Pharmacology Past Paper PDF

Summary

This document is a pharmacology exam paper, focusing on drug targets, receptors, and the relationship between pH and drug ionization. It covers various aspects of pharmacology and includes drug uses, side effects, and mechanisms of action.

Full Transcript

PAPER 1 – PHARMA

BBM
Answer ALL
1. List 4 targets of drug action
A. Receptor – drugs act on specific receptors on cell membrane or within cells to either activate(agonist) or
block(antagonist) their function.E.g. Beta blockers on beta adrenergic receptors
B. Ion channel – Drugs can modulate ion channels to flow across cell membrane , influencing cellular signalling
and excitability. E.g.. Calcium channel blockers (Amlodipine ) inhibit voltage gated calcium channels
C. Enzymes – Drugs can activate or inhibit enzymes that can control the biochemical pathway they regulate. E.g.
ACE Inhibitors ( Enalapril) inhibit Angiotensin converting enzyme
D. Transporter – Drugs can inhibit or facilitate the action of transporter proteins that move molecules across the
membrane. E.g. Selective Serotonin Reuptake Inhibitor(SSRI’s ) (Fluoxetine) Inhibit serotonin reuptake
transporter

2. List any TWO receptors which are located on the cell membrane;
A. Ligand gated ion channel – Nicotinic acetylcholine receptor bind to acetylcholine
B. G Protein coupled receptor – Beta adrenergic receptor bind to adrenaline

List a drug with Cyclic GMP (cGMP) as a secondary messenger
Nitroglycerin , Slidenafil(Viagra)

Describe the relationship of pH of the medium and the ionisation of the drug molecules with an example

List TWO drugs that can cause liver enzyme induction
A. Antiepileptic drugs – Phenytoin , Phenobarbital ,
B. Anti Tubercular drugs – Rifampin , Rifabutin
C. Antiretroviral drug – Efavirenz , Nevirapine

List TWO clinical examples where this enzyme induction becomes relevant
A. Reduced efficacy of oral contraceptives
B. Subtherapeutic effect of Warfarin

List TWO drugs that change kinetics from 1st order to 0 order at high doses and give a clinical setting where it
becomes relevant
A. Phenytoin
B. Ethanol

List TWO drugs which therapeutic monitoring is done.
A. Warfarin
B. Digoxin

List TWO differences between dopamine and dobutamine
List FOUR uses of adrenaline and list TWO sites where you would not mix a local anaesthetic with adrenaline
A. Anaphylaxis
B. Asthma
C. Cardiac arrest
D. Local anaesthesia

2 sites where you don’t mix local anaesthetic with adrenaline
A. Fingers , nose , toes , eyes
B. Penis

List TWO use of noradrenaline.
A. Hypotension and shock
B. Cardiac arrest

List TWO uses of prazosin (alpha blocker)
A. Hypertension
B. Benign prostatic hyperplasia
C. PTSD
D. CHD

List TWO uses of labutalol? (alpha + beta blocker)
A. Hypertension
B. Hypertensive emergency
C. Angina
D. Heart failure

Classify beta blockers and give importance to beta blockers with intrinsic sympathomimetic activity (not beta
blockers in general

Explain/discuss potency and efficacy of drugs.
Define the terms ED 50, TD 50, LD 50.

List atropine (Anticholinergic) substitutes used in ophthalmology.
A. Tropicamide
B. Cyclopentolate
C. Homatropine

List atropine substitutes used in respiratory conditions
A. Ipratropium
B. Tiotropium
C. Oxitropium
D. Glycopyrrolate

List two uses of bethanecol(cholinergic agonist – muscarinic receptor agonist)
USES
A. Urinary retention
B. Post operative ileus
C. Neurogenic bladder
ADVERSE EFFECTS
A. CVS – Bradycardia , Hypotension
B. GI – Abdominal cramps , Diarrhea
List two differences between adverse effect of drug and side effects of drug

Explain the terms addiction, physical dependence of drug, idiosyncrasy, loading dose of a drug, steady state
concentration, plasma half life, orphan drugs

Describe MOA of fluoroquinolones, macrolides
Classify cephalosporins and penicillins

Classify penicillins according to their duration of action
List adverse effect of acyclovir
A. GI disturbance – nausea , vomiting , diarrhoea ,
B. Headache
C. Renal toxicity
D. Neurotoxicity

List TWO drugs used for Viral Hepatitis infection
A. Hepatitis B: Tenofovir, Entecavir, Lamivudine, Adefovir, Pegylated interferon.
B. Hepatitis C: Sofosbuvir, Ledipasvir, Daclatasvir, Ribavirin.
C. Hepatitis D: Pegylated interferon.
D. Hepatitis E: Ribavirin (in certain cases

Classify antifungal drugs

List FOUR uses of cephalosporins
A. Respiratory tract infection
B. UTI’s
C. Skin and soft tissue infection
D. Surgical Prophylaxis

List names of drugs under 3rd Generation cephalosporins

1. Ceftriaxone
2. Cefotaxime
 3. Ceftazidime
4. Cefdinir
5. Cefixime
6. Cefpodoxime
7. Cefoperazone
8. Ceftibuten

MSK
List TWO NSAIDs with high anti-inflammatory properties
A. Indomethacin
B. Diclofenac
C. Piroxicam

List TWO NSAIDs with high analgesic properties
A. Morphine
B. Ibuprofen
C. Naproxen

Explain the MOA of Aspirin on platelets at low doses
MOA – Aspirin irreversible acetylates the COX 1 enzyme that is responsible for the production of Thromboxane A2 in
platelets. Thromboxane A2 is a potent vasoconstrictor and it promote platelet aggregation (clumping). By reducing
the production of Thromboxane A2 , aspirin leads to reduced platelet aggregation and prevent clot formation
(thrombosis). The inhibition of COX 1 is irreversible and it lasts for around 7-10 days

List TWO uses of selective COX-2 inhibitors
A. Osteoarthritis
B. Rheumatoid Arthritis

List TWO uses of mefenamic acid
A. Pain relief
B. Anti Inflammatory

List THREE side effects of NSAIDs
A. GI irritation – stomach ulcer , acid reflux , nausea
B. Renal Impairment -
C. CVS risk – Heart attack , stroke

List TWO contraindications for use of NSAIDs
A. Active peptic ulcer disease
B. Renal impairment
List uses of aspirin as per dose
A. Low dose (75-100mg/day) – CVS protection ( heart attack. TIA , stroke), Antiplatelet effect
B. Moderate dose (300-600mg/day) – Pain relief (menstrual cramps , headache , toothache , fever
C. High dose (1-3g/day) – Anti inflammatory ( Rheumatoid arthritis , Osteoarthritis) , Severe pain relief
(GOUT)

Describe MOA of methotrexate
MOA – Methotrexate is a folate antagonist that inhibit dihydroflorate reductase (DHFR) ‘ an enzyme that is involved
in the conversion of dihydrofolate to tetrahydrofolate which is necessary in the synthesis of purines and pyrimidines ,
which are essential components of DNA , RNA , protein synthesis. Thus inhibiting it can limit the synthesis of the
nucleotides thus imparing the DNA and RNA synthesis important for rapidly dividing cells

USE – Leukemia , Breast cancer

List TWO adverse effects of methotrexate
A. Bone Marrow suppression
B. Hepatotoxicity
C. Mouth Ulcer
D. GI Distress
Describe MOA of allopurinol
MOA – Xanthine Oxidase Inhibitor which inhibits the enzyme Xanthine Oxidase which catalyses the conversion of
hypoxanthine to xanthine , xanthine to uric acid. By preventing the conversion , allopurinol prevent the formation of
uric acid , reduces the level of uric acid in blood and urine

USE
A. GOUT
B. Hyperuricaemia
ADVERSE EFFECTS
A. Nausea , Vomiting
B. Skin rash
C. Severe hypersensitivity reaction

List TWO uses of infliximab
USE
A. Rheumatoid arthritis
B. Chron’s Disease
C. Ulcerative Colitis
ADVERSE EFFECTS
A. Fever , Chills , Rash
B. Dyspnoea , Hypotension
C. Reactivation of latent tuberculosis

List FOUR monoclonal antibodies used in treatment of Rheumatoid Arthritis with their targets of action

Describe MOA of hydroxychloroquine in terms of a patient with rheumatoid arthritis

List two adverse effects of Hydroxychloroquine in patients of rheumatoid arthritis
A. Retinopathy
B. Nausea , Vomiting
Classify neuromuscular blockers
These drugs block cholinergic transmission between motor nerve endings and the nicotinic receptors on the skeletal
muscle They possess some chemical similarities to ACh, and they act either as antagonists (nondepolarizing type) or as
agonists (depolarizing type) at the receptors on the endplate of the NMJ.
Non-Depolarizing Neuromuscular Blockers (Competitive blockers)
These drugs act by competitively inhibiting the action of acetylcholine at the nicotinic receptors on the motor endplate. They
prevent depolarization of the muscle and thus cause muscle relaxation.
Examples:
Pancuronium
Vecuronium
Rocuronium
Atracurium

Depolarizing Neuromuscular Blockers (Depolarizing agents)
These drugs mimic acetylcholine and bind to the nicotinic receptors, causing an initial depolarization (muscle twitching or fasciculation)
followed by persistent depolarization, which makes the muscle unresponsive to further nerve impulses, resulting in muscle paralysis.
Example: Succinylcholine

Explain relationship of succinylcholine action with the genetic makeup of a person
The action of succinylcholine, a depolarizing neuromuscular blocker, is influenced by the genetic makeup of an individual,
particularly regarding the activity of pseudocholinesterase
Succinylcholine is normally broken down by pseudocholinesterase, an enzyme found in the liver and plasma. However, some
individuals have a genetic variation that leads to a deficiency or abnormality of pseudocholinesterase, which results in a prolonged
action of succinylcholine.
In individuals with normal pseudocholinesterase activity, succinylcholine is rapidly metabolized after administration, leading to a short
duration of paralysis (usually 5-10 minutes).
In people with genetic polymorphism leading to pseudocholinesterase deficiency or abnormal pseudocholinesterase activity,
succinylcholine is broken down more slowly. As a result, the neuromuscular blockade lasts much longer, and the individual may
experience prolonged paralysis, sometimes lasting hours. This is because the drug remains at the neuromuscular junction for a
longer period of time, continuing to cause depolarization and preventing repolarization.

List two non-depolarising neuromuscular blockers and explain their interactions with use of aminoglycosides
A. Rocuronium
B. Vecuronium

Aminoglycosides (e.g., gentamicin, tobramycin, amikacin) are a class of antibiotics that can enhance the effects of non-depolarizing
neuromuscular blockers
Mechanism of Interaction:

Aminoglycosides act by binding to bacterial ribosomes and inhibiting protein synthesis. However, they also have a secondary
effect on the neuromuscular junction. They can decrease the release of acetylcholine from the presynaptic nerve endings by
inhibiting calcium influx, leading to reduced neuromuscular transmission.
Non-depolarizing neuromuscular blockers (such as rocuronium and vecuronium) compete with acetylcholinefor binding to
nicotinic receptors on the muscle cell membrane, leading to muscle paralysis. The inhibition of acetylcholine release by
aminoglycosides exacerbates the action of these blockers, resulting in a more profound or prolonged muscle paralysis