Anti-Anginal Treatment

Question 1

What is angina

Answer 1

An inbalance of supply and demand in regards to oxygen. Ischemia occurs when demand is higher than supply. This inbalance can be a result of obstruction of blood flow in the coronary arteries (less supply), may also be induced by increased demand (exercise).

Question 2

Three types of angina, type 1 is:

Answer 2

Unstable Angina: Recurrent angina associated with minimal exertion. Correlates with the fissuring of atherosclerotic plaque and the subsequent thrombus formation. Associated with MIs

Question 3

Second type

Answer 3

Variant Angina: A reduction on coronary flow due to vasospasm. Has nothing to do with increased demand (exercise). Great prognosis

Question 4

Third Type

Answer 4

Exertional: Exercise induced Angina, usually due to coronary vascular obstruction

Question 5

Most effective way to treat Angina

Answer 5

Reduce demand….decrease HR, decrease contractility, reduce ventricular workload

Question 6

Perfusion of the heart (blood supply to the heart…very important) occurs when?

Answer 6

During Diastole….So if you want to increase supply, you want more Diastole

Question 7

What do Nitrates do?

Answer 7

Release Nitric Oxide

Question 8

Nitrates are:

Answer 8

effective vasodilators, reduce afterload, one of the only veinodilators which means they also reduce pre-load and thus contractility (Frank starling)

Question 9

How does Nitric Oxide work?

Answer 9

A nitrate is given (Nitroglycerine) and it is reduced to NO. NO is important because it activates Guanylyl cyclase. Guanylyl Cyclase is a cousin of adenyly cyclase which converts ATP to cyclic AMP. Guanylyl cyclase converts GTP to cyclic GMP. This is a potent vasodilator causing smooth muscle relaxation.

Question 10

CV effects on nitrates

Answer 10

Decrease in preload, coronary vasodilation, Blood pressure unchanged or slight decrease, HR unchanged or slight decrease, Pulmonary vascular resistnance decreased, Cardiac output reduced

Question 11

Adverse Effects on nitrates

Answer 11

Hypotension…seen with Higher doses of nitrates. This may trigger sympathetic stimulation of the heart (tacchycardia, increased contractility) and decrease coronary perfusion thus worsening angina
May also cause Headache, drug rash,

Question 12

Important adverse Drug interactions

Answer 12

Sildenafil (Viagra) …too much cGMP can be made leading to profound hypotension, MI, etc..

Question 13

What is important in regards to Nitrate metabolism

Answer 13

Rapidly absorbed orally, rapidly metabolized by hepatic enzymes, extensive first pass metabolism makes effective oral administration difficult

Question 14

How do you overcome this rapid hepatic metabolism

Answer 14

1) Bypass the liver by bypassing portal circulation: sublingual, buccal, transdermal, intravenous administration
2) Alter the structure
3) Prodrugs
Force zero order kinetics
4) Extended Release

Question 15

Continuous nitrate exposure leads to

Answer 15

tolerance

Question 16

How do you avoid tolerance

Answer 16

Have an 8-12 hour nitrate free period each day (night usually)

Question 17

Mechanism of tolerance

Answer 17

volume expansion, neurohormonal, depletion of cystein stores which are needs to reduce nitrates to NO

Question 18

Anginal rebound is:

Answer 18

When you suddenly remove IV nitrate and coronary vasospasm occurs. Don’t do this. Overlap the withdrawl of IVs with a patch or oral form

Question 19

Calcium channel blockers work on

Answer 19

L-type calcium channels

Question 20

What are the two classes of calcium channel blockers according to this professor

Answer 20

dihydropyridine and non-dihydropyridine

Question 21

Dilitazem and Verapamil are what type of CCB

Answer 21

Non-dihydropyridine, They work in a use dependent way, that is, the channel must be in use or open for them to bind

Question 22

What tissues do Diltiazem and Verapamil bind?

Answer 22

Cardiac Cells!!!

Question 23

What is the Dihydropyridine calcium blocker

Answer 23

Nifedipine

Question 24

What tissues do the Dihydropyridine blockers target

Answer 24

smooth muscle

Question 25

Dihydropyridines are voltage dependent binders,,,not use dependent

Answer 25

true

Question 26

Effects of Non-dihydropyridne CCBs

Answer 26

Decrease heart rate, decrease contractility, slow AV conduction
Decreased MvO2 (cardiac oxygen demand) by lowering rate, contractility
Prevents and revereses vasospasm

Question 27

Effects of Dihydropyridine Ca channel blockers

Answer 27

Vasodilators (heart rate and contractility unchanged)

Reduces afterload by decreaseing resistance, decreases coronary resistance.

Question 28

Cram slide…look at it

Answer 28

ok

Question 29

Adverse effects of dihydropyridines

Answer 29

excessive vasodilation leading to dizziness, hypotension, headache etc…
GI irritation
Peripheral edema

Question 30

Non-dihydropyridines (Diliazem and Verapamil) side effects

Answer 30

Bradycardia, asystole, AV block
Obviously you shouldn’t give this in pts with CHF
Constipation

Question 31

Mechanism of anti-anginal effects of Beta Blockers

Answer 31

Blunts heart rate and inotropic response to exercise
reduces afterload, does not reduce pre-load
Does not prevent coronary vasospasm

Question 32

Beta blockers particularly useful when combined wit

Answer 32

CCBs and Nitrates

Question 33

Beta blockers reduce herat rate and contractility in response to exercise particularly well

Answer 33

truth…makes them very useful in exertional angina by reducing the level of cardiac stimulation that they get

Question 34

Beta blockers and nitrates are best used for

Answer 34

unstable angina

Question 35

Beta blockers are ineffective in what type of angina

Answer 35

vasospastic

Question 36

Beta blockers useful for MI?

Answer 36

Yes

Question 37

Dihydropyridine CCB alone?

Answer 37

Not usually. Much better with Beta blocker

Question 38

Non-dihydropyridine (with no beta blocker) much better when?

Answer 38

When patients have asthma or bronchospastic COPD, peripheral vascular disease, depression, insulin dependent diabetes

Question 39

Ranolazine

Answer 39

Increases efficiency of O2 utilization on the heart