PHARMACOLOGY

Question 1

mechanism of ivabradine

Answer 1

selective blocker of HCN channels

Question 2

effect of ivabradine on the pacemaker potential

Answer 2

reduces the slope

Question 3

ivabradine effect

Answer 3

slows HR

reduces oxygen consumption

Question 4

ivabradine uses

Answer 4

angina
tachycardia
mild to moderate chronic heart failure

Question 5

side effects of ivabradine

Answer 5

arrhythmias

hypotension

Question 6

name B-adrenoreceptor agonists

Answer 6

dobutamine
adrenaline
noradrenaline

Question 7

which channels is dobutamine selective for?

Answer 7

B1

Question 8

mechanisms of B-adrenoreceptor agonists

Answer 8

results in stimulation of adenylyl cyclase and production of cAMP which generates protein kinase A
phosphorylation increases Ca++ influx and release of Ca++ from the SR

Question 9

effect of B-adrenoreceptor agonists

Answer 9

increase contractility, force and rate

decrease cardiac efficiency

Question 10

use of B-adrenoreceptor ligands

Answer 10

infarction
cardiogenic shock 
cardiomyopathies 
inotropic support 
heart failure (dobutamine) 
asthma emergency (adrenaline)
anaphylactic shock

Question 11

side effects of B-adrenoreceptor agonists

Answer 11

arrhythmias

acute MI

Question 12

name B blockers

Answer 12

propranolol
metoprolol
atenolol

Question 13

which of the B blockers is non selective?

Answer 13

propranolol

Question 14

which of the B blockers are selective for B1?

Answer 14

metoprolol

atenolol

Question 15

effect of B blockers

Answer 15

decrease in heart rate, contractility, MAP and O2 consumption

Question 16

use of B blockers

Answer 16

angina
hypertension
heart failure

Question 17

side effects of B blockers

Answer 17

asthma 
fatigue 
cold peripheries 
heart failure 
bradycardia (heart block) 
hypoglycaemia

Question 18

which patients could have heart failure as a side effect of beta blockers?

Answer 18

in patients who rely on sympathetic drive to maintain CO

Question 19

name the muscarinic antagonist which is non selective for M2 receptors

Answer 19

atropine

Question 20

effect of atropine (muscarinic antagonist)

Answer 20

increase in heart rate

Question 21

use of atropine (muscarinic antagonist)

Answer 21

reverse bradycardia following an MI

Question 22

side effects of atropine

Answer 22

arrhythmias
hallucinations
confusion

Question 23

name the cardiac glycoside

Answer 23

digoxin

Question 24

mechanism of action of digoxin

Answer 24

competes with K+ and at alpha subunit blocks the Na/K ATPase pump

Question 25

effect of digoxin

Answer 25

increase in contractility, force and CO
indirect- increased vagal discharge and slows SA node discharge
shortens action potential and refractory period

Question 26

when are the effects of digoxin dangerously enhanced?

Answer 26

hypokalaemia

Question 27

use of digoxin

Answer 27

heart failure

atrial fibrillation

Question 28

side effects of digoxin

Answer 28

heart block
dysrhythmias
myocarditis

Question 29

name the calcium sensitiser

Answer 29

levosimendan

Question 30

mechanism of levosimendan

Answer 30

binds to troponin C in myocytes, sensitising them to Ca2+

Question 31

effect of levosimendan

Answer 31

increase in contractility

Question 32

use of levosimendan

Answer 32

acutely decompensated congestive heart failure

Question 33

side effects of levosimendan

Answer 33

headaches
arrhythmias
hypokalaemia

Question 34

class I anti arrhythmic drug

Answer 34

A = disopyramide 
B = lignocaine 
C = flecainide

Question 35

mechanism of class I

Answer 35

voltage activated Na+ channels

reduces Na+ channel current

Question 36

use of class I

Answer 36

rhythm control

Question 37

side effects of class I

Answer 37

negative inotropic effects

Question 38

class II anti arhythmic drug

Answer 38

B-blockers eg propranolol

Question 39

use of class II

Answer 39

rate control

Question 40

class III anti arhythmic drug

Answer 40

amiodaron sotalol

Question 41

mechanism of amiodaron sotalol

Answer 41

voltage activated K+ channels

action potential prolongation

Question 42

use of amiodaron sotalol

Answer 42

rhythm control

Question 43

class IV anti arrhythmic drug

Answer 43

Ca2+ channel antagonist eg verapamil

Question 44

use of class IV

Answer 44

rate control

Question 45

name nitrates

Answer 45

isosobide mononitrate

GTN spray

Question 46

mechanism of nitrates

Answer 46

mimic the effect of endothelium 
produce nitric oxide 
NO causes efflux of Ca++ producing hyperpolarisation and relaxation 
cGMP is also produced which regulates protein kinase G activity causing relaxation 
endothelin is also produced 
venorelaxation
arteriolar dilatation 
increase in coronary blood flow

Question 47

name ACE inhibitors

Answer 47

prills eg ramipril

Question 48

mechanism of ACE inhibitors

Answer 48

block the conversion of angiotensin I to angiotensin II so aldosterone and ADH are not stimulated

Question 49

effect of ACE inhibitors

Answer 49

vasodilation and arterial dilation

Question 50

use of ACEis

Answer 50

hypertension

heart failure

Question 51

side effects of ACEis

Answer 51

renal dysfunction
oedema
dry cough

Question 52

when are ACEi and ARBs contraindicated?

Answer 52

pregnancy

Question 53

name the ARBs

Answer 53

tans eg losartan

Question 54

mechanism of ARBs

Answer 54

blocks angiotensin II receptors

Question 55

use of ARBs

Answer 55

hypertension
heart failure
intolerance of dry cough of ACEi

Question 56

side effects of ARBs

Answer 56

renal dysfunction

oedema

Question 57

name calcium antagonists

Answer 57

amlodipine
verapamil
diltiazem

Question 58

mechanism of calcium antagonists

Answer 58

decrease conduction at SA and AV node

Question 59

effect of calcium antagonists

Answer 59

decrease in heart rate

Question 60

use of calcium antagonists

Answer 60

hypertension
angina
supraventricular arrhythmias

Question 61

side effects of calcium antagonists

Answer 61

ankle oedema

bradycardia (caution when using beta blockers)

Question 62

name the main alpha blocker

Answer 62

doxazosin

Question 63

mechanism of alpha blockers

Answer 63

block alpha adrenoreceptors to cause vasodilation

Question 64

use of alpha blockers

Answer 64

hypertension

prostatic hypertrophy

Question 65

side effect of alpha blockers

Answer 65

postural hypertension

Question 66

name potassium channel openers

Answer 66

DILS
minoxidil
nicroandil

Question 67

mechanism of potassium channel openers

Answer 67

causes hyper polarisation which switches off calcium channels
mediated by ATP

Question 68

effect of potassium channel openers

Answer 68

relaxation of vascular smooth muscle

Question 69

use of potassium channel openers

Answer 69

severe hypertension

angina

Question 70

side effects of potassium channel openers

Answer 70

tachycardia

salt and water retention

Question 71

name a thiazide diuretic

Answer 71

bendrofluazide

Question 72

name a loop diuretic

Answer 72

furosemide

Question 73

mechanism of thiazide diuretics

Answer 73

inhibit NaCl reabsorption in distal tubules by blocking NaCl co-transporter

Question 74

mechanism of loop diuretics

Answer 74

inhibit NaCl reabsorption in the thick ascending limb of the loop of henle

Question 75

use of diuretics

Answer 75

hypertension

heart failure

Question 76

effect of diuretics

Answer 76

increase in excretion of Na, Cl and water

Question 77

side effects of diuretics

Answer 77

hypokalaemia
arrhythmias 
fatigue 
hyperglycaemia 
increase in uric acid = gout

Question 78

name statins

Answer 78

simvastatin

atorvastatin

Question 79

mechanism of statins

Answer 79

blocks HMG coA reductase which inhibits the formation of cholesterol

Question 80

effect of statins

Answer 80

decrease in LDL and total cholesterol inflammation

stabilised atherosclerotic plaque and decreases thrombosis

Question 81

use of statins

Answer 81

hypercholesterolemia

Question 82

side effects of statins

Answer 82

used in caution with hypothyroidism and history of liver disease
myalgia, myopathy, myositis

Question 83

name fibrates

Answer 83

bezafibrate

gemfibrozil

Question 84

mechanism of action of fibrates

Answer 84

agonist of nuclear receptors which enhances transcription of lipoprotein lipase which hydrolyses triglycerides to fatty acids and glycerol

Question 85

use of fibrates

Answer 85

high triglyceride levels

Question 86

side effect of fibrates

Answer 86

myositis

Question 87

name bile acid binding resins

Answer 87

colestyramine
colestipol
colsevelam

Question 88

mechanism of bile acid binding resins

Answer 88

cause the excretion of bile salts resulting in more cholesterol to be converted to bile salts
bile resins bind bile in the intestine so it is not absorbed in the duodenum
liver uses metabolises cholesterol to compensate for its lost

Question 89

use of bile acid binding resins

Answer 89

decreased absorption of triglycerides

increased LDL receptor expression

Question 90

side effect of bile acid binding resins

Answer 90

GI tract irritation

Question 91

mechanism of action of ezetimibe

Answer 91

inhibits transport proteins and reduces absorption of cholesterol

Question 92

use of ezetimibe

Answer 92

to lower LDL cholesterol

Question 93

side effects of ezetimibe

Answer 93

diarrhoea
abdominal pain
headache

Question 94

when is ezetimibe contraindicated?

Answer 94

in breast feeding

Question 95

name anticoagulants

Answer 95

warfarin
heparin
LMWH
orally active inhibitors

Question 96

mechanism of action of warfarin

Answer 96

acts as a vitamin K antagonist which prevents production of mature coagulation factors

Question 97

use of anticoagulants

Answer 97

DVT
PE
NSTEMI
AF

Question 98

side effect of warfarin

Answer 98

haemorrhage anywhere

reversed by vitamin K

Question 99

mechanism of action of anticoagulants (except warfarin)

Answer 99

binds to antithrombin III, increasing its affinity for serine proteases to greatly increase their rate of inactivation

Question 100

side effects of anticoagulants

Answer 100

haemorrhage
osteoporosis
hypoaldosteronism
hypersensitivity reactions

Question 101

name anti platelets

Answer 101

aspirin

clopidogrel

Question 102

mechanism of action of anti platelets

Answer 102

prevent new thrombosis
blocks COX, inhibiting formation of TXA2 which causes cross linking of platelets
blocks ADP from binding to P2Y12 receptor and formation of fibrin

Question 103

use of anti platelets

Answer 103

angina
acute MI
cerebral vascular incident (CVA) and TIA
patients at risk of above

Question 104

side effects of anti platelets

Answer 104

haemorrhage
peptic ulcer
aspirin sensitivity -> asthma

Question 105

name fibrinolytic drugs

Answer 105

streptokinase
tissue plasminogen activator
alteplase duteplase

Question 106

mechanism of fibrinolytic drugs

Answer 106

fibrinolytic cascade opposes coagulation cascade

activate formation of plasmin from plasminogen which lysis fibrin into fibrin fragments causing lysis of the clot

Question 107

use of fibrinolytics

Answer 107

STEMI
PE
stroke
reopen acclude arteries

Question 108

side effect of fibrinolytics

Answer 108

haemorrhage risk (controlled by tranexamic acid which inhibits plasminogen activation)