Pharmacology Past Paper 2024 PDF
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2024
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Dr. Elramady
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This document is a pharmacology past paper from 2024, focusing on drug distribution in the body, protein binding, and passage through the blood-brain barrier and placenta. It includes various formulas and examples.
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Pharmacology 2024 Dr.Elramady Dr.Elramady 4 Pharmacology 2024 Dr.Elramady Distribution Distribution: After absorption of a drug, it is usuall...
Pharmacology 2024 Dr.Elramady Dr.Elramady 4 Pharmacology 2024 Dr.Elramady Distribution Distribution: After absorption of a drug, it is usually distributed through the different tissues & body fluid compartments: a) The plasma b)Interstitial fluid c)Intracellular fluid Four basic patterns of drug distribution: 1-Single compartment (intravascular): Drug is confined in the blood compartment. Drug of high molecular weight e.g. heparin & dextran. Drugs are bounded to plasma protein 2- Two compartments (intravascular + interstitial): Drugs can pass capillary wall but cannot pass cell membrane. Drugs are localized mainly in the extracellular fluid e.g. quaternary ammonium compounds, insulin and certain ions as sodium, chloride, bromide & sulphate 3- Multi-compartment (extracellular + intracellular): Drugs that can filtrate. Drugs can pass cell membrane which are lipid soluble. Drugs of low MW & water soluble compounds including saticylates & urea, barbiturates, tertiary amines (physostigmine) 4-Tissue reservoirs: Hair → arsenic thyroid→ iodine bone→ Ca++ fat→ thiopentone 3 Pharmacology 2024 Dr.Elramady liver→ chloroquine. Apparent volume of distribution ( Vd ): Vd is a pharmacological term used to quantify the distribution of a drug between plasma and the rest of the body after oral or parenteral dosing. Vd is hypothetical volume at which the drug should be distributed to obtain the estimated concentration of the drug. Total amount of the drug in the body (M) Vd = Plasma concentration of the drug (C) To estimate the amount of the drug in the body M = Vd x C Vd may be increased in a) renal failure (fluid retention) b)liver failure (increased body fluid - decreased plasma protein binding) Vd may be decreased in dehydration. Drugs highly bound to plasma proteins small Vd. Drugs highly bound to tissue proteins high Vd. Digoxin No need for dialysis slow clearance Binding of drugs to Plasma Protein: Most drugs binds reversibly to plasma protein. Albumin is the major binding plasma protein. The protein bound fraction is : -inactive pharmacologically -not active. -not filtered -not metabolized -not excreted -acts as depot form. The free fraction of the drug is : -active -filtered- metabolized -excreted. Drugs extensively bound to plasma proteins phenylbutazone, dicoumarol, tolbutamide , long acting sulphonalmide, thiopentone, and diazoxide 4 Pharmacology 2024 Dr.Elramady Drug interactions: Aspirin, phenytoin, sulfonamide drugs displace these drugs from their protein binding sites: Oral anticoagulants e.g. warfarin hemorrhage. Oral hypoglycemic e.g.tolbutamide hypoglycemia. Bilirubin in neonates e.g. jaundice & kernicterus Passage of drugs to the CNS The passage of drugs into the CNS is limited by Blood Brain Barrier (BBB). lipid cellular barrier composed of brain capillary endothelium which lacks water channels and the adjacent Glial tissue. Only lipid soluble (non-ionized) drugs can pass BBB along their concentration gradient Inflammation e.g. meningitis & encephalitis increases permeability of BBB e.g. penicillin. the endothelial cells in brain capillaries are packed so tightly that there are no intercellular clefts. The tight junctions have a high electrical resistance, providing a barrier to ions. there are no fenestrae. there is little or no pinocytosis in brain capillary endothelial cells. -Only water, small lipophilic molecules and actively transported substances cross the BBB. -Because glucose, vitamins and many amino acids can only cross the BBB endothelial cells by active transport. -the endothelial cells of the BBB have 2 to 4 times as many mitochondria as other endothelial cells . -The mitochondria also assist in maintaining electrochemical gradients and tight junction complexes. Passage of drugs to the foetus Lipid soluble (non-ionized) drugs can pass placental barrier. Drugs that don’t pass placenta easily 1. Water soluble drugs. 2. Drugs of high molecular weight. 3. Drugs are destroyed by placental enzymes e.g. MAO. Drugs that pass placental barrier may cause: 1. Teratogenicity tetracyclines & thalidomide 2. Neonatal asphyxia morphine &barbiturates 3
