L36-37 Drug elimination: metabolism
Cards (43)
- IV BolusIntravenous bolus administration of a drug
- OralOral administration of a drug
- IV InfusionIntravenous infusion administration of a drug
- EliminationIrreversible loss of drug by excretion and/or metabolism
- ExcretionIrreversible loss of chemically unchanged drug, mainly by kidneys, also: bile, sweat, saliva, air, milk etc.
- MetabolismConversion of the drug into a different chemical species, mainly by liver, also: lungs, GI wall, blood, skin, kidney
- Understanding elimination of a drug
- Helps to predict drug concentration following uptake of a medicine
- Helps to predict how liver and renal disease may affect drug concentration
- Helps to predict interactions modifying the elimination of drugs
- Helps to predict variability in drug therapy
- Clearance (Cl)The proportionality factor that relates the elimination rate of a drug with the drug concentration in blood (plasma)
- Rate of Elimination= Clearance * Cdrug
- Clearance is the volume of fluid (blood, plasma) that is completely cleared of drug per unit time
- Clearance I > Clearance IIFor the same plasma concentration, the elimination rate is greater for drug I
- Clearance is different for each drugPlasma levels decay faster for drug with higher clearance
- Rate in (dose/time)= Rate out (Cl * Css)
- Additivity of ClearanceThe total elimination rate for a drug is the sum of the elimination rates by each organ
- The only exception to the additivity rule is the clearance by the lungs
- Metabolism (biotransformation)A defence mechanism against undesirable foreign compounds, including drugs
- The liver is the major site of drug metabolism
- Common routes of drug metabolism
- Oxidation, reduction, hydrolysis: Phase I reactions
- Conjugation: Phase II reactions
- MetabolitesCan be inactive, toxic, or active as the drug administered
- Administration of prodrugs relies on metabolism to form the active compound (the metabolite) from the inactive prodrug
- The liver
- Receives blood from hepatic artery (25%) and hepatic portal vein from various GI segments (75%)
- Receives ≈ 1.5 L/min of blood
- Blood arriving from both systems fuse and enter the liver capillaries called "sinusoids"
- Blood leaves the liver via the hepatic vein that goes to the vena cava
- Secretes bile acids, which empty to the common bile duct, and finally go to the gallbladder
- Excretes and metabolises drugs
- Hepatic elimination processesMetabolism + biliary excretion
- Lipophilic chemicals are usually metabolised into more hydrophilic entities and then excreted into urine or bile
- Drugs in bloodMay be bound to plasma proteins, bound to blood cells, or free (unbound)
- Only free drug can enter the hepatocyte to be eliminated
- Enzyme-drug reactionsAre typically described by the Michaelis-Menten equation
- Drugs metabolised by the same enzyme can be metabolised at different rates
- A drug can be metabolised by several enzymes
- Cytochrome P450 familyEnzymes responsible for oxidation and reduction of many drugs
- There are other enzymes also involved in drug metabolism
- Substrate specificityA drug is normally a good substrate for one (some) enzymes but not for others
- Michaelis-Menten kinetics
- Elimination rate= Vmax*C/(KM+C)
- Vmax is the maximum elimination rate
- KM is the Michaelis constant, the concentration of drug at which the rate equals 1/2 Vmax
- Drug metabolism is saturable: at high concentrations the rate becomes constant and equal to Vmax
- Enzyme-inhibitionDirect inhibition or by competition
- Enzyme-inductionA drug or other chemical increases the activity of the enzyme, usually by increasing the amount of enzyme
- Examples of enzyme inducers and inhibitors
- Inducers: smoking, insecticides, rifampin, phenobarbital
- Inhibitors: SSRIs, grapefruit
- Variability in drug metabolism
- Levels and activity of enzymes may differ among individuals resulting in different values of clearance
- Genetic variations: fast metabolizer, slow metabolizer, ultra-fast metabolizer
- Age, physio-pathology (hepatic disease)
- Hepatic Extraction Ratio (EH)The fraction of a drug passing by the liver which is eliminated (metabolized and/or excreted into bile) by this organ
- EH can range from 0 (no elimination) to 1 (complete elimination)
- Hepatic Clearance (ClH)The volume of blood entering the liver from which all the drug is removed per unit time