Session 9 - Drugs and CVS

Question 1

What are ACE inhibitors?

Answer 1

-Drugs which inhibit angiotensin converting enzyme

Question 2

What is the function of angiotensin converting enzyme?

Answer 2

-Converts inactive angiotensin I to the active angiotensin II

Question 3

What is the function of angiotensin II?

Answer 3

• Act on the adrenal cortex to cause aldosterone secretion

- Vasoconstrictor

Question 4

What are ACE inhibitors used for?

Answer 4

• Heart failure to reduce work load

- Hypertension

Question 5

How do ACE inhibitors reduce the workload of the heart?

Answer 5

• Prevent the conversion of angiotensin I to angiotensin II
• Decreases Na reabsorption and thus water reabsorption decreasing blood volume-> reduces preload
• prevention of angiotensin II-> decreased vasomotor tone -> reduced afterload

Question 6

What types of cvs disorders are treated with drugs?

Answer 6

• Heart failure
• Angina
• Hypertension
• Arrythmias
• Risk of thrombus formation

Question 7

What types of actions can drugs have on the CVS?

Answer 7

• The rate and rhythm of the heart
• The force of myocardial contraction
• Peripheral resistance and bloodflow
• Blood volume

Question 8

Name the general types of arrythmias/dysrhytmias

Answer 8

• Bradycardia
• Atrial flutter
• Atrial fibrillation
• Tachycardia (ventricular or supraventricular)
• Ventricular fibrillation

Question 9

What are the three general causes of arrhythmias?

Answer 9

• Ectopic pacemaker activity
• Afterdepolarisations
• Re-entry loop

Question 10

What are the common causes of ectopic pacemaker activity?

Answer 10

• Damaged area of myocardium becomes depolarised and spontaneously active causing atrial and/or ventricular AP
• Latent pacemaker region activated due to ischaemia (dominates over SAN)

Question 11

What is an afterdepolarisation?

Answer 11

-Spontaneous, yet triggered, abnormal depolarisation following an action potential

Question 12

What are the causes of re-entry loops?

Answer 12

• Conduction delay (unidirectional block)

- Accessory pathway (Wolfe-Parkinson-White syndrome)

Question 13

What is a re-entry loop?

Answer 13

-Conduction block or accessory pathway causes electrical signal to take an alternative route to normal which becomes a self-sustaining circulating pathway as the electrical signal circles back upon itself

Question 14

What is the establishment of a re-entry loop dependant upon?

Answer 14

-The refractoryness of the cells and the timing as the electrical signal needs to find excitable tissue when it circles back on itself. If it can’t find excitable tissue the loop will not be entered

Question 15

What are the two types of re-entry loop?

Answer 15

• Global re-entry between atria and ventricles

- Re-entry within a local region

Question 16

What are the two kinds of afterdepolarisation?

Answer 16

• Delayed after depolarisation

- Early after depolarisation

Question 17

What type of Arrythmias do afterpolarisations cause?

Answer 17

-Atrial or ventricular tachycardia

Question 18

What is an early afterdepolarisation? What is there most likely cause?

Answer 18

• Occur during late phase 2 or phase 3 of an AP and usually leads to several rapid AP
• Caused by a prolonged duration of AP

Question 19

What is a delayed afterdepolarisation? what is the most associated cause?

Answer 19

• Occur when the AP is nearly or fully repolarised

- Associated with high intracellular Ca

Question 20

What syndrome characteristically has a prolonged action potential?

Answer 20

-Long QT syndrome

Question 21

How can re-entry loops lead to atrial fibrillation?

Answer 21

-If multiple small re-entry loops appear in the atria

Question 22

What are the 4 basic classes of antiarrhythmic drugs?

Answer 22

I) Voltage-sensitive Na channel blockers
II) B-blockers
III) Potassium channel blockers
IV) Calcium channel blockers

Question 23

Name a typical antiarrhythmic class I drug

Answer 23

-Lidocaine

Question 24

What is lidocaine and how does it work?

Answer 24

• Local anaesthetic
• Blocks voltage gated Na channels in the open or active state, ie it has use dependance
• Then dissociates rapidly in time to block the next AP

Question 25

When is lidocaine used in the CVS and why?

Answer 25

• Used intravenously following MI if signs of ventricular tachycardia
• Tachycardia caused by areas of damaged myocardium which are depolarised firing AP spontaneously
• Lidocaine blocks the Na as they open upon firing as it is use dependant and prevents automatic firing of AP

Question 26

Give examples of b-blockers (class II antiarrhythmics)

Answer 26

• Propranolol

- Atenolol

Question 27

What is the function of b-blockers?

Answer 27

-Block sympathetic action of b1-Adrenoreceptors in the heart and thus decrease HR and reduce the force of contraction

Question 28

How do b-blockers decrease the HR and reduce force of contraction?

Answer 28

• NA acts on b1 adrenoreceptors which have Gas-> Gas stimulates AC and increases cAMP -> cAMP increased opening of HCN channels increasing slope -> increases HR
• Also increasing cAMP activates PKA which increases Ca entry during AP plateau, b1 adrenoreceptor activation also increases Ca uptake into SR and increases sensitivity of contractile machinery to Ca -> increases force of contraction
• blocking sympathetic activity will therefore reduce HR and contraction

Question 29

When are B-blockers used?

Answer 29

• Heart failure to reduce workload
• Following MI to prevent ventricular arrhythmias -> MI causes an increase in sympathetic activity which can partly cause arrhythmias
• To reduce O2 demand of the heart following MI
• Slow AV conduction to prevent supraventricular tachycardias

Question 30

How do b-blockers decrease the O2 demand of the heart?

Answer 30

-Reduced force of contraction -> reduced myocyte workload -> reduced O2 demand

Question 31

Why are class III antiarrhythmic drugs used?

Answer 31

-To prolong AP and lengthen the absolute refractory period to prevent another AP occuring too soon

Question 32

What are class III antiarrhythmic drugs?

Answer 32

-K+ channel blockers

Question 33

Why are potassium channel blockers not generally used?

Answer 33

-Can be pro-arrhythmic

Question 34

Why and when is amiodarome used even though it is a K channel blocker?

Answer 34

• It has other actions in addition to blocking K+ channels

- Used to treat tachycardia associated with WPW syndrome

Question 35

What is an example of a Ca channel blocker? (class IV antiarrhythmic)

Answer 35

-Verapamil

Question 36

What is the aim and mechanism of action of verapamil?

Answer 36

• Blocks Ca channels to:
• Decreases slope of pacemaker action potential at SA node (takes longer to reach threshold) (decreasing HR)
• Decreases AV nodal conduction
• Decreases force of contraction

Question 37

What do dihydropyridine Ca channel blockers act on?

Answer 37

-Vascular smooth muscle

Question 38

What is the ultimate aim of diuretics?

Answer 38

-To reduce blood volume

Question 39

What is the mechanism of adenosine when administered pharmacologically?

Answer 39

• Acts on A1 receptors of SAN to inhibit AC and decrease cAMP which decreases Ca channel opening and HCN channel opening -> slows conduction
• Slows AV node conduction
• Vasodilates coronary and systemic vessels

Question 40

When is adenosine used and why?

Answer 40

-Rapid treatment of supraventricular tachycardias as it suppresses AV conduction

Question 41

What is heart failure?

Answer 41

-Chronic failure of the heart to provide sufficient output to meet the bodys requirements

Question 42

What are the features of heart failure?

Answer 42

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

Question 43

What are the two possible aims of drugs used in heart failure?

Answer 43

• Increase cardiac output (positive inotropes)

- Reduce the workload

Question 44

What two groups of drug are used to increase cardiac output in heart failure?

Answer 44

• Cardiac glycosides

- B-adrenergic agonists

Question 45

What is the aim of cardiac glycosides, in terms of treatment?

Answer 45

• Improve symptoms

- Not a long term outcome

Question 46

What is digoxin? What is it’s mechanism of action?

Answer 46

-A cardiac glycoside -> blocks NaKATPase -> rise in intracellular Na-> Decreases activity of NCX as Na gradient depleted -> Ca not pumped out so accumulates in cell -> increase in SR store -> increases inotropy

Question 47

Why can cardiac glycosides also be used in tachycardia?

Answer 47

-Increases vagal activity of the heart slows AV conduction and thus the HR

Question 48

How do b-adrenoreceptor agonists increase cardiac output?

Answer 48

• Acts on b1 receptors by mimicing noradrenaline -> Gas -> AC-> increased cAMP-> acts on HCN channels -> increased inotropy
• Increased cAMP activates PKA-> PKA phosphorylates Ca2+ channels increasing opening and increasing Ca during plateau phase
• Activating b1 also increase Ca uptake into SR and increases sensitivity of contractile machinery to Ca -> increased chronotropy

Question 49

-When are b1 adrenoreceptor agonists used?

Answer 49

• Cardiogenic shock

- Acute but reversible heart failure (eg after surgery)

Question 50

Why arent cardiac glycosides a long term soluteion?

Answer 50

-The heart is already damaged, making it work harder is not a long term solution

Question 51

When does angina occur?

Answer 51

-When the o2 supply to the hear does not meet its need

Question 52

What is angina?

Answer 52

-Ischaemia of the heart tissue due to narrowing of the arteries (atheromatous disease) causing chest pain

Question 53

When is angina most commonly seen? why?

Answer 53

• Upon exertion
• Heart already under decreased blood supply as arteries narrowed -> increased exertion -> increases heart rate-> shortens diastole -> decreased filling of coronary arteries with increased o2 demand (do not fill properly due to increased resistance)-> o2 demand not met

Question 54

What are the aims of treatment in angina?

Answer 54

• Reduce the workload of the heart to reduce o2 demand

- Improve the blood supply to the heart

Question 55

What drugs catagories can be used to decrease the workload of the heart?

Answer 55

• B-adrenoreceptor blockers (b-blockers)
• Ca2+ channel antagonists
• Organic nitrates
• ACE inhibitors

Question 56

What drugs can be used to increase the blood supply to the heart?

Answer 56

• Organic nitrates (vasodilator)

- Ca2+ channel antagonists

Question 57

How do organic nitrates work?

Answer 57

• Organic nitrates react with thiold in vascular smooth muscle and cause NO2• to be released
• NO2• is reduced to No which is a powerful vasodilator

Question 58

Name an organic nitrate

Answer 58

• Glyceryl trinitrate

- Isosorbide dinitrate

Question 59

How does NO cause vasodilation?

Answer 59

-NO activates guanylate cyclase-> increases cGMP -> lowers intracellular Ca -> relaxation of vascular smooth muscle

Question 60

How do organic nitrates relieve symptoms of angina?

Answer 60

Primary action -> act on venous system to cause venodilation -> reduces venous pressure-> lowers preload of the heart as heart fills less and thus force of contraction decreased -> lowers O2 demand

Secondary action -> Acts on coronary arteries and improves o2 delivery to ischaemic myocardium (NB acts on collaterals to improve circulation rather than arterioles)

Question 61

What heart conditions carry an increased risk of thrombus formation?

Answer 61

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

Question 62

What are the two groups of antithrombotic drugs?

Answer 62

• Anticoagulants

- Antiplatelet

Question 63

What is heparin?

Answer 63

-An anticoagulant which inhibits thrombin

Question 64

What is warfarin?

Answer 64

• An anticoagulant which is used long term to antagonise the action of vitaminK
• Vit K is necessary for the synthesis of prothrombin in the liver

Question 65

What is aspirin?

Answer 65

• An antiplatelet drug which inhibits platelet function by inhibiting the production of thromboxane (inhibits platelet aggregation)
• Used to prevent thrombus formation following an MI, or in high risk MI pts

Question 66

What are the two causes of hypertension?

Answer 66

• Increased blood volume

- Increased TPR

Question 67

What are the possible aims to treat hypertension?

Answer 67

• Lower blood volume
• Lower cardiac output directly
• Lower peripheral resistance

Question 68

Why can diuretics be used to treat hypertension?

Answer 68

-Reduce blood volume by preventing Na and water reabsorption

Question 69

Why can ACE inhibitors be used to treat hypertension?

Answer 69

• Decrease Na and water retention by kidney

- Decrease total peripheral resistance (vasodilation)

Question 70

Why can b-blockers be used to treat hypertension?

Answer 70

-Reduce cardiac output

Question 71

Why can Ca channel blockers selective for vascular smooth muscle be used to treat hypertension?

Answer 71

-Cause vasodilation by reducing intracellular calcium

Question 72

Why can an a1-adrenoreceptor antagonist be used to treat hypertension?

Answer 72

-Blocks a1-adrenoreceptor activity -> reduces vasoconstriction