Chapter 44: Jaundice and Evaluation of Liver Function
JAUNDICE
DEFINITION
Yellow skin pigmentation caused by elevation in serum bilirubin level (also termed icterus); often more easily discernible in sclerae. Scleral icterus becomes clinically evident at a serum bilirubin level of ≥51 µmol/L (≥3 mg/dL); yellow skin discoloration also occurs with elevated serum carotene levels but without pigmentation of the sclerae.
BILIRUBIN METABOLISM
Bilirubin is the major breakdown product of hemoglobin released from senescent erythrocytes. Initially, it is bound to albumin, transported into the liver, conjugated to a water-soluble form (glucuronide) by glucuronosyltransferase, excreted into the bile, and converted to urobilinogen in the colon. Urobilinogen is mostly excreted in the stool; a small portion is reabsorbed and excreted by the kidney. Bilirubin can be filtered by the kidney only in its conjugated form (measured as the “direct” fraction); thus, increased direct serum bilirubin level is associated with bilirubinuria. Increased bilirubin production and excretion (even without hyperbilirubinemia, as in hemolysis) produce elevated urinary urobilinogen levels.
ETIOLOGY
Hyperbilirubinemia occurs as a result of (1) overproduction; (2) impaired uptake, conjugation, or excretion of bilirubin; (3) regurgitation of unconjugated or conjugated bilirubin from damaged hepatocytes or bile ducts (Table 44-1).
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EVALUATION
The initial steps in evaluating the pt with jaundice are to determine whether (1) hyperbilirubinemia is conjugated or unconjugated, and (2) other biochemical liver tests are abnormal (Figs. 44-1 and 44-2, Tables 44-2 and 44-3). Essential clinical examination includes history (especially duration of jaundice, pruritus, associated pain, risk factors for parenterally transmitted diseases, medications, ethanol use, travel history, surgery, pregnancy, presence of any accompanying symptoms), physical examination (hepatomegaly, tenderness over liver, palpable gallbladder, splenomegaly, gynecomastia, testicular atrophy, other stigmata of chronic liver disease), blood liver tests (see below), and complete blood count.
FIGURE 44-1
FIGURE 44-2
Viral hepatitis |
Hepatitis A, B, C, D, and E |
Epstein-Barr virus |
Cytomegalovirus |
Herpes simplex virus |
Alcoholic hepatitis |
Chronic liver disease and cirrhosis |
Drug toxicity |
Predictable, dose-dependent (e.g., acetaminophen) |
Unpredictable, idiosyncratic (e.g., isoniazid) |
Environmental toxins |
Vinyl chloride |
Jamaica bush tea—pyrrolizidine alkaloids |
Kava Kava |
Wild mushrooms—Amanita phalloides, A. verna |
Wilson’s disease |
Autoimmune hepatitis |
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GILBERT SYNDROME
Impaired conjugation of bilirubin due to reduced bilirubin UDP glucuronosyltransferase activity. Results in mild unconjugated hyperbilirubinemia, almost always <103 µmol/L (<6 mg/dL). Affects 3–7% of the population; males/females 2–7:1.
BLOOD TESTS OF LIVER FUNCTION
Used to detect presence of liver disease (Fig. 44-2), discriminate among different types of liver disease (Table 44-4), gauge the extent of known liver damage, and follow response to treatment.
TYPE OF DISORDER | BILIRUBIN | AMINOTRANSFERASES | ALKALINE PHOSPHATASE | ALBUMIN | PROTHROMBIN TIME |
---|---|---|---|---|---|
Hemolysis/Gilbert’s syndrome | Normal to 86 µmol/L (5 mg/dL) 85% due to indirect fractions No bilirubinuria | Normal | Normal | Normal | Normal |
Acute hepatocellular necrosis (viral and drug hepatitis, hepatotoxins, acute heart failure) | Both fractions may be elevated Peak usually follows aminotransferases Bilirubinuria | Elevated, often >500 IU, ALT > AST | Normal to <3× normal elevation | Normal | Usually normal. If >5× above control and not corrected by parenteral vitamin K, suggests poor prognosis |
Chronic hepatocellular disorders | Both fractions may be elevated Bilirubinuria | Elevated, but usually <300 IU | Normal to <3× normal elevation | Often decreased | Often prolonged Fails to correct with parenteral vitamin K |
Alcoholic hepatitis, cirrhosis | Both fractions may be elevated Bilirubinuria | AST:ALT >2 suggests alcoholic hepatitis or cirrhosis | Normal to <3× normal elevation | Often decreased | Often prolonged Fails to correct with parenteral vitamin K |
Intra- and extrahepatic cholestasis | Both fractions may be elevated | Normal to moderate elevation | Elevated, often >4× normal elevation | Normal, unless chronic | Normal If prolonged, will correct with parenteral vitamin K |
(Obstructive jaundice) Infiltrative diseases (tumor, granulomata); partial bile duct obstruction | Bilirubinuria Usually normal | Rarely >500 IU Normal to slight elevation | Elevated, often >4× normal elevation Fractionate, or confirm liver origin with 5′-nucleotidase or γ glutamyl transpeptidase | Normal | Normal |
BILIRUBIN
Provides indication of hepatic uptake, metabolic (conjugation) and excretory functions; conjugated fraction (direct) distinguished from unconjugated by chemical assay (Table 44-1).
AMINOTRANSFERASES (TRANSAMINASES)
Aspartate aminotransferase (AST; SGOT) and alanine aminotransferase (ALT; SGPT); sensitive indicators of liver cell injury; greatest elevations seen in hepatocellular necrosis (e.g., viral hepatitis, toxic or ischemic liver injury, acute hepatic vein obstruction), occasionally with sudden, complete biliary obstruction (e.g., from gallstone); milder abnormalities in cholestatic, cirrhotic, and infiltrative disease; poor correlation between degree of liver cell damage and level of aminotransferases; ALT more specific measure of liver injury, because AST also found in striated muscle and other organs; ethanol-induced liver injury usually produces modest increases with more prominent elevation of AST than ALT.
ALKALINE PHOSPHATASE
Sensitive indicator of cholestasis, biliary obstruction (enzyme increases more quickly than serum bilirubin), and liver infiltration; mild elevations in other forms of liver disease; limited specificity because of wide tissue distribution; elevations also seen in normal childhood, pregnancy, and bone diseases; tissue-specific isoenzymes can be distinguished by fractionation or by differences in heat stability (liver enzyme activity stable under conditions that destroy bone enzyme activity).
5′-NUCLEOTIDASE (5′-NT)
Pattern of elevation in hepatobiliary disease similar to alkaline phosphatase; has greater specificity for liver disorders; used to determine whether liver is source of elevation in serum alkaline phosphatase, esp. in children, pregnant women, pts with possible concomitant bone disease.
γ-GLUTAMYL TRANSPEPTIDASE (GGT)
Correlates with serum alkaline phosphatase activity. Elevation is less specific for cholestasis than alkaline phosphatase or 5′-NT.
COAGULATION FACTORS
Measure of clotting factor activity; prolongation results from clotting factor deficiency or inactivity; all clotting factors except factor VIII are synthesized in the liver, and deficiency can occur rapidly from widespread liver disease as in hepatitis, toxic injury, or cirrhosis; single best acute measure of hepatic synthetic function; helpful in diagnosis and prognosis of acute liver disease (See also Chap. 65: Bleeding and Thrombotic Disorders). Clotting factors II, VII, IX, X function only in the presence of the fat-soluble vitamin K; PT prolongation from fat malabsorption distinguished from hepatic disease by rapid and complete response to vitamin K replacement.
ALBUMIN
Decreased serum levels result from decreased hepatic synthesis (chronic liver disease or prolonged malnutrition) or excessive losses in urine or stool; insensitive indicator of acute hepatic dysfunction, because serum half-life is 2–3 weeks; in pts with chronic liver disease, degree of hypoalbuminemia correlates with severity of liver dysfunction.
GLOBULIN
Mild polyclonal hyperglobulinemia often seen in chronic liver diseases; marked elevation frequently seen in autoimmune chronic active hepatitis.
AMMONIA
Elevated blood levels result from deficiency of hepatic detoxification pathways and portal-systemic shunting, as in fulminant hepatitis, hepatotoxin exposure, and severe portal hypertension (e.g., from cirrhosis); elevation of blood ammonia does not correlate well with hepatic function or the presence or degree of acute encephalopathy.
HEPATOBILIARY IMAGING PROCEDURES
ULTRASONOGRAPHY (US)
Rapid, noninvasive examination of abdominal structures; no radiation exposure; relatively low cost, equipment portable; images and interpretation strongly dependent on expertise of examiner; particularly valuable for detecting biliary duct dilation and gallbladder stones (>95%); much less sensitive for intraductal stones (∼60%); most sensitive means of detecting ascites; moderately sensitive for detecting hepatic masses but excellent for discriminating solid from cystic structures; useful in directing percutaneous needle biopsies of suspicious lesions; Doppler US useful to determine patency and flow in portal, hepatic veins, and portal-systemic shunts; imaging improved by presence of ascites but severely hindered by bowel gas; endoscopic US less affected by bowel gas and is sensitive for determination of depth of tumor invasion through bowel wall.
CT
Particularly useful for detecting, differentiating, and directing percutaneous needle biopsy of abdominal masses, cysts, and lymphadenopathy; imaging enhanced by intestinal or intravenous contrast dye and unaffected by intestinal gas; somewhat less sensitive than US for detecting stones in gallbladder but more sensitive for choledocholithiasis; may be useful in distinguishing certain forms of diffuse hepatic disease (e.g., fatty infiltration, iron overload).
MRI
Most sensitive detection of hepatic masses and cysts; allows easy differentiation of hemangiomas from other hepatic tumors; most accurate noninvasive means of assessing hepatic and portal vein patency, vascular invasion by tumor; useful for monitoring iron, copper deposition in liver (e.g., in hemochromatosis, Wilson’s disease). Magnetic resonance cholangiopancreatography (MRCP) can be useful for visualizing the head of the pancreas and the pancreatic and biliary ducts.
RADIONUCLIDE SCANNING
Using various radiolabeled compounds, different scanning methods allow sensitive assessment of biliary excretion (HIDA, PIPIDA, DISIDA scans), parenchymal changes (technetium sulfur colloid liver/spleen scan), and selected inflammatory and neoplastic processes (gallium scan); HIDA and related scans particularly useful for assessing biliary patency and excluding acute cholecystitis in situations where US is not diagnostic; CT, MRI, and colloid scans have similar sensitivity for detecting liver tumors and metastases; CT and combination of colloidal liver and lung scans sensitive for detecting right subphrenic (suprahepatic) abscesses.
CHOLANGIOGRAPHY
Most sensitive means of detecting biliary ductal calculi, biliary tumors, sclerosing cholangitis, choledochal cysts, fistulas, and bile duct leaks; may be performed via endoscopic (transampullary) or percutaneous (transhepatic) route; allows sampling of bile and ductal epithelium for cytologic analysis and culture; allows placement of biliary drainage catheter and stricture dilation; endoscopic route (endoscopic retrograde cholangiopancreatogram [ERCP]) permits manometric evaluation of sphincter of Oddi, sphincterotomy, and stone extraction.
ANGIOGRAPHY
Most accurate means of determining portal pressures and assessing patency and direction of flow in portal and hepatic veins; highly sensitive for detecting small vascular lesions and hepatic tumors (esp. primary hepatocellular carcinoma); “gold standard” for differentiating hemangiomas from solid tumors; most accurate means of studying vascular anatomy in preparation for complicated hepatobiliary surgery (e.g., portal-systemic shunting, biliary reconstruction) and determining resectability of hepatobiliary and pancreatic tumors. Similar anatomic information (but not intravascular pressures) can often be obtained noninvasively by CT- and MR-based techniques.
PERCUTANEOUS LIVER BIOPSY
Most accurate in disorders causing diffuse changes throughout the liver; subject to sampling error in focal infiltrative disorders such as metastasis; should not be the initial procedure in the diagnosis of cholestasis. Contraindications to performing a percutaneous liver biopsy include significant ascites and prolonged international normalized ratio (INR). In such settings, the biopsy can be performed via the transjugular approach.
Citation
Kasper, Dennis L., et al., editors. "Chapter 44: Jaundice and Evaluation of Liver Function." Harrison's Manual of Medicine, 20th ed., McGraw Hill Inc., 2020. harrisons.unboundmedicine.com/harrisons/view/Harrisons-Manual-of-Medicine/623179/all/Chapter_44:_Jaundice_and_Evaluation_of_Liver_Function.
Chapter 44: Jaundice and Evaluation of Liver Function. In: Kasper DLD, Fauci ASA, Hauser SLS, et al, eds. Harrison's Manual of Medicine. McGraw Hill Inc.; 2020. https://harrisons.unboundmedicine.com/harrisons/view/Harrisons-Manual-of-Medicine/623179/all/Chapter_44:_Jaundice_and_Evaluation_of_Liver_Function. Accessed October 10, 2024.
Chapter 44: Jaundice and Evaluation of Liver Function. (2020). In Kasper, D. L., Fauci, A. S., Hauser, S. L., Longo, D. L., Jameson, J. L., & Loscalzo, J. (Eds.), Harrison's Manual of Medicine (20th ed.). McGraw Hill Inc.. https://harrisons.unboundmedicine.com/harrisons/view/Harrisons-Manual-of-Medicine/623179/all/Chapter_44:_Jaundice_and_Evaluation_of_Liver_Function
Chapter 44: Jaundice and Evaluation of Liver Function [Internet]. In: Kasper DLD, Fauci ASA, Hauser SLS, Longo DLD, Jameson JLJ, Loscalzo JJ, editors. Harrison's Manual of Medicine. McGraw Hill Inc.; 2020. [cited 2024 October 10]. Available from: https://harrisons.unboundmedicine.com/harrisons/view/Harrisons-Manual-of-Medicine/623179/all/Chapter_44:_Jaundice_and_Evaluation_of_Liver_Function.
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