditary diathesis, transmutation, 130 
 nature of syphilis, 127 
 
 of non-malignant morbid growths, 129 
 of nervous diseases, 129 
 of organic disease, 129 
 of rickets, 128 
 
 predisposition to disease, 126 
 Herpes labialis, complicating influenza, 874 
 Hiccough in cholera, 762 
 in relapsing fever, 405 
 significance of, in general diagnosis, 158 
 Histoid tumors,. 116 
 History of anthrax in animals and man, 
 
 926, 939 
 
 of beriberi, 1038 
 of cerebro-spinal meningitis, 796 
 of cholera, 715 
 of dengue, 879 
 of diphtheria, 656 
 of erysipelas, 629 
 of glanders in horses, 909 
 
 in man, 919 
 of influenza, 852 ei seq. 
 of pertussis, 836 
 of rabies and hydrophobia, 886 
 of relapsing fever, 309 
 of rotheln, 582 
 of rubeola, 557 
 
 of pyaemia and septicaemia, 945-952 
 of scarlet fever, 486 
 of simple continued fever, 231 
 of typhoid fever, 238 
 of typhus fever, 338 
 of vaccination, 465 
 of vaccinia, 456 
 of varicella, 481 
 of variola, 434 
 Hodgkin's disease, complicating diphtheria, 
 
 675 
 
 Horse-pock vaccine, 473 
 Hospitals for infectious diseases, necessity, 
 203 
 
 Hospital, maternity, advantages, 1021 
 
 Hot stage of intermittent fever, treatment, 595 
 
 House-drainage, 188 
 
 disconnection of, from sewer, 190 
 testing, 190 
 House-plumbing, 190 
 Houses, sanitary inspection, 187, 193 
 House-sewerage, 188 
 
 dangers to health from, 189, 191 
 examination of a system, 188 
 main points in a good system, 191 
 peppermint-test for defects, 190 
 Human excrement, removal of, by drainage, 
 
 ^ 215 
 Humanized and animal vaccine, relative 
 
 merits, 473 
 
 vaccine, points of superiority, 473 
 Humidity of air as a cause of disease, 133 
 Hunger, influence of, on causation of rabies 
 
 and hydrophobia, 888 
 Hyaline degeneration, 80 
 Hydro-bilirubin, 91 
 Hydrocephalus, following cerebro-spinal 
 
 meningitis, 819 
 Hydrochloric acid, local use of, in puerperal 
 
 fever, 1028 
 Hydrophobia, 886 
 Hygiene, 173 
 
 importance of perfect, in cholera epidem- 
 ics, 758 
 
 in pertussis, 848 
 
 public, relation of physicians to, 207 
 Hygienic treatment of erysipelas, 637 
 of hydrophobia, 906 
 of scarlet fever, 539 
 of typhoid fever, 322 
 of yellow fever, 654 
 Hygroma, 116, 122 
 
 Hyperpyrexia in diphtheria, treatment, 694 
 in erysipelas, treatment, 637 
 in puerperal fever, treatment, 1032 
 in relapsing fever, treatment, 426 
 in rubeola, treatment, 579 
 in scarlet fever, treatment, 541 
 in typhoid fever, treatment, 327 
 in typhus fever, treatment, 364 
 in yellow fever, treatment, 651 
 Hypodermatic injection of anthrax swell- 
 ings, 938, 943 
 
 Ice, impure, as a cause of disease, 185 
 use of, in diphtheria, 702 
 
 in scarlet fever, 542 
 Idiopathic parotitis, 620 
 Idiosyncrasy as a cause of typhoid fever, 
 
 245 
 
 influence of, in causation of variola, 436 
 Ill-health, influence of, in causation of glan- 
 ders, 912, 920 
 Impure air as a cause of disease, 177 
 
 evil effects of, 181 
 water, as a cause of disease, 182 
 Impurities of water, from living organisms, 
 
 184 
 nature, 184
 
 1062 
 
 IXDEX. 
 
 Incubation of relapsing fever, 376 
 of scarlet fever, 492 
 of typhus fever, 34.6 
 of varicella, 481 
 of variola, 436 
 period of anthrax in animals, 934 
 
 in man, 940 
 
 of diphtheria, duration of, 679 
 of glanders in horse, 914 
 
 in man, 920 
 of influenza, 863 
 of intermittent fever, 592 
 of the plague, 777 
 of rabies and hydrophobia, 894 
 of rotheln, 585 
 of typhoid fever, 259 
 of yellow fever, 643 
 
 stage. of idiopathic parotitis, duration, 621 
 of idiopathic parotitis, 621 
 of puerperal fever, 1004 
 of pyaemia, 973 
 of rubeola, 563 
 Indications for treatment of puerperal fever, 
 
 1028 
 
 of septicaemia, 982 
 of yellow fever, 649 
 Infants'" food, 196 
 Infarction, hemorrhagic, 164 
 Infection, 200 
 
 channels of, in glanders, 913 
 modes of, in human anthrax, 939 
 Infiltration, albuminoid, 72 
 amyloid, 84 
 fatty, 76 
 
 INFLAMMATION, 37 
 Characteristics, 37 
 Heal, 37 
 Redness, 37 
 causes, 37 
 Pain, 41 
 
 causes, 41 
 Swelling, 41 
 causes, 41 
 Exudation, 42 
 Keuss on distinction of exudation from 
 
 transudation, 42 
 
 Migration of white corpuscles, 42 
 Coagulation of exudation, 43 
 Changes in the blood-vessels, 43 
 Disturbance of functions, 44 
 Varieties of hemorrhagic, 48 
 Diphtheritic, 50 
 Productive, 51 
 Catarrhal, 52 
 I'hlegmonous, 52 
 Acute, 53 
 Chronic, 53 
 Interstitial, 53 
 Parenchymatous, 53 
 Termination, 54, 55, 56 
 Resolution, 54 
 New formations, 54 
 Cicatrization, 55 
 Abscesses, 56 
 Destruction of tissue, 56 
 Causes, toxic, 43 
 traumatic, 44 
 
 INFLAMMATION Causes, parasitic, 45 
 
 infectious, 45 
 
 constitutional, 46 
 
 trophic, 46 
 Course, 46 
 
 Sthenic and astheuic, 46 
 Serous, 47 
 Typhoidal, 47 
 
 symptoms, 47 
 Purulent, 48 
 
 Suppurative, relation of microbia, 48 
 Fibrinous, 49 
 
 of fauces, catarrhal and diphtheritic, com- 
 plicating typhoid fever, 295 
 of neck, complicating parotitis, 511 
 simple, complicating vaccination, 468 
 Inflammations, serous, complicating typhus 
 
 fever, 355 
 
 Inflammatory fevers, 37 
 form of typhus fever, 354 
 rubeola, 568 
 
 INFLUENZA Definition, Sol 
 Synonyms, 851 
 History, 852 el seq. 
 Etiology, 859 
 
 Predisposing causes, 859 
 
 Age, relation of, to causation, SCO 
 
 Social condition, relation of, to causa 
 tion, 860 
 
 Sex, relation of, to causation, 860 
 
 Occupation, relation of, to causation, 
 860 
 
 Race, relation of, to causation, 860 
 
 Over-crowding and filth, relation of, to 
 causation, 860 
 
 Season, relation of, to causation, 860 
 
 Climate, relation of, to causation, 860 
 
 Air, condition of, to causation, 860 
 
 Winds, relation of, to spread, 860 
 
 Mode of onset of epidemics, 860, 861 
 
 Duration of epidemics, 861 
 
 Exciting causes, 862 
 
 Specific poison, 863 
 
 Contagiousness, 862 
 
 Dissemination, 863 
 
 Relation of, to other epidemic diseases, 863 
 Incubation period, 863 
 Clinical history, 864 
 
 Variations in intensity of symptoms, 
 864 
 
 Symptoms of mild cases, 864 
 
 of severe cases, 864 
 Symptomatology, 865 
 
 Analysis of symptoms, 865 
 
 Fever, 865 
 
 Temperature, 865 
 
 Pulse, 866 
 
 Urine, 866 
 
 Skin, 866 
 
 Eruptions, 866 
 
 Gastro-intestinal system, 866 
 
 Nausea and vomiting, 866 
 
 Physiognomy, 866 
 
 Catarrhal symptoms, 866 
 
 Condition of mucous membrane, 866 
 
 Hoarseness, 867 
 . Cough and dyspnoea, 867
 
 IXDEX. 
 
 1063 
 
 INFLUENZA Symptoinology : Nervous sys- 
 tem, 867 
 Headache, 867 
 Frontal pain, 867 
 Pains in limbs, 868 
 Pleurodynia, 868 
 Delirium, 868 
 Dizziness, 868 
 Sleeplessness, 868 
 Hebetude and torpor, 868 
 Muscular twitchings, 868 
 Mental condition, 868 
 Duration, 865 
 
 Complications and sequels, 868 
 Inflammations of lungs, 868 
 
 Bronchitis and capillary bronchitis. 
 
 868, 869 
 
 Catarrhal pneumonia, 869 
 Lobar pneumonia, 869 
 Localized pulmonary collapse, 869 
 Gangrene of lungs, 870 
 Pleurisy, 870 
 Pericarditis, 870 
 
 Laryngitis and chronic bronchitis, 870 
 Inflammation of middle ear, 870 
 Parotitis, 870 
 Herpes labi;ilis, 870 
 Phthisis, 870 
 
 Emphysema, aggravation, 870 
 Old neuralgias, aggravation, 870 
 Heart disease, aggravation, 870 
 Bright's disease, aggravation, 870 
 Pregnancy, 870 
 Intermittent fever, 870 
 Morbid anatomy, 871 
 Essential lesions, 871 
 Appearance of respiratory tract, 871 
 Changes in gastro-intestinal tract, 872 
 Bronchial glands, 872 
 Lung tissue, 872 
 
 Pathology Not a simple acute inflamma- 
 tion, 871 
 
 Specific character, 871 
 Diagnosis From non-specific catarrhal 
 
 affections, 872 
 From typhoid fever, 872 
 Prognosis Influence of age, 872 
 
 pre-existing organic disease, 872 
 of character of epidemic, 872 
 Mortality, 872, 873 
 
 Variability in different epidemics, 873 
 Rate of, 873 
 Cause of death, 873 
 Treatment preventive, 873 
 Mild forms, 874 
 Catarrh, 874 
 Headache, 874 
 Cough, 875 
 Use of quinine, 874 
 Opium, 774 
 Fat inunctions, 874 
 Diet, 874 
 Severe forms, 875 
 
 Indications for treatment, 875 
 High temperature, 875 
 Cough, 876 
 Sub-sternal and chest pains, 876 
 
 INFLUENZA Treatment : Severe forms, use 
 
 of diaphoretics, 875 
 Bloodletting, 875 
 Emetics, 876 
 Purgatives, 876 
 Quinine, 876 
 Mineral acids, 876 
 Expectorants, 877 
 Opium, 876 
 Alcohol, 877 
 Chloral, 877 
 Diarrhoea, 877 
 Debility, 877 
 Lung complications, 877 
 Diet in, 875 
 Convalescence, 878 
 Danger of depressing measures, 878 
 Inhalations, use of, in pertussis, 844 
 Initial stage of pertussis, 840 
 
 symptoms of yellow fever, 644 
 Injections, intravenous, use of, in cholera, 768 
 in hydrophobia, 908 
 in puerperal fever, 1029 
 vaginal, use of, in prevention of puerperal 
 
 fever, 1026 
 
 Inoculation as a means of diagnosis in glan- 
 ders, 918 
 as a means of diagnosis in hydrophobia, 
 
 902 
 
 as a prophylactic in anthrax, 937 
 in rabies and hydrophobia, 905 
 in scarlet fever, 536 
 of leprosy, 788 
 of rubeola, 559 
 of small-pox, 465 
 
 Insects, propagation of anthrax by, 929 
 Insomnia in typhoid fever, treatment, 334 
 in typho-malarial fever, 'treatment, 619 
 in typhus fever, treatment, 366 
 Inspection of houses, sanitary, 187 
 Insusceptibility to rabies and hydrophobia, 
 
 894 
 Intellect, impairment of, following cerebro- 
 
 spinal meningitis, 819 
 impairment of, following typhoid fever, 
 
 292 
 
 Intellectual condition in typhus fever, 348 
 Intemperance as a cause of cholera, 721 
 of disease, 197 
 of relapsing fever, 370 
 of typhoid fever, 245 
 of typhus fever, 342 
 Intermission in intermittent fever, 594 
 
 in relapsing fever, 381 
 INTERMITTENT FEVER, 592 
 Incubation period, 592 
 Symptoms prodromal stage, 592 
 Paroxysm, 592 
 Cold stage, 592 
 
 theory of cause of cold stage, 593 
 Hot stage, 593 
 
 duration of hot stage, 593 
 
 relation of type to duration of hot 
 
 stage, 593 
 Sweating stage, 593 
 
 Nausea and vomiting during paroxysm, 
 693
 
 J064 
 
 INDEX. 
 
 INTERMITTENT FEVER Symptoms : Inter- 
 mission, 594 
 
 Duration of intermission, 594 
 Relative frequency of different types, 
 
 594 
 
 Convertibility of different types, 594 
 Morbid anatomy, 594 
 Treatment cold stage, 594 
 Use of quinia, 595 
 Opium, 595 
 Emetics, 595 
 Hot stage, 595 
 Use of opium, 595 
 Quinia, 596 
 Purgatives, 596 
 Of convulsions, 597 
 Sweating stage, 597 
 
 Use of quinia, 597 
 Causes of failure of quinia, 597 
 Adjuvants to quinia in preventing re- 
 turn of paroxysms, 598 
 Use of nitric acid to prevent return of 
 
 paroxysms, 598 
 
 Internal anthrax in animals, 934 
 Interstitial inflammation, 53 
 Intestinal anthrax in man, 941 
 canal, lesions of, in cholera, 743 
 catarrh, chronic, following rubeola, 574 
 
 complicating rubeola, 572 
 tract, lesion of, in typhus fever, 357 
 Intestines, lesions of, in diphtheria, 689 
 
 symptoms of diphtheria of, 673 
 Intravenous injection of warm water in hy- 
 drophobia, 908 
 
 Inunction in scarlet fever, 541 
 Inunctions, use of, in rubeola, 580 
 Invasion of cerebro-spinal meningitis, 806 
 of diphtheria, 676 
 of variola, 438 
 
 stage of grave form of the plague, 777 
 of idiopathic parotitis, duration, 621 
 
 treatment, 624 
 of variola, treatment, 452 
 of varioloid, 443 
 Iodine as a specific in typhoid fever, 336, 
 
 337 
 lodoform, intra-iiterine use of, in puerperal 
 
 fever, 1025 
 Iron, persulphate, local use of, in puerperal 
 
 fever, 1028 
 
 tincture of the chloride, use of/ in diph- 
 theria, 706 
 in erysipelas, 637 
 in yellow fever, 652 
 Irregular forms of scarlet fever, 508 
 Irrigation, disposal of liquid wastes by, 
 
 225 
 
 Irritability of nervous system in hydropho- 
 bia, 899 
 
 Irritants, influence of, in production of mor- 
 bid growths, 108 
 
 Isolated glands, lesions of, in cholera, 745 
 Isolation in anthrax, 937 
 in diphtheria, 696 
 in the plague, 783 
 in rubeola, 578 
 in scarlet fever, 536 
 
 Isolation, necessity of, in typhus fever, 361 
 principles of, in disease, 203 
 
 J. 
 
 Jaborandi, use of, in scarlet fever, 552 
 
 in yellow fever, 650 
 Jaundice in relapsing fever, 391 
 in septicaemia venosa, 1012 
 complicating typhoid fever, 295 
 
 typhus fever, 356 
 in remittent fever, 600 
 in yellow fever, 646 
 Joints, chronic diseases of, following rube- 
 
 ola, 574 
 
 condition of, in glanders in man, 920 
 inflammation of, complicating erysipelas, 
 
 634 
 
 lesions of, in pyaemia, 967 
 purulent inflammation of, in puerperal 
 
 fever, 990 
 
 suppuration of, in pyaemia, 976 
 swelling of, in cerebro-spinal meningitis, 
 
 814 
 
 in relapsing fever, 400 
 Jugular veins, pulsation of, significance in 
 
 general diagnosis, 156 
 Juniper gin, use of, in wet beriberi, 1042 
 
 K. 
 
 Kibble's fever-cot, use of, in puerperal fever, 
 
 1034, 1035 
 Kidney affections, complicating diphtheria, 
 
 676 
 
 complications in hemorrhagic form of 
 pernicious malarial fever, treat- 
 ment, 612 
 Kidneys, lesions of, in anthrax in animals, 
 
 937 
 
 in man, 942 
 in cholera, 746 
 in diphtheria, 687 
 in pyaemia, 969 
 
 in rabies and hydrophobia, 903 
 in relapsing fever, 414 
 in scarlet fever, 526 
 in septicaemia, 972 
 in typhoid fever, 268 
 in typhus fever, 357 
 Koch's investigation of bacillus tuberculosis. 
 
 99 
 
 of cholera bacilli, 745-749 
 of bacteria of puerperal fever, 997 
 
 Lactic acid, use of, in diphtheria, 703 
 
 Lardaceous degeneration, 84 
 
 Laryngeal diphtheria, local treatment, 712 
 
 prognosis, 692 
 Laryngitis, complicating rubeola, 571 
 
 typhoid fever, 294 
 Larynx, inflammation of, complicating va- 
 
 riola, 446 
 lesions of, in hydrophobia, 902 
 
 in relapsing fever, 413
 
 INDEX. 
 
 1065 
 
 Larynx, lesions of, in typhoid fever, 266 
 
 symptoms of diphtheria, 671 
 Latent form of typhoid fever, 300 
 Leeches, use of, in puerperal fever, 1031 
 LEPROSY, 785 
 Definition, 785 
 Synonyms, 785 
 History, 785 
 Etiology, 787 
 
 Heredity as a cause, 787, 788 
 Contagiousness, 788 
 Transmission, by inoculation, 788, 789 
 Sex as a cause, 789 
 Forms, 789 
 Symptoms prodromal stage, 789 
 
 Duration of prodromal stage, 789 
 Tubercular form, 789 
 Local, 789 
 Eruptions, 789 
 Earlier eruptions, 790 
 Characteristic eruptions, 790 
 General, 790 
 Duration, 790 
 Anaesthetic form, 790 
 Local, 790 
 General, 791 
 Duration, 791 
 Morbid anatomy, 791 
 Changes in nerves, 791 
 
 Skin, 791 
 Bacteria, 792 
 Seat of bacteria, 792 
 Diagnosis, 792 
 Prognosis, 793 
 Treatment, 793 
 
 Futility of specific, in, 793 
 Indications, 793 
 Prophylaxis, 794 
 Segregation of afilicted, 794 
 Quarantine in, 794 
 Local, 794 
 
 Lesions characteristic of anthrax, 935 
 Lethargic form of rabies in dogs, 897 
 Leucocytes, death of, aa a cause of throm- 
 bosis, 57 
 migration, 42 
 Leucocythsemia, complicating diphtheria, 
 
 675 
 
 Lime-water, use of, in diphtheria, 703 
 Limbs, significance of appearance in general 
 
 diagnosis, 160 
 Listerine as a prophylactic in scarlet fever, 
 
 537 
 Liver, abscess of, following typhoid ferer, 
 
 295 
 
 enlargement of, in pyaemia, 976 
 lesions of, in cholera, 745 
 
 in diphtheria, 687 
 , in glanders, 918, 922 
 in pyaemia, 969 
 in remittent fever, 602 
 in relapsing fever, 414 
 in scarlet fever, 531 
 in typhoid fever, 265 
 in typhus fever, 357 
 in yellow fever, 649 
 Local dropsies, 71 
 
 Local lesions of glanders, 915, 921 
 symptoms of glanders in animals, 914 
 
 of glanders in man, 921 
 treatment of anthrax in animals, 938 
 of anthrax in man, 943 
 of diphtheria, 701, 709 
 of erysipelas, 637 
 of glanders in horse, 918 
 
 in man, 924 
 of pyaemia, 981 
 of septicaemia, 983 
 Lochial discharge, influence of, on causation 
 
 of puerperal fever, 1015 
 Lung diseases, complicating influenza, 868 
 complicating influenza, treatment, 877 
 Lungs, gangrene of, in influenza, 870 
 
 hypostatic congestion of, in typhus fever, 
 
 353 
 
 lesions of, in cholera, 746 
 in diphtheria, 687 
 in glanders, 917, 922 
 in influenza, 872 
 in pyaemia, 968 
 in relapsing fever, 413 
 in septicaemia, 972 
 in typhoid fever, 266 
 Lymph, dried, use of, in vaccination, 477 
 of vaccinia, microscopical characters, 463 
 vaccine, proper time for collecting, 479 
 Lymphangetis, complicating erysipelas, 634 
 
 vaccination, 468 
 Lymphatic glands, condition of, in anthrax, 
 
 940 
 in glanders in horses, 915 
 
 in man, 921 
 
 in malignant scarlet fever, 508 
 in rotheln, 586 
 
 lesions of, in human anthrax, 942 
 in anthrax of lower animals, 935 
 in diphtheria, 687 
 in relapsing fever, 417 
 pigmentation of, 92 
 
 Lymphatics, as channel of entrance of poi- 
 son of septicaemia, 963 
 lesions of, in symptomatic parotitis, 626 
 Lymphatic swellings, seat of, in grave form 
 
 of the plague, 778 
 system, lesions of, in the plague, 781 
 Lymphoma, 120, 124 
 
 M. 
 
 Magnesium sulphate, use of, in wet beriberi, 
 
 1042 
 Malaria, 89 
 
 action of poison on system, 591 
 entrance into system, modes of, 591 
 communicability by drinking-water, 590 
 by fruit, 591 
 by milk, 590 
 conditions necessary to mature the poison, 
 
 589 
 
 duration of incubation of poison, 591 
 from impure water, 182 
 influence of moisture in production, 187 
 means of access of the poison, 590 
 nature of the poison, 589
 
 10GG 
 
 IXDEX. 
 
 Malaria, non-interchangeableness of the poi- 
 son, 591 
 
 ponderability of the poison, 590 
 production, 137 
 specific nature of poison, 591 
 MALARIAL FEVER, PERNICIOUS, 605 
 Definition, 605 
 Varieties, GOG 
 
 Algid or congestive form, 606 
 Causes, GOG 
 Frequency, 607 
 
 Cases illustrating clinical history, 606 
 Causes of death, 607 
 Mortality-rate, 007 
 Treatment, 607 
 
 General indications for treatment, 608 
 Use of ice and cold in treatment, 608 
 Opium, 608 
 Alcohol, 608 
 Comatose form, 600 
 Symptoms, 608 
 Previous condition of persons attacked, 
 
 609 
 
 Diagnosis from congestive form, 609 
 Treatment, 609 
 Hemorrhagic form of, 609 
 Causes, G10 
 
 Seat of hemorrhages, 610 
 Cases illustrating clinical history, 611 
 Treatment, 612 
 Indications for treatment, 612 
 Use of quinia, 612 
 Hemorrhages, 612 
 Renal complications, 613 
 Depurative, 613 
 
 Use of calomel and purgatives, 613 
 Malarial fevers, 589 
 
 definition, 589 
 
 nature of remittent fever, 598 
 Malignant anthrax oedema, 940 
 pustule, 926 
 tumors, 114 
 Mania following cerebro-spinal meningitis, 
 
 a 819 
 
 Maternity hospitals, advantages of, 1021 
 Marriages, influence of, hereditary, 176 
 of diseased persons, 176 
 transmission of hereditary proclivities by, 
 
 131 
 
 Marriages, consanguineous, 131 
 Marson's theory of multiple vaccination, 467 
 Masked forms of yellow fever, symptoms, 654 
 Maturation in variola, 439 
 Measles, 557 
 
 relations of, to idiopathic parotitis, 620 
 Mechanism of transudation, 68 
 Medical diagnosis, general, 148 
 Melanaemia, 92 
 Melanin, 92 
 Membrane, appearance of, in severe form of 
 
 diphtheria, 668 
 
 diphtheritic, artificial production, 684 
 characters, 685 
 mode of formation, 685 
 varieties, 686 
 
 gangrenous condition of, in diphtheria, 
 669 
 
 MENINGITIS, EPIDEMIC CER EEC-SPINAL, 
 
 795 
 
 Definition, 795 
 Synonyms, 795 
 History, 796 
 Etiology, 801 
 
 Seasons as a cause, 802 
 Meteorological agencies, 802 
 Localities, 802 
 Age, influence, 802 
 Sex, influence, 802 
 
 Depressing and debilitating habits 803 
 Contagiousness, 803 
 Morbific principle, 803 
 Pandemic nature, 804 
 In the lower animals, 804 
 Types, 804 
 Forms, 805, 806 
 Symptoms summary of, 806 
 "Modes of onset, 806, 807 
 Individual, 808 
 Pain in the head, 808 
 
 spine, 808 
 Hypenesthesia and anaesthesia of skin, 
 
 808 
 Spinal rigidity or opisthotonos, 809 
 
 duration of, 809 
 Convulsions, 809 
 Paralysis, 810 
 Aphasia, 810 
 Condition of eyes, 810 
 pupils, in, 810 
 strabismus, 810 
 blindness, 811 
 Deafness, 811 
 Suppurative inflammation of middle 
 
 ear, 811 
 
 Physiognomy, 812 
 Delirium, 812 
 Coma, 812 
 Vertigo, 812 
 Debility, 813 
 Condition of tongue, 813 
 Kausea and vomiting, 813 
 Characters of matter vomited, 813 
 Appetite and digestion, 814 
 Thirst, 814 
 
 Constipation and diarrhoea, 814 
 Condition of fauces, 814 
 Urine, 814 
 
 Swelling of joints and limbs, 814 
 Respiration, 814 
 Pulse, 815 
 Temperature, 815 
 
 fluctuations of, 816 
 Eruptions, 816 
 
 irregularity of, 816, 817 
 petechiae and ecchymoses, 816, 817 
 bullre and pemphigus, 817 
 Cause of death, 818 
 Duration, 818 
 Convalescence, 819 
 characters, 819 
 cause of tardv, 819 
 Relapses, 820 
 
 frequency, 820 
 Sequela?, 819
 
 INDEX. 
 
 1067 
 
 MENINGITIS, EPIDEMIC CEREBRO-SPIXAL 
 Sequelae: Followed by eye affec- 
 tions, 819 
 
 Impairment of hearing, 819 
 Deaf-mutism, 819 
 Impaired intellect and mania, 819 
 Hydrocephalus, 819 
 Paresis and paralysis, 819 
 Softening of bruin, 820 
 Difficulty of speech, 820 
 Severe neuralgic pains, 820 
 Mortality of, 820, 828 
 
 variability of death-rate, 820, 828 
 influence of age upon, 828 
 Morbid anatomy, 820 
 
 General appearance of body after death, 
 
 820 ^ 
 Changes in the muscles, 821 
 
 in brain and membranes, 821 
 Changes due to congestion of brain and 
 
 membranes, 821 
 
 to inflammation of meninges, 822 
 to softening of the brain, 823 
 Changes in pia mater, 821 
 in brain-tissue, 823 
 in spinal cord and membranes, 823 
 
 position of, 823 
 in internal and auditory apparatus, 
 
 824 
 
 Softening of fourth ventricle and audi- 
 tory nerve, 824 
 Changes in eye and optic nerve, 824 
 
 in the viscera, 824 
 
 Absence of enlargement of spleen, 824 
 Changes in blood, 824 
 Amount of fibrine in blood before death, 
 
 825 
 
 after death, 825 
 
 Changes in blood-corpuscles, 825 
 Summary of pathology, 826 
 Diagnosis of, 826 
 
 From sporadic meningitis, 827 
 
 Functional and hysterical nervous 
 
 affections, 827 
 Typhoid fever, 827 
 Typhus fever, 827 
 Prognosis of, 828 
 
 Symptoms indicating unfavorable, 829 
 
 favorable, 829 
 
 Imprudence of absolute, in, 829 
 Treatment, 829 
 Emetics, 830 
 Purgatives, 830 
 Futility of venesection, 830 
 Local depletion, 830 
 Cold applications, 830 
 Blisters, 830 
 
 Mode of using blisters, 831 
 Of coldness of skin, 431 
 Of collapse, 831 
 Use of alcohol, 831 
 
 Opium, 832 
 Value of opium, 833 
 Use of quinia, 833 
 Antipyretics, 833 
 Mercury, 833 
 Calabar bean, 834 
 
 MEXISGITIS, EPIDEMIC CEREBRO-SPINAL, 
 Treatment: Use of belladonna, 833 
 Ergot, 833 
 
 Potassium bromide, 834 
 Hydrate of chloral, 834 
 Potassium iodide, 834 
 Management of convalescence, 835 
 Diet in, 834 
 
 Meningitis, granular, following rubeola, 574 
 Menstrual disorders, complicating relapsing 
 
 fever, 410 
 typhoid fever, 296 
 Menstruation, complicating typhus fever, 
 
 356 
 
 significance of abnormal, in general diag- 
 nosis, 165 
 
 Mental condition in hydrophobia, 899 
 in influenza, 868 
 in septicaemia lymphatica of puerperal 
 
 fever, 1012 
 in typhoid fever, 277 
 disorders following the plague, 781 
 impressions, influence of, in causation of 
 
 yellow fever, 643 
 
 overwork as a cause of typhus fever, 342 
 strain, symptoms due to, 205 
 work, relation of, to exercise, 199 
 Mercury, use of, in cerebro-spinal meningitis, 
 
 833 
 
 in diphtheria, 705 
 Metamorphosis, cheesy, 79 
 colloid, 83 
 croupous, 80 
 fatty, 74, 79 
 mucous, 82 
 Metastasis in idiopathic parotitis, G23, 624 
 
 treatment, 625 
 in pyaemia, pathology, 964 
 of tumors, 110 
 Methods of disinfection, 201 
 
 of vaccinating, 478 
 
 Metritis in puerperal fever, lesions, 987 
 Meteorism in typhoid fever, 286 
 Micro-organisms of puerperal fever, 1015 
 in pyaemia, blood-changes effected, 970 
 Microbes, as poison producers and carriers, 
 
 141 
 difficulty of separation of, from surround 
 
 ing material, 146 
 
 liability to error from minuteness, 143 
 Microbia in inflammation, 45, 48 
 Micrococci, 141 
 
 in healthy bodies, 144 
 Microscopic organisms, classification, 141 
 Microscopy of glanderous lesions in man, 
 
 923 
 
 Migration of leucocytes, 42 
 Mild forms of cholera, 731 
 
 character of stools, 732 
 number of stools, 732 
 of influenza, treatment, 874 
 form of typhus fever, 354 
 
 of yellow fever, symptoms, 644 
 Milk, adulteration, 197 
 as a cause of disease, 197 
 as a medium of dissemination of anthrax, 
 929
 
 10G8 
 
 INDEX. 
 
 Milk as a medium of dissemination of ma- 
 laria. 590 
 
 of rabies and .hydrophobia, 891 
 of scarlet fever, 491 
 of typhoid fever, 252 
 as a vehicle of bacillus tuberculosis, 105 
 polluted, as a cause of diphtheria, 683 
 Mind, state of, in relapsing fever, 384 
 Miscarriage, complicating* typhus fever, 356 
 Modern conveniences questionable benefits, 
 
 215 
 Moral sense, perversion of, following typhoid 
 
 fever, 292 
 Morbid anatomy, of anthrax in animals, 
 
 935 
 
 in man, 941 
 of beriberi, 1040 
 of cerebro-spinal meningitis, 820 
 of cholera, 741 
 of dengue, 882 
 of diphtheria, 685 
 of erysipelas, 635 
 of glanders in horses, 916 
 
 in man, 922 
 
 of idiopathic parotitis, 621 
 of influenza, 871 
 of intermittent fever, 594 
 of leprosy, 791 
 of pertussis, 843 
 of the plague, 781 
 of puerperal fever, 985 
 of pyaemia, 966 
 of pyaemia simplex, 970 
 of rabies and hydrophobia, 902 
 of relapsing fever, 413-417 
 of remittent fever, 602 
 of rubeola, 575 
 of scarlet fever, 530 
 of septicaemia, 971 
 of septo- pyaemia, 972 
 of simple continued fever, 235 
 of symptomatic parotitis, 626 
 of typhoid fever, 260 
 of typhus fever, 356 
 of vaccinal pock, 463 
 of varicella, 483 
 of variola, 446 
 of yellow fever, 649 
 growths, 105 
 
 classifications, 114, 122 
 Cohnheim's theory of origin, 106 
 influence of an irriiant in production, 
 
 108 
 
 method of origin, 106 
 non-malignant, hereditary nature, 129 
 processes, 35 
 
 Morbific principle of cerebro-spinal menin- 
 gitis, 803 
 Morphia, hypodermic use of, in beriberi, 
 
 1043 
 
 use of, in rabies and hydrophobia, 907 
 Mortality of anthrax in animals, 936 
 
 in man, 943 
 
 of cerebro-spinal meningitis, 820, 828 
 in cholera, 754 
 of glanders in man, 924 
 of influenza, 872 
 
 Mortality of pertussis, 841 
 of the plague, 780 
 of puerperal fever, 1020 
 of rabies and hydrophobia, 894 
 in relapsing fever, 422 
 of remittent fever, 599 
 of rubeola, 577 
 of scarlet fever, 534 
 of typhoid fever, 316-320 
 of typho-malarial fever, 616 
 of typhus fever, 360, 361 
 of yellow fever, 647, 648 
 Mouth, condition of, in idiopathic parotitis, 
 
 6-22 
 of mucous membrane of, in erysipelas, 
 
 G33 
 complications in erysipelas, treatment, 
 
 638 
 
 symptoms of diphtheria, 672, 673 
 Mucous degeneration, 82 
 
 membranes of palate and fauces, appear- 
 ance of, in prodromal stage of 
 rubeola, 564 
 condition of, in confluent small-pox, 441 
 
 in rotheln, 586 
 eruptions of varicella on, 483 
 influence of different, upon the charac- 
 ter of diphtheritic membrane, 688 
 lesions of, in diphtheria, 688 
 in glanders in man, 922 
 in rabies and hydrophobia, 902 
 in erysipelas, 635 
 
 localized redness of, symptomatic of 
 prodromal stage of diphtheria, 667 
 variolous pustules upon, 439 
 metamorphosis, 82 
 softening, 82 
 Multiple tumors, 110 
 Mumps, 620 
 Murmurs, arterial, in beriberi, 1040 
 
 cardiac, in beriberi, 1040 
 Muscles, alteration of, in beriberi, 1041 
 lesions of, in cerebro-spinal meningitis, 
 
 821 
 
 in diphtheria, 687 
 in pyaemia, 966 
 in typhoid fever, 267 
 of neck, suppuration of, in symptomatic 
 
 parotitis, 626 
 voluntary, lesions of, in relapsing fever, 
 
 410 
 
 Muscular pains in yellow fever, 644 
 paralysis in beriberi, 1039 
 rigidity after cholera, 741 
 spasm, in typhoid fever, 279 
 tenderness in beriberi, 1039 
 tremor in typhoid fever, 279 
 in typhus fever, 349 
 
 Naevi, vaccination as a means of destroying, 
 
 468 
 
 Nails, appearance of, in typhoid fever, 275 
 Nasal cavities, condition of, in malignant 
 
 scarlet fever, 508, 520 
 mode of invasion of, in diphtheria, 669
 
 IXDEX. 
 
 1069 
 
 Nasal complications in erysipelas, treatment. 
 
 638 
 diphtheria, local treatment, 710 
 
 prognosis, 692 
 
 form of diphtheria, symptoms, 669 
 lesions in glanders, 917 
 mucous membrane, condition of, in influ- 
 enza, 866 
 Nationality in relation to relapsing fever, 
 
 371 
 
 Nature of puerperal fever, views concern- 
 ing, 990-1004 
 of vaccinia, 455 
 Nausea, during intermittent fever paroxvsm, 
 
 593 
 
 in cerehro-spinal meningitis, 813 
 in influenza, 866 
 in relapsing fever, 390 
 in rubeola, treatment, 581 
 in typhoid fever, 285 
 in typhus fever, 350 
 in yellow fever, treatment, 652 
 significance of, in general treatment, 
 
 162 
 Negroes, insusceptibility of, to yellow fever, 
 
 644 
 Neck, significance of appearance of, in djag- 
 
 nosis, 152 
 
 Necrosis from embolism, 64, 65 
 Neoplasms, 105 
 Nephritis, complicating scarlet fever, 525 
 
 in scarlet fever, treatment, 550-555 
 Nerves, lesions of, in leprosy, 791 
 in symptomatic parotitis, 626 
 Nervous diseases, complicating diphtheria, 
 
 675, 676 
 
 hereditary nature of, 129 
 influence of, upon susceptibility to ru- 
 beola, 561 
 
 symptoms in relapsing fever, 383-385 
 complicating scarlet fever, 510 
 of dengue, 882 
 of influenza, 867 
 of malignant scarlet fever, 507 
 Nervous system, chronic diseases of, follow- 
 ing rubeola, 574 
 condition of, in cholera, 741 
 
 in remittent fever, 602 
 lesion of, in diphtheria, 689 
 
 in septicaemia, 972 
 
 Neuralgia, following cerebro-spinal menin- 
 gitis, 820 
 
 in yellow fever, 644 
 Neuralgias, old, aggravation of, in influenza, 
 
 870 
 
 Neurine, use of, in diphtheria, 703 
 Nitric acid, use of, to prevent the return of 
 
 intermittent fever paroxysm, 598 
 Nitro-muriatic acid, use of, in anthrax, 
 
 938 
 
 Nodule, nasal, in glanders, 917 
 Nomenclature of pyaemia, 953 
 
 of septicaemia, 953 
 Nose, inflammation of, complicating variola, 
 
 445 
 
 Nostrils, condition of, in glanders in man, 
 921 
 
 Nourishment, necessity of, in typhus fever, 
 
 363 
 Nuisance, legal views as to what constitutes. 
 
 182 
 
 O. 
 
 Obesity, tendency to, following typhoid fever, 
 
 Obstetrical scarlatina, 498 
 Occupation, influence of, in causation of an- 
 thrax, 939 
 of glanders, 920 
 of influenza, 860 
 of typhoid fever, 244 
 of typhus fever, 343 
 relation of, to relapsing fever, 372 
 Odor of body, significance of, in general diag- 
 nosis, 159 
 
 of relapsing fever, 378 
 OZdema, 69 
 
 complicating relapsing fever, 400 
 scarlet fever, 529 
 typhoid fever, 297 
 from nervous influence, 71 
 of glottis, complicating scarlet fever, 512, 
 
 529 
 
 of lungs, Welch on cause of, 72 
 significance of, in general diagnosis, 159 
 (Esophagus, lesions of, in typhoid fever, 265 
 Offensive effluvia, symptoms due to, 181 
 Oil, inunctions of, in the plague, 784 
 Open wounds, liability of, to diphtheria, 679 
 Opisthotonos in cerebro-spinal meningitis, 
 
 809 
 
 Opium, use of, during cold stage of inter- 
 mittent fever, 595 
 during hot stage of intermittent fever, 
 
 595 
 
 in algid form of pernicious malarial fe- 
 ver, 608 
 
 in cerebro-spinal meningitis, 832 
 in cholera, 767 
 in dengue, 885 
 in influenza, 874, 877 
 in puerperal fever, 1031 
 in relapsing fever, 429 
 in reraitttent fever, 604 
 in typhus fever, 366 
 
 Ophthalmia, chronic, following rubeola, 574 
 Optic nerve, lesions of, in cerebro-spinal 
 
 meningitis, 824 
 
 Organic disease, hereditary nature of, 129 
 Organisms, microscopic, classification, 141 
 
 minute, convertibility, 145 
 Organoid tumors, 116 
 Origin of vaccinia, 457 
 Origins, specific, of the plague, 776 
 Ossification, 87 
 
 Otitis, chronic, following rubeola, 574 
 complicating scarlet fever, 520 
 in scarlet fever, results, 521 
 
 treatment, 547 
 Ovaries, lesions of, in septicaemia, 972 
 
 in pelvic peritonitis in puerperal fever, 
 
 989 
 
 Overcrowding as a cause of cholera, 721 
 of typhus fever, 341
 
 1070 
 
 INDEX. 
 
 Overwork as a cause of disease, 204 
 
 of the plague, 775 
 Ozone, use of, in diphtheria, 709 
 
 P. 
 
 Pain, in idiopathic parotitis, 623 
 in inflammation, 41 
 
 significance of, in general diagnosis, 105 
 Pains, muscular and joint, in relapsing fever, 
 
 385 
 of general peritonitis in puerperal fever, 
 
 1010 
 peritoneal, in para- and perimetritis of 
 
 puerperal fever, 1007 
 rheumatic, in relapsing fever, 399 
 Palpitation of heart in beriberi, 1039 
 Pancreas, lesions of, in relapsing fever, 417 
 Pandemic nature of cerebro-spinal men- 
 ingitis, 804 
 
 Panum's view of bacteria of diphtheria, 667 
 Papayotin. use of, in diphtheria, 703 
 Papule in variola, morbid anatomy, 446 
 Paralysis, complicating diphtheria, 676 
 
 variola, 445 
 
 diphtheritic, date of appearance, 676 
 seat, 676 
 treatment, 713 
 following cerebro-spinal meningitis, 819 
 
 typhoid fever, 293 
 in cerebro-spinal meningitis, 810 
 local, in relapsing fever, 398 
 motor, in relapsing fever, 385 
 muscular, in beriberi, 1039 
 sensory, in diphtheria, 676 
 Paralytic form of rabies in dogs, 896 
 stage of hydrophobia in man, 900 
 Parenchymatous inflammation, 53 
 Para- and perimetritis in puerperal fever, 
 
 symptoms, 1005 
 
 Parametritis in puerperal fever, lesions, 987 
 Paresis following cerebro-spinal meningitis, 
 
 819 
 
 Parotid glands, lesions of, in idiopathic paro- 
 titis, 621 
 gland, lesions of, in svmptomatic parotitis, 
 
 626 
 
 in pyaemia, 967 
 swelling, character of, in symptomatic 
 
 parotitis, 627 
 
 complicating typhoid fever, 296 
 PAROTITIS, IDIOPATHIC, 620 
 Definition, 620 
 Nature, 620 
 
 Etiology predisposing causes, 620 
 Age, influence, 620 
 Sex, influence, 620 
 Season, influence, 620 
 Relation to measles, diphtheria, and scar- 
 let fever, 620 
 
 Peculiarities in mode of occurrence, 621 
 Anatomical appearance, 621 
 
 Changes in parotid gland, 621 
 Symptoms, 621 
 
 Duration of incubation stage, 621 
 Of invasion stage, 621 
 Actual attack, 621 
 
 PAROTITIS, iDiorATHic Svrnptoms : LocaL 
 
 621 
 
 Physiognomy, 622 
 Mouth and tongue, 622 
 Digestive tract, 622 
 Temperature and pulse, 623 
 Respiration, 623 
 Pain, 623 
 General, 623 
 Complications, 623 
 Metastasis, 623 
 Frequency, 823 
 Date of appearance, 623 
 Orchids, 623 
 
 Symptoms, 624 
 Diagnosis, 624 
 
 Significance of outward displacement of 
 
 lobe of ear, 624 
 Prognosis, 624 
 
 Result of inetastatic orchitis, 624 
 Treatment, 624 
 
 Delirium and headache, 624 
 Difficult deglutition, 624 
 Sleeplessness, 625 
 Local, 625 
 
 Suppuration of gland, 625 
 Incomplete resolution, 625 
 * Metastasis, 625 
 in females, 625 
 with depression, 625 
 PAROTITIS, SYMPTOMATIC or METASTATIC, 
 
 625 
 
 Definition, 625 
 Etiology, 625 
 
 Mechanical nature of exciting cause, 
 
 626 
 
 Altered blood as a cause, 626 
 Morbid anatomy, 626 
 
 Changes in parotid gland, 626 
 Suppuration of muscles of neck, 626 
 Changes in periosteum and cranial 
 
 bones, 626 
 
 lymphatics, veins, and nerves, 626 
 in middle ear, 626 
 Thrombi of jugular veins, 626 
 Symptoms, 626 
 
 Characters of swelling, 627 
 Date of pointing of abscess, 627 
 Physiognomy, 627 
 Prognosis, 627 
 
 Of bilateral form, 627 
 Diagnosis from idiopathic parotitis, 627 
 Treatment of, 627 
 Local, 628 
 
 Of incomplete resolution, 628 
 Of gangrene, 628 
 
 Parotitis, complicating cholera, 735 
 influenza, 870 
 relapsing fever, 404 
 typhus fever, 356 
 " treatment, 367 
 
 Paroxysm of intermittent fever, 592 
 primary, of relapsing fever, 375, 378 
 
 of remittent fever, 599 
 Paroxysms of hydrophobia in man, 899 
 of pertussis, characters, 837 
 duration, 840
 
 IXDEX. 
 
 1071 
 
 Paroxysms of pertussis, frequency, 840 
 
 of rabies in dogs, 896 
 Pasteur's experiments as to infectiveness of 
 
 rabies, 892, 893 
 
 method of inoculation in anthrax, 937 
 for prevention of rabies and hydro- 
 phobia, 905 
 
 Pathognomonic lesions of rabies in dogs, 903 
 Pathology of glanders in man, 916, 918 
 of influenza, 871 
 of pyaemia, 963 
 Pearly distempejr, relation of, to tuberculosis. 
 
 99 
 
 Pelvic abscesses in puerperal fever, treat- 
 ment, 1036 
 
 cellulitis in puerperal fever, lesions, 988 
 exudations, treatment of, in puerperal fe- 
 ver, 1036 
 
 peritonitis, in puerperal fever, lesions, 988 
 Peppermint-test for defects in plumbing, 190 
 Pepsin, use of, in diphtheria, 703 
 Perforation, intestinal, in typhoid fever, 289, 
 
 290 _ 
 
 in typhoid fever, treatment, 333 
 Pericarditis in relapsing fever, 402 
 
 complicating influenza, 870 
 Pericardium, lesions of; in cholera, 747 
 
 in pysemia, 968 
 
 Peri-glandular lesions in the plague, 782 
 Periostitis, complicating typhoid fever. 297 
 Peritoneal effusions, encysted, in puerperal 
 
 fever, treatment, 1036 
 Peritoneum, lesions of, in relapsing fever, 
 
 417 
 Peritonitis, complicating relapsing fever, 406 
 
 typhoid fever, 295 
 general, in puerperal fever lesions, 989 
 
 in puerperal fever, symptoms, 1010 
 pelvic and diffused, of puerperal fever, 988 
 Pernicious malarial fever, 605 
 Perspiration in pyaemia, 974 
 
 in yellow fever, 645 
 PERTUSSIS, 836 
 History, 836 
 Definition, 836 
 Etiology, 838 
 Specific poison, 838 
 Seat, 838 
 
 period of greatest virulence, 838 
 inoculation of animals with, 839 
 Childhood, influence of, in occurrence, 
 
 839 
 
 Age at which most prevalent, 839 
 Sex, influence of, in causation, 839 
 Catarrhal affections as predisposing 
 
 causes, 839 
 Symptoms, 840, 841 
 ' Initial stajre, 840 
 Second stage, 840 
 Stage of decline, 841 
 Paroxysm, characters of, 837 
 duration, 840 
 frequency, 840 
 
 Fra-num linguae, ulceration, 841 
 Urine, condition, 841 
 Mortality, 841 
 Morbid anatomy, 843 
 
 PERTUSSIS Complications, 848 
 Prophylaxis, 843 
 Treatment, 844 
 Inhalations, 844 
 Emetics, 845 
 Potassium carbonate, 845 
 Alum, 845 
 Belladonna, 846 
 Ammonium bromide, 846 
 Chloral hydrate, 846 
 Quinia, 847 
 
 Pilocarpine muriate, 847 
 Sodium benzoate, 847 
 Caustic irritation, 848 
 Diet, 848 
 Hygiene, 848 
 
 Pertussis, following the plague, 781 
 Petechiae, characters of, in grave form of the 
 
 plague, 779 
 Petrifaction, 87 
 Peyer's patches, lesions of, in tvphoid fever. 
 
 261 
 
 Pharyngeal spasm in rabies and hydropho- 
 bia, 899 
 
 Pharyngitis in scarlet fever, treatment, 545 
 and tonsillitis, complicating relapsing fe- 
 ver, 405 
 
 Pharynx, lesions of, in rabies and hydropho- 
 bia, 902 
 
 in relapsing fever, 413 
 in typhoid fover, 265 
 Phlebitis and phlebo-thrombosis, lesions of, 
 
 in puerperal fever, 989 
 Phlegmonous inflammation, 52 
 Phthisis, complicating influenza, 870 
 following typhus fever, 355 
 from damp soil, 187 
 pulmonary, hereditary nature of, 128 
 Physicians as carriers of contagion in puer- 
 peral fever, 1017 
 mortality in, 207 
 relation of, to public hygiene, 207 
 Physiognomy of cerebro-spinal meningitis, 
 
 812 
 
 of dengue, 881 
 of erysipelas, 632 
 of hydrophobia, 899 
 of idiopathic parotitis, 622 
 of influenza, 866 
 of symptomatic parotitis, 627 
 of relating fever, 376 
 of typhoid fever, 272 
 of yellow fever, 644 
 significance of, in general diagnosis, 150, 
 
 151 
 
 Pigmentation, 90 
 Pilocarpine, use of, in diphtheria, 704 
 
 in rabies and hydrophobia, 907 
 muriate, use of, in pertussis, 847 
 Pitting, frequency of, in varicella, 4S2 
 
 prevention of, in variola, 452 
 Placenta, symptoms of diphtheria, 674 
 PLAGUE, THE, 771 
 Definition, 771 
 Synonyms, 771 
 Classification, 771 
 History, 772
 
 1072 
 
 INDEX. 
 
 PLAGUE, THE Etiology : Predisposing 
 
 causes of, 774 
 Poverty and filth, 774 
 Bodily and mental overwork, 775 
 Sex and age, influence, 775 
 Season, 775 
 Exciting causes, 775 
 Dissemination by bodies dead from, 775 
 Specific origin, 776 
 Contagiousness, 776 
 Nature of the poison, 776 
 Air as a medium of transmission, 776 
 Period of incubation, 777 
 Forms of, 777 
 
 Grave or ordinary form, 777 
 Fulminant form, 779 
 Abortive form, 780 
 Symptoms, 777 
 
 Grave form, different modes of onset, 779 
 Invasion stage, 777 
 Second stage, or stage of fever, 778 
 Stage of fully-developed local mani- 
 festations, 778 
 Seat of enlarged lymphatics, 778 
 
 of buboes, 778 
 
 Characters of bubonic swellings, 778 
 Date of appearance of buboes, 778 
 Seat and character of carbuncles, 778 
 
 of petechise, 779 
 Character of vomited matter, 779 
 Constipation, 779 
 Condition of urine, 779 
 Stage of convalescence, 779 
 Fulminant form, 779 
 
 duration, 779 
 Abortive form, 780 
 General duration of, 780 
 Complications and sequelae, 780 
 
 Followed by catarrhal pneumonia, 781 
 Pertussis, 781 
 Mental troubles, 781 
 Ulcers and abscesses, 781 
 Morbid anatomy, 781 
 
 Changes in lymphatic system, 781 
 Appearance of buboes, 781 
 Peri-glandular tissue, 782 
 Abdominal viscera, 781 
 Diagnosis, 782 
 Prognosis, 780 
 Mortality, 780 
 Treatment, 782 
 Preventive, 782 
 Isolation, 783 
 Quarantine, 783 
 Disinfection, 784 
 Clinical, 784 
 Inunction of oil, 784 
 Buboes, 784 
 Drugs used, 784 
 
 Pleura, lesions of, in pyaemia, 968 
 in relapsing fever, 413 
 in septicaemia, 972 
 Pleurisy, complicating typhoid fever, 294 
 
 typhus fever, 355 
 
 in septicaemia Ivmphatica of puerperal 
 fever, 1012 
 
 Pleuritis, complicating erysipelas, 634 
 iniluenza, 870 
 relapsing fever, 404 
 scarlet fever, 523 
 in scarlet fever, treatment, 556 
 Plumbing, examination of defects, 190 
 
 of houses, 188 
 
 Pneumonia,' catarrhal, complicating influ- 
 enza, 869 
 
 following the plague, 781 
 complicating erysipelas, 634 
 relapsing fever, 404 , 
 rubeola, 571 
 typhoid fever, 294 
 typhus fever, 355 
 
 fibrinous, complicating diphtheria, 672 
 in rubeola, treatment, 581 
 in typhoid fever, treatment, 335 
 lobar, complicating influenza, 869 
 Pneumonias, nature of, complicating influ- 
 enza, 870 
 
 Pock of vaccinia, date of appearance, 459 
 depression, 459 
 desquamation, 460 
 development, 459 
 incrustation, 460 
 
 in variola, characters of mature, 439 
 Poison, diphtheritic, fixity, 678 
 
 transmission, 678 
 influence of intensity of, on severity of 
 
 cholera, 730, 731 
 
 of anthrax, modes of transmission, 929 
 of cholera, nature, 749 
 of malaria, nature, 589, 591 
 of the plague, nature, 776 
 of yellow fever, birthplace, 641 
 characteristics, 641 
 
 influence of heat and cold on develop- 
 ment, 641 
 
 transportability, 641 
 specific, of beriberi, 1038 
 
 of pertussis, 838 
 Polluted soil as a means of disseminating 
 
 typhoid fever, 253 
 Potassium bromide, use of, in cerebro-spinal 
 
 meningitis, 834 
 
 carbonate, use of, in pertussis, 845 
 chlorate, danger of large doses, 701 
 
 use of, in diphtheria, 699, 700 
 iodide, use of, in cerebro-spinal meningi- 
 tis, 834 
 
 Poverty as a cause of typhus fever, 342 
 Predisposing causes of beriberi, 1042 
 of cholera, 720 
 of glanders in horse, 912 
 of idiopathic parotitis, 620 
 of the plague, 774 
 of typhoid fever, 242 
 of typhus fever, 341 
 Predisposition to disease, hereditary nature, 
 
 126 
 
 Predispositions, inherited, evidence, 132 
 Pregnancy, complicating influenza, 871 
 
 typhoid fever, 296 
 
 Preliminary papule of anthrax, treatment, 
 943
 
 INDEX. 
 
 1073 
 
 Premonitory symptoms of rabies and hydro- 
 phobia, 895 
 of scarlet fever, 502 
 
 Prevention of anthrax by inoculation, 937 
 Preventive treatment of anthrax in animals. 
 
 936 
 
 in man, 943 
 of cholera, 755 
 of erysipelas, 636 
 of glanders in horses, 919 
 
 in man, 925 
 of influenza', 873 
 of the plague, 782 
 of puerperal fever, 1021 
 of pyaemia and septicaemia, 979, 980, 
 
 983 
 
 of rabies and hydrophobia, 903 
 of scarlet fever, 536 
 of typhoid fever, 321 
 of typhus fever, 361 
 Previous attacks of variola, protection from, 
 
 436 
 
 Primary vaccine, 473 
 Privy vaults, contamination of water-supply 
 
 by, 192 
 
 dangers from, 192 
 PROCESSES, GENERAL MORBID, 35 
 Prodromal stage of diphtheria, 667 
 of intermittent fever, 592 
 of leprosy, 789 
 of remittent fever, 599 
 of rotheln, 585 
 of rubeola, 564 
 of varicella, 482 
 Prognosis, general, 167 
 of anthrax in animals, 936 
 
 in man, 943 
 of beriberi, 1042 
 of cerebro-spina] meningitis, 628 
 of cholera, 753 
 of dengue, 885 
 of diphtheria, 692-694 
 of erysipelas, 636 
 of idiopathic parotitis, 624 
 of influenza, 872 
 of intermittent fever, 594 
 of glanders in horse, 918 
 
 in man, 924 
 of leprosy, 793 
 of the plague, 782 
 of relapsing fever, 422-425 
 of remittent fever, 602 
 of rotheln, 588 
 of scarlet fever, 533 
 of simple continued fever, 235 
 of symptomatic parotitis, 627 
 of typho-malarial fever, 616 
 of typhoid fever, 314-316 
 of typhus fever, 359, 360 
 of vaccinia, 464 
 of varicella, 484 
 of variola, 450 
 of varioloid, 444 
 in yellow fever, 646, 647 
 effect of constitution, 168 
 of nature of malady, 169 
 of present state of patient, 169 
 VOL. I. 68 
 
 Prognosis, influence of nursing, 169 
 
 modifying effects of medicinal agents, 169 
 Prophylactic treatment of diphtheria, 696 
 Prophylaxis, individual, in contagious dis- 
 eases, 206 
 of leprosy, 794 
 of pertussis, 843 
 of puerperal fever, 1021 
 Prostration in dengue, 882 
 in typhus fever, 348 
 
 treatment, 305 
 Protective power of vaccination, 466 
 
 duration of, 468 
 against pertussis, 468 
 Pseudo-membrane, solvents of, 703 
 Psoas abscess in puerperal fever, 1010 
 Psychical treatment of hydrophobia, 906 
 Public sewers, 224 
 PUERPERAL FEVER, 984 
 Definition, 984 
 Frequency, S84 
 Etiology, '1013 
 
 Atmosphere, impure, influence on cau- 
 sation, 1013, 1014 
 
 Malaria, nosocomial, influence on cau- 
 sation, 1013 
 Micro-organisms, influence on causation, 
 
 1013-1015 
 
 Lochial discharge, influence on cau- 
 sation, 1015 
 
 Atmosphere, peculiar states of, on cau- 
 sation, 1016 
 
 Direct inoculation, 1016 
 Contagiousness of, 1017 
 Contagion, physicians as carriers of, 
 
 1017 
 
 Dissecting poison, 1018 
 Self-inoculation, 1019 
 Morbid anatomy, 985 
 
 Spiegelberg's classification of puerperal 
 
 inflammations, 986 
 Endocolpitis and endometritis, 986 
 Diphtheritic ulceration, 986 
 Metritis and parametritis, 987 
 Diphtheritic endometritis, 987 
 Pelvic cellulitis, 988 
 Cellulitis from specific infection, 988 
 Peritonitis, pelvic and diffused, 988 
 exudation in, 989 
 general, 989 
 
 appearance of abdominal cavity, 
 
 989 
 
 ovaries, 989 
 
 Phlebitis and phlebo-thrombosis, 989 
 Thrombi in uterine and pelvic veins, 
 
 989 
 Abscesses, 989 
 
 pulmonary, 989 
 Veins, inflammation, 989 
 Thrombi, growth, 990 
 Septicaemia, 990 
 Abscesses, metustatic, 990 
 Endocarditis, ulcerative, 990 
 Pleuritis, 990 
 
 Joints, purulent inflammation, 990 
 Earlier views concerning nature, 990 
 Modern view concerning nature, 992
 
 1074 
 
 INDEX. 
 
 PUERPERAL FEVER Septic origin, 993- 
 
 1003 
 Bacteria, relation to causation, 994 
 
 Koch's investigations of, 997 
 
 Physical characters, 999 
 
 modes of entering the circulation, 
 1000 
 
 action of, upon the blood, 1000 
 Diphtheria of genitalia, characters, 1002 
 Relation of, to erysipelas, 1002 
 Inflammatory affections of non-specific 
 
 origin, 1003 
 Symptoms, general, 1004 
 
 Incubation period, 1004 
 
 Chill, significance of, 1005 
 Of endometritis and endocolpitis, 1005 
 
 temperature, 1005 
 Parametritis and perimetritis, 1005 
 
 Incubation, 1006 
 
 Temperature, 1006 
 
 Pulse, 1006 
 
 Eelapse, 1006 
 
 Headache, 1007 
 
 Pains, 1007 
 
 Vomiting, 1007 
 
 Duration, 1007 
 
 Exudation, 1007 
 
 Uterus fixity of, 1007 
 
 Tumors in iliac fossa, 1008 
 
 Abscesses, 1008 
 location, 1008 
 pointing of, 1008 
 
 Local peritonitis, 1009 
 Of psoas abscess, 1010 
 Of peritonitis, general, 1010 
 
 Pains, 1010 
 
 Abdomen, state, 1010 
 
 Respiration, 1010 
 
 Vomiting, 1010 
 
 Vomit, characters, 1010 
 
 Fever, 1010 
 
 Skin, 1010 
 
 Pulse, _1 010 
 
 Pysemic form, 1011 
 Of septicaemia lymphatica, 1011 
 
 Mode of onset, 101 1 
 
 Temperature in, 1011 
 
 Abdomen, state, 1011 
 
 Skin, state, 1011 
 
 Vomiting, 1011 
 
 Tongue, condition, 1011 
 
 Pulse, condition, 1011 
 
 Respiration, 1012 
 
 Pleurisy in, 1012 
 
 Endocarditis, 1012 
 
 Mental condition, 1012 
 
 Joint affections in, 1012 
 
 Duration, 1012 
 Of septica?mia venosa, 1012 
 
 Chills in, 1012 
 
 Fever in, 1012 
 
 Temperature in, 1012 
 
 Pulse in, 1012 
 
 Abdomen, state of, 1012 
 
 Uterus in, 1012 
 Of pure septicaemia, 1013 
 Mortality, 1020 
 
 PUERPERAL FEVER Relation of, to zymot- 
 ic diseases, 1020 
 Prophylaxis, 1021 
 
 Maternity hospitals, advantages, 1021 
 Necessity of light and air, 1024 
 Antisepsis, value, 1024 
 
 methods, 1025 
 Sulphurous acid, use, 1025 
 Corrosive sublimate, use, 1025 
 lodoform, use of, intra-uterine, 1025 
 Vaginal injections, carbolized, use, 1025 
 Tanner's maternity pavilions for pre- 
 vention, 1027 
 
 Treatment indications, 1028 
 Disinfection, 1028 
 Local, 1028 
 Use of hydrochloric acid, 1028 
 
 Persulphate of iron, 1028 
 Intra-uterine injections, use, 1029 
 dangers of, J 029 
 methods, 1029 
 
 Corrosive sublimate, use, 1025, 1029 
 Pain, peritoneal, 1031 
 Use of opium, 1031 
 
 in pysemic variety, 1031 
 Leeches, 1031 
 Turpentine stupes, 1032 
 Hyperpyrexia, 1032 
 Use of purgatives, 1032 
 Quinia, 1032 
 Sodium sal icy late, 1032 
 Veratrum viride, 1033 
 Digitalis, 1033 
 Alcohol, 1033 
 Cold in, 1033 
 
 Cold, method of applying, 1034 
 Cold water, intra-uterine injections. 
 
 1034 
 
 Baths, cold, use, 1034 
 Kibbie's fever-cot, use, 1034, 1035 
 Coil, 1036 
 Diet, 1036 
 
 Encysted peritoneal effusions, 1036 
 Quinia, use, 1036 
 Pelvic exudations, 1036 
 Pelvic abscesses, 1036 
 
 Puerperal septicaemia, relations of, to obstet- 
 rical scarlatina, 499 
 women, general sepsis from diphtheria in, 
 
 674 
 
 symptoms of diphtheria in, 674 
 Pulmonary abscess in puerperal fever, 989 
 collapse, complicating influenza, 869 
 complications of typhus fever, treatment, 
 
 367 
 
 oedema, complicating rubeola, 572 
 Pulsation of jugular veins, significance of, in 
 
 general diagnosis, 156 
 
 Pulse and temperature, relation of, in yel- 
 low fever, 644 
 average frequency in health and disease, 
 
 154 
 
 characters of, in erysipelas, 633 
 in idiopathic parotitis, 623 
 in general peritonitis of puerperal fever, 
 
 1010 
 in septicaemia, 977
 
 INDEX. 
 
 1075 
 
 Pulse, characters of, in septicaemia lymphat- 
 
 ica of puerperal fever, 1011 
 venosa of puerperal fever, 1012 
 condition of, in acute glanders in man, 921 
 in beriberi, 1040 
 in cerebro-spinal meningitis, 815 
 in cholera, 737 
 in dengue, 881 
 in influenza, 866 
 in pyaemia. 975 
 in relapsing fever, 382 
 in typhus fever, 351 
 significance of, in general diagnosis, 152 
 in malignant scarlet fever, 507 
 in typhoid fever, 275 
 kinds of, 154 
 
 methods of examining, 153 
 relation to respiration, 154 
 temperature, relation of, in relapsing fe- 
 ver, 382 
 
 Pupil, signilicance of state of, in general di- 
 agnosis, 151 
 
 Pupils, condition of, in cerebro-spinal men- 
 ingitis, 810 
 
 Pure septicaemia of puerperal fever, 1013 
 Purgatives, use of, during hot stage of inter- 
 mittent fever, 596 
 in cerebro-spinal meningitis, 830 
 in hemorrhagic form of pernicious ma- 
 larial fever, 613 
 in puerperal fever, 1032 
 in remittent fever, 604 
 Purity of water, standards of, 184 
 Purpura, complicating diphtheria, 674 
 Pus, 48 
 
 influence of, in production of pyaemia, 955 
 in stools, significance in diagnosis, 164 
 Pustule, malignant, 926 
 Putrefaction of cadaver, rapidity of, in puer- 
 peral fever, 971 
 Putrified flesh as a means of disseminating 
 
 typhoid fever, 257 
 
 PY^MIA AND SEPTICAEMIA, 945-955 
 History, 945-952 
 Nomenclature, 952 | 
 
 Pyaemia, 953 
 
 Definition, 953 
 Septicaemia, 953 
 Definition, 954 
 Etiology of pyaemia, 955 
 Theories concerning, 955 
 Pus, influence of, in production, 955 
 
 Character of production, 956 
 Thrombosis, relation of, to causation, 
 
 957, 958 
 
 Contamination of blood, influence of, 
 in causation, 958 
 sources, 958 
 
 Germs, disease-, influence of, in causa- 
 tion, 958 
 Wounds, characters of, influence on 
 
 causation, 958 
 
 Etiology of spontaneous pyaemia, 959 
 Wounds of alimentary canal and genito- 
 urinary apparatus as cause, 959 
 Air, vitiated, influence of, on causation, 
 959 
 
 PyjEiriA AND SEPTICAEMIA Etiology : 
 
 Spontaneous origin, 959 
 Contagiousness, 960 
 Chemical origin, 960 
 Living organisms, influence of, on causa- 
 tion, 958-960 
 Etiology of septicaemia, 960 
 
 Septic intoxication, relation of, to, 961 
 Traumatic fever, relation of, to, 962 
 Dissecting wounds, relation of, to 
 
 causation, 962 
 Putrid substances, maximum toxic 
 
 action of, on the body, 962 
 Lymphatics as channel of entrance 
 
 of poison, 963 
 
 Etiology of septo-pyaemia, 963 
 Pathology, 963 
 
 Condition of blood, 963 
 in pyaemia simplex, 963 
 
 multiplex, 963 
 Metastasis, conditions, 964 
 Pus, mode of entering the circulation, 
 
 964 
 
 Metastatic abscesses, production, 964 
 from primary infection, 964 
 from secondary infection, 964 
 Emboli, action of, in production of 
 
 metastatic abscesses, 964 
 Thrombi, action of, in production of 
 
 metastatic abscesses, 965 
 Seat of pathological changes, 965 
 Fat emboli, influence of, in production, 
 
 _966 
 
 Morbid anatomy, 966 
 Of pyaemia, 966 
 
 Appearance of body, 966 
 Rigor mortis, 966 
 Lesions of cellular tissue, 966 
 Muscles, 966 
 
 Brain and membrane, 966 
 Retina and choroid, 967 
 Cornea, 967 
 Ear, 967 
 Bones, 967 
 Joints, 967 
 Parotid gland, 967 
 Arteries and veins, 967 
 Blood, 968 
 Pericardium, 968 
 Pleurae, 968 
 Lungs, 968 
 Liver, 969 
 Spleen, 969 
 Kidneys, 969 
 Micro-organism in blood, changes 
 
 effected by, 970 
 Pyaemia simplex, 970 
 
 "Absence of abscesses in, 970 
 Septicaemia, 971 
 
 Putrefaction of bodies, rapidity of, 
 
 971 
 
 Blood, lesions of, 971 
 Sepsin, nature, 971 
 Lesions, nervous system, 972 
 Endo- and pericardium, 972 
 Lungs, 972 
 Pleurae, 972
 
 1076 
 
 IXDEX. 
 
 PYJEMIA AXD SEPTIC^.MIA Morbid anat- 
 omy : Septicaemia, lesions of, kid- 
 neys, 972 
 Spleen, 972 
 Uterus, 972 
 Ovaries, 972 
 Bladder, 972 
 Of septo-pyaemia, 972 
 Symptoms, 972 
 Of pyaemia, 972 
 
 Prodromal stage, 973 
 
 Chills, date of appearance, 973 
 
 frequency, 973 
 Temperature, 974 
 Perspiration, 974 
 Eruptions, 974 
 Pulse, 975 
 
 Tongue, condition of, 975 
 Vomiting, 975 
 Singnltus, 975 
 Diarrhoea, 975 
 Stools, character of, 976 
 Heart, condition of, 976 
 Lungs, condition of, 976 
 Liver and spleen, enlargement, 976 
 Urine, 976 
 
 Joints, suppuration, 976 
 Abscesses, frequency, 976 
 Delirium, 976 
 Breath, odor of, 976 
 "Wound, changes, 976 
 Of septicaemia, 976 
 General, 976 
 Wound, condition of, 977 
 Temperature, 977 
 Abdomen, state of, 977 
 Pulse, 977 
 Diarrhoea, 977 
 Vomiting, 977 
 Tongue, 977 
 Singultus, 977 
 Bronchitis in, 977 
 Of gangrene foudroyante, 977 
 
 Skin, condition, 977 
 Diagnosis, 978 
 
 Of pyaemia from septicaemia, table show- 
 ing, 978, 979 
 Treatment, 979 
 
 In fully-developed cases unsuccess- 
 ful, 980 
 
 Preventive, 979, 980 
 Cleanliness, necessity of, in preven- 
 tion, 980 
 Atmosphere, pure, necessity of, in 
 
 prevention, 980 
 Food and drink, proper, necessity of, 
 
 in prevention, 980 
 Cheerful and pleasant surroundings 
 
 in prevention, 980 
 Antiseptics, use of, 980 
 Local, 981 
 Of wound, 981 
 Metastatic abscesses, 981 
 Constitutional, 982 
 Sulphites of magnesium, sodium, 
 potassium, and lime, use of, 982 
 Use of alcohol, 982 
 
 PYJEMIA AND SEPTIC^MIA Treatment: 
 
 Quinia, 982 
 Ergotine, 982 
 Diet, 982 
 Stimulants, 982 
 Of septicaemia, 982 
 Indications for, 982 
 Local, 983 
 Preventive, 983 
 Of wound, 983 
 Diarrhoea, 983 
 Antisepsis, 983 
 Sulphites and hyposulphites, use of, 
 
 983 
 
 Quinia, use of, 983 
 Of puerperal septicaemia, 983 
 complicating erysipelas, 634 
 typhoid fever, 295 
 typhus fever, 356 
 
 Pysemic form of general peritonitis of puer- 
 peral fever, 1010 
 
 Q. 
 
 Quarantine in cholera, 204, 755 
 in leprosy, 794 
 in the plagne, 783 
 Quinia, use of, in cerebro-spinal meningitis, 
 
 833 
 
 in dengue, 885 
 in diphtheria, 708, 712 
 in erysipelas, 637 
 in influenza, 874-876 
 during cold stage of intermittent fever, 
 
 595 
 
 hot stage of intermittent fever, 596 
 sweating stage of intermittent fever, 
 
 597 
 to prevent the return of intermittent 
 
 fever, paroxysm, 598 
 in hemorrhagic form of pernicious ma- 
 larial fever, 612 
 in pertussis, 847 
 in puerperal fever, 1032, 1036 
 in pyaemia, 982 
 in relapsing fever, 426 
 in remittent fever, 603 
 in rubeola, 580 
 in scarlet fever, 543 
 in septicremia, 983 
 in typhoid fever, 330 
 in typho-malarial fever, 618 
 in typhus fever, 365 
 in yellow fever, 651 
 and opium, use of, in yellow fever, 651 
 
 K. 
 
 RABIES AKD HYDROPHOBIA, 886 
 
 Synonyms, 886 
 
 Definition, 886 
 
 History, 886 
 
 Geographical distribution, 886 
 
 Etiology, 887 
 
 Climate, relation of, to causation, SS7 
 Season, relation of, to causation, 887 
 Summer heats, relation of, to causation, 
 887
 
 INDEX. 
 
 1077 
 
 RABIES AND HYDROPHOBIA Etioloj, . 
 Hunger and thirst, relation of'"to 
 causation, 888 
 Improper food, relation of, to causation 
 
 888 
 
 Sex, relation of, to causation, 888 
 Liability of special breeds, 889 
 From skunk-bite, 889 
 Spontaneous origin, 890 
 Contagion, 891 
 Modes of dissemination, 891 
 Milk, propagation by, 891 
 Saliva, propagation by, 891 
 Specific germ, 892 
 
 Pasteur's experiments as to infectious- 
 ness, 892 
 
 Point of election of germ, 892 
 Antagonism between blood and germ, 
 
 892, 893 
 Localization of the virus in the wound. 
 
 893 
 Relation of successful inoculation to 
 
 bites, 893 
 
 Insusceptibility to, 894 
 Incubation, 894 
 
 Duration of, in lower animals, 894 
 
 in man, 894 
 
 Condition of cicatrix during, 895 
 Symptoms, 895 
 In dogs, 895 
 
 Importance of recognizing premon- 
 itory, 895 
 
 Of prodromal stage, 895 
 Of furious form, 896 
 During paroxysms, 896 
 Between paroxysms, 896 
 Of paralytic form, 896, 897 
 Of lethargic form, 897 
 Popular fallacies regarding, 897 
 In horse and other animals, 897 
 In man, 898 
 Symptoms, 898 
 
 Prodromal stage, 898 
 A ppearance of wound, 898, 899 
 Of paroxysms, 899 
 Duration, 899 
 
 Reflex irritability during, 899 
 Facies during, 899 
 Mental condition, 900 
 Delirium during, 900 
 Relative severity in men and wo- 
 men, 900 
 Paralytic stage, 900 
 
 duration, 900 
 "Without paroxysms, 900 
 Diagnosis, 900 
 
 Pathognomonic features in, 900 
 From tetanus, 900 
 From diphtheria, 900 
 From pharyngeal anthrax, 900 
 From acute mania, 900 
 From epilepsy, 901 
 From hysteria, 901 
 From pseudo-hvdropliobia, 901 
 Inoculation in doubtful cases, 902 
 Morbid anatomy, 902 
 
 Post-mortem appearance of body, 902 
 
 RABIES AND HYDROPHOBIA Morbid anat- 
 omy: Changes in mucous mem- 
 branes, 902 
 
 Bronchi and pharynx, 902 
 Lungs, 902 
 
 Heart and blood-vessels, 902 
 Gastro-intestinal tract, 902 
 Liver and spleen, 902 
 Kidneys, 902 
 Bladder, 902 
 
 Brain and spinal cord, 902 
 Pathognomonic changes in dogs, 903 
 Treatment, 903 
 Preventive, 903 
 
 Registration of dogs, 904 
 Modes of preventing diffusion, 904 
 Inoculation, 904 
 Pasteur's method, 905 
 Of bites, 905 
 Use of caustics, 905 
 Excision of cicatrix, 906, 908 
 Futility of eliminating measures, 906 
 Hygienic, 906 
 
 Psychical, importance of, 906 
 Therapeutic, 907 
 Use of chloroform, 907 
 Chloral, 907 
 Pilocarpine, 907 
 Curare, 907 
 Morphia, 907 
 Atropia and datnria, 907 
 Vaccine virus, 907 
 "Warm baths, 907 
 Faradization, 907 
 Inhalation of oxygen, 907 
 Importance of rest and quiet, 907 
 Intravenous injections, 908 
 Venesection, 908 
 Race, influence of, in causation of variola, 
 
 436 
 protection as a preventive of small-pox, 
 
 130 
 
 relation of, as causation of rubeola, 561 
 Rachialgia in cerebro-spinal meningitis, 808 
 Rash of variola, date of appearance of, 437 
 
 significance of, 437 
 variolous, 437 
 
 Raspberry excrescence in vaccinia, 461 
 Reaction in cholera, 734 
 
 treatment, 763 
 Reflex irritability in hydrophobia, 899 
 
 symptoms in diphtheria, treatment, 694 
 Registration of dogs for prevention of ra- 
 bies, 904 
 
 Relapse, in relapsing fever, 381 
 Relapses, cause of, in typhoid fever, 309 
 duration of, in typhoid lever, 304 
 frequency of, in typhoid fever, 302 
 in cerebro-spinal meningitis, 820 
 of diphtheria, prognosis of, 694 
 in rubeola, 563 
 RELAPSING FEVER, 369 
 Definition, 369 
 Svnonyms, 369 
 
 History and geographical distribution, 369 
 Etiology, 370 
 Destitution and filth as causes, 370
 
 1078 
 
 INDEX. 
 
 RELAPSING FEVER Etiology; Intemper- 
 ance as a cause, 370 
 Starvation and over-crowding as a cause, 
 
 371 
 
 Age, relation of, to causation, 371 
 Sex, relation of, to causation, 371 
 Nationality, relation of, to causation, 
 
 371 
 
 Season, relation of, to causation, 371 
 Occupation, relation of, to causation, 
 
 372 
 
 Specific origin, 370, 372 
 Contagious nature, 372 
 Transmission of contagion, 373 
 Area of contagious atmosphere, 373 
 Spirillum, 373 
 
 Mode of detecting, 373 
 Inoculation, 374 
 Incubation period, 376 
 General clinical description, 374 
 Invasion, 376 
 Special symptoms, 376 
 Odor, 378 
 Physiognomy, 376 
 Bronzing of face, 376 
 Eruptions, 377 
 Hepatic eruptions, 377 
 Sudamina, 377 
 Desquarnation, 377 
 Primary paroxysms, duration, 378 
 Temperature, 378 
 
 at crisis, 378 
 
 peculiarities, 382 
 Kelapse, 381 
 Duration, 381 
 Absence, 380 
 Frequency, 382 
 Later relnpses, 381 
 Cases illustrating frequency of relapses, 
 
 394 
 
 Average duration of paroxysms, 381 
 Intermission, duration, 381 
 Pulse, 382 
 
 Relation of pulse to temperature, 382 
 Character of pulse during paroxysm, 
 
 383 
 Pulse at crisis, 382 
 
 Duriug intermission, 383 
 Character of heart-sounds, 383 
 Convulsions, 384 
 Mental condition, 384 
 Headache, 383 
 \Vakefulnes8, 384 
 Vertigo, 384 
 Delirium, 384 
 General tremor, 384 
 Muscular rigidity, 384 
 Muscular and joint pains, 385 
 Cause of muscular and joint pains, 
 
 385 
 
 Seat of muscular and joint pains, 385 
 Motor paralysis, 385 
 Debility, 386 
 
 Perversion of special senses, 386 
 Respiration, 386 
 Relation of respiration, temperature, 
 
 and pulse, 386 
 
 RELAPSING FEVER Special symptoms : 
 Bronchitis and pneumonia, 387 
 
 Condition of urine, 387 
 
 Urine of paroxysm, 388 
 of intermission, 388 
 
 Thirst, 389 
 
 Anorexia, 389 
 
 Condition of tongue, 389 
 
 Nausea and vomiting, 390 
 
 Hsematemesis, 390 
 
 Condition of bowels, 390 
 of abdomen, 390 
 
 Spleen, enlargement, 391 
 
 Liver, enlargement, 391 
 
 Jaundice, signiticance of, 391 
 
 Epistaxis, 393 
 
 Hemorrhages, 393 
 
 Convalescence, 393 
 Varieties, 395 
 
 Grave form, 395 
 
 Multiple or protracted form, 395 
 
 Abortive form, 395 
 
 Case illustrating subintrant form, 396 
 Complications, 396 
 
 Peculiarities of temperature, 397 
 
 Mental hebetude, 398 
 
 Local palsies, 398 
 
 Severe rheumatic pains, 399 
 
 Disorders of vision, 399 
 
 Ophthalmia, 399 
 
 Disorders of hearing, 400 
 
 Otorrhcea, 400 
 
 Swellings and effusions of joints, 400 
 
 Bed-sores, 400 
 
 Gangrene, 400 
 
 Abscesses, 400 
 
 Anaemia, 400 
 
 (Edema, 400 
 
 Sudden collapse and syncope, 401 
 
 Hemorrhages from mucous' surfaces, 
 401 
 
 Pericarditis, 402 
 
 Heart-clot, 402 
 
 Thrombosis and embolism, 402 
 
 Laryngitis, 403 
 
 Bronchitis, 403 . 
 
 Splenic enlargement, 403 
 
 Rupture of spleen, 403 
 
 Parotitis, 404 
 
 Pleurisy, 404 
 
 Pneumonia, 404 
 
 Pulmonary gangrene, 404 
 
 Metastalic abscesses of lungs, 404 
 
 Pharyngitis and tonsillitis, 405 
 
 Hiccough, 405 
 
 Diarrhcea, 405 
 
 Dysentery, 406 
 stools, 406 
 
 Suppuration of mesenteric glands, 406 
 
 General and local peritonitis, 406 
 
 Emaciation, 407 
 
 Renal disorders, 408 
 
 Albuminuria, 407 
 
 Suppression of urine, 407 
 
 Incontinence of urine, 407 
 
 Hicmaturia, 409 
 
 Glycosuria, 410
 
 INDEX. 
 
 1079 
 
 RELAPSING FEVER Complications: Metas- 
 tatic inflammation of kidneys, 410 
 Disorders of menstruation, 410 
 Pregnancy, 410 
 Sequelae, 398 
 
 Local palsies, 398 
 Acute miliary tuberculosis, 404 
 Dyspepsia, 406 
 Anaemia, 400 
 Morbid anatomy, 410 
 
 Post-mortem appearance of body, 410 
 Changes in voluntary muscles, 410 
 
 Blood, 411 
 
 Granule-cells of blood, 412 
 Changes in pericardium, 411 
 
 Heat, 411 
 
 Gastro-intestinal canal, 412 
 Solitary and agminated glands, 413 
 Mpsenteric glands, 413 
 
 Larynx and pharynx, 413 
 
 Pleura, 413 
 
 Lungs, 413 
 
 Brain and membranes, 413 
 
 Liver, 414 
 
 Bile-ducts and gall-bladder, 415 
 
 Spleen and capsule, 416 
 
 Pancreas, 417 
 
 Peritoneum, 417 
 
 Kidneys, 414 
 
 Bladder, 414 
 
 Lymphatic glands, 417 
 Marrow of bones, 417 
 Diagnosis, 418 
 
 Presence of spirillum as a means, 418 
 From typhus fever, 418 
 From typhoid fever, 419 
 Grave form of, from typhoid fever, 420 
 From bilious remittent fever, 420 
 
 Yellow fever, 420 
 
 Small-pox, 421 
 
 Acute gastro-hepatic catarrh, 421 
 
 Simple febricula, 421 
 
 Rheumatic fever, 421 
 
 Acute yellow atrophy of liver, 422 
 
 Parotitis, 422 
 
 Cerebral diseases, 422 
 Prognosis, 422 
 
 Symptoms indicating unfavorable, 424 
 influence of variations of temperature, 
 424 
 
 Cerebral symptoms, 424 
 
 Character of eruption, 425 
 
 Hiccough upon, 425 
 
 Epistaxis, 425 
 
 Cough upon, 425 
 
 Heart complications on, 425 
 
 Hepatic enlargement upon, 425 
 
 Splenic enlargement upon, 425 
 
 Jaundice upon, 425 
 
 Albnininuria, 425 
 
 Mortality bilious typhoid form, 422 
 Influence of type of disease, 423 
 
 Stage of disease, 423 
 
 Season, 423 
 
 Habits and previous health, 424 
 
 Sex, 424 
 
 Age, 424 
 
 RELAPSING FEVER Mortality : Influence 
 
 of race, 424 
 Cause of death in, 426 
 Treatment indications for treatment in 
 
 regular cases, 426 
 Hyperpyrexia, 426 
 Cause of failure of antipyretics, 429 
 Insomnia, 429 
 Headache, 429 
 Nausea and vomiting, 430 
 Constipation, 430 
 Jaundice, 431 
 Muscular tremor, 432 
 
 soreness and pains, 432 
 At critical fall of temperature, 432 
 Renal complications, 432 
 Epistaxis, 432 
 Collapse, 433 
 
 Necessity of absolute rest in, 432 
 R&ume of treatment, 432 
 Diet, 430 
 
 Special remedies, 431 
 Use of nntiperiodics, 428 
 Arsenic, 427 
 Atropia, 429 
 
 Bromide and chloral, 430 
 Blisters, 431 
 Chloroform, 431 
 Cold baths, 428 
 
 Digitalis and other antipyretics, 428 
 Hyposulphite of sodium, 428 
 Opium, 429 
 Qtiinia, 426 
 
 Salicylic acid and salicylates, 428 
 Simple febrifuges, 428 
 Stimulants, 430 
 Venesection, 431 
 REMITTENT FEVER, 598 
 Definition, 598 
 Malarial nature, 598 
 Etiology, 598, 599 
 
 Relation of, to intermittent fever, 599 
 Symptoms, 599 
 
 Prodromal stage, 599 
 Paroxysm, 599 
 Temperature, 599 
 Epistaxis, 602 
 State of tongue, 600 
 Stomach, 602 
 Bowels, 602 
 Urine, 602 
 Jaundice, 600 
 
 cause, 600 
 
 Nervous symptoms, 602 
 Physiognomy, 600 
 Pulse in, 602 
 Duration of, 602 
 Diagnosis, 600 
 
 From intermittent fever, 600 
 From typhoid fever, 600 
 From yellow fever, 600 
 Prognosis, 602 
 Mortality, 599 
 Morbid anatomy, 602 
 Changes in skin, 603 
 Liver, 602 
 Spleen, 602
 
 1080 
 
 INDEX. 
 
 REMITTENT FEVER Treatment, 603 
 Main indications, 603 
 Use of quinia, 603 
 Amount of quinia, 603 
 Causes of failure of quinia, 604 
 Adjuvants to quinia, 604 
 Use of depuratives, (504 
 Purgative*, 604 
 Opium, 604 
 Of hemorrhage, 605 
 Of tympanites, 605 
 Of vomiting, 605 
 Renal disease, complicating relapsing fever, 
 
 408 
 
 scarlet fever, 525 
 
 Residence, change of, in treatment of beri- 
 beri, 1042 
 
 Resolution, incomplete, in idiopathic paro- 
 titis, treatment, 625 
 
 of symptomatic parotitis, treatment, 628 
 of erysipelas, 633 
 of inflammation, 54 
 
 Respiration in cerebro-spinal meningitis, 814 
 characters of, in idiopathic parotitis, 623 
 in general peritonitis of puerperal fever, 
 
 1010 
 
 in mild scarlet fever, 504 
 in relapsing fever, 386 
 in septicaemia lymphatica, 1012 
 in typhoid fever, 276 
 in typhus fever, 352 
 in croup, 157 
 in disease, 156 
 kinds of, 156 
 
 significance of, in general diagnosis, 156 
 Respiratory diseases, relation of, to rubeola, 
 
 561 
 organs, lesions of, in typhus fever, 356 
 
 spread of diphtheria into, 671 
 tract, alterations of, in scarlet fever, 531 
 Rest, necessity of, in cholera, 760 
 in rabies and hydrophobia, 907 
 in relapsing fever, 432 
 in yellow fever, 654 
 Retention-cysts, 116, 122 
 Retro-vaccine, 473 
 Re- vaccination, time of, 467 
 Rheumatic and cardiac inflammation in 
 
 scarlet fever, treatment, 556 
 Rheumatism, complicating scarlet fever, 521 
 Rickets, hereditary nature, 128 
 Rigidity, muscular, in relapsing fever, 384 
 Rindfleisch's definition of diphtheritic in- 
 flammation, 686 
 ROTHELN, 582 
 Definition, 582 
 Synonyms, 582 
 History, 582 
 Etiology, 583 
 
 Age as a cause, 583 
 Sex as a cause, 583 
 Specific origin, 583 
 Nature of contagion, 583 
 Modes of transmission, 583 
 Period of greatest contagiousness, 583 
 Distinct nature, 584 
 Frequency of second attacks, 584 
 
 ROTHELN Relapses, 584 
 Symptoms, 585 
 
 Incubation period, 583, 585 
 Duration of incubation period, 583 
 Prodromal stage, 585 
 Eruption, 585 
 Duration of eruption, 585 
 Characters of eruption, 586 
 Types of eruption, 586 
 Condition of mucous membranes, 586 
 Swelling of lymphatic glands, 586 
 Temperature, 587 
 Complications and sequelae, 587 
 Diagnosis, 587 
 From measles, 587 
 From scarlet fever, 587 
 From symptomatic skin eruptions, 588 
 Prognosis of, 588 
 Treatment of, 588 
 RUBEOLA, 557 
 Definition, 557 
 Synonyms, 557 
 History, 557 
 Etiology, 557 
 
 Nature of contagion, 558 
 Relation of straw fungus, 558 
 Mode of entrance into body, 558 
 Modes of dissemination of contagion, 
 
 559 
 
 Inoculation, 559 
 
 Stage when most easily propagated, 560 
 Race, influence of, 561 
 Age, influence of, 501 
 Sex, influence of, 562 
 Climate as a cause, 560 
 Pregnancy and parturition as a cause, 
 
 561 
 
 Scrofula as a cause, 561 
 Diseases of respiratory organs as a cause, 
 
 561 
 
 Relation of, to acute diseases, 561 
 to chronic diseases, 561 
 to whooping cough, 561 
 Influence of nervous diseases upon sus- 
 ceptibility, 561 
 Frequency of epidemics, 560 
 in new-born, 562 
 second attacks, 563 
 Relapses in, 563 
 Symptoms, 563 
 
 Incubation stage, 563 
 Duration of incubation stage, 560 
 Prodromal stage, 564 
 Temperature, 564 
 Catarrhal symptoms, 564 
 Punctated appearance of palatal and 
 
 faucial mucous membrane, 564 
 Convulsions, 565 
 Duration of. 565 
 Eruptive stage, 565 
 
 Temperature of, 566 
 Character and seat of eruption, 566 
 General symptoms, 567 
 Symptoms at decline, 567 
 Temperature at decline, 567 
 Duration of eruptive stage, 567 
 Varieties of, 568
 
 INDEX. 
 
 KUBEOIA Varieties: Inflammatory or sy- 
 
 nochal, 568 
 
 Hemorrhagic (rubeola nigra), 569 
 Without eruption, 568 
 
 catarrh, 568 
 
 Deviations from ordinary course, 569 
 Peculiarities in seat of eruption, 569 
 
 in character of eruption, 569 
 Relapses of eruption, 570 
 Complications, 570 
 Causes, 570 
 
 Complicated with epistaxis, 570 
 Skin disorders, 570 
 Pemphigoid eruptions, 571 
 Ear diseases, 570 
 Eye diseases, 571 
 Faucial inflammation, 571 
 Laryngitis, 571 
 Bronchitis and capillary bronchitis, 
 
 571 
 
 Pneumonia, 571 
 Pulmonary oedema, 572 
 Acute miliary tuberculosis, 572 
 Heart-clot, 572 
 Intestinal catarrh, 572 
 Convulsions, 572 
 Diphtheria, 573 
 Sequelae, 573 
 
 followed by general miliary tubercu- 
 losis, 574 
 
 Chronic pulmonary tuberculosis, 573 
 Coryza, 574 
 Ophthalmia, 574 
 Ootitis, 574 
 Intestinal catarrh, 574 
 Cutaneous diseases, 574 
 Bone and joint disease, 574 
 Nervous affections, 574 
 Granular meningitis, 574 
 Albuminuria, 574 
 Gangrenous affections, 574 
 Morbid anatomy, 575 
 
 Changes in skin, 575 
 Diagnosis, 575 
 
 Value of punctated appearance of pal- 
 atal and faucial mucous membranes, 
 575 
 
 Salient points in diagnosis, 575 
 From rotheln, 576 
 Scarlet fever, 576 
 Variola, 576 
 
 Roseola and erythema, 577 
 Typhus, 577 
 Roseola syphilitica, 577 
 Prognosis, 577 
 
 Factors to be considered in making, 577 
 Influence of hygienic surroundings, 577 
 previous health, 578 
 complications, 578 
 Mortality, 578 
 
 Influence of stage of disease, 578 
 
 of age, 578 
 Treatment, 578 
 Preventive, 578 
 Isolation, 578 
 Hygienic, 579 
 Diet, 579 
 
 1081 
 Uncomplicated 
 
 RUBEOLA Treatment : 
 
 cases, 579 
 Results, 579 
 Hyperpyrexia, 580 
 Retrocession of eruption, 580 
 Epistaxis, 580 
 Diarrhoea, 581 
 Nausea and vomiting, 581 
 Constipation, 581 
 Cough, 581 
 
 Eye complications, 581 
 Aural complications, 581 
 Bronchitis and pneumonia, 581 
 Convulsions, 581 
 Use of aconite, 580 
 
 Inunctions, 580 
 
 Quinia, 580 
 
 Stimulants, 580 
 
 S. 
 
 Salicylic acid, use of, in diphtheria, 707 
 
 in relapsing fever, 428 
 Saliva, propagation of rabies and hydropho- 
 bia by, 891 
 Salivary glands, lesions of, in typhoid fever, 
 
 268 
 
 Sanitary inspection of houses, 187 
 Sarcoma, 118 
 SCARLET FEVEK, 486 
 History, 486 
 
 Etiology Specific origin, 487 
 Germ theory, 488 
 Microbes, 488 
 
 Modes of cultivation of microbes, 488 
 Modes of entering the system, 490 
 Modes of communication, 490 
 Dissemination of, by milk, 491 
 Fixity of the poison, 491 
 Solid nature of the poison, 492 
 Duration of incubation, 492, 493 
 Contagiousness, 494 
 Area of contagiousness, 494 
 Age, influence of, in causation, 500 
 Variations in type, 494 
 Surgical, 495 . 
 
 distinguished from septicsemic efflores- 
 cence, 497 
 effect of poison upon inflammation of 
 
 wounds, 498 
 Obstetrical, 498 
 
 liability of parturient women to, 498 
 relation of, to puerperal septicaemia, 499 
 Immunity of infants, 500 
 Clinical facts regarding, 501 
 Relapses in, 501 
 
 Frequency of second attacks, 501 
 Sympathetic sore throat in, 502 
 
 albuminuria in, 502 
 Symptoms, 502 
 
 Ordinary form, 502 
 Premonitory, 502 
 Nervous system, 503 
 Vomiting in, significance, 503 
 Diarrhoea, 503 
 Condition of tongue, 504 
 of faucial and nasal membranes, 504
 
 1082 
 
 INDEX. 
 
 SCARLET FEVER Symptoms : Respiratory, 
 
 504 
 Efflorescence, 504 
 
 Seat of greatest intensity of eruption, 
 
 504 
 
 Cause of absence of eruption, 505 
 Date of desquamation, 506 
 Temperature, 505 
 Digestive system, 505 
 Urine, characters, 505 
 Duration, 506 
 
 Malignant or grave form, 507 
 Digestive system, 507 
 Pulse, 507 
 Eruption, 507 
 Temperature, 507 
 Nervous symptoms, 507 
 Condition of fauces, 508 
 Of throat, 503 
 Nasal cavities, 508 
 Lymphatic glands, 508 
 Duration, 508 
 Irregular form, 508 
 Causes, 508 
 
 Absence of eruption, 508 
 Hemorrhngic form, 509 
 Anginose form, 510 
 Complications and sequelae, 510 
 
 Complicated by severe nervous symp- 
 toms 510 
 
 Throat symptoms, 511 
 Adenitis, 511 
 
 Inflammation of neck, 511 
 Gangrene of neck, 512 
 CEdema of glottis, 512 
 Diphtheria, 514 
 
 course of diphtheria, complicating, 
 
 516 
 
 Croupous inflammation of fauces, 516 
 Coryza, 520 
 Otitis, 520 
 
 course of otitis, complicating, 520 
 results of otitis, complicating, 521 
 By rheumatism, 521 
 By cardiac inflammations, 522 
 By dilatation of heart, 523 
 By heart-clot, 523 
 By pleuritis, 523 
 By nephritis, 525 
 By glomernlo-nephritis, 527 
 By albuminuria, 525 
 By anasarca and oedema, 529 
 
 Order and date of appearance of 
 
 anasarca, 529 
 
 By head symptoms due to uraemia, 530 
 Morbid anatomy, 530 
 
 Changes in the blood, 530 
 Respiratory tract, 531 
 Abdominal organs, 531 
 Post-mortem appearance of eruption, 
 
 532 
 Changes in the kidneys, 526 
 
 hvaline degeneration of kidneys, 
 
 "527 
 
 intestinal nephritis, 528 
 parenchymatous nephritis, 526 
 Changes in the liver, 531 
 
 SCART-ET FEVER Diagnosis, 532 
 From measles, 532 
 From erythema, 533 
 From rotheln, 533 
 From diphtheria, 533 
 Prognosis, 533 
 
 liiiluenceof complications upon, 533, 535 
 type upon, 534 
 age upon, 534 
 Of grave cases, 535 
 Mortality, 534 
 Treatment, 536 
 Preventive, 536 
 Isolation in, 537 
 
 Inoculation as a prophylactic, 536 
 Belladonna as a prophylactic, 536 
 Sodium sulpho-carbolate as a pro- 
 phylactic, 537 
 
 Listerine as a prophylactic, 537 
 Boric acid as a prophylactic, 537 
 Disinfection in, 201, 538 
 Hygienic, 539 
 Therapeutic, 539 
 Mild cases, 540 
 Inunction in, 541 
 Hyperpyrexia, 541 
 
 by cold, 541 
 
 Mode of applying cold, 542 
 Antiseptic, 545 
 
 Complications and sequelae, 545 
 Pharyngitis, 545 
 
 local, 546 
 
 Coryza, 546 
 
 local, 547 
 
 Otitis, 547 
 
 local, 549 
 
 parucentesis of tympanum, 548 
 Nephritis and albuminuria, 550 
 
 modes of producing diaphoresis, 551 
 local, 555 
 Convulsions, 556 
 Rheumatic and cardiac inflammation, 
 
 556 
 
 Pleuritis, 556 
 Convalescence, 544 
 
 Use of aconite and veratrum viride, 543 
 Alcohol, 544 
 
 Ammonium carbonate, 544 
 Carbolic acid, 545 
 Cathartics, 554 
 Diuretics, 555 
 Digitalis, 543, 555 
 Ice, 542 
 
 Jaborandi and pilocarpine, 552 
 Sodium salicylate, 543 
 Quinia, 543 
 
 Scarlet fever, relation of, to idiopathic paro- 
 titis, 620 
 
 Scarlatina, disinfection in, 201, 538 
 Schools, closure of, for prevention of disease, 
 
 203 
 Scrofula, relation of, to causation of rubeola, 
 
 561 
 
 relation to tuberculosis, 96, 101 
 Scrofulosis, hereditary disposition to, 127 
 Scrofulous habit, peculiarities of tissue, 101 
 Scurvy, complicating typhus fever, 355
 
 INDEX. 
 
 1083 
 
 Season, influence of, on causation of anthrax. 
 
 931, 940 
 
 of cerebro-spinal meningitis, 802 
 of diphtheria, 682 
 of typhoid fever, 245 
 of erysipelas, 630 
 of idiopathic parotitis, 620 
 of influenza, 860 
 of the plague, 775 
 of rabies and hydrophobia, 887 
 of relapsing fever, 371 
 of typhus fever, 343 
 of variola, 435 
 on cholera, 720 
 proper, for vaccination, 477 
 Seborrhcea, following erysipelas, 633 
 Second attack of rubeola, frequency of, 563 
 
 stage of pertussis, 840 
 Secondary form of diphtheria, 671 
 Segregation of lepers, 794 
 Self-infection, danger of, in treating diph- 
 theria, 696 
 
 prevention of, in treating diphtheria, 696 
 Sensibility, altered, significance of, in gen- 
 eral diagnosis, 161 
 
 modifications of, in typhoid fever, 279 
 Sepsin, 971 
 Septicaemia, 945 
 
 complicating erysipelas, 634 
 distinguished from pyaemia, 978, 979 
 lymphatics of puerperal fever, 1011 
 venosa, 1012 
 
 Sequelae of cerebro-spinal meningitis, 819 
 of cholera, 735 
 of erysipelas, 633 
 
 of grave form of the plague, 780, 781 
 of influenza, 868 
 of relapsing fever, 396 
 of roiheln, 587 
 of rubeola, 573 
 
 treatment, 580 
 of scarlet fever, 510 
 of vaccinia, 464 
 of variola, 445 
 Serous inflammation, 47 
 
 inflammations complicating erysipelas, 634 
 Severe form of diphtheria, symptoms, 668 
 of influenza, treatment, 875 
 of typhus lever, 354 
 Sewerage, 213 
 
 Sewer- and soil-pipes, importance of posi- 
 tion, 188 
 Sewer-gas, 189 
 
 diseases produced by, 190 
 symptoms due to, 189 
 Sewers, characters of efficient, 224 
 public, 224 
 ventilation of, 224 
 Sewer-traps, test as to their efficiency, 190 
 
 varieties, 191 
 
 Sex, influence of, on causation of cerebro- 
 spinal meningitis, 802 
 of diphtheria, 680 
 of erysipelas, 630 
 of idiopathic parotitis, 620 
 of influenza, 860 
 of leprosy, 789 
 
 Sex, influence of, on causation of pertussis, 
 
 839 
 
 of the plague, 775 
 of rabies and hydrophobia, 880 
 of relapsing fever, 371 
 of rotlieln, 583 
 of variola, 436 
 typhoid fever, 243 
 
 _ relation of, to causation of rubeola, 563 
 Silver nitrate, use of, in typhoid fever, 332 
 Simon's triangles, 437 
 SIMPLE CONTINUED FEVER, 231 
 Definition, 231 
 Synonyms, 231 
 History, 231 
 Etiology, 232 
 Symptoms, 233 
 Asthenic form, 233 
 Morbid anatomy, 235 
 Diagnosis, 234 
 
 From typhoid fever, 234 
 From typhus fever, 234 
 From relapsing fever, 235 
 From tubercular meningitis, 235 
 Prognosis, 235 
 Treatment, 236 
 
 Simple form of yellow fever, treatment, 649 
 Singultus in pyaemia, 975 
 in septicaemia, 977 
 
 significance of, in general diagnosis, 158 
 Skin, alterations in sensibility of, in cere- 
 bro-spinal meningitis, 808 
 anaesthesia of, in beriberi, 1039 
 appearance of, in typhoid fever, 273 
 character of lesions in erysipelas, 631 
 chronic diseases of, following rubeola, 574 
 color of, in cholera, 737 
 condition of, in cholera, 736 
 in influenza, 866 
 in septicaemia, 97f 
 coolness of, in cerebro-spinal meningitis, 
 
 treatment, 831 
 
 diseases of, complicating vaccination, 471 
 effects on course of erysipelas, 634 
 following vaccination, 471 
 disorders of, complicating rubeola, 570 
 eruptions of, complicating cholera, 735 
 
 in pyrcmia, 974 
 erysipelas of, migration, 632 
 hypenesthesia of, in typhus fever, 352 
 lesions of, in erysipelas, 635 
 
 course of, 631 
 in leprosy, 791 
 in remittent fever, 603 
 in rubeola, 575 
 morbid anatomy of lesions of, in variola, 
 
 446 
 odor of, in typhoid fever, 273 
 
 in typhus fever, 352 
 
 significance of color of, in general diag- 
 nosis, 159 
 
 swelling of, in erysipelas, 632 
 Skunk-bites as cause of rabies and hydro- 
 phobia, 889 
 
 Slaking lime, use of, in diphtheria, 703 _ 
 Sleep, danger of prolonged, in nasal diph- 
 theria, 712
 
 1084 
 
 INDEX. 
 
 Sleeplessness in idiopathic parotitis, treat- 
 ment, 625 
 Small-pox, 434 
 black, 442 
 
 freedom of liability to, from race-protec- 
 tion, 130 
 
 Sodium benzoate, use of, in pertussis, 847 
 chloride, venous injection of, in cholera, 
 
 762, 768 
 hyposulphite, use of, in relapsing fever, 
 
 428 
 
 salicylate, use of, in diphtheria, 707 
 in puerperal fever, 1032 
 in scarlet fever, 543 
 in typhoid fever, 330 
 sulpho-carbolate as a prophylactic in scar- 
 let fever, 537 
 Softening, cerebral, from embolism, 65 
 
 mucous, 82 
 
 Soil, character of, as cause of disease, 187 
 composition of, 187 
 diminished dryness of, a cause of phthisis, 
 
 187 
 drainage of, for prevention of anthrax, 
 
 937 
 
 of disease, 226 
 examination, 188 
 filtering power, 187 
 humidity of, as a cause of cholera, 722 
 Soils, alkaline, relation of, to causation of 
 
 anthrax, 930 
 
 Soil-pipes, importance of position of, 188 
 tests as to their efficiency, 190 
 ventilation of, 189 
 Solitary glands, lesions of, in typhoid fever, 
 
 261 
 
 Spasm of phaiyngeal and respiratory mus- 
 cles in hydrophobia, 809 
 Special senses, perversion of, in relapsing 
 
 fever, 386 
 in typhus fever, 349 
 Specific origin of anthrax, 720, 726 
 of cholera, 727 
 of glanders, 911 
 of rotheln, 583 
 of yellow fever, 640 
 Speech, impairment of, following cerebro- 
 
 spinal meningitis, 820 
 Spinal cord, lesions of, in cerebro-spinal 
 
 meningitis, 823 
 
 marrow, lesions of, in cholera, 746 
 rigidity in cerebro-spinal meningitis, 809 
 Spirillum, 142 
 
 of relapsing fever, 373 
 Spleen, condition of, in relapsing fever, 391 
 enlargement of, in pyaemia, 976 
 lesions of, in anthrax in animals, 935 
 
 in man, 942 
 in cholera, 746 
 in diphtheria, 687 
 in glanders, 922 
 in hydrophobia, 903 
 in pyasmia, 969 
 in relapsing fever, 416 
 in remittent fever, 602 
 in septicaemia, 972 
 in typhoid fever, 264 
 
 Spleen, lesions of, in typhus fever, 357 
 
 rupture of, in relapsing fever, 403 
 Spontaneous cow-pox, 456 
 origin of pyaemia, 959 
 
 of typhoid fever, 254 
 Stages of yellow fever, 615 
 Standards of purity of water, 184 
 Starvation and over-crowding as causes of 
 
 relapsing fever, 370 
 Pteam, use of, in diphtheria, 701 
 Sthenic inflammation, 46 
 Stimulants, use of, in diphtheria, 695 
 in relapsing fever, 431 
 in rubeola, 580 
 in variola, 4-33 
 Stomach, lesions of, in cholera, 743 
 
 state of, in remittent fever, 602 
 Stools, as a medium of disseminating typhoid 
 
 fever, 249 
 
 character of, in cholera, 739 
 in pyaemia, 976 
 in typhoid fever, 287 
 in typho-malarial fever, necessity of dis- 
 infecting, 619 
 necessity of disinfection in prevention of 
 
 typhoid fever, 321 
 
 significance of, in general diagnosis, 163 
 Strabismus in cerebro-spinal meningitis, 810 
 Straw-fungus, relation of, to rubeola, 558 
 Strychnia, use of, in diphtheritic paralvsis, 
 
 713 
 
 in dry beriberi, 1043 
 Stupor in typhoid fever, treatment, 334 
 
 in typhus fever, treatment, 366 
 Subsoil-water, level of, 188 
 Sudamina in typhoid lever, 274 
 
 in typhus fever, 352 
 Sulphites and hyposulphites, use of, in py- 
 
 remia, 982 
 in septicaemia, 983 
 Sulphur, use of, in diphtheria, 709 
 Summer heats, relation of, to causation of 
 
 rabies and hydrophobia, 887 
 Suppuration in idiopathic parotitis, treat- 
 ment, 625 
 
 influence of minute organisms in produc- 
 tion of, 144 
 
 Suppurative stage of variola, 439 
 Surgical scarlatina, 495 
 
 treatment of erysipelas, 638 
 Swelling of parotid glands in cerebro-spinal 
 
 meningitis, 814 
 
 Swellings, significance of, in diagnosis, 159 
 Sweating stage of intermittent fever, 593 
 of intermittent fever, treatment, 597 
 Symptomatic parotitis, 625 
 Symptomatology, general, 148 
 Symptoms at decline of eruptive stage of 
 
 rubeola, 567 
 
 constitutional, of vaccinia, 459 
 due to sewer-gas, ] 89 
 general, of idiopathic parotitis, 623 
 of anaesthetic form of leprosy, 791 
 of tubercular form of leprosy, 7 ( JO 
 of confluent small-pox, 441 
 local, of anthrax, 935, 940 
 of idiopathic parotitis, 621
 
 INDEX. 
 
 1085 
 
 Symptoms, local, of anaesthetic form of lep- 
 rosy, 790 
 
 of glanders, 914, 915, 921 
 
 of tubercular form of leprosy, 789 
 nervous, in mild scarlet fever, 503 
 
 in typhus fever, 348 
 special, in typhus fever, 347 
 of anthrax in animals, 934 
 
 in man, 940 
 
 angina, 941 
 
 intestinalis, 941 
 of malignant anthrax, 940 
 of beriberi, 1039 
 of cerebro-spinal meningitis, 806 
 of cholera, 731 
 of comatose form of pernicious malarial 
 
 fever, 608 
 of dengue, 884 
 of diphtheria, 667 
 
 of endometritis and endocolpitis of puer- 
 peral fever, 1005 
 of erysipelas, 631 
 of glanders in horses, 914 
 
 in man, 920 
 
 of hydrophobia, in man, 898 
 of influenza, 865 
 of idiopathic parotitis, 621 
 of intermittent fever, 592 
 of gangrene foudroyante, 977 
 of general peritonitis of puerperal fever, 
 
 1010 
 
 of leprosy, 789 
 
 of malignant scarlet fever, 507 
 of para- and perimetritis in puerperal fe- 
 ver, 1005 
 of pertussis, 840 
 of the plague, 777 
 of puerperal fever, 1004 
 of pyaemia, 972 
 
 of rabies and hydrophobia in dogs, 895 
 of relapsing fever, 374 
 of remittent fever, 599 
 of rotheln, 585 
 of rubeola, 563 
 of scarlet fever, 502 
 of septicaemia, 976 
 
 lymphatica of puerperal fever, 1011 
 
 venosa of puerperal fever, 1012 
 of simple continued fever, 233 
 of symptomatic parotitis, 626 
 of typho-malarial fever, 615 . 
 of typhoid fever, 268 
 of typhus fever, 346 
 of vaccinia, 458 
 of varicella, 481 
 of variola, 436 
 of varioloid, 443 
 of yellow fever, 644 
 Synonyms of anthrax, 926 
 
 of cerebro-spinal meningitis, 795 
 
 of cholera, 715 
 
 of dengue, 879 
 
 of diphtheria, 656 
 
 of erysipelas, 629 
 
 of glanders, 909 
 
 of influenza, 851 
 
 of leprosy, 785 
 
 Synonyms of the plague, 771 
 of rabies and hydrophobia, 886 
 of relapsing fever, 369 
 of rotheln, 582 
 of rubeola, 557 
 
 of simple continued fever, 231 
 of typhoid fever, 237 
 of typhus fever, 338 
 of vaccinia, 455 
 of vaccination, 465 
 of varicella, 481 
 of -variola, 434 
 of yellow fever, 640 
 Syphilis, complicating vaccination, 469 
 
 modes of preventing, 470 
 
 treatment of, 471 
 constitutional, hereditary nature of, 127 
 
 T. 
 
 Taches bleuatres in typhoid fever, 275 
 
 in typhus fever, 352 
 Tarnier's maternity pavilions for prevention 
 
 of puerperal fever, 1028 
 Taste, modifications of, in typhoid fever, 280 
 significance of modification, in general di- 
 agnosis, 162 
 
 Technics of vaccination, 472 
 Teeth, significance of condition, in diagno- 
 sis, 152 
 Temperature in anthrax in man, 940 
 
 at decline of eruptive stage of rubeola, 567 
 elevated, influence of, in origin and spread 
 
 of cholera, 720 
 
 in cerebro-spinal meningitis, 815 
 in cholera, 736 
 in dengue, 881 
 
 in eruptive stage of rubeola, 565 
 in erysipelas, 633 
 in fevers, 38-40 
 in general peritonitis of puerperal fever, 
 
 1010 
 
 in idiopathic parotitis, 623 
 in influenza, 864 
 in malignant scarlet fever, 507 
 in mild scarlet fever, 505 
 in para- and perimetritis in puerperal 
 
 fever, 1006 
 
 in prodromal stage of rubeola, 564 
 in pyaemia, 974 
 in relapsing fever, 378, 382 
 in remittent fever, 599 
 in rotheln, 587 
 in septicaemia, 977 
 
 venosa of puerperal fever, 1012 
 in typhoid fever, 280 
 in typhus fever, 349 
 
 significance of, in general diagnosis, 158 
 respiration and pnlse, relations of, in re- 
 lapsing fever, 386 
 
 Tenderness, muscular, in beriberi, 1039 
 Teratoid tumors, 124 
 Test, peppermint, for defects in plumbing, 
 
 198 
 
 Tests as to efficiency of soil-pipes, 190 
 The plague, 771 
 Thermometer, use of, in typhoid fever, 284
 
 1086 
 
 INDEX. 
 
 Thirst in cerebro-spinal meningitis, 814 
 in rabies and hydrophobia, 899 
 in relapsing fever, 389 
 in typhoid fever, 285 
 in typhus fever, 350 
 
 treatment, 367 
 
 significance of, in general diagnosis, 162 
 treatment of, in cholera, 770 
 Throat symptoms, complicating scarlet 
 
 fever, 511 
 Thoracic duct, obstruction of, as cause of 
 
 dropsy, 69. 
 Thrombi, action of, in production of meta- 
 
 static abscesses in pyaemia, 965 
 calcification of, 60, 89 
 in uterine pelvic veins, 989 
 growth of, in puerperal fever, 989 
 Thrombosis, 56 
 
 relation of, to causation of pyaemia, 957 
 and embolism, 56 
 causes, 57 
 symptoms, 66 
 in relapsing fever, 402 
 in typhoid fever, treatment, 335 
 THROMBUS, 56 
 
 Calcification, 60, 88 
 Characteristics, 59 
 Changes, 60 
 Composition, 56 
 
 Distinguished from thrombosis, 56 
 From compression, 58 
 From death of leucocytes, 57 
 From dilatation, 58 
 From marasmus, 59 
 From traumatism, 58 
 Mechanical effects, 62 
 Organization, 60 
 Softening, 61 
 Varieties, 57, 58 
 
 Tongue, condition of, in cerebro-spinal men- 
 ingitis, 813 
 in dengue, 881 
 in erysipelas, 633 
 in idiopathic parotitis, 622 
 in mild scarlet fever, 504 
 in typhus fever, 350 
 in yellow fever, 644 
 state of, in pyaemia, 975 
 in relapsing fever, 389 
 in remittent fever, 600 
 in septicaemia, 977 
 in typhoid fever, 285 
 signification of state of, in diagnosis, 152 
 Tracheal diphtheria, prognosis of, 692 
 Trachea, formation of diphtheritic mem- 
 brane in, 671 
 Tracheotomy in diphtheria, prognosis of, 
 
 . 6 . 92 
 Transmission of cholera, 721, 723 
 
 of variola, 435 
 Transudation, 68 
 
 causes, 69 
 
 mechanism, 68 
 Traps, ventilation, 221 
 Traumatic fever, relation of, to septicaemia, 
 961 
 
 fevers, 37 
 
 Treatment of anthrax in animals, 938 
 in man, 943 
 
 preventive, of anthrax, 936, 943 
 
 of beriberi, 1042 
 
 of cerebro-spinal meningitis, 829 
 
 of cholera, 759 
 
 of dengue, 885 
 
 of diphtheria, 694 
 
 general, importance of, in diphtheria, 695 
 
 of erysipelas, 636 
 
 of idiopathic parotitis, 624 
 
 local, of idiopathic parotitis, 625 
 
 of intermittent fever, 594 
 
 of leprosy, 793 
 
 local, of leprosy, 794 
 
 of comatose form of pernicious malarial 
 fever, 609 
 
 of glanders in horse, 918 
 in man, 924 
 
 preventive, in horse, 919 
 in man, 925 
 
 of influenza, 873 
 
 of pertussis, 844 
 
 of the plague, 782 
 
 of puerperal fever, 1028 
 
 of septioemia. 983 
 
 of pya-mia, 979 
 
 of rabies and hydrophobia, 903 
 preventive, 903 
 
 of relapsing fever, 426-433 
 
 of remittent fever, 603 
 
 of rotheln, 587 
 
 of rubeola, 578 
 
 hygienic, of rubeola, 579 
 
 preventive, of rubeola, 578 
 
 of scarlet fever, 536 
 
 of septicaemia, 982 
 
 of simple continued fever, 236 
 
 of symptomatic parotitis, 627 
 
 local, of symptomatic parotitis, 628 
 
 of typhoid fever, 320 
 
 of typho-malarial fever, 618 
 
 of typhus fever, 361 
 
 of variola, 451 
 
 hygienic, of variola, 451 
 
 of variola, preventive, 451 
 
 of varioloid, 451 
 
 of yellow fever, 649 
 
 Treeak farook, use of, in wet beriberi, 1042 
 TUBERCLE, 94 
 
 Calcification, 96 
 
 Cheesy degeneration, 96 
 
 Fibrous transformation, 96 
 
 Histology, 95 
 
 Horn-like change, 96 
 
 Infectious origin, 97 
 
 Inoculability, 97 
 
 Miliary and gray, cause of infectious 
 qualities, 99 
 
 Origin of, from absorption of cheesy prod- 
 ucts, 97 
 
 Tubercular form of leprosy, 789 
 TUBERCULOSIS, 94 
 
 Bacilli of, 99, 100 et seq. 
 
 Dissemination, 103 
 
 Hereditary nature, 101 
 
 Primary seat, 104
 
 INDEX. 
 
 1087 
 
 TUBERCULOSIS Eelation of, to pearly dis- 
 temper, 99 
 to scrofula, 101 
 Tuberculosis, acute miliary, complicating 
 
 rubeola, 572 
 
 chronic pulmonary, following rubeola, 573 
 general miliary, folio wing relapsing fever, 
 
 404 
 
 following rubeola, 574 
 relation of, to pearly distemper, 99 
 
 to scrofula, 96, 101 
 TUMORS, 105 
 
 Method of origin, 106 
 Cohnheim's theory of origin, 106 
 Influence of irritants in producing, 108 
 Growth, 109 
 concentric, 109 
 continuous, 109 
 eccentric, 109 
 influence of seat, 109 
 rapidity, 109 
 Primary, 110, 111 
 Secondary, 110, 112 
 Metastasis, 110 
 Multiple, 110 
 Recurrence, 110 
 Transplantation, 110 
 Embolic nature, 112 
 Changes occurring, 113 
 
 inflammatory, 113 
 
 Analogy of structure in primary and sec- 
 ondary, 113 
 Benignant, 114 
 Cachexia, 114 
 Malignant, 114 
 Resemblance of, to normal tissue of body, 
 
 115 
 
 Histoid, 116 
 Organoid, 116 
 
 Relation of, to each other, 117 
 Connective tissue, 118, 122 
 Cystic, 115, 116, 121 
 Influence of age upon development, 119 
 Classification, 114, 121 
 Infective group, 120, 124 
 Epithelial group, 123 
 Congenital, 124 
 
 Turpentine inhalations in diphtheria, 704 
 stupes, use of, in puerperal fever, 1032 
 use of, in typhoid fever, 326 
 Tympanites "in remittent fever, treatment, 
 
 605 
 in typhoid fever, 286 
 
 treatment of, 332 
 
 in typho-malarial fever, treatment, 619 
 in typhus fever, 350 
 Tympanum, paracentesis of, in scarlet fever, 
 
 548 
 
 Types of cerebro-spinal meningitis, 804 
 of intermittent fever, 594 
 of scarlet fever, 494 
 of varioloid, 444 
 TYPHOID FEVER, 237 
 Synonyms, 2H7 
 Definitions, 237 
 History, 238 
 Geographical distribution, 241 
 
 TYPHOID FEVER Etiology, 242 
 Predisposing causes, 242 
 Age, influence of, 2-12 
 Sex, influence of, 243 
 Occupation, influence of, 244 
 Change of residence, influence of, 244 
 Idiosyncrasy, influence of, 245 
 Depressing emotions, influence of, 245 
 Intemperance, influence of, 245 
 Previous ill-health, influence of, 245 
 Season, influence of, 245 
 Elevated temperature, influence of, 246 
 Rise and fall of subsoil-water, influence 
 
 of, 247 
 
 Exciting causes, 248 
 Contagiousness, 248 
 Dissemination, 249 
 
 Cases illustrating modes of dissemina- 
 tion, 250 
 
 Dissemination of, by drinking-water, 
 248 
 
 By stools, 249 
 
 By milk, 252 
 
 By atmosphere, 252 
 
 By bed-linen, etc., 253 
 
 By polluted soil, 253 
 
 By putrefied flesh, 257 
 Spontaneous origin, 254 
 Duration of virulence of germs, 256 
 Bacillus typhosus, 258 
 Incubation period, 259 
 Morbid anatomy, 260 
 Lesions peculiar to, 261 
 Changes in Peyer's patches, 261 
 
 Solitary glands, 261 
 Softening of Peyer's patches and soli- 
 tary glands, 263 
 Cicatrization of Peyer's patches and 
 
 solitary glands, 263 
 Changes in crecum and colon, 263 
 
 Spleen, 264 
 
 Abdominal glands, 264 
 Lesions not peculiar to, 265 
 Changes in liver and gall-bladder, 265 
 
 Pharynx and oesophagus, 265 
 
 Larynx and lungs, 266 
 
 Brain and membranes, 266 
 
 Muscles, 267 
 
 Heart and blood-vessels, 267 
 
 Blood, 268 
 
 Salivary glands, 268 
 
 Kidneys, 268 
 Symptoms, 268 
 
 Clinical description, 268 
 Physiognomy, 272 
 Epistaxis, 273 
 Condition of skin, 273 
 
 Odor, 273 
 
 Eruption, 273 
 
 Sudamina, 274 
 
 Tilches bleuatres, 275 
 Condition of hair and nails, 275 
 
 Pulse, 275 
 Heart-sounds, 276 
 Respiration, 276 
 Frequency of bronchitis, 277 
 Mental condition, 277
 
 1088 
 
 INDEX. 
 
 TYPHOID FEVER Symptoms: Headache, 
 
 277 
 
 Delirium, 278 
 Muscular spasm, 279 
 
 tremor, 279 
 Modifications of sensibility, 279 
 
 Hearing, 280 
 
 Vision, 280 
 
 Taste, 280 
 Temperature, 280 
 State of tongue, 285 
 
 Fauces, 286 
 
 Nausea and vomiting, 285 
 Anorexia, 285 
 Thirst, 285 
 - Gurgling, 286 
 
 Meteorism or tympanites, 286 
 Diarrhoea, 287 
 Character of stools, 287 
 Intestinal hemorrhage, 287 
 
 frequency, 288 
 
 causes, 288 
 
 importance, 288 
 Intestinal perforation, 289 
 
 frequency, 290 
 
 causes, 290 
 
 date of appearance, 290 
 
 importance, 289 
 Condition of urine, 291 
 
 amount of solids, 291 
 
 presence of albumen, 292 
 Complications and sequelae, 292 
 Complicated by pyaemia, 294 
 
 Laryngitis, 294 
 Bronchitis and pneumonia, 294 
 
 Pleurisy, 294 
 
 Jaundice, 295 
 
 Peritonitis, 295 
 
 Catarrhal and diphtheritic inflamma- 
 tion of fauces, 295 
 
 Parotid swelling, 296 
 
 Menstrual disorders, 296 
 
 Pregnancy, 296 
 
 Suppuration of BartholSni's glands, 
 296 
 
 Periostitis, 297 
 
 CEdema, 297 
 
 Bed-sores, 297 
 Followed by impaired intellect, 292 
 
 Perversion of the moral sense, 292 
 
 Paralysis and chorea, 293 
 
 Cardiac degeneration, 293 
 
 Arterial thrombosis, 293 
 
 Venous thrombosis, 294 
 
 Gangrene of vulva and vagina, 293 
 
 Hepatic abscess, 295 
 
 Tendency to stoutness, 298 
 Varieties of, 298 
 Abortive form, 298 
 Latent form, 300 
 In children, 301 
 In aged persons, 302 
 Eelapses in, 302 
 frequency, 302 
 course, 303 
 cases illustrating, 304 
 causes, 308 
 
 TYPHOID FEVER Duration, 310 
 Diagnosis, 311 
 From typhus, 311 
 From influenza, 312 
 From relapsing fever, 312 
 From epidemic cerebro-spinal menin- 
 gitis, 313 
 
 From simple continued fever, 313 
 From remittent fever, 312 
 From the eruptive fevers, 313 
 From acute tuberculosis, 313 
 From trichinosis, 314 
 From the specific inflammations, 314 
 From acute tubercular meningitis, 314 
 Prognosis, 314 
 
 Symptoms indicating unfavorable, 314 
 
 favorable, 316 
 Influence of hyperpyrexia upon, 314 
 
 Nervous symptoms, 315 
 
 Heart symptoms, 316 
 
 Condition of pulse, 316 
 
 Abdominal symptoms upon, 316 
 Mortality, 316 
 
 Tables" showing, 317, 318 
 Influence of season, 318 
 
 Sex, 319 
 
 Age, 319 
 
 Treatment, 319 
 
 Habits, 320 
 
 Social condition, 320 
 
 Recent residence, 320 
 
 Corpulence, 320 
 
 Organic disease, 320 
 
 Childhood, 320 
 Treatment, 320 
 Preventive, 321 
 
 Necessity of proper drainage in preven- 
 tion, 321 
 
 Disinfection of stools, 321 
 Hygienic, 322 
 Irn portance of ventilation, 323 
 
 administering water, 325 
 Diet, 323 
 Mild cases, 326 
 Hyperpyrexia, 327 
 
 by cold baths, 327-329 
 Typho-malarial form, 331 
 Vomiting, 331 
 Diarrhoea, 331 
 Tympanites, 332 
 Intestinal hemorrhage, 332 
 
 perforation, 333 
 Constipation, 333 
 Headache, 334 
 Insomnia, 334 
 Stupor, 334 
 Delirium, 334 
 Albuminuria, 334 
 Complications, 335 
 Epistaxis, 335 
 Pneumonia, 335 
 
 Hypostatic congestion of lungs, 335 
 Thrombosis and embolism, 335 
 Bed-sores, 335 
 Convalescence, 335 
 Use of alcohol, 324 
 
 Digitalis, 330
 
 INDEX. 
 
 1089 
 
 TYPHOID FEVER Treatment : Use of euca- 
 lyptus, 331 
 Qu'inia, 330 
 Silver nitrate, 332 
 Sodium salicylate, 330 
 Turpentine, 326 
 Specific, 336 
 By calomel, 336 
 By iodine, 336, 337 
 Use of thermometer, 284 
 Typhoidal inflammation, 47 
 Typhoid state of cholera, 734 
 
 following variola, 445 
 TYPHO-MAJ,ARIAL FEVERS, 614 
 Definition, 614 
 Frequency, 616 
 Symptoms, 615 
 Diagnosis, 616 
 Prognosis, 616 
 Mortality, 616 
 relative mortality of white and black 
 
 races, 616 
 Treatment, 618 
 
 Of typhoidal element, 618 
 Of malarial element, 618 
 Use of quinia, 618 
 Depurative treatment, 618 
 Necessity of disinfection of stools, 619 
 Of tympanites, 619 
 Of insomnia, 619 
 Diet, 619 
 
 Typho-malarial form of typhoid fever, treat- 
 ment, 331 
 
 TYPHUS FEVER, 338 
 Synonyms, 338 
 History, 338 
 
 Etiology Predisposing causes, 341 
 Over-crowding as a cause, 341 
 Age, influence of, 342 
 Debility and fatigue, influence of, 342 
 Mental and physical overwork, 342 
 Intemperance, 342 
 Poverty, 342 
 
 Barometric and thermometric varia- 
 tions, 343 
 Season, 343 
 Occupation, 343 
 
 Individual susceptibility to, 343 
 Exciting causes, 343 
 Contagiousness, 343 
 Nature of contagion, 343 
 Modes of transmission of contagion, 344 
 Communication of, by fomites, 345 
 Period of contagiousness, 345 
 Spontaneous origin, 345 
 Period of incubation, 346 
 Symptoms Clinical description, 346 
 Special symptoms, 347 
 Prostration, 348 
 Nervous symptoms, 348 
 Appearance of face, 348 
 Intellectual condition, 348 
 Headache, 348 
 Delirium, 348 
 Wakefulness, 349 
 Coma vigil, 349 
 Perversion of special senses, 349 
 
 VOL. I. 69 
 
 TYPHUS FEVER Symptoms : Muscular 
 
 tremor, 349 
 Temperature, 349 
 Condition of tongue, 350 
 Anorexia, 350 
 Thirst, 350 
 
 Nausea and vomiting, 350 
 Condition of bowels, 350 
 Tympanites, 350 
 Gurgling, 350 
 Eruption, 351 
 Duration of eruption, 351 
 Taches bleuatres, 352 
 Sudamina, 352 
 Hyperaesthesia of skin, 352 
 Odor, 352 
 Condition of pulse, 351 
 
 of heart, 351 
 Respiration, 352 
 Pneumonia, 353, 355 
 Bronchitis, 353, 355 
 Odor of breath, 353 
 Hypostatic congestion of lungs, 363 
 Changes in urine, 353 
 Varieties of, 353 
 Mild form, 354 
 Severe form, 354 
 Ataxic form, 354 
 Adynamic form, 354 
 Ataxo-adynamic form, 354 
 Inflammatory form, 354 
 Walking form, 354 
 Abortive form, 354 
 Complications and sequelae, 354 
 Complicated by erysipelas, 355 
 
 Cardiac degeneration, 355 
 
 Bronchitis and pneumonia, 353, S-W 
 
 Pleurisy, 355 
 
 Albuminuria, 355 
 
 Bed-sores, 355 
 
 Scurvy, 355 
 
 Dvsentery, 355 
 
 Jaundice", 356 
 
 Parotitis, 356 
 
 Serous inflammations, 356 
 
 Pyaemia, 356 
 
 Disorders of menstruation, 356 
 
 Miscarriage, 356 
 Followed by pulmonary gangrene und 
 
 phthisis, 355 
 Morbid anatomy, 356 
 Alteration of blood, 356 
 Changes in respiratory organs, 356 
 
 Heart and membranes, 357 
 
 Liver and kidneys, 357 
 
 Spleen, 357 
 
 Intestinal tract, 357 
 
 Brain and membranes, 358 
 Diagnosis, 358 
 
 From typhoid fever, 358 
 From meningitis, 358 
 From measles, 358 
 From typhoid pneumonia, 359 
 From delirium treinens, 359 
 From pnrpura, 359 
 Prognosis of, 359 
 Svinptoms indicating favorable, 360
 
 1090 
 
 INDEX. 
 
 TYPHUS FEVER Prognosis: Symptoms 
 
 indicating unfavorable, 360 
 Influence of age, 859 
 
 Sex, 359 
 
 Former habits, 359 
 
 Convalescence from previous illness, 
 359 
 
 Obesity, 359 
 
 Mental and physical overwork, 360 
 
 Social condition, 360 
 
 Kace, 360 
 Mortality, 360 
 
 Difference of, in hospital and private 
 
 cases, 361 
 Treatment, 361 
 Preventive, 361 
 Necessity of isolation, 361 
 Disinfection, 362 
 Diet, 362 
 Quantity of nourishment necessary, 
 
 363 
 
 Futility of abortive treatment, 363 
 General treatment, 364 
 Mild cases, 364 
 Hyperpyrexia, 364 
 By cold water, 364 
 By cold baths, 364 
 Mode of using cold bath, 364 
 Prostration, 365 
 Headache, 366 
 Delirium, 366 
 Insomnia, 366 
 Stupor, 366 
 
 Urinary complications, 366 
 Thirst, 367 
 Vomiting, 367 
 Constipation, 367 
 Parotitis, 367 
 
 Pulmonary complications, 367 
 Use of alcohol in, 366 
 
 Opium in, 366 
 
 Quinia in, 365 
 Of convalescence, 368 
 Necessity of continuing stimulants dur- 
 ing convalescence, 368 
 Tyrosis, 79 
 
 U. 
 
 Ulceration, complicating vaccination, 468 
 Ulcers, complicating cholera, 735 
 
 following the plague, 781 
 Umbilication in vaccinia, mechanism of, 
 
 464 
 
 in varicella, 482 
 in variola, 438 
 cause of, 447 
 
 Unemia in scarlet fever, 530 
 Urinary complications in typhus fever, 
 
 treatment, 366 
 Urine, analysis of, importance in general 
 
 diagnosis, 165 
 condition of, in cerebro-spinal meningitis, 
 
 814 
 
 in cholera, 739 
 in dengue, 881 
 in influenza, 866 
 
 Urine, condition of, in mild scarlet fever, 
 
 506 
 
 in grave form of the plague, 779 
 in pertussis, 841 
 in pyaemia, 976 
 in relapsing fever, 387 
 in remittent fever, 602 
 in typhoid fever, 291, 292 
 in yellow fever, 644 
 
 suppression of, complicating relapsing fe- 
 ver, 407 
 
 in cholera, treatment, 764 
 in yellow fever, treatment, 653 
 Urination, difficult, significance of, in diag- 
 nosis, 164 
 Urobilin, 91 
 
 Urticaria, complicating diphtheria, 674 
 Uterus, fixity of, in para- and perimetritia 
 
 of puerperal fever, 1007 
 lesions of, in septicaemia, 972 
 
 V. 
 
 VACCINIA, 455 
 Definition, 455 
 Synonyms, 455 
 History, 458 
 Etiology, 458 
 K attire, 455 
 Variolous origin, 457 
 Meteorological conditions as a cause, 
 
 458 
 
 Symptoms, 458 
 General course, 458 
 Constitutional, 459 
 Development of pock, 459 
 Date of appearance of pock, 459 
 incrustation of pock, 460 
 falling off of crust, 460 
 Description of cicatrix, 460 
 Irregularities in course, 460 
 Raspberry excrescence of pock, 461 
 Lack of elevation in pock, 461 
 Absence of a constitutional infection, 
 
 460 
 
 Bryce's test for determining constitu- 
 tional infection, 461 
 Diphtheritic pock, 463 
 Catarrhal pock, 463 
 Morbid anatomv, 462 
 Pock, 463 
 Microspheres and vaccinals of lymph, 
 
 463 
 Microscopical characters of the lymph, 
 
 463 
 
 Mechanism of umbilication, 464 
 Composition of crust, 464 
 Complications and sequelae, 464 
 VACCINATION, 465 
 Synonyms, 465 
 History of, 465 
 Protective power of, 461 
 theories regarding, 461 
 duration of, 468 
 against pertussis, 468 
 Marson's theory of multiple insertions, 
 467
 
 INDEX. 
 
 1091 
 
 VACCINATION Time of revaccination, 467 
 As a means of destroying naevi, 468 
 Complications, 468 
 
 Simple inflammatory, 468 
 Complicated by dermatitis, 468 
 Treatment of dermatitis, 469 
 Complicated by lymphangitis and ade- 
 nitis, 468 
 
 By ulceration and gangrene, 468 
 Erysipelas, 469 
 
 treatment, 469 
 Complicated by syphilis, 469 
 
 treatment, 471 
 Modes of preventing transmission of 
 
 syphilis, 470 
 Complicated by skin diseases, 471 
 
 by eczema, 472 
 Impetigo contagiosa, its relations to, 
 
 472 
 Followed by cutaneous affections, 471 
 
 by eczema, 472 
 Conveyance of constitutional taints in, 
 
 471 
 
 Technics of, 472 
 Varieties of virus, 472 
 Primary vaccine, 473 
 Horse-pox vaccine, 473 
 Retro-vaccine, 473 
 Bovine vaccine, 470 
 Variola vaccine, 473 
 So-called points of superiority . of hu- 
 manized vaccine, 473 
 Kelative merits of animal and human- 
 ized vaccine, 473 
 Advantages of animal over humanized 
 
 virus, 475 
 
 Forms of vaccine, 476 
 Objections to use of crust, 476 
 Use of dried lymph, 477 
 
 liquid or tube lymph, 476 
 Proper season, 477 
 
 Age, 477 
 
 Part of body most suitable for, 477 
 Modes of operating, 478 
 
 applying the virus, 478 
 Storage and preservation of virus, 479 
 Proper time of collecting lymph for stor- 
 age, 479 
 
 Proper manner of transporting, 480 
 Vaccination, neglect of, as a cause of vari- 
 ola, 436 
 Vaccine virus, varieties of, 472 
 
 use of, in treatment of rabies and hy- 
 drophobia, 907 
 
 Vagina, symptoms of diphtheria of, 674 
 Vaginal injections, use of, for prevention of 
 
 puerperal fever, 1025 
 Variations, barometric, influence of, upon 
 
 course of diseases, 134 
 VARICKLLA, 481 
 Definition, 481 
 Synonyms, 481 
 History, 481 
 Etiology, 481 
 Contagiousness, 481 
 Symptoms, 481 
 
 Period of incubation, 482 
 
 VARICELLA Symptoms: General, 482 
 Prodromal'stage, 482 
 Eruption, 482 
 
 Umbilicatioa of eruption, 482 
 Date of appearance of desiccation, 482 
 Frequency of scarring, 482 
 Appearance of vesicles on mucous mem- 
 brane, 483 
 
 Morbid anatomy, 483 
 Complications, 483 
 Diagnosis, 483 
 
 From variola and varioloid, 484 
 From vaccinia, 484 
 From impetigo, 483 
 contagiosum, 483 
 From eczema pustulosum, 483 
 Prognosis, 484 
 Treatment, 485 
 Varicella Prurigo, nature, 484 
 Varieties of beriberi, 1039 
 of grease-traps, 221 
 of pernicious malarial fever, 606 
 of rubeola, 568 
 of sewer-traps, 191 
 of typhoid fever, 298 
 VARIOLA, 434 
 Definition, 434 
 Svnonyms, 434 
 History, 434 
 Etiology, 435 
 
 Contagiousness, 435 
 
 Nature of contagium, 435 
 
 Mode of entrance of contagium, 435 
 
 Duration of activity of contagiurn, 435 
 
 Period of greatest activity of contagium, 
 
 435 
 
 Mode* of transmission, 435 
 Race, influence of, 436 
 Season, influence of, 436 
 Sex, influence of, 436 
 Neglect of vaccination as a cause, 436 
 Individual idiosyncrasy, 436 
 Protection from, by previous attacks, 436 
 Effect of pre-existing skin disorders, 436 
 Symptoms, 436 
 
 Stage of incubation, 436 
 Invasion, 436 
 Variolous rash, 437 
 date of appearance, 437 
 significance, 437 
 Simon's triangle, 437 
 Stage of invasion, 438 
 Eruptive stage, 438 
 Characters of eruption, 438 
 Position of eruption, 438 
 Stage of vesication, 438 
 Umbilication, 438 
 Maturation, 439 
 Characters of mature pock, 439 
 Condition of patient in suppuration 
 
 stage, 439 
 
 Pustules on mucous surfaces, 439 
 Stage of desiccation, 439 
 General, during desiccation, 440 
 Secondary fever, 439 
 Dale of appearance of secondary fever, 
 4?9
 
 1092 
 
 VAKIOLA Symptoms: Confluent variety, 
 
 440 
 
 Seat of lesion, 441 
 
 Condition of mucous surfaces in con- 
 fluent, 441 
 
 General condition in confluent, 441 
 Ilemorrhagic variety, 442 
 First form, 442 
 Second form, 443 
 Lesions of, 443 
 Variolic purpura, 442 
 Complications and sequelae, 445 
 Complicated by eye diseases, 445 
 Erysipelas, 445 
 Nasal inflammation, 445 
 Furuncles and abscesses, 445 
 Muscular paralysis and hemiplegic 
 
 attacks, 445 
 Laryngitis, 446 
 Gangrene of genitalia, 446 
 Followed by a typhoid state, 445 
 Pathology and morbid anatomy, 446 
 
 Cutaneous lesions, 446 
 Formation of papule, 446 
 
 Vesicle, 446 
 
 Cause of umbilication, 447 
 Repair of pock, 447 
 Hemorrhagic variety, 447 
 Changes of viscera, 447 
 Diagnosis, 447 
 From measles, 448 
 From scarlatina, 449 
 From pustular skin diseases, 449 
 From dermatitis medk-ameutosa, 449 
 From syphilodefm, 449 
 From acneform disease, 449 
 From typhoid fever, 450 
 From typhus fever, 450 
 Prognosis, 450 
 
 Symptoms indicating unfavorable, 450 
 Influence of sudden defervescence of 
 
 eruption, 450 
 
 Pregnancy and childbed, 450 
 Fatality of, in the unvaccinated. 450 
 Influence of vaccination after develop- 
 ment, 451 
 Treatment, 451 
 Preventive, 451 
 Hygienic, 451 
 
 Necessity of cleanliness, 454 
 Invasion stage, 452 
 Eruption, 452 
 Exclusion of sunlight for prevention of 
 
 pitting, 452 
 
 Use of warm baths, 453 
 Hot water compresses, 453 
 Stimulants, 454 
 Hemorrhagic form, 454 
 Disposition of clothes and body after 
 
 death, 454 
 
 Variola of vaccine, 473 
 Variolic purpura, 442 
 VARIOLOID, 443 
 Symptoms, 443 
 
 Invasion stage, 443 
 Eruption, 444 
 
 VARIOLOID -Symptoms : Types of, 444 
 Identity witli variola, 444 
 Treatment, 451 
 
 Veins, condition of, in cholera, 737 
 intestinal, lesions of, in cholera, 745 
 jugular, thrombi of, in symptomatic paro- 
 titis, 626 
 lesions of, in pyamia, 967 
 
 in symptomatic parotitis, 626 
 Venesection in cholera, 764 
 in rabies and hydrophobia, 908 
 in relapsing fever, 431 
 futility of, iu cerebro-spinal meningitis, 
 
 830 
 
 VENTILATION, 177 el seq. 
 Defects, 179 
 Distribution of air, 180 
 Estimation of carbonic acid in air, 178 
 Insufficient, evil effects, 181 
 Importance of, in treatment of typhoid 
 
 fever, 323 
 
 Methods of calculating amount of air- 
 supply, 179 
 Modes of investigating merits of a plan, 
 
 179 
 
 Of waste-pipes in drainage, 223 
 Of soil-pipes, 189 
 
 Proper size of flues and registers, 179 
 Relation of, to heating apparatus, 180 
 Varieties of ventilators, 180 
 Velocity of air, 180 
 Ventilators, varieties, 180 
 Venous emboli. 63 
 
 thrombosis, following typhoid fever, 294 
 Veratrum viride, use of, in puerperal fever, 
 
 1033 
 
 in scarlet fever, 543 
 in yellow fever, 651 
 
 Vertigo in cerebro-spinal meningitis, 812 
 in relapsing fever, 384 
 significance of, in general diagnosis, 158 
 Vesi cation in variola, 438 
 Vesicle in variola, morbid anatomy of, 446 
 Views, earlier, concerning nature of puer- 
 peral fever, 990 
 modern, concerning nature of puerperal 
 
 fever, 992 
 
 Virus of anthrax, period of greatest viru- 
 lence, 928 
 
 of rabies, localization of, in wound, 893 
 of vaccination, varieties of, 472 
 vaccine, manner of transporting, 480 
 
 storage, 479 
 Viscera, lesions of abdominal, in the plague, 
 
 781 
 
 in cerebro-spinal meningitis, 824 
 in erysipelas, 635 
 in variola, 447 
 Vision, modifications of, in relapsing fever, 
 
 399 
 
 in typhoid fever, 280 
 Vital statistics, registration, 208 
 Voice, alteration of, in diagnosis, 158 
 Vomit, character of, in cerebro-spinal men 
 
 ingitis, 813 
 in cholera, 738
 
 INDEX. 
 
 1093 
 
 Vomit, character of, in grave form of the 
 
 plague, 779 
 
 Vomiting during intermitent fever parox- 
 ysm, 593 
 
 in cerebro-spinal meningitis, 813 
 in cliolera, 738 
 
 treatment, 761 
 
 in diphtheria, treatment, 694 
 in general peritonitis of puerperal fever. 
 
 1010 
 
 in mild scarlet fever, 503 
 in para- and perimetritis of puerperal 
 
 fever, 1007 
 in pyaemia, 975 
 
 in remittent fever, treatment, 605 
 in ruheola, treatment, 581 
 in septicaemia, 977 
 in typhoid fever, 285 
 
 treatment, 331 
 in typhus lever, 350 
 
 treatment, 367 
 in yellow fever, 644 
 
 treatment, 652 
 
 significance of, in general diagnosis, 162 
 Vulva, symptoms of diphtheria, 674 
 
 W. 
 
 Wakefulness in relapsing fever, 384 
 
 in typhus fever, 349 
 Walk, significance of, in diagnosis, 161 
 Walking form of typhus fever, 354 
 
 of yellow fever, symptoms, 654 
 Washstands, stationary, dangers from, 216 
 Waste-pipes, effects of large bore in, 220 
 leakage in, 222 
 tests for, 222 
 ventilation, 223 
 Water, collections of, effect upon public 
 
 health, 187 
 
 fear of, in rabies and hydrophobia, 899 
 height of subsoil, influence of, on preva- 
 lence of cholera, 722 
 importance of, in treatment of typhoid 
 
 fever, 325 
 
 impure, microscopic characters of, 184 
 diarrhceal aflections from, 182 
 disease from, 182 
 chemical examination of, 183, 184 
 value of chemical examination of, 183, 
 
 184 
 impurity of, from metallic salts, 182 . 
 
 from organisms, 184 
 nature of impurities, 182 
 polluted, as a cause of diphtheria, 683 
 stagnant, production of malaria by, 187 
 standards of purity, 184 
 subsoil, level of, 188 
 
 supply, contamination of, from privy- 
 vaults, 192 
 cess-pools, 192 
 chloride test for detecting impurities in, 
 
 192 
 
 tables of analyses, 184 
 use of, in diphtheria, 702 
 Water-closets, defects of, 217 
 location, 218 
 
 Water-closets, varieties, 191 
 
 ventilation, 192, 217 
 Waxy degeneration, 84 
 Welch on cause of oedema of lungs, 72 
 Wet form of beriberi, symptoms, 1040 
 
 treatment, 1042 
 Whooping cough, 836 
 
 relation of, to rubeola, 561 
 Winds, influence of, on spread of influenza, 
 
 860 
 Wound, appearance of, in rabies and hydro 
 
 phobia, 895, 899 
 changes in, in pyaemia, 976 
 condition of, in "septicaemia, 977 
 influence of characters of, in causation of 
 
 pyaemia, 958 
 treatment of, in pyaemia, 981 
 
 in septicjemia, 983 
 Wounds, diphtheria of, 673 
 
 Y. 
 
 YELLOW FEVER, 640 
 Svnonyms, 640 
 Definition, 640 
 Etiology, 640 
 Specific origin, 640 
 Poison of, inconvertibility, 840 
 Birthplace, 641 
 Characteristics, 641 
 Ponderability, 641 
 Vitality, 641 
 
 Influence of heat and cold on devel- 
 opment, 641 
 Impossibility of- transportation of, by 
 
 air, 641 
 Transportability of, by fomites, etc., 
 
 641 
 
 Nature of fomites, 641, 642 
 Fixity of, 643 
 Slowness of extension, 643 
 Medium of admission to system, 642 
 Localization of epidemics by atmo- 
 spheric impregnation, 642 
 Anxiety, grief, and fatigue as causes, 
 
 643 
 Insusceptibility, in negroes, 644 
 
 from idiosyncrasy, 643 
 Protective power of previous attacks, 
 
 643 
 
 Duration of incubation period, 643 
 Symptoms, 644 
 Mild cases, 644 
 Initial, 644 
 Physiognomy, 644 
 Neuralgia and muscular pains, 644 
 Cerebral, 644 
 Condition of tongue, 644 
 
 Grastro-intestinal canal, 644 
 Vomiting, 644 
 
 Character of matters vomited, 644 
 Condition of urine, 644 
 
 Pulse, 644 
 
 Relation of pulse to temperature, 646 
 Perspiration, 645 
 Stages, 645 
 Masked forms, 653
 
 1094 
 
 TNDEX. 
 
 YELLOTV FEVER Symptoms: Walking: 
 
 forms, 654 
 
 Paroxysmal stage, 645 
 Calm stage, 645 
 
 Hemorrhages and jaundice, 646 
 Prognosis, 646 
 
 Symptoms indicating unfavorable, 646 
 Influence of crowding the sick, 646 
 Pregnancy and parturition, 647 
 Condition of patient at time of at- 
 tack, 647 
 
 Temperature, 647 
 In hospital cases, 647 
 Mortality, 647 
 Variableness, 647 
 Difference in hospital and private cases, 
 
 (148 
 
 Diagnosis, 648 
 
 Significance of physiognomy, 648 
 State of pulse, 648 
 Albuminous urine, 648 
 Hemorrhagic tendency, 648 
 Yellow discoloration of skin, 648 
 Morbid anatomy, 649 
 
 Changes in liver, 649 
 Treatment, 649 
 
 Futility of abortive, 649 
 Importance of early, 649 
 Indications for, 649 
 Simple form, 649 
 Early stages, 649 
 Diaphoresis, 650 
 
 YELLOW FEVER Treatment: Jaborandi 
 
 650 
 
 Neumlgias and muscular pains, 651 
 Hyperpyrexia, 651 
 
 by cold, 651 
 Hemorrhages, 651 
 
 by tincture of iron, 652 
 Nausea and vomiting, 652 
 Urinary suppression, 652 
 Failure of reaction from cold stage, 65- 
 Convulsions and delirium, 653 
 Use of digitalis, 651 
 
 Aconite, 651 
 
 Veratrum viride, 651 
 
 Gelsemium, 651 
 
 Haemostatics, (!52 
 
 Quinia, 650, 651 
 
 Quinia and opium in combination, 
 
 651 
 
 Hygienic, 654 
 
 Necessity of absolute rest, 654 
 Diet. 654 
 
 Children, 655 
 
 Typhoid cases, 655 
 
 Time of return to solid food, 666 
 
 Z. 
 
 Zymosis, meaning of term, 137 
 
 Zymotic diseases, relation of, to puerperal 
 
 fever, 1020 
 table, 136 
 
 END OF VOL. I.
 
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 1885-86 
 Pepper, William. 
 
 A system of practical medicine 
 
 WB100 
 
 1885-86 
 v. 1 
 Pepper, William. 
 
 A system of practical medicine 
 
 MEDICAL SCIENCES LIBRARY 
 
 UNIVERSITY OF CALIFORNIA, IRVINE 
 
 IRVINE, CALIFORNIA 92664