key: cord-0698450-fr6tme32 authors: Kearns, Shawn title: Infectious Hepatopathies in Dogs and Cats date: 2009-11-26 journal: Top Companion Anim Med DOI: 10.1053/j.tcam.2009.06.004 sha: a1722b639d5f34cff9d5e4d20630d9da613c0d99 doc_id: 698450 cord_uid: fr6tme32 This article serves to review the various infectious diseases that affect the liver primarily or as a part of systemic infection. Although bacterial infections are probably the most common cause of infectious hepatitis, the clinician should be aware of other potential organisms and other commonly involved systems. Therefore, this article includes a description of common bacterial, mycobacterial, viral, fungal, protozoal, parasitic, and rickettsial diseases in dogs and cats. Alimentary flora circulates to the liver under various clinical conditions. These bacteria are extracted by Kupffer cells, killed by neutrophils, or excreted in bile in healthy clinical states. A low-flow, low-pressure perfusion of hepatic sinusoids may allow superior removal of bacteria by phagocytes, and pressure differentials in the biliary system may limit retrograde access of enteric organisms. 2, 4, 5 Changes in this sinusoidal flow may decrease the effectiveness of phagocytosis when portal flow is compromised. Bowel disease, cholestasis, immunosuppression, and altered gut motility result in altered portal circulation, and the subsequently unchecked bacterial access to the liver may result in bacterial hepatitis or cholangiohepatitis. Common isolates implicated in bacterial hepatitis and cholecystitis include Escherichia coli, Enterococcus spp, Bacteroides spp, Streptococcus spp, and Clostridium spp. 6 Cultures can be obtained by liver aspirate, liver biopsy, and cholecystocentesis. A combination of liver and gall bladder samples (Fig 1) may increase the likelihood of identification of the offending organism(s). Surgical or laparoscopic biopsies may be more rewarding for culture growth compared with aspirates. 6 In suspected cases, broad-spectrum antibiotics for common enteric isolates should be initiated pending specific culture results. Focal micro-and macro-abscesses have also been documented in dogs and cats. 7, 8 Predisposing causes include alterations in blood flow, trauma, ascending biliary infections, liver lobe torsions, 9 immunocompromised clinical states, 10 and neoplasia. 7, 11 Microabscesses are often identified in association with extrahepatic infection and sepsis. 7, 12 Ultrasound has greatly enhanced the early diagnosis of hepatic abscesses. 8 Greater than 50% of solitary abscesses are polymicrobial. Antimicrobial treatment should be directed at both anaerobes and aerobes regardless of whether anaerobic cultures are negative if a polymicrobial hepatic infection is documented. 2 Bacterial isolates in hepatic abscesses are similar to those identified in diffuse bacterial hepatic disease. However, clinically rare isolates including Klebsiella, Listeria, Salmonella, Brucella, Yersinia pseudotuberculosis, Actinomyces, Nocardia, and Pasturella have also been documented. 13 Focal abscesses may require surgical drainage and antibiotic therapy. Treatment in all cases must be implemented for a minimum of 6 to 8 weeks. Leptopirosis is an extremely common nonenteric bacterial infection in the canine liver. Leptospires are thin, filamentous, spiral-shaped motile bacteria with a lipopolysaccharide outer envelope. Direct transmission occurs via contact with infected urine, venereal and placental tissues, or fluids. Indirect transmission can occur through contaminated water sources, soil, food, or bedding. The organism can stay stable for several months with the right environmental conditions. The organism initially penetrates the mucous membranes and rapidly multiplies after entry into the vascular space. Dissemination and replication occur in many tissues, including the liver. However, the organism tends to persist in the kidney and can be shed for weeks to months after infection. Certain serovars are more frequently associated with hepatic involvement and include Leptospira icterohaemorrhagiae and L. pomona. Young dogs (Ͻ6 months of age) seem to develop signs of hepatic dysfunction more frequently in disease outbreaks. 14 Profound hepatic dysfunction may occur without significant histologic changes because of subcellular damage produced by bacterial toxins. The endothelial damage, subsequent thrombosis, and possible disseminated intravascular coagulation seen in acute disease may contribute to hepatic damage. Chronic hepatitis has been reported as a sequelae to leptospiral infection. 15, 16 Diagnosis is usually made based on clinical signs and serologic titers. However, leptospirosis polymerase chain reaction (PCR) performed be-fore treatment may increase testing sensitivity given vaccinal interference and delayed seroconversion in the acute phase. 17 Penicillins are the treatment of choice in the acute phase and must be followed by appropriate antibiotics to eliminate the carrier state. Alternatively, doxycycline may be used for both the acute and carrier states. Bartonella spp are Gram-negative fastidious bacteria and are well adapted for the intracellular environment. A recent case report documented B. henselae and B. clarridgeiae DNA in the liver of 2 dogs with granulomatous inflammation. Both had a positive clinical response to azithromycin and demonstrated biochemical reduction in hepatocellular enzymes. 18 Another dog with peliosis hepatitis (a rare vascular condition characterized by multiple, randomly distributed blood-filled cavities throughout the liver) had B. henselae DNA amplified from multiple hepatic specimens by PCR. 19 Helicobacter canis has been isolated from the liver of a single dog with hepatitis. 20 Helicobacter spp have also been amplified from hepatic tissue in cats with cholangiohepatitis. Further studies are required to determine whether these organisms are associated with inflammatory liver disease. These organisms are difficult to culture, and this failure may reflect the fastidious nature of these bacteria. PCR positivity may reflect the presence of intestinal helicobacter from the enterohepatic circulation or transient colonization rather than a true disease association. 21 Francisella tularensis (tularemia) is a pleomorphic, Gramnegative, nonspore-forming bacillus. This disease frequently occurs as a result of exposure to ticks or wildlife. Macrophages are the primary host cells, and bacteremia with multiorgan involvement is common. Lungs, spleen, liver, and skin are common sites for embolic spread, resulting in microabscesses and granulomatous disease. Puppies and young cats appear more susceptible to infection, and dogs are generally more resistant to infection. Clinical findings include depression, oral/lingual ulceration, regional or generalized lymphadenomegaly, hepatosplenomegaly, panleukopenia with severe toxic neutrophil changes, hyperbilirubinemia, and bilirubinuria. [22] [23] [24] Examination for evidence of microscopic agglutinating antibody is most frequently used for diagnosis, although indirect fluorescent antibody testing may be useful as well. 24 Aminoglycosides are the primary treatment in humans. However, tetracyclines (doxycycline), chloramphenicol, and quinolones are commonly used in dogs and cats. Unfortunately, clinical relapse is common with these antibiotics. Tyzzer's disease (Clostridium piliforme) is caused by a flagellated, spore-forming, Gram-negative intracellular parasite. Although spores have been identified in rodent species, interspecies transmission via ingested feces has not been documented. However, spontaneous disease has been documented in dogs and cats. [25] [26] [27] [28] Colonization of the liver results in multifocal, periportal hepatic necrosis and may result from a currently unidentified toxin. 29 Minimal inflammation may be present despite extensive necrosis. 30 Death usually occurs within 24 to 48 hours once the organism is in the liver. [31] [32] [33] [34] [35] [36] [37] Rhodococcus is a soil-borne pleomorphic, Gram-positive bacteria normally associated with suppurative infections in Figure 1 . Fine-needle aspirate and cytology from the gallbladder of a cat with cholangiohepatitis. The aspirate consists predominantly of bacteria of mixed type. The bacteria are frequently present in chains (black arrow). Also, note dark brown-staining amorphous material (bile pigment: yellow arrow). The finding of bacteria in cytologic specimens of bile is considered abnormal. The following organisms were cultured from the bile: Escherichia coli, Streptococcus pneumoniae, an anaerobic bacterial rod, Prevotella oralis, and a Gram-positive rod that could not be classified. Courtesy of the Pathology Department, Angell Animal Medical Center, Boston, Massachusetts. domestic livestock. Inhalation from soil or wound inoculation are the suspected routes of transmission. Disseminated infection and death have been reported in a single dog. 38 Clinical reports are rare in cats. Mycobacterium spp are aerobic, nonspore-forming, nonmotile bacteria with a wide host affinity and pathogenic potential. They are typically classified based on growth in culture and by the pathologic production of tubercles or granulomatous disease. Mycobacterium tuberculosis and M. bovis are the most pathogenic, and humans are reservoirs for these species. Aerosolized organisms in sputum are considered the primary mode of transmission. However, M. bovis can be acquired via uncooked meats and wildlife reservoirs. Mycobacterial disease is often subclinical in dogs and cats, but signs may be associated with granuloma formation in various organs. 39, 40 Nontuberculous mycobacterium, including those in the Mycobacterium avium complex, are saprophytic opportunistic organisms primarily implicated in disseminated disease in cats [41] [42] [43] [44] [45] and occasionally in dogs. 46 -53 No clear associations have been identified with retroviral diseases. Canine and feline breeds with potentially increased susceptibility include Basset hounds, 51 Miniature schnauzers, 53 Siamese, 45 and Abyssinians. 42 Dogs with M. avium complex-induced disease will often demonstrate extensive granulomatous disease of the intestine, spleen, liver, and mesenteric lymph nodes. Animals undergoing immunosuppressive drug therapy with inhibition of cell-mediated immunity may be at risk for disseminated disease, including renal transplant patients. 43 Acidfast cytology can demonstrate bacilli, although false negatives can occur. Negative bacterial images may be identified on routine stains (Fig 2) . PCR may provide greater sensitivity and safety than culture. 52 Combination therapies are often required, because organisms build resistance quickly, particularly with disseminated disease. Although not a risk for immunocompetent individuals, dogs and cats infected with saprophytic mycobacterium pose a risk for immunodeficient people. Mycobacterium lepraemurium was considered the main causative agent for feline leprosy until recently. However, M. visibilis has been associated with feline multisystemic granulomatous mycobacteriosis, resulting in diffuse cutaneous disease and widespread dissemination to multiple internal organs. 54 Organisms responsible for disseminated fungal infections include Histoplasma capsulatum, Coccidioides immitis, Blastomyces dermatitides, Aspergillosis sp, Cryptococcussp, and Sporothrix schenckii. Most are dimorphic, saprophytic, opportunistic fungi that exist in the mycelial stage in the environment. Spores are produced in the mycelial stage and be-come pathogenic on inhalation, ingestion, or inoculation. Dissemination occurs via the hemolymphatic system. Specific environmental conditions are required for the individual organisms, and this dictates their geographic range. Histoplasma capsulatum is located primarily in the temperate and subtropical areas of the world. Organisms are phagocytized by mononuclear cells and replicate intracellularly once they are inhaled and converted to the yeast phase. The primary clinical signs in dogs are associated with the gastrointestinal system (diarrhea, tenesmus, mucous, fresh bloods in stools). Clinical signs in cats are vague. Dissemination to other visceral organs (including the liver) has been documented in both species. [55] [56] [57] Clinically affected animals are usually young (1-4 years of age). Diagnosis is usually achieved with fine-needle aspirate or exfoliative cytology of affected organs. Aspergillosis is primarily associated with rhinitis. However, several reports have documented systemic infections in German shepherds and in non-shepherd breeds. Aspergillus terreus 58 -62 and A. deflectus 63, 64 have been most frequently implicated in systemic infection. Predisposing factors include optimal climatic conditions, access to a partial strain, or subtle defects in mucosal immunity. 65 Disseminated aspergillosis has also been documented in cats. 66, 67 Neurologic deficits, spinal column pain, urinary system disorders, and respiratory pathology are the primary presenting clinical signs. Prototheca is a saprophytic, achlorophyllous alga found in the southeastern United States. Three species of Prototheca have been identified, but P. zopfii is the only one associated with disseminated disease. The organism is associated with sewage, slime flux of trees, and animal waste. Transmission generally occurs through ingestion or penetration of injured skin or mucosa. Disease can develop with diminished host resistance or concurrent diseases. 68 Concomitant large intestinal diarrhea and ocular signs should prompt clinical consideration of Prototheca infection. Dissemination via blood or lymph to other organs including the liver is common. Various stages of development of the organism may be identified on cytology or histopathology. Urine culture and sediment are also useful in organism identification. 69 This disease is invariably fatal, although disease progression may be delayed with various antifungal and antibacterial agents. 70 -73 Coccidioides immitus is a dimorphic fungus with preference for the alkaline sandy soil environment found in the lower Sonoran life zone in the southwestern United States, western Mexico, and Central and South America. Mycelia are produced during rainfall, but arthroconidia develop with soil drying and become airborne under dry and windy conditions. Inhalation is the primary mode of infection in dogs and cats. The spherule (tissue parasitic form) undergoes division with eventual rupture. The severity and extent of clinical disease depend on immunocompetence and range from a mild, asymptomatic, pulmonic form to severe, life-threatening disseminated disease. Dissemination most commonly involves the axial and appendicular skeleton and overlying skin. Tissues from abdominal viscera, the central nervous system (CNS), pericardium, myocardium, and prostate can also be involved. 74, 75 Cytology or histology may reveal spherules, although diagnosis is often made based on history, clinical signs, and positive serology. Antigens for sero-testing commonly use tube precipitin and complement fixation with agar gel immunodiffusion. Sporothrix schenckii causes a chronic granulomatous disease of worldwide distribution. Infection is usually the result of trauma and inoculation with infective conidiophores. The skin is the primary target organ. However, disseminated disease has been reported, particularly in the cat. No clear dissemination pattern has been identified because of low case numbers, but affected organs include the internal lymph nodes, liver, lungs, eyes, bone, muscles, and CNS. 76, 77 Diagnosis is frequently made by cytology. Blastomyces dermatitidis is found primarily in Mississippi, Missouri, the Ohio River Valley, the mid-Atlantic states, and some Canadian provinces. Growth of the organism requires sandy, acidic soil with some proximity to water. Preferred sites for dissemination include the skin, eyes, bones, and lymph nodes, although dissemination to the liver has been reported. 78, 79 Cryptococcus neoformans has a worldwide distribution. Inhalation may be the primary mode of infection, and sites of infection tend to be areas of the body with cooler temperatures, including the respiratory passages and subcutaneous tissues. The fungus is occasionally disseminated to the kidneys and rarely to the liver. 80 Treatment of most disseminated fungal infections involves the use of triazoles, including itraconazole and fluconazole, as well as amphoterocin B. 59,81-85 Clinical signs may resolve in many cases, but relapses occur and patients with severe clinical illness generally have a poor prognosis. Leishmania, transmitted by the sandfly (Lutzomyia in the New World, Phlebotymus in the Old World), frequently causes cutaneous and visceral lesions in the dog. Promastigotes transmitted by the female sandflies become amastigotes in the vertebrate and are phagocytized by mononuclear cells. The organism travels through hemolymph organs to remote dermal sites and other organs. Clinical signs will not develop in all exposed animals, and the immune response at the time of infection appears important in determining development of disease. Leishmania infection should be considered in dogs from endemic areas with marked hyperglobulinemia or in those with a travel history to endemic areas. Mild increases in liver enzymes are often noted. However, unlike the kidneys, the liver is not a primary target organ. Infection can be associated with chronic hepatitis. 86 Definitive diagnosis is made by demonstration of organisms on cytology or histopathology, or by serology, culture, or PCR. Amphotericin B in a soybean oil lipid emulsion has been intravenously administered for higher clinical cure success rates and greater numbers of negative posttreatment parasitologic tests compared with other treatments. Other less successful treatment options include allopurinol and the pentavalent antimonials. 87 Hepatozoon canis is a worldwide protozoal disease reported in domestic dogs and is most prevalent in subtropical and temperate climates. The primary vector is the Rhipicephalus sanguineous tick, which is primarily located in warm and temperate regions. Transmission occurs through ingestion of ticks containing mature protozoal oocyts. Sporozoites are released in the intestine on tick ingestion and penetrate the gut wall, invade mononuclear cells, and disseminate. Target organs include the bone marrow, spleen, and lymph nodes but can involve other internal organs such as the liver, kidney, and lungs. 88, 89 The most striking clinicopathologic abnormality is leukocytosis with evidence of parasitemia of the white cells on peripheral blood smears. Clinical findings can range from incidental hematologic findings to severe life-threatening illness. Hepatitis, glomerulonephritis, and pneumonitis have all resulted from H. canis infection. 90 Coinfections with other protozoal diseases (Toxoplasma, Leishmania, and Babesia spp) or other tick-borne diseases (Ehrlichia spp) and immunosuppressive states can predispose animals to clinical illness. The hepatitis is associated with developing meronts within the liver and their associated neutrophilic and mononuclear inflammation. Hepatozoon has also been documented in felines. [91] [92] [93] Microscopic detection of gamonts in peripheral blood smears is the most frequently used diagnostic test. Imidocarb is the treatment of choice in dogs. Subcutaneous or intramuscular injections are administered every 14 days until gamonts are no longer visualized in the leukocytes. A new species, Hepatozoon americanum, was identified in 1997, with the Amblyomma maculatum tick as its definitive host. 94 This emerging disease has spread to the north and the east since its initial identification in the Gulf Coast region. Clinical signs are often severe, even in the absence of other diseases or in the presence of immunosuppression. Waxing and waning clinical signs are attributed to repeated cycles of asexual reproduction and pyogranulomatous inflammation. The primary site of infection for the merozoites is the cardiac and skeletal muscle. However, single zoites can enter circulation and reproduce asexually at distant locations. 95 Diagnosis is most often made with muscle biopsy, although a recent study has identified promise in the use of PCR testing. 96 An enzyme-linked immunosorbent assay has been developed with sporozoites as the antigen. 97 No treatment effectively eliminates the tissue stages of H. americanum. However, treatment with trimethoprim-sulfadiazine, clindamycin, and pyrimethamine followed by long-term administration of decoquinate resulted in extended survival times and an excellent quality of life. 98 The microsporidial parasite Encephalitozoon cuniculi is an obligate intracellular protozoan. Infection likely occurs by inhalation or ingestion of spores from contaminated urine or feces shed by infected hosts. The organism undergoes asexual reproduction or binary fission after infecting host cells and ruptures, leading to infection of new cells or shedding of resistant spores into the environment. Typical organs of localized infection include the kidney, liver, lungs, and brain with resultant granulomatous inflammation. 99, 100 Cats and older dogs are not commonly affected, and renal disease predominates in young dogs. Cytological examination of fluids (particularly urine) is important in making a diagnosis in animals with disseminated disease as other tests are commercially unavailable. Cytauxzoon felis is a tick-borne protozoal disease of domestic and wild cats. The bobcat is the natural reservoir in North America and is usually asymptomatic despite persistent erythroparasitemia. The tissue phase of infection consists of the development of large schizonts in mononuclear phagocytes. The schizonts line the lumens of vessels in most organs, eventually leading to vessel occlusion. Merozoites are released into blood or tissue fluid once the host cells rupture and infect red blood cells. Late-stage parasitemia can often be detected on blood films at about 1 to 3 days before death. Most clinical signs, including those associated with liver abnormalities, are due to schizont-associated mechanical obstruction. However, parasite by-products may also be toxic, pyogenic, and vasoactive. The anemia is regenerative but mild in comparison with clinical icterus. This may be useful in differentiating this infection from hemotropic mycoplasmas. Demonstration of piroplasms in Wright's-stained or Giemsa-stained blood films most frequently provides a definitive diagnosis. Histopathology reveals schizont-laden mononuclear phagocytes in the veins of the lungs, liver, and spleen. The prognosis is generally considered poor, but different geographic strains may have varying virulence. 101 Treatment with diminazene or imidocarb has been somewhat successful. 102 Toxoplasma gondii is an obligate intracellular coccidian parasite that infects almost all warm-blooded animals. Do-mestic cats are the definitive hosts and excrete the infective oocyts. Three stages of the life cycle are considered infectious, including oocyst sporozoites, tissue cyst tachyzoites, and tissue cyst bradyzoites. Transmission can occur through ingestion of oocysts or tissue cysts and via congenital transmission. Other reported modes include lactation, transfusions, and transplantation. 103 A higher frequency of disease is reported in dogs and cats fed raw meat or those in a rural/ feral environment. The extra-intestinal life cycle is the same in all hosts, and sporozoites encyst in the intestinal lumen, penetrate cells, and divide into tachyzoites. The tachyzoites can form cysts in the CNS, muscle, and visceral organs, and may persist for the life of the host. Clinical signs were diverse in 100 cats with histologically confirmed toxoplasmosis, and more than 90% had pulmonary, CNS, and liver manifestations. 104, 105 In dogs, disseminated infection is most often associated with canine distemper, other infections including ehrlichiosis and immunosuppression, or vaccination with live attenuated vaccines. 106 Clinical cases in cats have been seen with steroids, cyclosporine use, hemotropic mycoplasms, and viral disease. [107] [108] [109] Liver and lung involvement is associated with quicker mortality than other organ involvement. Tachyzoites may be detected on cytology of various organs and body fluids. However, diagnosis is most frequently based on clinical signs, serology (immunoglobulin G, immunoglobulin M), and response to treatment. Clindamycin is the treatment of choice. Neospora caninum is a protozoan similar to Toxoplasma. Dogs and coyotes are considered definitive hosts, and deer and cattle are intermediate hosts. The predominant mode of transmission is transplacental in the dog, and clinical signs are usually secondary to exacerbation of a congenital infection. Acute phases of infection include widespread dissemination to many organs, including the liver, whereas chronically infected animals are restricted to muscular and neuronal sites. 103 Serology and muscle biopsy often provide a diagnosis, although tachyzoites may be detected in other parasitized tissue or body fluid. 110 Sarcocystis canis is an apicomplexan protozoan with no particular geographic distribution. Infection results in disseminated disease, including protozoal hepatitis. 111, 112 Many reports involve puppies, suggesting the presence of congenital infection. However, the life cycle is still unknown. Sarcocystis canis is the only Sarcocystis species known to form schizonts in canine tissue. Infectious canine hepatitis (ICH) is caused by adenovirus type 1. This is the only virus with primary tropism for the liver. 113 Infection leads to severe hepatic necrosis and can also cause ocular and renal changes. The virus localizes in the tonsils after oronasal exposure, spreads to regional lymph nodes, and disseminates via the thoracic duct. Hepatic parenchymal cells and vascular endothelial cells are the prime targets of viral localization, and injury leading to centrilobular to panlobular hepatic necrosis ranges from self-limiting to fatal. Most affected dogs are less than 1 year of age and unvaccinated. Severely affected dogs can become moribund and die within hours of disease onset and with few predictive clinical signs. If patients survive the acute phase, they may develop clinical signs including vomiting, diarrhea, and abdominal pain. 114, 115 Those that survive may go on to develop chronic hepatitis and fibrosis, likely secondary to self-perpetuating liver inflammation rather than chronic infection. 116 Diagnosis is frequently made based on clinical signs and serology, although the virus can be isolated in cell cultures. This disease is rarely encountered because of the high efficacy of vaccination. Canine acidophil hepatitis is believed to be caused by a viral agent. However, the specific agent is not yet identified. Disease has been reproduced via injections of sterile liver homongenates from spontaneously affected animals. Acute infections can lead to acute to chronic hepatitis, cirrhosis, and hepatocellular carcinoma. Diagnosis is made on histology because acidophils are scattered throughout lesions. This disease has only been reported in Great Britain. 117, 118 Canine herpesvirus causes tissue necrosis and localized mucosal or generalized systemic infections in young or immunocompromised animals. The virus only infects dogs because of specific cell-surface receptors. Replication occurs via viral DNA synthesis within the host nucleus. Transmission occurs through direct contact with mucosal secretions from the respiratory or genital tract of animals. Factors predisposing to infection in puppies include hypothermia and a poorly developed immune system. Newborns can acquire disease in utero, during passage through the birth canal, during contact with infected littermates, from oronasal secretions of the dam, and from fomites. Puppies less than 1 week of age are more susceptible to generalized fatal infections. Dissemination leads to hemorrhagic necrosis in several organs including the adrenal glands, kidney, liver, lungs, and spleen. Clinical signs include loss of interest in nursing, loss of body weight, soft yellow-green feces, abdominal discomfort, and dullness. A marked increase in alanine aminotransferase is often noted on biochemistry profile. Definitive diagnosis is by viral isolation. 119 Feline leukemia virus is a single-stranded retrovirus that replicates in many tissues. Clinical illness is generally related to the hematopoietic system and the immune system. Feline leukemia virus has also been associated with icterus and various inflammatory and degenerative liver diseases including focal liver necrosis. 120 Feline infectious peritonitis (FIP) is a feline coronavirus that has undergone frequent RNA mutations, resulting in an ability to enter and replicate in macrophages. An immunemediated vasculitis occurs if the virus is not eliminated. Affected cats develop signs related to target organ lesions (kidney, liver, CNS, intestine) or due to fluid redistribution. Abnormal liver enzymes can occur because of hepatitis, hepatic lipidosis, or prehepatic sequalae of vasculitis, erythrocyte destruction, and hypoxia. Hyperbilirubinemia is common and usually secondary to vasculitis in the liver. 121 Histopathology is required for definitive diagnosis but is sup-ported by history, physical examination, and laboratory findings. A new PCR test may also prove useful in the diagnosis of FIP. 122 Treatment is generally unrewarding. Conflicting information exists on the usefulness of feline recombinant interferon, although it may be beneficial for a subpopulation of FIP-infected cats. 123, 124 Rickettsial Diseases The most common agents encountered in dogs with clinical evidence of liver involvement include the Ehrlichia sp, Rickettsia rickettsii, and Borrelia burgdorferi. These organisms can infect either hepatocytes or endothelial cells. Hepatic involvement in Erhlichia infections occurs in more than 80% of human patients, leading to mild transient increases in transaminases. 125 Liver injury may be related to organism proliferation in hepatocytes and stimulation of immunologic and nonspecific inflammatory mechanisms. Rocky Mountain Spotted Fever is vasculotropic in nature and can cause moderate increases in transaminases. Experimental evidence with Borrelia suggests direct hepatic invasion by the spirochetes in conjunction with cellular and humoral immunologic mechanisms. 126 An association with Borrelia was observed and confirmed with liver biopsy in 2 dogs. Lesions were consistent with lobular dissecting hepatitis and mixed multifocal inflammation leading to focal pyogranulomas in the other. 2 Chronic cholangitis associated with liver fluke infestation in endemic areas is primarily observed in cats and less frequently in dogs. Most infections are due to Opistorchus and Metorchis, which require 2 intermediate hosts. The first hosts are water snails, and the second hosts include a wide variety of fish with encysted metacercariae. The final host acquires infection by ingestion of fish, and the young liver flukes migrate to the liver through the bile ducts. This results in bile duct thickening and dilation. Rarely, cysts may be formed as well. 127 A slight to moderate inflammation may be seen both within the ducts and in the portal areas. Although eosinophils may be present, they are usually limited in numbers. The number of liver flukes and eggs within the dilated bile ducts varies markedly, and often only limited evidence of liver flukes or eggs is identified. Platynosomum concinnum is a trematode of the feline biliary system. Terrestrial snails, lizards, toads, and terrestrial isopods act as intermediate hosts based on geographic location. Disease is most prevalent in the tropical and subtropical climates. Clinical cases involve adult indoor or indoor-outdoor cats. The severity of clinical signs is proportional to the number of adult flukes as well as to the duration of parasitemia. Early diagnosis can be difficult. However, diagnosis is easier when eggs have been identified in the bile. 128 Treatment of P. concinnum and liver fluke infections is best accomplished with praziquantel. There are many infectious diseases that ultimately affect the liver. Few, however, have primary tropism for hepatic tissue. Testing should be directed based on signalment, geographic locale, and primary presenting complaint. Cytology and/or histopathology of the liver will most frequently provide a definitive diagnosis in clinical situations with liver involvement. The prognosis is guarded with many disseminated infections. 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aspergillosis in a dog with diskospondylitis and neurologic deficits Disseminated aspergillosis in a dog Systemic mycosis due to Aspergillus deflectus in a dog Disseminated aspergillosis attributable to Aspergillus deflectus in a springer spaniel Canine disseminated aspergillosis Systemic aspergillosis and mucormycosis in 23 cats Feline disseminated aspergillosis Altered immune function in a dog with disseminated protothecosis Urinary tract manifestations of protothecosis in dogs More than meets the eye: subretinal aspirate from an acutely blind dog Disseminated protothecosis causing acute blindness and deafness in a dog Disseminated protothecosis in a dog Infectious Diseases of the Dog and Cat Deep mycotic infections in cats Disseminated coccidioidomycosis in a dog Pathology of sporotrichosis in 10 cats in Rio de Janeiro Disseminated sporotrichosis in a cat Ocular changes in a cat with disseminated blastomycosis Legendre AM: Blastomycosis, in Greene CE Fatal disseminated cryptococcosis and concurrent ehrlichiosis in a dog Disseminated opportunistic fungal disease in dogs: 10 cases Infectious Diseases of the Dog and Cat Cryptococcosis Coccidioidomycosis and paracoccidioidomycosis Infectious Diseases of the Dog and Cat Chronic hepatitis associated with canine leishmaniosis (Leishmania infantum): a clinicopathological study of 26 cases Initial and long term efficacy of a lipid emulsion of amphotericin B desoxycholate in the management of canine leishmaniasis Hepatozoon canis infection in two dogs Canine hepatozoonosis in Oklahoma Hepatozoon canis infection Feline hepatozoonosis Granulomatous cholangiohepatitis in a cat due to a protozoan parasite resembling Hepatozoon canis Hepatozoon species infection in domestic cats: a retrospective study A new Hepatozoon species from dogs: description of the causative agent of canine hepatozoonosis in North America Characterization of stages of Hepatozoon americanum and of parasitized canine host cells Diagnosis of canine Hepatozoon spp. infection by quantitative PCR An indirect enzymelinked immunosorbent assay for diagnosis of American canine hepatozoonosis Treatment of dogs infected with Hepatozoon americanum: 53 cases (1989-1998) Mammalian microsporidiosis Experimental encephalitozoonosis in neonatal dogs Cats surviving natural infection with Cytauxzoon felis: 18 cases (1997-1998) Administration of diminazene aceturate or imidocarb dipropionate for treatment of cytauxzoonosis in cats Toxoplasmosis and neosporosis Infectious Diseases of the Dog and Cat Acute primary toxoplasmic hepatitis in an adult cat shedding Toxoplasma gondii oocysts Fatal toxoplasmosis in five cats Acute toxoplasmosis following renal transplantation in three cats and a dog Feline immunodeficiency virus predisposes cats to acute generalized toxoplasmosis Neonatal toxoplasmosis in littermate cats Histologically confirmed clinical toxoplasmosis in cats: 100 cases (1952-1990) Neospora caninum associated with septic peritonitis in an adult dog Fatal cutaneous and visceral infection in a Rottweiler dog associated with a Sarcocystis-like protozoan Fatal hepatic sarcocystosis in a puppy with eosinophilia and eosinophilic peritoneal effusion Canine viral diseases Viral hepatitis of dogs (Rubarth's disease) Infectious canine hepatitis (Hepatitis contagiosa canis Use of polymerase chain reaction and immunohistochemistry for detection of canine adenovirus type 1 in formalin-fixed, paraffin-embedded liver of dogs with chronic hepatitis or cirrhosis A new transmissible agent causing acute hepatitis, chronic hepatitis, and cirrhosis in dogs Persistent hepatitis and chronic fibrosis induced by canine acidophil cell hepatitis virus Canine herpesvirus Frequency and significance of feline leukemia virus infection in necropsied cats Feline infectious peritonitis and feline enteric coronavirus Feline infectious peritonitis: typical findings and a new PCR test Use of recombinant feline interferon and glucocorticoid in the treatment of feline infectious peritonitis Effect of feline interferonomega on the survival time and quality of life of cats with feline infectious peritonitis Ehrlichial diseases of humans: emerging tickborne infections Host-pathogen interactions in the immunopathogenesis of Lyme disease Severe cholestatic liver disease secondary to liver fluke