key: cord-0904470-4g464m4b authors: Ortega, Rafael; Chen, Rosalyn title: Beyond the operating room: the roles of anaesthesiologists in pandemics date: 2020-06-11 journal: Br J Anaesth DOI: 10.1016/j.bja.2020.06.005 sha: 3849fbef0f684e48f906ac4e94759fdf87d5f8c9 doc_id: 904470 cord_uid: 4g464m4b nan As a pioneer of anaesthesiology, John Snow (1813-1858) elucidated the science behind the fledgling field. His methodical work with inhalational anaesthetics, such as his development of the dose-titrated delivery of chloroform, was among the first to characterize the stages of anaesthesia. 2 John Snow applied the same rigourous science in his research of the 1848 London cholera epidemic. He rejected the prevailing miasma theory, which postulated that cholera was transmitted through the "bad air" of decomposing organic matter. By mapping the density of cholera cases, Snow traced the most significant caseload to a certain water company, and then to a specific Broad Street water pump. Snow effectively deduced the true waterborne transmission of cholera, all before the advent of germ theory. The removal of said pump handle saw the decline of the cholera epidemic. 3 Snow's work set the foundation for modern contact tracing. COVID-19 presents a unique challenge given its proportion of asymptomatic carriers. Countries such as South Korea, Taiwan, and New Zealand have, however, combined contact tracing and testing to good effect. It is now recognized that the swift enactment of contact tracing is critical, particularly given modern globalization. 4 The lack of international, concerted contact tracing in February and March stymied containment efforts as the number of viral infections increased exponentially. Contact tracing may be of greater practical value at waning caseloads. If privacy concerns are adequately addressed, digital contact tracing may be a significant tool to aid efforts at reopening. It is remarkable that a technique developed by this anaesthesiologist over 170 years ago remains so relevant today. As for the governmental policies regarding the pandemic, we may also borrow some of Snow's skepticism. He was convinced by the science of his epidemiological studies, rather than by popular sentiment. Just as germ theory overcame miasma theory through hard data, COVID-19 policies have increasingly turned to scientific evidence. Social distancing and contact precautions now reflect our growing understanding of droplet transmission and aerosolization risk. Support of unsubstantiated therapies, such as hydroxychloroquine, has been questioned by large-scale studies. 5 In these matters, we have seen that administrative policies are not infallible, but are best guided by robust science. Much like Snow, we should engage in an evidence-based, apolitical approach to the ongoing pandemic, and medicine in general. Much more can be said of the contributions of anaesthesiology to intensive care. Lesser known is the role of anaesthesiologists in their inception. Up until the 1950s, the role of anaesthesiologists beyond the operating room remained unclear. Anaesthetics, imprecisely administered, could lead to lethal complications. It was therefore out of necessity that anaesthesiologists became intimately acquainted with abnormalities of respiratory and circulatory physiology. 1 While this familiarity remains true for anaesthesiologists today, these qualities were crucial in confronting the 20th century polio epidemics, which altered the course of anaesthesiology. The disease processes of COVID-19 and polio are fundamentally distinct, as are their respiratory implications. Until 1953, polio seasonally ravaged populations with partial paralysis. The deadlier bulbar variety targeted motor neurones and rendered patients unable to breathe. COVID-19 provokes insidious inflammatory damage to the lung parenchyma itself. Polio and COVID-19 require different approaches in respiratory support; striking parallels however remain in the management of these two diseases. Both have challenged the brightest clinicians of their times. Although the pathology was poorly understood, bulbar poliomyelitis spurred advances in ventilator support. The former standard of negative pressure ventilation with "iron lungs" was largely incompatible with the irregular breathing associated with bulbar poliomyelitis, and mortality was up to 90 %. 6 Physicians sought better outcomes with other ventilation modalities. The renowned anaesthesiologist Arthur Guedel (1883-1956) is credited with introducing the cuffed tracheal tube in 1932. Originally intended to reduce aspiration risk, cuffed tubes enabled administration of positive pressure ventilation. 7 As early as the 1948 California polio outbreak, patients were observed to fare better with intermittent positive pressure ventilation. 8 Positivepressure interventions demanded expertise in cardiorespiratory physiology, skills towards which anaesthesiologists were already primed. It was under these circumstances that anaesthesiologist Bjørn Ibsen confronted the 1952 Copenhagen polio epidemic. His actions in turn set in motion development of intensive care medicine. Through his training in anaesthesiology, Ibsen was acutely aware of the benefits of positive-pressure ventilation. His clinical intuition regarding physiological abnormalities helped him deduce the cause of the "mysterious alkalosis" of bulbar polio patients. This challenge was compounded by limitations of existing apparatus, which could only report increased CO 2 content of blood. Physicians were therefore blinded to the low pH and high PaCO 2 of bulbar poliomyelitis patients. 9 Ibsen proposed that rather than metabolic alkalosis, the elevated bicarbonate stemmed from hypercapnia and severe hypoventilation. 7 He set medical students to manually ventilate bulbar patients around the clock, efforts that reduced mortality from 90% to < 25 %. 6 Even more profound was Ibsen's idea to "[place] patients together geographically and [place] nursing staff to cope with a possible problem". 9 This was the first intensive care unit, and an anaesthesiologist led its development. 9 Ibsen's management of the polio epidemic cemented the role of anaesthesiologists as cardiorespiratory specialists. As anaesthesiologists entered intensive care medicine, they brought with them lessons from the operating theatre. Intensive care units now continuously monitor and manipulate haemodynamics and ventilation. Later anaesthesiologists addressed unmet clinical needs through innovations still relevant today. John W. Severinghaus introduced the first blood gas analyzer in 1957, which enabled the measurement of serum pH, pO 2 , and pCO 2 . 10 Henning Ruben innovated the Air Mask Bag Unit, commonly known as the "Ambu bag", which remains a mainstay in cardiopulmonary resuscitation. 11 The role of anaesthesiology in the COVID-19 response reflects the legacy of these pioneers. Just as the polio epidemics drew on anaesthesiologists from operating theatres for cardiorespiratory support, so has the COVID-19 pandemic. The co-localization of specifically trained staff, once translated to intensive care units, is now reflected in the COVID-19 floors of general medicine. Geographic consolidation of COVID-19 cases is beneficial both for infection control and for training in COVID-19 care. While proper training is essential to better patient outcomes, we must also address the pathophysiology of COVID-19. We have just begun to comprehend the multisystem consequences of from endothelial injury, acute respiratory failure to hypercoagulability. The respiratory failure associated with COVID-19 has been observed to differ from conventional acute respiratory distress syndrome (ARDS). Due to the unique disruption of pulmonary vasoregulation, COVID-19 patients are often refractory to conventional ARDS protocols. 12 We must therefore resort to our clinical acumen to modify ventilation protocols. Low-grade evidence suggests that prone positioning may improve oxygenation and decrease mortality in awake, nonintubated COVID-19 patients with severe acute respiratory distress. 13, 13a There is also some evidence that early intubation and effective sedation may reduce inspiratory drive and prevent further lung injury. 12 Anaesthesiologists provide this crucial airway management, resuscitation, and ventilation support. In the absence of effective pharmacological treatment, respiratory support is essential to treating the often fatal COVID-19 respiratory distress syndrome. With the emergence of new pathogens, anaesthesiologists have become increasingly cognizant of infection prevention and control. Even before COVID-19, the risks of anaesthesiologists involve exposure to blood, secretions, and needlestick injury. Prior to the onset of HIV/AIDS in the 1980s, anaesthesiologists routinely worked barehanded, using reusable masks, airways, and laryngoscopes. Anaesthesia breathing circuits were also reusable and sometimes not washed between patients. The HIV/AIDS epidemic provided an impetus for the specialty to develop safer practices. Anaesthesiologists began emphasizing double-gloving, eye protection, and proper sharps disposal. It was however not until the 2002 SARS-CoV-1 (SARS) crisis that anaesthesiologists recognized their field-specific vulnerabilities. Similar to the COVID-19 pandemic, globalization facilitated rapid transmission of SARS which uniquely concentrated within hospital settings. In Toronto, Canada, the North American epicenter of SARS, over half of infected patients were healthcare workers. 14 Anaesthesiologists were tasked with sedation and airway management of SARS patients, and were particularly at risk for infection due to exposure to the high viral loads of respiratory secretions. While transmission of SARS was incompletely understood, the medical community recognized the need for infection control policies. A 2003 editorial in the British Journal of Anaesthesia noted that "our current infection control practices may have been adequate in the past, but they have been exposed as entirely inadequate in the presence of the highly infectious SARS virus. Anaesthetists must be rigorous about the application of standard precautions in everyday practice. In the presence of a known or suspected SARS patient, full droplet and contact precautions must be applied. For additional safety, until the exact nature of transmission of the coronavirus is elucidated, airborne precautions should be taken with high-risk procedures". 14 Although nearly 20 years old, these recommendations for routine handwashing, double-gloving, and face mask use remain the current recommended practices for COVID-19 management. Drawing upon the lessons from SARS, anaesthesiologists are advocates for planned intubations, negative-pressure operating rooms, and consistent use of personal protective equipment. The scale of the COVID-19 pandemic has presented unforeseen challenges including shortages of personal protective equipment. To limit transmission of COVID-19, infection control practices for healthcare workers are paramount. Anaesthesiologists are at additional risk of contamination given their role in aerosol-generating procedures. 15 Observance of infection control is therefore critical in minimizing viral transmission to the provider and cross-infection between patients. Anaesthesiologists have developed novel plastic barriers to reduce droplet spray during tracheal intubation procedures 16 -18 and improvised personal protective equipment from readily available parts. 19 Pandemics of cholera, polio, and SARS are not entirely relegated to history. Each has durably reshaped the roles and practice of anaesthesiology. The contributions of anaesthesiologists to these diseases prepared us for dealing with the COVID-19 pandemic. How might COVID-19 in turn shape the future practice of anaesthesiology? With resumption of elective procedures, anaesthesiologists will remain conscientious about respiratory precautions and aerosolization risks, and the occupational hazards of the specialty. The vital role of anaesthesiologists will also be better appreciated by both colleagues and the public, with the realization that anaesthesiologists are indispensable and adaptable physicians beyond the operating theatre. COVID-19 has undoubtedly challenged the medical profession in innumerable ways. Anaesthesiologists have been thrust to the frontlines and are often responsible for the most vulnerable patients. The practice of anaesthesiology, however, retains its fluidity, readily merging knowledge from the operating theatre, ICU and medicine/surgical ward. This uniquely interdisciplinary skill set has enabled our colleagues to continue researching treatments and improvising equipment while facing shortages and uncertainty. These may be unprecedented times, but the specialty has had a long and consistent history of confronting and overcoming epidemics. Anaesthesiologists are uniquely positioned to influence the resumption of normal hospital activities and the preparation for future public health threats. Some Contributions of Anesthesiology to the General Practice of Medicine On the Inhalation of Chloroform and Ether. With Description of an Apparatus On the Mode of Communication of Cholera Feasibility of controlling COVID-19 outbreaks by isolation of cases and contacts Observational study of hydroxychloroquine in hospitalized patients with COVID-19 The physiological challenges of the 1952 Copenhagen poliomyelitis epidemic and a renaissance in clinical respiratory physiology Historical development of modern anesthesia Investigation on the care and treatment of poliomyelitis patients Career perspective: John W. Severinghaus From mouth-to-mouth to bag-valve-mask ventilation: Evolution and characteristics of actual devices -A review of the literature Management of COVID-19 Respiratory Distress Use of Prone Positioning in Nonintubated Patients With COVID-19 and Hypoxemic Acute Respiratory Failure Editorial I: Anaesthesia and SARS Anaesthesia and COVID-19: infection control Clear Plastic Drapes May Be Effective at Limiting Aerosolization and Droplet Spray During Extubation: Implications for COVID-19 Protecting staff and patients during airway management in the COVID-19 pandemic: are intubation boxes safe? Ultra-portable low-cost improvised powered air-purifying respirator: feasibility study BJA-2020-00925-HH568 Prone Positioning in COVID-19 Acute Respiratory Failure: Just do it? The authors have no conflicts of interest to declare.