section name header

Basics

Basics

Overview

  • Chemical peritonitis due to release of free bile into the abdominal cavity.
  • Can involve focal or diffuse peritoneal inflammation depending on chronicity and causal factors, and omental adhesions.

Signalment

  • More common in dog than in cat
  • No age, breed, or sex predilection

Signs

Historical Findings

  • Acute presentation if septic peritonitis
  • May have chronic illness if non-septic
  • Rare asymptomatic biliary rupture associated with omental encapsulation of leakage
  • Abdominal discomfort: vague
  • Lethargy
  • Gastrointestinal signs: anorexia, vomiting, diarrhea
  • Weight loss
  • ± Abdominal distention
  • Variable jaundice
  • Collapse, if septic

Physical Examination Findings

  • Lethargy
  • Variable (cranial) abdominal pain
  • Jaundice
  • Abdominal effusion
  • ± Fever
  • ± Endotoxic shock, if septic

Causes & Risk Factors

  • Limited arterial perfusion (cystic artery) to GB fundus predisposes to ischemic necrosis and GB rupture.
  • Trauma to biliary structures-auto-mobile injuries, surgical, animal bites, gunshot wounds, cystic artery laceration during cholecystocentesis.
  • Common bile duct (CBD): common site of rupture with blunt trauma.
  • Cholecystitis/choledochitis-may derive from GB mucocele (GBM); sepsis more common with necrotizing cholecystitis.
  • EHBDO-may derive from neoplasia, cholelithiasis, pancreatitis, duct stricture.
  • Focal, small-volume, bile peritonitis-associated with cholecystitis; may reflect omental entrapment of bile or transmural bile leakage without rupture.
  • Chemical peritonitis due to bile-predisposes to septic peritonitis.

Diagnosis

Diagnosis

Differential Diagnosis

  • Conditions promoting inflammation/devitalization of biliary structures, e.g., cholecystitis, choledochitis, neoplasia, GBM, neoplasia, blunt trauma.
  • Conditions causing EHBDO, e.g., neoplasia, choleliths, pancreatitis, duct stricture/fibrosis.
  • Sepsis or endotoxemia.
  • Ascites: in jaundiced cirrhotic patient.
  • Non-hepatic conditions causing abdominal effusion and jaundice.

CBC/Biochemistry/Urinalysis

CBC

Inflammatory leukogram-left shift and toxic neutrophils if necrotizing cholecystitis or sepsis; non-regenerative anemia if chronic inflammation.

Biochemistry

  • High liver enzymes, especially ALP; hyperbilirubinemia; ± hypoalbuminemia; ± prerenal azotemia
  • Electrolyte, fluid, and acid-base disturbances; hyponatremia common.

Urinalysis

Bilirubinuria

Other Laboratory Tests

Coagulation tests-abnormal if sepsis syndrome, DIC, or chronic EHBDO.

Imaging

  • Abdominal radiography-reduced abdominal detail, generalized or focal in GB area; cranial abdominal mass effect; rare mineralized cholelith or biliary gas (emphysematous cholecystitis).
  • Thoracic radiography-rare bicavity effusion (pleural effusion), signs of trauma (e.g., fractured rib, hernia).
  • Abdominal ultrasonography-effusion; EHBDO-distended GB or CBD; cholecystitis /choledochitis-thick GB or duct wall; necrotizing cholecystitis-segmental GB wall hyperechogenicity, laminated wall (represents necrosis); pericholecystic fluid; hepatic /pancreatic mass effect: common with bile peritonitis; choleliths or GBM (“kiwifruit sign”); gas in GB or bile ducts (emphysematous inflammation, implicates gas-forming organisms) casting acoustic shadow; ruptured GB may be difficult to image; liver size usually normal; variable parenchymal echogenicity reflects hepatic pathology (e.g., ascending cholangitis, CCHS).

Diagnostic Procedures

  • Abdominocentesis-physicochemical, cytologic, and culture evaluations; ultra-sound guidance optimizes sampling; sample close to biliary structures but avoid structure penetration.
  • Cytology-impression smears of GB, liver, and bile (with particulate material) used for immediate detection of infection and neoplasia; modified transudate or exudate, phagocytized/free bile and bilirubin.
  • Acellular mucinous material reflects biliary mucin production; GBM material may be free within abdominal cavity.
  • Ratio of bilirubin in effusion:serum usually 2–3:1.
  • Bacterial aerobic/anaerobic culture and sensitivity-effusion, GB wall, liver, GB contents; Gram-negative enteric opportunists and anaerobes most common; polymicrobial infection possible.
  • Exploratory laparotomy-appropriate for definitive diagnosis and treatment; permits cholecystectomy, cholecysto-enterostomy, duct or GB repair.
  • Liver biopsy-important, evaluates for antecedent or coexistent disease, sample distant to the GB to avoid artifacts.

Pathologic Findings

Depend on cause and site of rupture

Treatment

Treatment

Medications

Medications

Drug(s)

  • Antimicrobials-in all patients, initiate broad-spectrum antimicrobials before surgical intervention; enteric Gram-negative and anaerobic organisms most common opportunists (good initial choices: ticarcillin, piperacillin, or third-generation cephalosporins, with enro-floxacin and metronidazole); customized antimicrobial treatment, thereafter based on cultures; continue antimicrobials 4–8 weeks if signs of infection confirmed by culture or on cytology.
  • Vitamin K1 (0.5–1.5 mg/kg IM or SC q12h for up to 3 doses)-all jaundiced patients before surgery.
  • Prepare for blood component ± synthetic colloid therapy.
  • Antiemetics if patient is vomiting-metoclopramide (0.2–0.5 mg/kg PO, SC q6–8h or 1–2 mg/kg/24h IV by CRI); ondansetron (0.5–1.0 mg/kg q12h, IV or PO, 30 minutes before feeding); maropitant (1.0 mg/kg/day IV, SC, PO, maximum of 5 days).
  • H2-receptor antagonists if gastric bleeding-famotidine (0.5–2.0 mg/kg PO, IV, SC q12–24h); sucralfate (0.25–1.0 g PO q8–12h).
  • Ursodeoxycholic acid as choleretic and hepatoprotectant if GBM, choleliths, CCHS, or chronic hepatitis-may administer chronically if GBM or cholelithiasis: 10–15 mg/kg PO daily, divided, with food for best bioavailability.
  • Antioxidants-Vitamin E (10 IU/kg/24h); S-adenosylmethionine (SAMe, with proven bioavailability and efficacy; (20 mg/kg PO daily 2h before feeding) until enzymes normalize, indefinitely if chronic hepatitis or CCHS, GBM, inspissated bile syndrome; choleretic influence requires higher dose (40 mg/kg/day).

Follow-Up

Follow-Up

Patient Monitoring

  • Sequential hematologic, biochemical, and imaging tests.
  • Repeat abdominocentesis to assess continued infection and/or bile leakage as indicated.

Possible Complications

  • Cholangitis/cholangiohepatitis
  • Pancreatitis
  • Recurrent bacterial cholangitis if biliary-enteric anastomosis required

Expected Course and Prognosis

  • High survival rate for dogs with sterile bile peritonitis, if successful surgery, depending on underlying cause.
  • Higher mortality in septic bile peritonitis (up to 73%).
  • Anticipate slow clinical recovery and normalization of liver enzymes but rapid resolution of hyperbilirubinemia with successful surgery.

Miscellaneous

Miscellaneous

Abbreviations

  • ALP = alkaline phosphatase
  • CCHS = cholangitis/cholangiohepatitis
  • CMD = common bile duct
  • CRI = constant rate infusion
  • EHBDO = extrahepatic bile duct obstruction
  • GB = gallbladder
  • GBM = GB mucocele

Author Sharon A. Center

Consulting Editor Sharon A. Center

Suggested Reading

Mayhew PD, Holt DE, McLear RC, et al. Pathogenesis and outcome of extrahepatic biliary obstruction in cats. J Small Anim Pract 2002, 43:247253.

Mehler SJ. Complications of the extrahepatic biliary surgery in companion animals. Vet Clin North Am Small Anim Pract 2011, 41:949967.

Mehler SJ, Mayhew PD, Drobatz KJ, et al. Variables associated with outcome in dogs undergoing extrahepatic biliary surgery: 60 cases (1988–2002). Vet Surg 2004, 33:644649.