Update on Diagnosis and Management of Feline Hepatic Disorders
World Small Animal Veterinary Association World Congress Proceedings, 2004
Stanley L. Marks, BVSc, PhD, DACVIM (Internal Medicine, Oncology), DACVN
Professor of Small Animal Medicine, University of California, Davis, School of Veterinary Medicine, Davis
Davis, CA, USA

In North America, hepatic lipidosis (50%), inflammatory liver disease (25%), malignant lymphoma (5%), and carcinoma (4%) are the major causes of feline liver disease. Less common feline hepatic disorders include portal vascular anomalies, necrosis, bile duct obstruction, and cysts.

FELINE IDIOPATHIC HEPATIC LIPIDOSIS

Feline idiopathic hepatic lipidosis (IHL) is a well-recognized syndrome characterized by accumulation of excess triglycerides in hepatocytes with resulting cholestasis and hepatic dysfunction. Many cats with IHL are obese and often present with a history of prolonged anorexia after a stressful event. The etiopathogenesis of this syndrome is poorly understood, but may relate to protein deficiency, excessive peripheral lipolysis, excessive lipogenesis, inhibition of lipid oxidation or inhibition of the synthesis and secretion of very low-density lipoproteins. The prognosis for this life-threatening disorder has improved dramatically during the past several years as a result of long-term enteral feeding (i.e., three to eight weeks or longer).

Pathogenesis of Hepatic Lipidosis

 Protein deficiency

 Excessive peripheral fat lipolysis

 Excessive lipogenesis

 Inhibition of VLDL synthesis and secretion

Diagnosis of Hepatic Lipidosis

 Signalment and history

 Moderate increase in ALT and ALP

 Moderate increase in serum bilirubin

 Normal to slightly increased GGT on biochemistry profile

 Enlarged hyperechoic liver on ultrasound

 Vacuolar hepatopathy on cytology and histology

Treatment of Hepatic Lipidosis

Initial management should be directed toward correcting complications such as dehydration, electrolyte abnormalities, hepatic encephalopathy, and infection. Any underlying causes for the lipidosis (diabetes mellitus, pancreatitis, neoplasia, cardiac disease, etc.) should be identified and treated whenever possible.

Provision of adequate daily energy intake is the cornerstone of successful medical management of cats with IHL. An adequate supply of energy is needed to: 1) prevent catabolism of amino acids for energy; 2) inhibit peripheral lipolysis; and 3) avoid excessive energy consumption which will promote hepatic triglyceride accumulation. Enteral feeding devices (esophagostomy or gastrostomy tubes) are indicated in cats with hepatic lipidosis to ensure provision of adequate calories. Most cats with IHL can be fed commercially-available therapeutic or maintenance diets containing 25-40% fat (DM). Dietary protein should not be restricted unless the cat is showing signs of hepatic encephalopathy. Commercial veterinary diets containing 30 to 45% protein on a DM basis are well tolerated by affected cats. The daily energy requirement for cats with IHL should initially be based on the cat's current body weight (if mildly to moderately obese), or based on the cats optimal body weight plus 25% of extra body weight if markedly obese. The amount fed is gradually increased in 25% increments; until the cat is being fed at its RER (usually takes 5-7 days). A simple logarithmic formula that can be used to determine the cat's resting energy requirement (RER) is 70 x BW (kg)0.75. A linear formula can also be applied to cats that are heavier than 2kg [(BW (kg) x 30] + 70. Hypokalemia was present in 19 of 66 cats (29%) with severe hepatic lipidosis. Hypokalemia may develop due to inadequate potassium intake, vomiting, magnesium depletion, and concurrent renal failure. Hypokalemia was significantly related to non-survival in this group of cats. Hypokalemia is deleterious because it may prolong anorexia and exacerbate hepatic encephalopathy. Diets for cats with IHL should be potassium replete (0.8-1.0% potassium on a DM basis), or potassium supplementation (2-6 mEq potassium gluconate per day) should be considered. Carnitine transports long chain fatty acids across the inner mitochondrial membrane into the mitochondrial matrix for β oxidation. Carnitine also removes potentially toxic acyl groups from cells and equilibrates ratios of free CoA/acetyl-CoA between the mitochondria and cytoplasm. Center and colleagues showed that diets supplemented with L-carnitine can safely facilitate rapid weight loss in privately owned obese cats. Based on these findings, Dr. Center recommends supplementing cats with a dose of 250-500 mg L-carnitine/day to cats with IHL. Additional dietary supplements that should be considered include vitamin B12 and S-adenosylmethionine.

Food aversion appears to be an important component of the anorexia of cats with hepatic lipidosis. Cats that refuse to eat a diet that they associate with nausea may continue to avoid that diet even after full recovery due to their association with the unpleasant sensation. One should therefore tube-feed these cats as soon as the diagnosis of hepatic lipidosis has been made, rather than offer several commercial diets that the cat can develop an aversion to. Cats should not be offered any food by mouth for approximately 10 days following placement of a feeding tube. Cats expressing an interest to eat can then be presented with food. The prognosis for IHL is influenced to a large degree by the ability of the clinician or owner to aggressively meet the cat's caloric requirements via enteral feeding. The use of appetite stimulants can be attempted, but usually results in failure to meet the cat's caloric requirement and frustration for the owner and cat. Caution should be exercised with the use of anabolic steroids and diazepam, particularly in patients with liver disease, due to the potential for hepatotoxicity.

FELINE CHOLANGIOHEPATITIS

Inflammation centered on the biliary tree is a common form of hepatic disease, and appears to be the second most common form of liver disease after hepatic lipidosis. Histologic classification of the term "feline cholangitis/cholangiohepatitis" is controversial, with poor consensus amongst pathologists in the nomenclature used. Two major types of inflammatory liver disease were described in 1996 based on histologic features; cholangiohepatitis (acute or suppurative and chronic or non-suppurative) and lymphocytic portal hepatitis. A new simplified classification scheme was proposed by the WSAVA Liver Diseases and Pathology Standardization Research Group in 2002. Three distinct forms of cholangitis have been recognized in cats:

1.  Neutrophilic (usually referable to ascending bacterial infection but also rarely reported in protozoal infections).

2.  Lymphocytic (thought to be immune mediated)

3.  Chronic cholangitis associated with infection by liver flukes (Amphimerus pseudofelineus, Platynosomum concinnum, etc).

Neutrophilic (Bacterial) Cholangitis

Neutrophilic (Bacterial) Cholangitis (historically referred to as acute cholangiohepatitis) is characterized by infiltration of large numbers of neutrophils into portal areas of the liver and into bile ducts. Disruption of the periportal limiting plate of the bile duct results in necrosis of hepatocytes adjacent to portal areas and infiltration of neutrophils into hepatic lobules. Neutrophilic cholangitis may begin as an ascending bacterial infection within the biliary tract; however, bacteria are only isolated in a few cases. Organisms include Bacteroides, Actinomyces, E. coli, Clostridia, and alpha hemolytic Streptococcus. Congenital or acquired abnormalities of the biliary system, including anatomic abnormalities of the gall bladder or common bile duct and gall stones may predispose to cholangitis. Inspissation of bile which may cause partial or complete obstruction of the common bile duct, gall bladder, or intrahepatic bile ducts frequently accompany cholangitis and may require treatment before the cholangitis can be controlled or resolved.

The neutrophilic cholangitis can be divided into 2 categories, namely acute and chronic. Their distinction histologically is based on the presence of increased plasma cells, lymphocytes ± macrophages with the chronic phase.

Lymphocytic Cholangitis

Lymphocytic Cholangitis is felt to represent a later stage of neutrophilic cholangitis, or may represent a separate disease entity. It is characterized by a moderate to marked infiltration of the portal areas by small lymphocytes ± biliary hyperplasia, portal or periductal fibrosis, or bridging fibrosis.

Diseases frequently associated with lymphocytic cholangitis include inflammatory bowel disease and pancreatitis. Eighty three percent of cats with cholangitis had concurrent inflammatory infiltrates in the duodenum and/or jejunum and 50% had pancreatic lesions. This association has lead to the use of the term "triaditis" to describe affected cats. Inflammatory bowel disease may give rise to retrograde bacterial invasion of the common bile duct with resultant pancreatitis and cholangitis. Despite the high incidence of inflammatory infiltrates in the small intestine, diarrhea is not a frequent finding in cats with cholangitis.

The new proposed histologic classification scheme does not recognize portal lymphoplasmacytic inflammation in which infiltrates are confined to portal areas and not centered on or involving bile ducts as a specific subtype of cholangitis. Sparse lymphocytes and plasma cells may be found in the portal areas of healthy young cats, often in close association with bile ducts. Increased numbers of portal lymphocytes and plasma cells are commonly identified in portal areas of cats over 10 years of age, often in conjunction with extrahepatobiliary disorders. The new proposed classification scheme also prefers the term cholangitis to cholangiohepatitis, as inflammatory disruption of the limiting plate to involve hepatic parenchyma is not always a feature, and when present, is an extension of a primary cholangitis.

The new classification scheme also does not recognize the previous classification of "lymphocytic portal hepatitis," and believe that the finding of increased plasma cells and lymphocytes in the portal region not associated with the bile duct epithelium represent a normal phenomenon (see above), or a common finding in older cats in conjunction with extrahepatobiliary disorders (see above).

Chronic Cholangitis

Chronic cholangitis secondary to fluke infestation is characterized by severe ectasia of the bile ducts, mild to severe hyperplasia of the biliary epithelium, severe concentric periductal fibrosis, and the occasional presence of adult flukes and/or operculate eggs within bile duct lumina.

Clinical signs

Clinical signs associated with inflammatory liver diseases are variable and nonspecific and are frequently similar to those associated with hepatic lipidosis. Partial or complete anorexia is the most common, and sometimes the only, clinical sign. Other less frequently observed clinical signs include weight loss, depression, vomiting, diarrhea, and fever. Cats with neutrophilic cholangitis tend to be younger (mean age 5.7 years) than cats with lymphocytic cholangitis (mean age 9.0 years), or hepatic lipidosis (mean age 6.2 years). Male cats are more frequently affected with neutrophilic cholangitis. Cats with neutrophilic cholangitis are more acutely and severely ill than cats with most other types of liver disease. Prominent clinical signs in neutrophilic cholangitis include fever, depression, and dehydration.

Jaundice and altered liver size are frequently the only findings that direct attention to liver disease. In severe cases, ecchymotic hemorrhages and/or prolonged bleeding from venipuncture sites may occur. Jaundice is most easily observed in the sclera but may also be observed in the soft palate or under the tongue. When liver size is evaluated radiographically, hepatomegaly is a frequent finding in feline liver disease but cannot be used to differentiate amongst the various causes.

Laboratory evaluation

Hematologic and biochemical testing are essential to establish a diagnosis of liver disease. Although there are trends that differentiate inflammatory liver diseases from hepatic lipidosis and hepatic neoplasia, liver cytology or histopathology is essential to establish a definitive diagnosis. Laboratory changes typically seen with neutrophilic cholangitis include mild to moderate neutrophilia and left shift, normal to slight increase in serum bilirubin and serum alkaline phosphatase (SAP) and a substantial increase in alanine aminotransferase (ALT). This profile tends to differentiate neutrophilic cholangitis from lymphocytic cholangitis, hepatic lipidosis, and hepatic neoplasia. Laboratory changes typical of lymphocytic cholangitis include substantial increases in serum bilirubin, SAP, and ALT. Other associated changes may include mild nonregenerative anemia, hyperglobulinemia, lymphocytosis, and hyperglycemia. When cats with inflammatory liver diseases are compared to hepatic lipidosis, hepatic lipidosis cases tend to have higher total bilirubin concentrations, and higher ALT and SAP. The hallmarks of hepatic lipidosis include jaundice, 10-fold or greater increases in ALT and SAP, without a corresponding increase in gamma glutamyl transferase (GGT). In other forms of liver disease in cats, increases in GGT tend to parallel increases in SAP.

When the clinical chemistry profile reveals evidence of liver disease, hyperthyroidism should be ruled out. Hyperthyroid cats frequently have changes in ALT and SAP that may be indistinguishable from those associated with inflammatory liver diseases. The increased enzyme concentrations normalize with treatment of hyperthyroidism. Pathologic changes in liver associated with hyperthyroidism have not been well characterized.

Liver imaging

Abdominal ultrasonography is often helpful in evaluation of extrahepatic disorders associated with cholangitis. Most cats with neutrophilic or lymphocytic cholangitis or with lymphocytic portal hepatitis have variable or no detectable alterations in the echogenicity of the hepatic parenchyma. Conversely, most cats with hepatic lipidosis have hyperechoic hepatic parenchyma. Bile duct abnormalities may be observed in cholangitis. These abnormalities include gall bladder and/or common bile duct distention, cholelithiasis, cholecystitis, and bile sludging. The normal gall bladder is anechoic and appears round in the transverse scan and pear-shaped in the longitudinal scan. It is important to remember that gallbladder filling occurs normally with fasting, therefore, caution must be exercised in interpreting gall bladder enlargement in an anorectic or fasting cat. The common bile duct can usually be seen as an anechoic, tortuous, tubular structure 2 to 4 mm in diameter with an echogenic wall. Distention of the gall bladder and common bile duct (i.e., greater than 5 mm in diameter) occurs as a result of cholecystitis, or biliary obstruction. The gall bladder wall may become thickened as a result of inflammation or edema. The thickened gall bladder wall has a layered or "double-walled" appearance. Bile sludge within the gall bladder or common bile duct appears echogenic.

Liver cytology/histopathology

Liver cytology or tissue biopsy is essential in differentiating inflammatory liver diseases from hepatic lipidosis and neoplasia. The use of fine needle aspirates eliminate the need for anesthesia and markedly reduces the chance of hemorrhage. The diagnostic utility of liver cytology is controversial. Several reports indicate that cytologic evaluation is highly efficient in identifying hepatic lipidosis and hepatic lymphoma, however, inflammatory liver diseases are more difficult to identify cytologically. Results of another retrospective study, however, indicate poor correlation between liver cytology and histopathology. Cytologically, hepatic lipidosis is characterized by clusters of hepatocytes in which the cytoplasm is distended with lipid-filled droplets. Malignant lymphoma cells readily exfoliate and can be diagnosed by cytologic evaluation. Cytologic diagnosis of inflammatory liver diseases is hampered by blood contamination which introduces variable numbers of blood leukocytes into the samples. Therefore, the cytologist is left to determine whether leukocytes are of blood origin or represent inflammatory lesions within the liver.

Ultrasound-guided aspiration and biopsy techniques more consistently produce diagnostic specimens than do blind techniques. Ultrasound-guided fine needle aspiration can be used to sample bile as well as hepatic parenchyma. Such samples can be examined cytologically to look for inflammatory cells and bacteria and can be cultured to confirm bacterial infections. Optimal evaluation, in a relatively stable patient, would consist of 2 or 3 ultrasound-guided liver biopsies and collection of a bile sample under ultrasound guidance. Touch impressions of the liver biopsy specimen may be done to produce good quality slides for cytologic evaluation. In a clinically unstable patient, ultrasound-guided fine needle aspiration is recommended. Sonography can be used to monitor for excessive hemorrhage 5 to 10 minutes after aspiration or biopsy.

Treatment

The major specific therapy for neutrophilic cholangitis is antibiotics. Surgical intervention has been recommended if discrete choleliths or complete biliary obstruction is identified. When complete extrahepatic bile duct obstruction is identified, surgical decompression and biliary-to-intestinal diversion (i.e., cholecystoduodenostomy or cholecysto-jejunostomy) is recommended. Bacterial culture and sensitivity testing of bile, liver aspirate or biopsy specimens, choleliths, or gall bladder specimens, should be used to select appropriate antimicrobial agents whenever possible. Antibiotics chosen for treatment of cholangiohepatitis should be excreted in the bile in active form, and should be active against aerobic and anaerobic intestinal coliforms. Tetracycline, ampicillin, amoxicillin, erythromycin, chloramphenicol, and metronidazole are excreted in the bile in active form, however, several of these have significant adverse side effects. Erythromycin is not effective against gram-negative bacteria, tetracycline is hepatotoxic, and chloramphenicol may cause anorexia. As a result, ampicillin or amoxicillin combined with clavulanic acid is frequently used. All are broad-spectrum antibiotics, effective against both gram-negative and gram positive organisms, and are well tolerated by cats. These drugs may be combined with fluoroquinolones to extend the spectrum to anaerobes and more coliforms. Treatment with antibiotics for 2 months or longer is recommended.

Cats with lymphocytic cholangitis typically require antibiotic therapy combined with immunomodulatory therapy. The anti-inflammatory and immunosuppressive properties of prednisolone may be beneficial in limiting hepatocellular injury. Additionally, prednisolone may enhance appetite. An immunosuppressive dose of prednisolone (2.2-4 mg/kg q24h) should be used initially. The dosage is slowly tapered to an alternate day dose (1-2 mg/kg q48h) for long term maintenance. Biochemical values should be monitored prior to each reduction in dosage. If the clinical and biochemical response is satisfactory, doses as low as 0.5 mg/kg q 48 hours may be sufficient for long term maintenance. Long term corticosteroid treatment is well tolerated by most cats and side effects are usually minimal. Chlorambucil can also be used as an immunomodulator (combined with prednisone) at a dose of 2 mg q 4 days for cats with more severe disease. Chlorambucil should be given for at least 8 weeks, prior to tapering based on clinical response and laboratory evaluations. Low dose methotrexate can also be used in cats with lymphocytic cholangitis failing to respond to prednisone and chlorambucil.

Ursodeoxycholic acid (Actigall) is recommended for cats with all types of inflammatory liver disease. It has antiinflammatory, immunomodulatory, and antifibrotic properties as well as increasing fluidity of biliary secretions. Ursodeoxycholic acid has safely been administered to cats at a dose of 10 to 15 mg/kg q24h PO. Efficacy has not been established for any type of feline liver disease, but clinical trials in human patients with hepatitis support improved quality of life. Adverse effects in cats are uncommon and usually limited to mild diarrhea. Antioxidants such as S-Adenosylmethionine or vitamin E should also be considered to prevent or decrease lipid peroxidation in the hepatocytes. S-Adenosylmethionine is dosed at 20 mg/kg SID for cats, and is available in 90 mg tablets from Nutromax. Vitamin E is typically dosed at 10 to 100 IU/kg administered once daily.

Cats with neutrophilic cholangitis require aggressive supportive care. These cats are frequently acutely ill and have fluid and electrolyte derangements which should be corrected. Treatment with injectable vitamin K1 (5 mg/cat q 1-2 days IM) can be given if bleeding diatheses develop. Hepatic encephalopathy appears to be relatively uncommon in cats with acquired liver diseases and is manifest most frequently by excessive salivation. Hepatic encephalopathy can be managed by giving lactulose orally (0.5-1.0 ml/kg q8h PO) with or without addition of enteric antibiotics (neomycin 20 mg/kg q8-12h PO).

Response of cholangitis cats to therapy should be monitored through use of serial complete blood counts and chemistry profiles.

Persistent increases in ALT activity and serum total bilirubin concentration and/or increasing SAP activity suggest that treatment has been inadequate. Low dose weekly methotrexate therapy has been used in a few affected cats.

Prognosis

Limited studies of the response of cholangitis cases to antibiotic treatment suggest that survival of cats with neutrophilic and lymphocytic cholangitis are similar. Approximately half of the cats die or are euthanized within 90 days after diagnosis. The other half has prolonged survival. Hopefully, initiation of standard treatment protocols combined with surgical correction of bile duct obstruction (when needed) will increase the number of cats with long term survival.

Speaker Information
(click the speaker's name to view other papers and abstracts submitted by this speaker)

Stanley L. Marks, BVSc, PhD, DACVIM (Internal Medicine, Oncology), D
University of California-Davis, School of Veterinary Medicine
Davis, CA


MAIN : Gastroenterology : Feline Hepatic Disorders
Powered By VIN

Friendly Reminder to Our Colleagues: Use of VIN content is limited to personal reference by VIN members. No portion of any VIN content may be copied or distributed without the expressed written permission of VIN.

Clinicians are reminded that you are ultimately responsible for the care of your patients. Any content that concerns treatment of your cases should be deemed recommendations by colleagues for you to consider in your case management decisions. Dosages should be confirmed prior to dispensing medications unfamiliar to you. To better understand the origins and logic behind these policies, and to discuss them with your colleagues, click here.

Images posted by VIN community members and displayed via VIN should not be considered of diagnostic quality and the ultimate interpretation of the images lies with the attending clinician. Suggestions, discussions and interpretation related to posted images are only that -- suggestions and recommendations which may be based upon less than diagnostic quality information.

CONTACT US

777 W. Covell Blvd., Davis, CA 95616

vingram@vin.com

PHONE

  • Toll Free: 800-700-4636
  • From UK: 01-45-222-6154
  • From anywhere: (1)-530-756-4881
  • From Australia: 02-6145-2357
SAID=27