Pharmacology of CVS - Angina

Question 1

What is angina?

Answer 1

→ Angina is chest pain or pressure when there is a build up of lactic acid during anaerobic respiration
→ due to not enough blood flow to the heart muscle.
Signal via cardiac nerves and upper posterior nerve roots

Question 2

What are the symptoms of angina pectoris?

Answer 2

→crushing chest pain, also in the jaw, shoulders, arms, etc.
→shortness of breath
→sweating
→ nausea

Question 3

How many people suffer from angina pectoris in the UK and what is the prevelance?

Answer 3

→2 million sufferers in the UK

2-4% of Western countries

Question 4

What are the symptoms of typical angina?

Answer 4

→ typical angina
→ substernal chest discomfort of characteristic quality + duration
→provoked by exertion or emotional stress
→symptoms attributed to myocardial ischemia
→short duration radiation to left arm, neck, jaw. Lasts 2-5 minutes

Question 5

How can typical angina be relieved?

Answer 5

→ rest + medications

Question 6

Why is stable angina classified as predictable?

Answer 6

→ recurrent episodes have a similar onset pattern, duration + intensity

Question 7

What does a coronary spasm lead to? (Prinzmetal angina)

Answer 7

Caused by drugs like cocaine.

→ Critical reduction in blood flow so oxygen supply is inadequate

Question 8

What is supply ischaemia?

Answer 8

→ When there is decreased coronary blood flow due to vasospasm or a thrombus / blockage

Question 9

What is demand ischaemia?

Answer 9

→Increased demand for oxygen in the heart muscle

→ Due to fixed stenosis

Question 10

What are precipitating factors for angina?

Answer 10

→ Increased sympathetic activity
→ Increased contractility - exercise, emotion or stress
→ Increased vasoconstriction

Question 11

What are the three ways to treat angina?

Answer 11

→ Improving perfusion
→ Reducing metabolic demand
→ Prevention

Question 12

How do you improve perfusion with angina?

Answer 12

→ Increase oxygen delivery by improving coronary blood flow

→ coronary vasodilators

Question 13

How do you reduce metabolic demand with angina?

Answer 13

→ Decrease cardiac work
→ Using vasodilators ( reduce afterload + preload)
→ Using cardiac depressants ( reduce HR + contractility)

Question 14

How do you prevent angina?

Answer 14

→ Prophylactic to reduce risk of episodes
→ lipid lowering
→ anti-coagulants
→ Fibrinolytic
→anti-platelet

Question 15

What does clot formation lead to? (unstable angina)

Answer 15

→ Occludes the artery

→ There is a critical reduction in blood flow so oxygen supply is inadequate even at rest

Question 16

What does a narrowed coronary artery lumen lead to? (stable angina)

Answer 16

→ Restricted blood flow to area of the myocardium it supplies
→ Oxygen is receives is insufficient when the heart has to work harder
→ Anaerobic respiration
→Pain

Question 17

How is preload reduced by giving nitrates?

Answer 17

→ Peripheral venodilation
→ Decreases intraventricular pressure
→ Cardiac preload decreases
→reduced oxygen demand by decreasing the work of the heart

Question 18

How is afterload reduced by giving nitrates?

Answer 18

→ Arterial dilation
→ Decreases total TPR
→ Reduces afterload
→reduced oxygen demand

Question 19

What are adverse effects of nitrates and why?

Answer 19

→ Headache, flushing, syncope ( arterial dilation)
→ Postural hypotension ( venodilation)
→ Reflex tachycardia ( sympathetic outflow)

Question 20

How does nitric oxide work?

Answer 20

→NO synthase makes NO from L-arginine
→ NO activates guanylyl cyclase
→ It activates cGMP
→ Activates protein kinase G

→cGMP converted to GMP by phosphodiesterase type 5

Question 21

How does PKG reduce smooth muscle tone?

Answer 21

→ Increase uptake of Ca2+
→ Myosin light chain dephosphorylation
→ Activates K+ channels causing hyperpolarization + closing VGCC

Question 22

What do organic nitrates mimic?

Answer 22

→ Mimic the effects of endogenous nitric oxide

Question 23

How do beta blockers reduce CO and lower blood pressure?

Answer 23

→ Inhibit funny current in the SA node
→ Reduce the force of cardiac contractions- improves exercise tolerance

act on beta 1 receptors in SA node and ventricular myocytes

Question 24

How do beta blockers slow heart rate?

Answer 24

→ Lengthens diastole and gives more time for coronary perfusion
→ Improves myocardial oxygen supply

Question 25

What are the contraindications and adverse side effects of beta blockers?

Answer 25

ASTHMA
→ Blocking beta two can cause constriction + bronchospasm
HEART BLOCK
→ AV conduction is poor can block AV node

→side effects: fatigue, bronchospasm, postural hypotension

Question 26

How do calcium blockers reduce contractility?

Answer 26

→ Reduce Ca2+ entry into the myocytes

Question 27

How do calcium blockers cause more coronary blood flow?

Answer 27

→ Direct coronary vasodilatation

Question 28

What is the effect of reducing TPR/ BP/ Afterload due to calcium channel blockers?

Answer 28

→ Heart works less hard to eject blood

Question 29

How do Ca2+ blockers cause less O2 consumption?

Answer 29

→ Reducing the force of contraction

Question 30

What are adverse effects of Ca2+ blockers?

Answer 30

→ Lower limb oedema- increased capillary pressure in lower limbs
→ Flushing + headache- excess vasodilation
→ Reflex tachycardia

Question 31

What is a risk of using Ca2+ blockers?

Answer 31

→ Blocking Ca2+ channels in the heart can change electrical conduction + contractility

Question 32

What is the mechanism of action of Ca2+ blockers in ventricular myocytes and vascular smooth muscle?

Answer 32

→ Reduce Ca2+ influx through voltage gated L-type channels in smooth + cardiac muscle
→In ventricular myocytes, they block the beta 1 receptors- reduced PKA, reduced CICR, reduced contractility
→In vascular smooth muscle, they block alpha 1 receptors, PLC, PKC, Na channels, reduced vasoconstriction

Question 33

What are three drugs given when Ca2+ blockers don’t work?

Answer 33

→ Nicorandil, ivabradine and ranolazine

Question 34

What are three prophylactic drugs for angina?

Answer 34

→ aspirin - reduces platelet aggregation
→ clopidogrel - reduces platelet aggregation
→ Statins - reduces cholesterol

Question 35

What are the characteristics of unstable angina?

Answer 35

→unpredictable
→pain symptoms more severe, and lasts longer
→happens at rest with little exertion or trigger
→not relieved by rest and medications
→serious, emergency

Question 36

Which type of angina is common young people?

Answer 36

Prinzmetal angina

→cocaine

Question 37

What are the symptoms and how can atypical angina be relieved?

Answer 37

→heart burn, Raynaud’s phenomenon, sweating, dizziness

→medication

Question 38

How does microvascular angina arise?

Answer 38

→impaired vasodilation in coronary circulation/ increased constriction
→reduced coronary perfusion
→pain
→patients do not have obstructive coronary artery disease

Question 39

Why is microvascular angina hard to diagnose and how is it done?

Answer 39

→because coronary microvasculature cannot be directly imaged in vivo
→positron emission tomography or cardiac magnetic resonance are used to assess coronary microvasculature blood flow

Question 40

What are some prophylactic drugs for angina?

Answer 40

→Aspirin- inhibits COX which reduced thromboxane A2, and platelet aggregation(GPIIb/IIa expression)- reduces thrombosis
→Clopidogrel- inhibits ADP receptor on platelets reduces aggregation, reduces thrombosis
→ Statins- HMG Co-a reductase inhibitor- reduced cholesterol levels

Question 41

How does nicorandil work?

Answer 41

→K+ channel, hyperpolarisation- VGCC reduced and Ca2+ entry reduced so coronary vasodilation.
Has a nitrate moiety so there’s venodilation via NO generation

Question 42

How does ivabradine work?

Answer 42

specific inhibitor of funny cuurent in SA nose- slows heart rate
→decrease pacemaker potential frequency- decreases heart rate to reduce myocardial O2 demand

Question 43

How does ranolazine work?

Answer 43

→late Na+ inhibitor- reduces Ca2+ in ischaemic myocardial cells which reduces oxygen demand
→reduce compression of small intramyocardial coronary vessels- improves myocardial perfusion

Question 44

Examples of beta blockers, nitrates and Ca2+ channel blockers

Answer 44

BETA BLOCKERS:
→atenolol
→bisoprolol

NITRATES:
→glyceryl trinitrate, isosorbide mononitrate

Ca2+ CHANNEL BLOCKERS:
→dihydropyridines(vascular)- amplodipine, nifedipine
→benzothiazepines(cardiac) - verapamil
→diphenylalkyamines(both)- diltiazem

Question 45

What is the first line of action in symptom control?

Answer 45

→ GTN +

→beta blocker or Ca2+ channel blocker

Question 46

What is the second line of treatment in symptom control?

Answer 46

→dihydropyridine calcium channel blocker to beta-blocker

→nicorandil, ivabradine, ranolazine

Question 47

What are the primary prevention methods?

Answer 47

→lifestyle advice
→aspirin daily
→lipid lowering therapy
→ACE inhibitor
→angiotensin II receptor agonist