Action of Drugs on the CVS -- 7.2

Question 1

What do drugs for the CVS have an effect on?

Answer 1

• • rate and rhythm of heart
• • force on contraction
• • peripheral resistance and blood flow
• • blood volume

Question 2

Define arrhythmia

Answer 2

an abnormality of heart rate or rhythm

Question 3

Give 5 types of arrythmia

Answer 3

1. Bradycardia
2. Atrial flutter
3. Atrial fibrillation
4. Tachycardia (ventricular and supraventricular)
5. Ventricular fibrillation – no coordinated electrical activity so no coordinated contraction

Question 4

What are the 3 causes of arrhythmias?

Answer 4

1. Ectopic pacemaker activity – pacemaker activity not where it is meant to be
2. Afterdepolarizations
3. Re-entry loop – problem with conduction
4. Sarah’s Doctor Who Uno

Question 5

Define afterdepolarisations

Answer 5

• • anything that prolongs the duration of the AP
• • can trigger a premature action potential
• • longer AP so longer QT interval
• • could be due to increased intracellular calcium

Question 6

GIve an example of re-entry loop and describe it

Answer 6

problem with conduction e.g. conduction delay
There is a block of a branch of purkinje fibre
Incomplete conduction damage

– unidirectional block

– excitation takes the long route to spread the wrong way setting up a circus of excitation

– can get several small re-entry loops in the atria which can cause atrial fibrilation

Question 7

Describe ectopic pacemaker activity

Answer 7

Damaged area of myocardium because depolarised and spontaneously active.
Latent pacemaker region activated due to ischaemia
Dominate over SA node

Question 8

What are the 4 basic classes of anti-arrhythmic drugs?

Answer 8

1. Drugs that block voltage gated Na+ channels
2. Antagonists of β-adrenoceptors
3. Drugs that block K+ channels
4. Drugs that block Ca2+channels

Question 9

Give an example of a drug that blocks voltage-gated Na channels and what they do

Answer 9

lidocaine
They block channels in open or inactive state
– are able to dissociate rapidly before the next AP
– Prevents firing of AP too close to each other

Question 10

When are class I drugs used and why?

Answer 10

After MI w/ ventricular tachycardia

– prevents the automatic firing of the depolarised, damaged area of the myocardium

Question 11

Give an example if antagonists of B-adrenoceptors and what they do

Answer 11

Propranolol, atenolol

– block sympathetic action (B-1 adrenoceptors in heart) and decrease slope of pacemaker potential in the SA

Question 12

When are class II drugs used?

Answer 12

Used after MI –> decreased sympathetic activity which prevent ventricular arrhythmias.

– reduces O2 demand to reduce the risk of myocardial ischaemia

– slows AV node conduction (prevents supraventricular tachycardias)

Question 13

What do drugs that block K+ channels do?

Answer 13

– prolong the AP to lengthen the absolute refractory period
– should prevent and AP from occurring too soon, but can be proarrhythmic
Are not generally used

Question 14

What class III drug is used regularly?

Answer 14

Amiodarone
– used to treat tachycardia associated with Wolff-Parkinson-White syndrome (re-entry loop due to extra conduction pathway)

Question 15

GIve an example of a drug which blocks calcium channels and what they do

Answer 15

Verapamil

• • Decreases the slope of pacemaker action potential at SA node and decreases AV node conduction.
• • This causes a decrease in the force of contraction (negative ionotropy)
• • Can cause coronary and peripheral vasodilation

Question 16

What is adenosine?

Answer 16

Acts on A2 receptors at AV node to enhance K+ conductance (prevents conduction through the AV node)
– inhibits adenylyl cyclase
Does not fit into the classes
– short half life of ~ 10 seconds
– Allows heart to get back to a synchronous rhythm h

Question 17

What are the features of heart failure that have to be combatted?

Answer 17

– Reduced force of contraction – Reduced cardiac output
– Reduced tissue perfusion
– Oedema

Question 18

What are positive ionotropes used for?

Give an example of a positive ionotrope

Answer 18

Increase the cardiac output

Cardiac glycosides

Question 19

What are the general actions of cardiac glycosides?

Answer 19

Improve the symptoms of heart failure

Are not good in the long term

Question 20

What is the molecular action of cardiac glycosides?

Answer 20

• -> blocks Na+/K+ ATPase so increases intracellular Na conc as well as intracellular Ca as the Na/Ca exchanger is inhibited
• -> increase vagal activity via CNS (slows AV conduction and heart rate

Question 21

Give an example if antagonists of B-adrenoceptors and what they do

Answer 21

Propranolol, atenolol

– block sympathetic action (B-1 adrenoceptors in heart) and decrease slope of pacemaker potential in the SA

Question 22

What is the effect of cardiac glycosides?

Answer 22

• -> blocks Na+/K+ ATPase
• -> Na/Ca exchanger still works so [Na] increases
• -> increased [Na] causes Na/Ca to exchange less, so [Ca] increases
• -> increase [Ca] increases the force on contraction (positive ionotropic effect)

INCREASE CARDIAC OUTPUT

Also cause increase vagal activity
(slows AV conduction and HR)

Question 23

What class of drugs increase myocardial activity and give an example

Answer 23

Beta-adrenoceptor agonist

Dobutamine

Question 24

When are drugs which increase myocardial activity used?

Answer 24

1. Cardiogenic shock

2. Acute but reversible heart failure, for example after heart surgery

Question 25

What are ACE-inhibitors?

Answer 25

drugs which inhibit the action of angiotensin converting enzyme

Question 26

What do ACE-inhibitors do?

Answer 26

They prevent the conversion of angiotensin I to angiotensin II
– angiotensin II acts on the kidneys to increase Na+ and H20 reabsorption. It is also a vasoconstrictor.
– decrease Na+ and water retention by kidney (decrease blood volume)
– decrease total peripheral resistance due to vasodilation
- decrease blood pressure by decreasing vasomotor tone, reducing afterload

Question 27

What does angiotensin II stimulate the release of?

Answer 27

Aldosterone from the adrenal cortex

Question 28

Define angina

Answer 28

Occurs when O2 supply to the heart does not meet its need
Causes Ischaemia of heart tissue
Usually causes chest pain upon exertion which is due to narrowing of the coronary arteries

Question 29

What are the general ways of treating angina

Answer 29

Reduce the work load of the heart
and
Improve the blood supply to the heart

Question 30

What drugs reduce the work load of the heart?

Answer 30

– β-adrenoreceptor blockers
– Ca2+ channel antagonists
– organic nitrates

Question 31

What drugs improve the blood supply of the heart?

Answer 31

– organic nitrates

– Ca2+ channel antagonists

Question 32

What is the general action of organic nitrates?

Answer 32

Reduce venous pressure due to venodilation and dilate the coronary arteries

Question 33

Describe the molecular action of organic nitrates

Answer 33

The react with -SH groups in vascular smooth muscle causing the release of NO (powerful vasodilator)
NO activates guanylate cyclase. This converts GTP to cGMP to lower [Ca].
Lower [Ca] relaxes the vascular smooth muscle –> venodilation

Question 34

What is the primary action of organic nitrates?

Answer 34

Cause venodilation which lowers preload

– reduces work load, lowers force on contraction and lowers O2 demand

Question 35

What is the secondary action of organic nitrates?

Answer 35

Acts to dilate the coronary arteries so improves O2 supply to ischaemic myocardium
– usually collateral arteries rather than arterioles to bypass atheromatous plaque

Question 36

Which conditions carry an increased risk of a thrombus forming?

Answer 36

– Atrial fibrillation
– Acute myocardial infarction
– Mechanical prosthetic heart valves

Question 37

What are the two classes of drugs that are antithrombitic drugs?

Answer 37

Anticoagulants and anti-platelet drugs

Question 38

Give three anticoagulants and what they do

Answer 38

1. Heparin (given intravenously)
   - - inhibits thrombin and is used acutely (short term action)
2. Fractionated heparin (subcutaneous injection)
3. Warfarin (given orally)
   - - antagonises action of vitamin K so can be used long term

Question 39

Give an antiplatelet drug

Answer 39

Aspirin

– taken following an acute MI of if someone has a high risk of an MI

Question 40

What are possible treatments for hypertension?

Answer 40

– diuretics
– ACE-inhibitors
– β-blockers
– Ca2+ channel blockers which act at vascular smooth muscle
– α1-adrenoceptor antagonists

Question 41

What characteristics are associated with hypertension?

Answer 41

Increased blood volume

Increased TPR

Question 42

What do diuretics do?

Answer 42

decrease Na+ and water retention by kidney therefore decrease blood volume

Question 43

What do beta-blockers do?

Answer 43

Decrease the cardiac output

Question 44

What do drugs that are Ca2+ channel blockers selective for vascular smooth muscle do?

Answer 44

Cause vasodilatation

Question 45

What do alpha-one adrenoceptor antagonists do?

Answer 45

Cause vasodilation

Question 46

What is the equation the links BP, TPR and CO?

Answer 46

BP = CO x TPR

Question 47

What do organic nitrates not dilate?

Answer 47

Arterioles