CAD - Wendt

Question 1

What factors contribute to increased oxygen consumption?

Answer 1

Increased HR, contractility, afterload, and preload

Question 2

What is afterload?

Answer 2

The pressure in the veins that the heart has to match to push blood through the body

Question 3

What is preload?

Answer 3

The volume of blood that enters the heart during diastole

Question 4

If veins are dilated preload is (increased/decreased)?

Answer 4

Decreased

Question 5

If preload is (increased/decreased), oxygen consumption increases?

Answer 5

Increased

Question 6

What are risk factors for angina?

Answer 6

Age (>55 for men, >65 for women)
Cigarette smoking
Diabetes
HTN
Kidney disease
Obesity
Sedentary lifestyle

Question 7

What two factors will increased coronary perfusion when they decrease?

Answer 7

HR and preload

Question 8

How does preload increase the demand of the heart?

Answer 8

The heart has to stretch more to accommodate a larger blood volume

Question 9

Why does a decreased HR increase coronary perfusion?

Answer 9

It allows the heart to spend more time in diastole, when blood can flow into coronary vessels

Question 10

What are the 3 types of angina?

Answer 10

Printzmetal's Variant
Chronic stable (fixed stenosis--narrowing of blood channel)
Unstable (from thrombus)

Question 11

What causes stable angina?

Answer 11

Atherosclerosis which causes oxygen demand to exceed supply

Question 12

What factors precipitate stable agnina?

Answer 12

Exertion, food, emotions (stress, anger, etc)

Question 13

What are the characteristics of variant angina?

Answer 13

Sudden and transient constriction; often occurs at rest and at night; hard to diagnosis because vessels look healthy

Question 14

Is variant angina supply ischemia or demand ischemia?

Answer 14

Supply–cardiac myocytes don’t receive enough oxygen

Question 15

What are characteristics of unstable angina?

Answer 15

A sudden worsening of angina at rest

Question 16

What causes unstable angina?

Answer 16

Thrombosis or plaque rupture

Question 17

What treatment strategy is used for unstable angina?

Answer 17

Inhibit platelet function, dissolve clot

Question 18

Which type of angina often comes before an MI?

Answer 18

Unstable angina

Question 19

What drug classes are used to increase oxygen delivery?

Answer 19

Vasodilators (CCBs, nitrates)

Anti-thrombotics (anticoags, antiplatelets)

Question 20

What drug classes are used to decrease oxygen demand?

Answer 20

Vasodilators
Cardiac depressants (beta blockers, CCBs, HCN channel inhibitor)

Question 21

How does vasodilation occur via NO?

Answer 21

Endothelial cells produce eNOS –> increased NO production –> NO –> moves to VSM –> causes vasodilation by activating cGMP –> MLCP–> dephosphorylates MLC –> can’t bind to actin –> vasodilation

Question 22

What are the organic nitrate drugs?

Answer 22

Glyceryl trinitrate
Isosorbide mononitrate
Isosorbide dinitrate

Question 23

Which of the nitrates is longest acting?

Answer 23

Isosorbide mononitrate

Question 24

Which of the nitrates is shortest acting?

Answer 24

GNT

Question 25

Which of the nitrates are used for angina prophylaxis?

Answer 25

5-ISMN, ISDN

Question 26

Which of the nitrates develop tolerance?

Answer 26

All organic nitrates

Question 27

What is the mechanism of GTN tolerance?

Answer 27

mtALDH is sulfated irreversibly to activate GTN–run out of the enzyme as it is permanently inactivated

Question 28

How long does GTN tolerance last?

Answer 28

a few hours

Question 29

Are organic nitrates more effective in the veins or the arteries? Why?

Answer 29

Veins

Veins are more flexible/able to dilate

Question 30

How do CCBs work?

Answer 30

Decrease Ca influx in myocytes

Question 31

What do CCBs do?

Answer 31

Dilate arteries and decrease HR

Question 32

CCBs primarily effect (preload/afterload)?

Answer 32

Afterload (dilating arteries decreases BP)

Question 33

Why do CCBs not affect veins as much?

Answer 33

Veins have a larger calcium store in SR; rely less on extracellular calcium

Question 34

How do CCBs work?

Answer 34

Block Ca–Ca is needed to phosphorylate MLC (via CAM) to allow binding to actin and contraction. No Ca means no contraction –> dilation

Question 35

Which class of CCB is most effective for treating angina?

Answer 35

Dihydropyridines (effect vessels rather than heart)

Question 36

Beta blockers block ______ stimulation of myocardium to ___ HR and ____ coronary perfusion

Answer 36

Block epinephrine stimulation to lower HR and increase coronary perfusion

Question 37

How do beta blockers affect angina?

Answer 37

Reduce oxygen usage

Question 38

When during a heart beat is coronary perfusion highest?

Answer 38

Diastole

Question 39

What is the MOA of beta blockers in VSM cells?

Answer 39

Blocks this pathway: Epinephrine binds to receptor –> increase in cAMP –> increase in PKA –> decrease in MLCK –> Relaxation (no binding with actin)

Question 40

What is the MOA of beta blockers in cardiac myocytes?

Answer 40

Blocks this pathway: Beta agonist binds to receptors –> active AC –> increased cAMP –> PKA –> Ca released from SR –> contraction in myocytes (CAM)

Question 41

What are the cardioselective Beta blockers?

Answer 41

Atenolol
Metoprolol
Acebutolol

Question 42

What are the non-selective beta blockers?

Answer 42

Propranolol
Carvedilol
Pindolol
Labetalol

Question 43

What patient population is it particularly important to use cardio-selective beta blockers?

Answer 43

Patients with COPD/asthma (non-cardioselective cause bronchiole constriction)

Question 44

What are the problems with nitrates, Beta blockers, and CCBs?

Answer 44

Reflex tachycardia
Increased preload
Constipation

Question 45

Which drug classes cause reflex tachycardia? Why?

Answer 45

Nitrates and DHP CCBs

They affect BP only - not heart

Question 46

What medications can be used to prevent reflex tachycardia?

Answer 46

Beta-blockers

Question 47

What medication causes an increase in preload?

Answer 47

Beta-blockers (by decreasing HR/contractility, filling time increases)

Question 48

What medication can prevent an increase in preload caused by Beta blockers?

Answer 48

Nitrates! (They dilate vessels, so more blood can be stored in them)

Question 49

Why are most angina drugs used in combinations?

Answer 49

To counteract the negative effect of one with the other

Question 50

What are the major side effects of non-specific beta-blockers?

Answer 50

LV dysfunction, bradycardia, bronchoconstriction

Question 51

What are the major side effects of nitrates?

Answer 51

Hypotension/Flushing headaches (from drop in BP)

Question 52

What are the major side effects of diltiazem?

Answer 52

generally well-tolerated–some flushing/HA, LV dysfunction, bradycardia

Question 53

What are the major side effects of DHPs?

Answer 53

Hypotension, flushing/HA

Question 54

What are the major side effects of verapamil?

Answer 54

LV dysfunction, bradycardia, GI ditress

Question 55

Which angina treatment option has the most potential for GI distress?

Answer 55

Verapamil

Question 56

Which angina treatment option has the most potential for hypotension/flushing/HA?

Answer 56

Nitrates, DHP CCBs

Question 57

Which angina treatment medications may cause bradycardia?

Answer 57

Beta-blocker, verapamil

Question 58

What do HCN Channels transport? Where?

Answer 58

Sodium into the cell in the SA Node

Question 59

How are HCN Channels activated?

Answer 59

Hyperpolarization

Question 60

What is an HCN Channel inhibitor?

Answer 60

Ivabradine

Question 61

How do HCN channels help treat angina?

Answer 61

Slow HR (reduced oxygen consumption)
Prolong diastole and improve ventricular filling (increase perfusion)

Question 62

What can HCN channel inhibitors be used for?

Answer 62

Angina
Inappropriate sinus tachycardia
Heart failure

Question 63

What is a major benefit of ivabradine?

Answer 63

No hemodynamic abnormalities (no changes in blood pressure/vasculature)

Question 64

What is the NCX?

Answer 64

A channel that takes in Na and releases Ca - used to balance Ca concentrations

Question 65

When myocytes don’t have enough oxygen, they ____ sodium uptake, which decreases ______. This ____ Calcium flow and ___ heart function

Answer 65

increase sodium uptake; decreases sodium gradient. Increases calcium flow and increases heart function (b/c calcium stimulates heart)

Question 66

Which drug is an NCX blocker?

Answer 66

ranolazine

Question 67

What are side effects of ranolazine?

Answer 67

Dizziness and QT prolongation

Question 68

Does ranolazine affect blood pressure?

Answer 68

No–it is specific to myocytes

Question 69

What drugs are used in treating unstable angina?

Answer 69

ASA, heparin, P2Y12 antagonists

Question 70

Statins cause increased ____ receptors, more ____ deliver to the liver, and _____

Answer 70

LDL receptors; LDL; decreased plasma cholesterol

Question 71

What are the treatment goals of unstable angina?

Answer 71

Block thrombus formation

Dissolve existing thrombi

Question 72

What is the mechanism of action of aspirin?

Answer 72

Blocks platelet activation

Question 73

What is the mechanism of action of PSY12?

Answer 73

Blocks platelet activation

Question 74

What is the mechanism of action of GPIIb/IIIa antagonists?

Answer 74

Block platelet aggregation

Question 75

What is the mechanism of action of Heparin?

Answer 75

Inhibit thrombin formation (which is needed for fibrinogen formation, which causes platelet aggregation)

Question 76

Blocking ___ synthesis is key to antiplatelet activity of ASA

Answer 76

TXA2 (thromboxane)

Question 77

ASA irreversibly inactivates ____ through ____

Answer 77

COX-1; acetylation

Question 78

What class is clopidogrel?

Answer 78

PSY12: ADP Receptor inhibitor

Question 79

How long does clopidogrel’s action last?

Answer 79

Several days

Question 80

What is clopidogrel used for?

Answer 80

ACS, recent MI, stroke, PVD

Question 81

What 3 classes of medications are used to treat acute coronary syndrome?

Answer 81

Aspirin
P2Y12
GP IIb/IIIa inhibitors

Question 82

Which drugs are GP IIb/IIIa inhibitors?

Answer 82

eptifibatide
tirofiban
abciximab

Question 83

What is heparins structure?

Answer 83

Straight chain, polysaccharide

Question 84

How does heparin work?

Answer 84

Binds to AT-III, which increases plasma proteases