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Drug induced liver injury- pathophysiology and causes.pptx

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jyoti verma

Liver injury is a possible consequence of ingestion of any xenobiotic, including industrial toxins, pharmacologic agents, and complementary and alternative medications (CAMs). Among patients with acute liver failure, drug-induced liver injury (DILI) is the most common cause.

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Drug induced liver injury- pathophysiology and causes Dr. jyoti verma Associate professor Medicine
Introduction Liver injury is a possible consequence of - ingestion of any xenobiotic, including industrial toxins, pharmacologic agents, and - complementary and alternative medications (CAMs). - Among patients with acute liver failure, drug-induced liver injury (DILI) is the most common cause.
Pathophysiology • Hepatotoxic drugs can injure the hepatocyte directly, for example, via a free-radical or metabolic intermediate that causes peroxidation of membrane lipids and that results in liver cell injury. • Alternatively, a drug or its metabolite may -activate components of the innate or adaptive immune system, -stimulate apoptotic pathways, -or initiate damage to bile excretory pathways
Potential mechanisms of drug-induced liver injury The normal hepatocyte may be affected adversely by drugs through (A) disruption of intracellular calcium homeostasis that leads to the disassembly of actin fibrils at the surface of the hepatocyte, resulting in blebbing of the cell membrane, rupture, and cell lysis; (B) disruption of actin filaments next to the canaliculus (the specialized portion of the cell responsible for bile excretion), leading to loss of villous processes and interruption of transport pumps such as multidrug resistance–associated protein 3 (MRP3), which, in turn, prevents the excretion of bilirubin and other organic compounds; (C) covalent binding of the heme-containing cytochrome P450 enzyme to the drug, thus creating nonfunctioning adducts; (D) migration of these enzyme drug adducts to the cell surface in vesicles to serve as target immunogens for cytolytic attack by T cells, stimulating an immune response involving cytolytic T cells and cytokines; ( (E) activation of apoptotic pathways by tumor necrosis factor α (TNF-α) receptor or Fas (DD denotes death domain), triggering the cascade of intercellular caspases, resulting in programmed cell death; or (F) inhibition of mitochondrial function by a dual effect on both β-oxidation and the respiratory-chain enzymes, leading to failure of free fatty acid metabolism, a lack of aerobic respiration, and accumulation of lactate and reactive oxygen species (which may disrupt mitochondrial DNA). Toxic metabolites excreted in bile may damage bile-duct epithelium.
Some Features of Toxic and Drug-Induced Hepatic Injury:
Principal Alterations of Hepatic Morphology Produced by Some Commonly Used Drugs and Chemicals
Risk factors for drug-induced liver injury • Race Some drugs appear to have different toxicities based on race. For example, blacks and Hispanics may be more susceptible to isoniazid (INH) toxicity. The rate of metabolism is under the control of P-450 enzymes and can vary from individual to individual. • Age Apart from accidental exposure, hepatic drug reactions are rare in children. Elderly persons are at increased risk of hepatic injury because of decreased clearance, drug-to-drug interactions, reduced hepatic blood flow, variation in drug binding, and lower hepatic volume. In addition, poor diet, infections, and multiple hospitalizations are important reasons for drug-induced hepatotoxicity.
• Sex Although the reasons are unknown, hepatic drug reactions are more common in females. • Drug formulation • Long-acting drugs may cause more injury than shorter-acting drugs.
• Alcohol ingestion Alcoholic persons are susceptible to drug toxicity because alcohol induces liver injury and cirrhotic changes that alter drug metabolism. Alcohol causes depletion of glutathione (hepatoprotective) stores that make the person more susceptible to toxicity by drugs. • Liver disease Preexisting liver disease has not been thought to make patients more susceptible to drug-induced liver injury, [5, 6] but it may be that a diminished liver reserve or the ability to recover could make the consequences of injury worse. Although the total cytochrome P-450 is reduced in chronic liver disease, some may be affected more than others. The modification of doses in persons with liver disease should be based on the knowledge of the specific enzyme involved in the metabolism. Patients with HIV infection who are co-infected with hepatitis B or C virus are at increased risk for hepatotoxic effects when treated with antiretroviral therapy. Similarly, patients with cirrhosis are at increased risk of decompensation by toxic drugs. • Genetic factors A unique gene encodes each P-450 protein. Genetic differences in the P-450 enzymes can result in abnormal reactions to drugs, including idiosyncratic reactions. Debrisoquine is an antiarrhythmic drug that undergoes poor metabolism because of abnormal expression of P-450-II-D6. This can be identified by polymerase chain reaction amplification of mutant genes. This has led to the possibility of future detection of persons who can have abnormal reactions to a drug. [8] • Other comorbidities Persons with AIDS, persons who are malnourished, and persons who are fasting may be susceptible to drug reactions because of low glutathione stores.
Pathophysiology and mechanisms of drug-induced liver injury Pathophysiologic mechanisms • The pathophysiologic mechanisms of hepatotoxicity are still being explored and include both hepatocellular and extracellular mechanisms. The following are some of the mechanisms that have been described: • Disruption of the hepatocyte: Covalent binding of the drug to intracellular proteins can cause a decrease in ATP levels, leading to actin disruption. Disassembly of actin fibrils at the surface of the hepatocyte causes blebs and rupture of the membrane. • Disruption of the transport proteins: Drugs that affect transport proteins at the canalicular membrane can interrupt bile flow. Loss of villous processes and interruption of transport pumps such as multidrug resistance–associated protein 3 prevent the excretion of bilirubin, causing cholestasis. • .
Cont.. • Cytolytic T-cell activation: Covalent binding of a drug to the P-450 enzyme acts as an immunogen, activating T cells and cytokines and stimulating a multifaceted immune response. • Apoptosis of hepatocytes: Activation of the apoptotic pathways by the tumor necrosis factor- alpha receptor of Fas may trigger the cascade of intercellular caspases, which results in programmed cell death. • Mitochondrial disruption: Certain drugs inhibit mitochondrial function by a dual effect on both beta-oxidation energy production by inhibiting the synthesis of nicotinamide adenine dinucleotide and flavin adenine dinucleotide, resulting in decreased ATP production. • Bile duct injury: Toxic metabolites excreted in bile may cause injury to the bile duct epithelium
Drug toxicity mechanisms • The classic division of drug reactions is into at least two major groups, (1) drugs that directly affect the liver and (2) drugs that mediate an immune response, as follows: • Intrinsic or predictable drug reactions: Drugs that fall into this category cause reproducible injuries in animals, and the injury is dose related. The injury can be due to the drug itself or to a metabolite. Acetaminophen is a classic example of a known intrinsic or predictable hepatotoxin at supertherapeutic doses. Another classic example is carbon tetrachloride. • Idiosyncratic drug reactions: Idiosyncratic drug reactions can be subdivided into those that are classified as hypersensitivity or immunoallergic and those that are metabolic-idiosyncratic. Regarding hypersensitivity reactions, phenytoin is a classic, if not common, cause of hypersensitivity reactions. The response is characterized by fever, rash, and eosinophilia and is an immune-related response with a typical short latency period of 1-4 weeks. A metabolic-idiosyncratic reaction occurs through an indirect metabolite of the offending drug. Unlike intrinsic hepatotoxins, the response rate is variable and can occur within a week or up to one year later. It occurs in a minority of patients taking the drug, and no clinical manifestations of hypersensitivity are noted. INH toxicity is considered to fall into this class. Not all drugs fall neatly into one of these categories, and overlapping mechanisms may occur with some drugs (eg, halothane).
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Drug induced liver injury- pathophysiology and causes.pptx

  • 1. Drug induced liver injury- pathophysiology and causes Dr. jyoti verma Associate professor Medicine
  • 2. Introduction Liver injury is a possible consequence of - ingestion of any xenobiotic, including industrial toxins, pharmacologic agents, and - complementary and alternative medications (CAMs). - Among patients with acute liver failure, drug-induced liver injury (DILI) is the most common cause.
  • 3. Pathophysiology • Hepatotoxic drugs can injure the hepatocyte directly, for example, via a free-radical or metabolic intermediate that causes peroxidation of membrane lipids and that results in liver cell injury. • Alternatively, a drug or its metabolite may -activate components of the innate or adaptive immune system, -stimulate apoptotic pathways, -or initiate damage to bile excretory pathways
  • 4.
  • 5. Potential mechanisms of drug-induced liver injury The normal hepatocyte may be affected adversely by drugs through (A) disruption of intracellular calcium homeostasis that leads to the disassembly of actin fibrils at the surface of the hepatocyte, resulting in blebbing of the cell membrane, rupture, and cell lysis; (B) disruption of actin filaments next to the canaliculus (the specialized portion of the cell responsible for bile excretion), leading to loss of villous processes and interruption of transport pumps such as multidrug resistance–associated protein 3 (MRP3), which, in turn, prevents the excretion of bilirubin and other organic compounds; (C) covalent binding of the heme-containing cytochrome P450 enzyme to the drug, thus creating nonfunctioning adducts; (D) migration of these enzyme drug adducts to the cell surface in vesicles to serve as target immunogens for cytolytic attack by T cells, stimulating an immune response involving cytolytic T cells and cytokines; ( (E) activation of apoptotic pathways by tumor necrosis factor α (TNF-α) receptor or Fas (DD denotes death domain), triggering the cascade of intercellular caspases, resulting in programmed cell death; or (F) inhibition of mitochondrial function by a dual effect on both β-oxidation and the respiratory-chain enzymes, leading to failure of free fatty acid metabolism, a lack of aerobic respiration, and accumulation of lactate and reactive oxygen species (which may disrupt mitochondrial DNA). Toxic metabolites excreted in bile may damage bile-duct epithelium.
  • 6. Some Features of Toxic and Drug-Induced Hepatic Injury:
  • 7. Principal Alterations of Hepatic Morphology Produced by Some Commonly Used Drugs and Chemicals
  • 8.
  • 9.
  • 10. Risk factors for drug-induced liver injury • Race Some drugs appear to have different toxicities based on race. For example, blacks and Hispanics may be more susceptible to isoniazid (INH) toxicity. The rate of metabolism is under the control of P-450 enzymes and can vary from individual to individual. • Age Apart from accidental exposure, hepatic drug reactions are rare in children. Elderly persons are at increased risk of hepatic injury because of decreased clearance, drug-to-drug interactions, reduced hepatic blood flow, variation in drug binding, and lower hepatic volume. In addition, poor diet, infections, and multiple hospitalizations are important reasons for drug-induced hepatotoxicity.
  • 11. • Sex Although the reasons are unknown, hepatic drug reactions are more common in females. • Drug formulation • Long-acting drugs may cause more injury than shorter-acting drugs.
  • 12. • Alcohol ingestion Alcoholic persons are susceptible to drug toxicity because alcohol induces liver injury and cirrhotic changes that alter drug metabolism. Alcohol causes depletion of glutathione (hepatoprotective) stores that make the person more susceptible to toxicity by drugs. • Liver disease Preexisting liver disease has not been thought to make patients more susceptible to drug-induced liver injury, [5, 6] but it may be that a diminished liver reserve or the ability to recover could make the consequences of injury worse. Although the total cytochrome P-450 is reduced in chronic liver disease, some may be affected more than others. The modification of doses in persons with liver disease should be based on the knowledge of the specific enzyme involved in the metabolism. Patients with HIV infection who are co-infected with hepatitis B or C virus are at increased risk for hepatotoxic effects when treated with antiretroviral therapy. Similarly, patients with cirrhosis are at increased risk of decompensation by toxic drugs. • Genetic factors A unique gene encodes each P-450 protein. Genetic differences in the P-450 enzymes can result in abnormal reactions to drugs, including idiosyncratic reactions. Debrisoquine is an antiarrhythmic drug that undergoes poor metabolism because of abnormal expression of P-450-II-D6. This can be identified by polymerase chain reaction amplification of mutant genes. This has led to the possibility of future detection of persons who can have abnormal reactions to a drug. [8] • Other comorbidities Persons with AIDS, persons who are malnourished, and persons who are fasting may be susceptible to drug reactions because of low glutathione stores.
  • 13. Pathophysiology and mechanisms of drug-induced liver injury Pathophysiologic mechanisms • The pathophysiologic mechanisms of hepatotoxicity are still being explored and include both hepatocellular and extracellular mechanisms. The following are some of the mechanisms that have been described: • Disruption of the hepatocyte: Covalent binding of the drug to intracellular proteins can cause a decrease in ATP levels, leading to actin disruption. Disassembly of actin fibrils at the surface of the hepatocyte causes blebs and rupture of the membrane. • Disruption of the transport proteins: Drugs that affect transport proteins at the canalicular membrane can interrupt bile flow. Loss of villous processes and interruption of transport pumps such as multidrug resistance–associated protein 3 prevent the excretion of bilirubin, causing cholestasis. • .
  • 14. Cont.. • Cytolytic T-cell activation: Covalent binding of a drug to the P-450 enzyme acts as an immunogen, activating T cells and cytokines and stimulating a multifaceted immune response. • Apoptosis of hepatocytes: Activation of the apoptotic pathways by the tumor necrosis factor- alpha receptor of Fas may trigger the cascade of intercellular caspases, which results in programmed cell death. • Mitochondrial disruption: Certain drugs inhibit mitochondrial function by a dual effect on both beta-oxidation energy production by inhibiting the synthesis of nicotinamide adenine dinucleotide and flavin adenine dinucleotide, resulting in decreased ATP production. • Bile duct injury: Toxic metabolites excreted in bile may cause injury to the bile duct epithelium
  • 15. Drug toxicity mechanisms • The classic division of drug reactions is into at least two major groups, (1) drugs that directly affect the liver and (2) drugs that mediate an immune response, as follows: • Intrinsic or predictable drug reactions: Drugs that fall into this category cause reproducible injuries in animals, and the injury is dose related. The injury can be due to the drug itself or to a metabolite. Acetaminophen is a classic example of a known intrinsic or predictable hepatotoxin at supertherapeutic doses. Another classic example is carbon tetrachloride. • Idiosyncratic drug reactions: Idiosyncratic drug reactions can be subdivided into those that are classified as hypersensitivity or immunoallergic and those that are metabolic-idiosyncratic. Regarding hypersensitivity reactions, phenytoin is a classic, if not common, cause of hypersensitivity reactions. The response is characterized by fever, rash, and eosinophilia and is an immune-related response with a typical short latency period of 1-4 weeks. A metabolic-idiosyncratic reaction occurs through an indirect metabolite of the offending drug. Unlike intrinsic hepatotoxins, the response rate is variable and can occur within a week or up to one year later. It occurs in a minority of patients taking the drug, and no clinical manifestations of hypersensitivity are noted. INH toxicity is considered to fall into this class. Not all drugs fall neatly into one of these categories, and overlapping mechanisms may occur with some drugs (eg, halothane).