Cardio Pharm

Question 1

Where do dihydropyridine calcium channel blockers act?

Answer 1

On vascular smooth muscle

Question 2

Where do non-dihydropyridine calcium channel blockers act?

Answer 2

On heart

Question 3

Nimodipine use

Answer 3

Subarachnoid hemorrhage (prevents cerebral vasospasm)

Question 4

Dihydropyridine clinical uses

Answer 4

HTN, angina, Raynaud phenomenon

Question 5

Drugs used in hypertensive urgency or emergency

Answer 5

Nicardipine, Clevidipine, Fenoldopam, Labetalol, or Notroprusside

Question 6

Non-dihydropyridine clinical uses

Answer 6

HTN, angina, atrial fibrillation/flutter

Question 7

Adverse effects of non-dihydropyridines

Answer 7

Cardiac depression, AV block, hyperprolactinemia, constipation, gingival hyperplasia

Question 8

Adverse effects of dihydropyridines

Answer 8

Peripheral edema, flushing, dizziness

Question 9

Mechanism of Hydralazine

Answer 9

Increase cGMP leading to smooth muscle relaxation. Vasodilates arterioles > veins; afterload reduction

Question 10

Clinical uses of hydralazine

Answer 10

Severe HTN, HF,

Question 11

Nitroprusside MOA

Answer 11

Increase cGMP via direct release of NO

Question 12

MOA for Fenoldopam

Answer 12

Dopamine D1 receptor agonist - causes coronary, peripheral, renal, and splanchnic vasodilation. Decreases BP and increases natriuresis.

Question 13

What are the adverse effects of nitrates?

Answer 13

Reflex tachycardia, hypotension, flushing, headache, “Monday disease”

Question 14

When are nitrates contraindicated?

Answer 14

In right ventricular infarction

Question 15

MOA for Ranolazine

Answer 15

Inhibits the late phase of sodium current thereby reducing diastolic wall tension and oxygen consumption. Does not affect HR or contractility

Question 16

Clinical use of Ranolazine

Answer 16

Angina refractory to other medical therapies

Question 17

Adverse effects of Ranolazine

Answer 17

Constipation, dizziness, headache, nausea, QT prolongation

Question 18

MOA of Milrinone

Answer 18

Selective PDE-3 inhibitor.
In cardiomyocytes: Increase cAMP accumulation, leading to increase calcium influx, and increased inotropy and chronotropy.
In vascular smooth muscle: Increase cAMP accumulation, inhibition of MLCK activity, and general vasodilation

Question 19

Adverse effects of Milrinone

Answer 19

Arrhythmias, hypotension

Question 20

Name the HMG-CoA reductase inhibitors

Answer 20

Lovastatin, Pravastatin

Question 21

MOA of Lovastatin, Pravastatin

Answer 21

Inhibit conversion of HMG-CoA to mevalonate, a cholesterol precursor; decrease mortality in CAD patients

Question 22

Adverse effects of HMG-CoA reductase inhibitors

Answer 22

Hepatotoxicity (increase LFTs), myopathy (when used with fibrates or niacin)

Question 23

Name the bile acid resins

Answer 23

Cholestyramine, colestipol, colesevelam

Question 24

MOA for bile acid resins

Answer 24

Prevent intestinal reabsorption of bile acids; liver must use cholesterol to make more

Question 25

MOA of Ezetimibe

Answer 25

Prevent cholesterol absorption at small intestine brush border

Question 26

MOA of Fibrates

Answer 26

Upregulate LPL leading to increased triglyceride clearance. Activates PPAR-alpha to induce HDL synthesis.

Question 27

Adverse effects of fibrates

Answer 27

Myopathy (increased risk with statins), cholesterol gallstones (via inhibition of cholesterol 7alpha-hydroxlase)

Question 28

MOA of Niacin

Answer 28

Inhibits lipolysis (hormone sensitive lipase) in adipose tissue; reduces hepatic VLDL synthesis

Question 29

Adverse effects of Niacin

Answer 29

Red, flushed face; hyperglycemia, hyperuricemia

Question 30

Name the PCSK9 inhibitors

Answer 30

Alirocumab, evolocumab

Question 31

MOA of PCSK9 inhibitors

Answer 31

Inactivation of LDL-receptor degradation, increasing amount of LDL removed from bloodstream

Question 32

Adverse effects of PCSK9 inhibitors

Answer 32

Myalgias, delirium, dementia, other neurocognitive effects

Question 33

MOA of Digoxin

Answer 33

Direct inhibition of Na+/K+ ATPase, leading to indirect inhibition of Na+/Ca2+ exchanger. Increased Ca2+ leads to positive inotropy. Also stimulates the vagus nerve leading to decreased HR.

Question 34

Clinical uses of Digoxin

Answer 34

HF (increase contractility); atrial fibrillation (decrease conduction at AV node and depression of SA node)

Question 35

Adverse effects of Digoxin

Answer 35

Cholinergic, hyperkalemia

Question 36

Antidote for Digoxin

Answer 36

Slowly normalize K+, cardiac pacer, anti-digoxin Fab fragments, Mg2+

Question 37

Quinidine, Procainamide, Disopyramide are in which class of drugs?

Answer 37

Class 1A Antiarrhythmics

Question 38

MOA of class 1A antiarrhythmics

Answer 38

Increase AP duration, increase effective refractory period, increase QT interval, some potassium channel blocking effects

Question 39

Adverse effects of class 1A antiarrhythmics?

Answer 39

Cinchonism, reversible SLE-like syndrome, HF, thrombocytopenia, torsades de pointes

Question 40

Lidocaine, Mexiletine are in which class of drugs?

Answer 40

Class 1B Antiarrhythmics

Question 41

MOA of class 1B antiarrhythmics

Answer 41

Decrease AP duration. Preferentially affect ischemic or depolarized Purkinje and ventricular tissue

Question 42

Flecainide, Propafenone are in which class of drugs?

Answer 42

Class 1C Antiarrhythmics

Question 43

MOA of class 1C antiarrythmics

Answer 43

Prolongs ERP in AV node and accessory bypass tracts

Question 44

Adverse effects of class 1C antiarrhythmics

Answer 44

Pro-arrythmic, especially post MI

Question 45

What kind of drugs are class II antiarrhythmics?

Answer 45

Beta blockers

Question 46

MOA of class II antiarrythmics

Answer 46

Decrease SA and AV nodal activity by decreasing cAMP and Ca2+ currents. Suppress abnormal pacemakers by decreasing the slope of phase 4. Increase PR interval.

Question 47

How is beta blocker overdose treated?

Answer 47

With saline, atropine, glucagon

Question 48

What kind of drugs are class III antiarrhythmics?

Answer 48

Potassium channel blockers

Question 49

Amiodarone, Ibutilide, Dofetilide, Sotalol

Answer 49

Class III antiarrhythmics

Question 50

MOA of class III antiarrythmics

Answer 50

Increase AP duration, increase ERP, increase QT interval

Question 51

What is an adverse affect of class III antiarrythmics

Answer 51

Torsades de pointes

Question 52

Adverse effects of Amiodarone

Answer 52

Pulmonary fibrosis, hepatotoxicity, hypothyroidism or hyperthyroidism, acts as hapten, neurologic effects, constipation, cardiovascular effects

Question 53

What type of drugs are class IV antiarrhythmics?

Answer 53

Calcium channel blockers

Question 54

Verapamil, Diltiazem

Answer 54

Class IV antiarrhythmics

Question 55

MOA of class IV antiarrhythmics

Answer 55

Decrease conduction velocity, increase ERP, increase PR interval

Question 56

Adverse effects of class IV antiarrhythmics

Answer 56

Constipation, flushing, edema, cardiovascular effects

Question 57

Adenosine MOA

Answer 57

Increase K+ out of cells leading to hyperpolarization of the cell and decreased Ca2+ influx, decreasing AV node conduction

Question 58

Adverse effects of Adenosine

Answer 58

Flushing, hypotension, chest pain, sense of impending doom, bronchospasm

Question 59

How are torsades de pointes and digoxin toxicity treated?

Answer 59

Mg2+

Question 60

MOA of Ivabradine

Answer 60

Selective inhibition of funny sodium channels, prolonging slow depolarization phase (phase 4). Decreased SA node firing; negative chronotropic effect without inotropy. Reduces cardiac O2 requirement.

Question 61

When is Ivabradine used?

Answer 61

Chronic stable angina in pts who can’t take beta blockers. Chronic HF with reduced EF