Physical Address
304 North Cardinal St.
Dorchester Center, MA 02124
acute liver failure
Acute Liver Failure Study Group
Acute Physiology and Chronic Health Evaluation
hepatitis A virus
hepatitis B e antigen
hepatitis B virus
hepatitis C virus
hepatic encephalopathy
hemolysis, elevated liver levels, and low platelet count
hepatitis E virus
hepatopulmonary syndrome
hepatorenal syndrome
international normalized ratio
model for end-stage liver disease
N -acetylcysteine
portopulmonary hypertension
serum-ascites albumin gradient
spontaneous bacterial peritonitis
transjugular intrahepatic portosystemic shunt
Acute liver disease refers to a variety of liver diseases with different etiologies and pathogenic mechanisms that occur in an individual with a previously healthy liver, in whom the history of illness and/or elevation of liver enzymes does not exceed 6 months.
Acute (fulminant) liver failure (ALF) is the most severe form of acute liver disease; it is characterized by decompensation of liver function that manifests clinically as acute onset of hepatic encephalopathy and coagulopathy in an individual without previously known liver disease. By definition, ALF is characterized by liver disease of short duration, coagulopathy with an international normalized ratio (INR) greater than 1.5, and encephalopathy of any degree. Encephalopathy may be difficult to evaluate in children; therefore it is not required for the diagnosis. ALF results either from actual loss of hepatocytes seen histologically as submassive or massive necrosis (eg, acetaminophen toxicity) or from functional impairment of hepatocytes without actual loss of cells (eg, Reye syndrome). Sudden-onset liver failure is a synonym.
Subacute liver failure is defined by development of encephalopathy 29 days to 12 weeks after onset of jaundice. This condition is characterized by a higher mortality and lower chance of spontaneous recovery than ALF, despite low incidence of cerebral edema. Subacute liver disease also differs from ALF by late development of renal failure, modest coagulation disorder, and presence of ascites. Subacute hepatic failure may be easily confused with chronic liver disease. Synonyms include late-onset hepatic failure, subfulminant liver failure, protracted viral hepatitis with impaired regeneration, subchronic atrophy of the liver, subacute hepatitis , and subacute hepatic necrosis .
Chronic liver disease is defined by liver disease and abnormal liver tests that last for more than 6 months. Chronic liver disease may be associated with progressive fibrosis that ultimately leads to liver cirrhosis.
Cirrhosis is the end stage of chronic liver disease characterized by development of fibrous septa and formation of regenerative nodules. These pathologic changes lead to alterations in the microvascular architecture of the liver, which is critical to its functional integrity. Liver function can be compensated in the early stages, and cirrhosis may remain clinically silent for a variable number of years. Eventual decompensation of hepatic synthetic, metabolic, and hemodynamic functions by any one of a multitude of factors brings the patient to clinical attention. Synonyms include end-stage liver disease, end-stage liver failure , and chronic liver failure .
Acute liver disease may result from a variety of etiologic agents, the most common of which are viral hepatitis, acetaminophen overdose, idiosyncratic reaction to medicines, excessive alcohol intake, autoimmune diseases, metabolic disorders, and circulatory disorders. Viral hepatitis accounts for 72% of cases of acute hepatitis, and infections with hepatitis A and B viruses account for most of these cases. Acute infection with hepatitis C virus (HCV) is usually subclinical, and clinical manifestations occur in only about 15% of patients. Infection with hepatitis D virus usually occurs in intravenous drug users, either as a superinfection in those already infected with hepatitis B virus (HBV) or as a coinfection acquired simultaneously with HBV. Acute hepatitis due to hepatitis E virus (HEV) occurs in endemic areas that include Central and Southeast Asia, North and West Africa, and Mexico. Sporadic cases occur in the rest of the world.
All five viruses have been implicated in ALF; however, ALF due to HCV is rarely seen in the Western Hemisphere, with most cases being reported from Japan and Taiwan. These reports indicate that there is a greater likelihood of a fulminant course of HCV in individuals who already have chronic HBV infection. Fulminant HBV infection follows de novo infection in the West but is usually the result of activation of latent infection in the East; the reason for these differences is not known. An increasing cause of ALF due to HBV is reactivation of latent infection in patients undergoing chemotherapy for various malignancies or receiving immune modulating agents of immune diseases. The enteric viruses, hepatitis A virus (HAV) and HEV, cause self-limited disease in most individuals, with only a minority proceeding to ALF. A fulminant course caused by HAV occurs in elderly patients and intravenous drug users. A fulminant course is also more likely to occur when HAV occurs as a superinfection in patients with chronic liver disease. Fulminant HEV infection occurs most commonly in pregnant women, in whom it may be accompanied by hemolysis, elevated liver levels, and low platelet count (HELLP syndrome [hemolysis, elevated liver enzymes, and low platelet count]). Mortality is 20% in the third trimester.
Acute alcoholic hepatitis after heavy or binge drinking may present as acute liver disease and is associated with a high risk of increased short-term mortality. An increasing incidence, especially in women and at a younger age, is reported at least in some parts of the world.
Overdose from acetaminophen, the most widely available analgesic, is the most common cause of fulminant acute failure in the United States and the United Kingdom. Overdose may be intentional or unintentional from self-medication for pain or fever, leading to daily doses exceeding 4 g/day. Susceptible patients have concomitant depression, chronic pain, alcohol or narcotic use, and they may take several preparations simultaneously. Idiosyncratic reactions from common over-the-counter therapeutic drugs, herbal remedies, and dietary supplements cause a significant number of cases of acute hepatitis, some of which may follow a fulminant course. The United States Acute Liver Failure Study Group (ALFSG) found these cases to be the second most common cause of ALF. A comprehensive list of causes of ALF is shown in Table 2.1 .
Etiologic Category | Common Agents and Causes |
---|---|
Viral | Hepatitis A, B, ±D, and E viruses, herpes simplex virus, cytomegalovirus, Epstein-Barr virus, herpes varicella-zoster virus, adenovirus, hemorrhagic fever viruses |
Drugs and toxins: dose-dependent | Acetaminophen, carbon tetrachloride (CCl 4 ), yellow phosphorus, Amanita phalloides, Bacillus cereus toxin, sulfonamides, tetracycline, Ecstasy (3, 4-methylenedioxymethamphetamine [MDMA]), herbal remedies (ginseng, pennyroyal oil, Teucrium polium , chaparral or germander tea, kava kava) |
Drugs and toxins: idiosyncratic drug reactions | Halothane, rifampicin, valproic acid, nonsteroidal antiinflammatory drugs, disulfiram, antibiotics (ampicillin-clavulanate, ciprofloxacin, doxycycline, erythromycin, isoniazid, nitrofurantoin, tetracycline) |
Vascular | Right-sided heart failure, Budd-Chiari syndrome, veno-occlusive disease/sinusoidal obstruction syndrome, shock liver (ischemic hepatitis), heat stroke |
Metabolic | Acute fatty liver of pregnancy, Wilson disease, Reye syndrome, galactosemia, hereditary fructose intolerance, tyrosinemia |
Miscellaneous | Malignant infiltration (liver metastases, lymphoma), autoimmune hepatitis, sepsis |
Clinical symptoms of ALF reflect pathophysiologic mechanisms associated with rapid arrest of normal hepatic function, and the presentation is marked by the acute onset of hepatic encephalopathy and coagulopathy in a patient without previous history of liver disease. In addition, the acute loss of hepatic function in ALF leads to profound and deleterious effects on all body systems, resulting in acute renal failure, gastrointestinal bleeding, infections, sepsis, respiratory failure, and cardiovascular collapse. Ascites is not common except in cases of ALF caused by acute Budd-Chiari disease.
Encephalopathy and cerebral edema result from the dysregulation of neurotransmission and cerebral blood flow caused by the accumulation of toxic substances such as ammonia and benzodiazepine receptor agonists, which would normally be cleared by a healthy liver. In contrast to cirrhosis, intracranial hypertension and cerebral edema are predominant features of ALF because the brain does not have adequate time to compensate for the abnormal homeostasis.
Bleeding diathesis in patients with ALF is multifactorial and results from decreased production by the liver of coagulation factors II, V, VII, IX, and X; thrombocytopenia; and qualitative platelet functional defects. Concurrent complications such as disseminated intravascular coagulation and sepsis, combined with abnormalities in antithrombin III, protein C, and protein S, further exaggerate the bleeding diathesis. The levels of factor VIII, which is produced by hepatic endothelium, are increased because of endothelial activation. Tests of coagulation including prothrombin time, INR, and levels of factors V and VII are useful parameters for monitoring progression of fulminant hepatic failure; of these, factors V and VII are the most sensitive to changes in hepatic function because they have the shortest serum half-lives of all coagulation factors. Transfusion of fresh-frozen plasma or platelets is generally encouraged only if invasive procedures are indicated, or if platelets are less than 20,000/mm 3 , to avoid false interference with measures of coagulation.
Infectious complications , especially of the respiratory and urinary tracts, occur in about 80% of patients with ALF, and bacteremia is seen in 20% to 26% of patients. The risk of infection derives from reticuloendothelial dysfunction and decreased opsonization of microorganisms. Fungal infections, especially with Candida albicans , occur in a third of patients with ALF and can exclude them from the option of transplantation, thus representing a poor prognostic factor.
Acute renal failure occurs in 40% to 80% of patients with ALF. It is multifactorial, occurring secondary to prerenal azotemia, acute tubular necrosis, hepatorenal syndrome, drug-induced interstitial nephritis caused by contrast material or antibiotics, and sepsis. Patients present with oliguria and increased creatinine levels. Creatinine is preferred over blood urea nitrogen for monitoring kidney function in ALF because the latter is affected by impaired hepatic urea production. Patients with ALF have profound electrolyte and fluid abnormalities ; water retention and hyponatremia are common. Hypokalemia and hypophosphatemia accompany hyponatremia, but in patients with oliguric renal failure, hyperkalemia and hyperphosphatemia may occur. Hypoglycemia is common and occurs because of deficient glycogenolysis and gluconeogenesis by a diseased liver. Cardiorespiratory abnormalities in ALF include systemic vasodilatation, low vascular resistance, increased cardiac output, and abnormal oxygen transport and utilization, leading to hypotension, hypoxia, and lactic acidosis. The laboratory findings in acute liver disease are described in Chapter 3 .
Acute liver disease may resolve spontaneously with supportive therapy or progress to ALF or develop into chronic liver disease. Acute autoimmune hepatitis can potentially respond to corticosteroid administration. Short-term mortality associated with severe acute alcoholic hepatitis may be reduced by a short course of corticosteroids. Acute hepatitis B or an acute flare of hepatitis B in a known carrier may respond to antiviral therapy. Drug-induced injury seems to resolve completely following the drug’s withdrawal in less severe cases. Acetaminophen overdose responds well to N -acetylcysteine (NAC) administration, especially if given within 16 hours of acetaminophen exposure. However, despite cessation of the offending agent, chronic liver injury, including cirrhosis, may develop in a small number of cases.
Although some patients with ALF may recover spontaneously after supportive therapy, the vast majority require urgent transplantation without which mortality approaches 40%, most commonly because of cerebral edema. Specific therapy aimed at restitution of liver function and averting transplantation may be attempted in some cases. As previously stated, administration of NAC according to the standard treatment nomogram aims to replenish depleted hepatic stores of glutathione in cases of acetaminophen-induced liver failure, and it is most effective in the first 16 hours after ingestion. Its benefit at 24 hours is questionable, and NAC is not effective when given after 48 hours. There is questionable benefit of NAC in ALF resulting from mushroom ( Amanita phalloides ) poisoning; the administration of Silybum marianum has been shown to ameliorate liver injury in affected patients. Corticosteroids may be given in cases of ALF caused by autoimmune hepatitis, and nucleoside or nucleotide anti-HBV agents may be given to patients with ALF caused by acute HBV infection. Supportive therapy of ALF has included lactulose to decrease blood ammonia levels; the benefit is questionable. Antibiotics are administered for complications such as spontaneous bacterial peritonitis (SBP) or bacteremia. Gastrointestinal bleeding is treated with blood products and proton pump inhibitors. Continuous venovenous hemofiltration is used for the treatment of hepatorenal syndrome, which is preferred over hemodialysis because the latter can precipitate hypotension with a fall in central venous pressure and an exacerbation of cerebral edema. INR is an important parameter for monitoring progression of ALF.
Mortality is high, and most patients require immediate transplantation; therefore the most important management tool is the ability to distinguish patients who will benefit from liver transplantation from those who will recover spontaneously. Prognosis of ALF is strongly correlated with the degree of encephalopathy; the incidence of spontaneous recovery is 65% to 70% with encephalopathy grades 1 to 2, 40% to 50% with grade 3, and less than 20% with grade 4.
Over the decades, several prognostic models and biomarkers have been studied. Although no single marker or model has proven to be significantly sensitive or specific for this purpose, the King’s College Criteria, formulated after a review of 588 patients by O’Grady and colleagues, are the most widely tested and most commonly used ( Table 2.2 ). The Acute Physiology and Chronic Health Evaluation (APACHE) II score is used for predicting outcome in acetaminophen-induced ALF; a score of more than 15 is highly predictive of the need for transplantation. In idiosyncratic drug-induced liver failure, female sex, hepatocellular damage, high total bilirubin, and high aspartate aminotransferase levels were found to be negative predictors of short-term outcome.
Acetaminophen-Induced | Non–Acetaminophen-Induced Disease |
---|---|
Arterial pH <7.3 (irrespective of the grade of encephalopathy) | Prothrombin time >100 seconds (irrespective of the grade of encephalopathy) |
or Grade III or IV encephalopathy and prothrombin time >100 seconds and serum creatinine >3.4 mg/dL (301 μmol/L) |
or Any three of the following variables (irrespective of the grade of encephalopathy):
|
The modified discriminant function adapted from the Maddrey scoring system predicts the response of acute alcoholic hepatitis to corticosteroids. A score of greater than 32 showed survival of 84% at 28 days with corticosteroids compared with 65% for those who did not receive corticosteroids. The modified discriminant function is calculated as follows:
Other prognostic factors studied are serum bilirubin, prothrombin time, factor V levels, arterial lactate concentration, serum phosphate level (low levels suggest hepatic recovery), arterial ammonia levels (>200 g/dL is associated with cerebral herniation), presence of a systemic inflammatory response syndrome, α-fetoprotein levels (increased levels suggest liver regeneration), Gc-globulin levels, troponin I, and CD163. Each has its own utility in specific circumstances, but none has universal application.
Become a Clinical Tree membership for Full access and enjoy Unlimited articles
If you are a member. Log in here