Cardiovascular

Question 1

Diuretics, ACE inhibitors (cause for COUGH), angiotensin II receptor blockers (ARBs), calcium channel blockers

Answer 1

Essential Hypertension

Question 2

Diuretics, ACE inhibitors, angiotensin II receptor blockers, beta-blockers, K+-sparring agents

Answer 2

CHF

Question 3

ACE inhibitors, angiotensin II receptor blockers, diuretics, calcium channel blockers, beta-blockers, alpha-blockers

Answer 3

Diabetes mellitus

Question 4

Use them cautiously in decompensated CHF

Contraindicated in cardiogenic shock

Answer 4

Beta-blockers

Question 5

They are protective against diabetic neuropathy

Answer 5

ACE inhibitors

Question 6

Block voltage-dependent L-type calcium channels

cardiac and smooth muscle

HTN, angina, arrhythmias, Prinzmetal’s angina, Raynaud’s

Cardiac depression, AV block, peripheral edema, flushing, dizziness, constipation

Answer 6

Calcium channel blockers

Nifedipine, verapamil, diltiazem, amlodipine

Question 7

Tissue where:

amlodipine = nifedipine > diltiazem > verapamil

Answer 7

Vascular smooth muscle

Question 8

Tissue where:

verapamil > diltiazem > amlodipine = nifedipine

Answer 8

Heart muscle

Question 9

Causes smooth muscle relaxation due to increased cGMP

Arterioles > veins

(afterload reduction)

Severe HTN, CHF

1st line: HTN in pregnancy

Compensatory tachycardia, fluid retention, nausea, headache, angina, lupus-like syndrome

Answer 9

Hydralazine

Add methyldopa for HTN in pregnancy

Add beta-blocker to prevent reflex tachycardia

Question 10

Direct release of NO increases cGMP

Malignant HTN

S.E. Cyanide toxicity at large doses

Answer 10

Nitroprusside

Question 11

D1 receptor agonist

coronary, peripheral, renal, splanchnic vasodilation

Decreases BP (vasodilation) so used for Malignant HTN via

Increases Na+ loss

Answer 11

Fenoldopam

Question 12

Nitroprusside, nicardipine, clevidipine, labetalol, fenoldopam

Answer 12

Malignant HTN

Question 13

Release NO in smooth muscle

Increases cGMP

Veins >> arteries

(decreased preload)

Angina, pulmonary edema

Reflex tachycardia, hypotension, flushing, headache, Monday disease

Answer 13

Nitroglycerin,

Isosorbide dinitrate

Question 14

Dizziness, tachycardia (reflec to NO dilation effects), headache

Loss of tolerance over weekend

Develop tolerance during work week

Answer 14

Monday disease

Due to nitroglycerin reexposure at beginning of work week.

Question 15

These are determinants of what?

End-diastolic volume, blood pressure, heart rate, contractility, ejection time

Answer 15

Myocardial O2 consumption

Question 16

Contraindicated in angina

(2)

Answer 16

Partial beta-agonists

Pindolol, acebutolol

Question 17

Which Calcium Channel Blocker (CCB) is similar to:

Nitrates

and

beta-blockers

Answer 17

Nifedipine - nitrates

and

Verapamil - beta-blockers

Question 18

Effects of nitrates:

EDV

BP

Contractility

HR

Ejection time

MVO2

Answer 18

EDV - decrease

BP - decrease

Contractility - increase (reflex)

HR - increase (reflex)

Ejection time - decrease

MVO2 - decrease

Question 19

Effects of beta-blockers:

EDV

BP

Contractility

HR

Ejection time

MVO2

Answer 19

EDV - increase

BP - decrease

Contractility - decrease

HR - decrease

Ejection time - increase

MVO2 - decrease

Question 20

Combined nitrates and beta-blockers reduce what?

(3)

Answer 20

BP, HR, MVO2 (greatly)

Question 21

Inhibit conversion of HMG-CoA to mevalonate

Greatly reduces LDL

Slightly increases HDL

Hepatotoxicity, rhabdomyolysis (muscle breakdown)

Answer 21

HMG-CoA reductase inhibitors

Lovastatin, pravastatin, simvastatin, atorvastatin, rosuvastatin

Question 22

Reduces hepatic VLDL secretion

Inhibits lipolysis in adipose tissue

Greatly increases HDL

Decrases LDL

Red, flushed face, hyperglycemia, hyperuricemia

Answer 22

Niacin

(Vit B3)

Flushing reduced by aspirin

Hyperglycemia may cause acanthosis nigricans

Question 23

Prevent intestinal reabsorption of bile acids

(Liver uses cholesterol to make more bile)

Decreases LDL

Bad taste, GI discomfort, malabsorption of fat-soluble vitamins, cholesterol gallstones

Answer 23

Bile acid resins

Cholestyramine, colestipol, colesevelam

Question 24

Prevents cholesterol reabsorption

at small intestine brush border

Decreases LDL

Rare hepatotoxicity, diarrhea

Answer 24

Cholesterol absorption blockers

Ezetimibe

Question 25

Upregulates lipoprotein lipase (LPL)

(Increases triglyceride clearance)

Greatly reduces triglycerides

Myositis, hepatotoxicity, cholesterol gallstones

Answer 25

Fibrates

Gemfibrozil, clofibrate, bezafibrate, fenofibrate

Question 26

Inhibits Na+/K+ ATPase

indirectly inhibits Na+/Ca2+ antiport

increases Ca2+ in cells (positive inotropy)

Stimulates vagus nerve to decrease HR

CHF, atrial fibrillation

Answer 26

Cardiac glycosides

Digoxin

CHF - increases contractility

A fib - decreases conduction at AV, depresses SA

Question 27

Drug causes

Increased PR interval, decreased QT, ST scooping, T-wave inversion, arrhythmia, AV block

Can lead to hyperkalemia

Exceted in urine

Renal failure, hypokalemia (allows binding), quinidine (displaces from tissue binding sites):

Increase toxicity

Answer 27

Digoxin

Question 28

Nausea, vomiting, diarrhea, blurry yellow vision

(Cholinergic effects)

Treatment for OD?

Answer 28

Digoxin

Normalize K+, lidocaine, cardiac pacer, anti-dig Fab fragments, MG2+

Question 29

Local anesthetics

Slow or block conduction

Decrease slope of phase 0

Increase threshold for firing in abnormal pacemaker cells

Hyperkalemia increases toxicity

Answer 29

Class I antiarrhythmics

Na+ channel blockers

Question 30

Increases:

AP duration, effective refractory period, QT interval

For both atrial and ventricular arrhythmias

esp reentrant and ectopic SVT, VT

Thrombocytopenia, torsades de pointes

Answer 30

Class IA : “PRO QUIN DI”

Quinidine, procainamide, disopyramide

Quin - cinchonism, headaches, tinnitus

Pro - reversible SLE syndrome

Diso - heart failure

Question 31

Decreases:

AP duration

Preferentially affects ischemic/depolarized Purkinje and ventricular tissue

Acute ventricular arrhythmias (post-MI), digitalis induced arrhythmias

CNS stimulation/depression, cardiovascular depression

Answer 31

_Class IB: _“I‘d Buy Liddy’s funny (Pheny) Mexican Tacos”

Lidocaine, Mexiletine, Tocainide

Question 32

No effect on AP duration

V-tach that progresses to V-fib, intractible SVT

Prolongs refractory period in AV node

Contraindicated with structural abnormalities, MI

Proarrhythmic

Answer 32

Class IC: “For Pushing Extasy”

Flecainide, propafenone

Question 33

Class 1 A, IB and IC (Na+ blockers)

Mneumonic:

Answer 33

“Police Department Questions (Class 1A-AP increases)- The Little Man (Class 1B-AP decreases) - For Pushing Extasy (Class 1C-No change in AP)”

Question 34

Decreases cAMP, Ca2+ current in SA, AV nodes

Decreased nodal activity, esp AV node (inc. PR)

Decreases phase 4 in abnormal pacemakers

V-tach, SVT

Slows ventricular rate in A-fib and A-flutter

Impotence, bradycardia, AV block, CHF, CNS depression

Answer 34

Class II: Beta-blockers

Metoprolol, propranolol, esmolol, atenolol, timolol

Metoprolol- dyslipidemia (Tx: glucagon)

Propranolol- vasospasm in Prinzmetal’s angina

Esmolol- very short acting

Question 35

Which class II antiarrhythmic can exarcerbate

vasospasm in Prinzmetal’s angina?

Answer 35

Propranolol

Question 36

Increases AP duration, QT interval

Increases effective refractory period

Used when other antiarrhythmics fail

Answer 36

Class III: K+ channel blockers

Amiodarone, ibutilide, dofetilide, sotalol

(AIDS)

Question 37

Toxicity of:

Sotalol, Ibutilide

Answer 37

Sotalol - torsades de pointes, excessive beta-block

Ibutilide - torsades de pointes

Question 38

Toxicity of:

Amiodarone

Which function tests?

Why does it have class I, II, III and IV effects?

Answer 38

Pulmonary fibrosis, hepatotoxicity, hypo/hyperthyroidism

Corneal, skin deposits, photodermatitis

neurologic effects, constipation

bradycardia, heart block, CHF

Check PFTs, LFTs, TFTs

40% iodine by weight

Amiodarone alters the lipid membrane

Question 39

Decreases conduction velocity

Increases effective refractory period, PR interval

Prevents nodal arrhythmias (SVT)

Constipation, flushing, edema, CHF, AV block, sinus node depression

Answer 39

Class IV: Ca2+ channel blockers

Verapamil, diltiazem

Question 40

Increases K+ outflow

Hyperpolarizes cell, decreases Ca2+ in

(Na+/Ca2+ antiport)

Abolishes SVT (first line)

Very short acting (15 seconds)

Flushing, hypotension, chest pain

What blocks all effects? (2)

Answer 40

Adenosine

Effects blocked by theophylline and caffeine

Question 41

For torsades de pointes, digoxin toxicity

Answer 41

Mg2+