Cardiovascular Pharmacology

Question 1

Name the 3 major effects of Angiotensin II.

Answer 1

1. arterial and venous vasoconstriction
2. aldosterone and ADH secretion
3. remodeling of the myocardium with hypertrophy of cardiac myocytes and growth of fibroblasts

Question 2

How to ACE inhibitors affect bradykinin?

Answer 2

Elevated levels of bradykinin

Question 3

To which receptor do ARBs bind?

Answer 3

angiotensin receptor (AT1)

Question 4

Describe the activation of the renin-angiotensin system.

Answer 4

Hypovolemia –> renin release from kidney

Renin converts angiotensinogen from the liver –> angiotensin I

Angiotensin I activated by ACE in the kidney and lungs –> angiotensin II

Angiotensin II –> arterial and venous vasoconstriction + aldosterone and ADH secretion

Question 5

Name the 2 classes of calcium channel blockers.

Answer 5

Bind to L-type calcium channels

1,4-Dihydropyridine - binds to Ca channel in inactive closed state

Non-Dihydropyridine - active open state

Metabolized by liver

Question 6

What are the primary effects of DHP calcium channel blockers?

Answer 6

end in -dipine

Primarily PERIPHERAL arteriolar + some coronary vasodilation

Dec SVR and MAP

Increase coronary blood flow

Direct negative ionotrope + after load reduction –> reflex inc HR and maintain CO

Question 7

What are the primary effects site of non-DHP calcium channel blockers?

Answer 7

Diltiazem and Verapamil

myocardium, conduction system and coronary arteries, with less effect on systemic arterioles

Both - depress contractility, HR, AV node conduction

Dilt - coronary vasodilator = angina tx

Question 8

What are some common indications for Nimodipine and Nicardipine?

Answer 8

Nimodipine - cerebral vasospasm in ICH

Nicardipine - alternative to nitroprusside and fenoldopam for arteriolar vasospasm, Tx HTN after cardiac surgery

Question 9

What are some common side effects from DHP calcium channel blockers?

Answer 9

Flushing, nausea, headache

Reflex tachycardia –> undesirable in its w/ CAD

Question 10

What are some common side effects from non-DHP calcium channel blockers?

Answer 10

bradycardia and systole

, heart block, hypotension and heart failure.

Question 11

What are the major determinants of myocardial oxygen demand?

Answer 11

HR

Contractility

Wall stress - ventricular afterload and radius

Question 12

What determines coronary blood flow?

Answer 12

Diastolic filling time

Coronary profusion pressure (aortic diastolic pressure and LV diastolic pressure gradient)

Question 13

What is the mechanism of action of hydralazine?

Answer 13

Inhibits release of intracellular calcium in arteriolar smooth muscle cells –> diminished contraction and vasodilation

Baroreceptor –> inc HR, contractility and CO

Question 14

What are the primary cardiovascular effects of sodium nitroprusside?

Answer 14

Metabolized –> NO –> activates guanylyl cyclase, increasing [cGMP]

Increased intracellular cGMP inhibits entry of Ca into smooth muscle + may increase Ca uptake by the endoplasmic reticulum –> relaxation of smooth muscle

dilates both arterioles and venues –> decreased myocardial preload and afterload

Question 15

Why is coronary artery steal less of a problem with nitroglycerin than with sodium nitroprusside?

Answer 15

Reduces coronary perfusion pressure –> shunting blood away from narrowed myocardium

Question 16

What are the hemodynamic effects of nesiritide?

Answer 16

arterial and venous vasodilation by binding to A and B natriuretic peptide receptors on vascular smooth muscle –> increase in cGMP

reduction of preload and afterload, reduces preload, PVR
natriuresis
diuresis
suppression of the renin-angiotensin-aldosterone system
increases CO w/ little or no change in HR

Can worsen dyspnea in patients with pulmonary edema from congestive heart failure

Question 17

Where is vasopressin synthesized?

Answer 17

hypothalamus - paraventricular nuclei

Question 18

What are the most important stimuli for vasopressin release?

Answer 18

increased plasma osmolality
decreased arterial pressure
reduced cardiac filling

Question 19

What is the normal plasma osmolality? Which receptors are responsible for its regulation? Where are they located?

Answer 19

285 and 295 mOsm/kg

peripheral Cosmo-receptors - near the portal vein
central receptors - near the third ventricle

Question 20

What agents also stimulate vasopressin release?

Answer 20

acetylcholine
histamine
dopamine
prostaglandins
angiotensin II
nicotine

hypoxia
hyperthermia
pain
nausea
hypercapnia - stimulating carotid body chemoreceptors

Question 21

Name the vasopressin receptor subtypes

Answer 21

V1a
V1b
V2

Question 22

Where are the V1a receptors mainly located in the body?

Answer 22

vascular smooth muscle - vasoconstriction in mesenteric, skin and skeletal tissues

platelets
liver
adrenal gland
myometrium
brain - inhibit SNS
kidneys - constrict efferent arterioles --> inc GF, UOP

Question 23

Where the the V2 receptors heavy distributed?

Answer 23

distal convoluted tubule and collecting duct –> increases water permeability

vascular endothelium –> arterial vasodilation.

Question 24

Name three synthetic vasopressin analogs.

Answer 24

argipressin (AVP)
terlipressin (TP)
desmopressin (DDAVP).

Question 25

What is the plasma half-life of exogenous vasopressin?

Answer 25

4-20 minutes - continuous infusion is necessary for maintenance

Question 26

Name some of the common indications for vasopressin use.

Answer 26

1. Vasodilated states - sepsis (w/ norepi)
2. Refractory hypotension - can restore SNS response
3. Cardiac arrest
4. Bleeding esophageal varices
5. central diabetes insipidus

Question 27

What is terlipressin?

Answer 27

synthetic analogue of AVP - greater selectivity for the V1 receptor

Question 28

What are some of the side effects of vasopressin?

Answer 28

Skin necrosis after extravasation

Anaphylaxis
bronchospasm
urticaria
ischemia of the GI tract

Question 29

How does methylene blue (MB) work?

Answer 29

selective inhibitor of inducible nitric oxide synthase (iNOS) –> reduces the formation of NO

Inhibits guanylate cyclase in vascular smooth muscle –> vasoconstriction

• reverse hypotension in septic shock
• helpful in profound vasoplegia following cardiopulmonary bypass

Question 30

Name some of the side effects of methylene blue.

Answer 30

contraindicated in severe renal insufficiency

cardiac arrhythmias (transient nodal rhythm and ventricular ectopy)
angina pectoris
coronary vasoconstriction
decreased cardiac output
decreased renal blood flow
increased mesenteric vascular resistance

Question 31

Which receptor is the target of the majority of cardiac inotropes?

Answer 31

Beta-1

inc Ca –> excitation-contraction coupling
+ lusitropy (relaxation)
+ chronotropy (HR)
+ dromotropy (conduction velocity)

Question 32

High dose dopamine primarily effects which receptor?

Answer 32

alpha receptors at >10ug/kg/min

Question 33

What is the effect of milrinone on SVR?

Answer 33

PDE-III inhibitor
Systemic vasodilation –> DEC SVR
Inc HR and CO

Question 34

How does digoxin increase inotropy?

Answer 34

inhibits Na+/K+-ATPase in cardiac myocytes –> increases intracellular Na+, –> so more Na+ can exit through the Na+/Ca+ exchanger –> increasing intracellular Ca2+ –> augmenting excitation-contraction coupling

Question 35

Digoxin toxicity is more likely in which disease state?

Answer 35

Renal insufficiency
Hypokalemia
loop and thiazide diuretics
amiodarone
advanced age.

Question 36

What is the digitalis effect on EKG?

Answer 36

classic (nonischemic) downward slope of the ECG ST-segment

Question 37

What is the pathognomonic ECG finding in digitalis toxicity?

Answer 37

paroxysmal atrial tachycardia with 2:1 atrioventricular (AV) block

Question 38

What are two limiting side effects of dobutamine?

Answer 38

Tachycardia

Hypotension

Question 39

What are the main actions of PDE-III inhibitors on the myocardium?

Answer 39

Inc SV, CO,HR, contractility

Dec SVR, PVR, MvO2, Preload

Question 40

Can you use milrinone in renal insufficiency?

Answer 40

Cautiously - may –> hypotension as effects may persist long after d/c

Question 41

List two differences between milrinone and amrinone.

Answer 41

Amrinone = thrombocytopenia

Milrinone - shorter half-time

Question 42

Milrinone is best used to treat which of the following:

1. HTN w/ normal LV fxn
2. Vasoplegia
3. Pulm HTN
4. Biventricular HF

Answer 42

4 - Biventricular HF –> dec filling pressures = “off-loading” the heart and inc stroke work

Also beneficial in low cardiac index, high SVR patients

2 = methylene blue

Question 43

What are the primary ions involved in the cardiac action potential?

Answer 43

Na
Ca
K

Question 44

What are the two different types of action potentials?

Answer 44

1. Slow response
   - cell w/ automaticity
2. Fast response
   - muscle and purkinjie fibbers

Question 45

True or False: The resting membrane potential for cells with automaticity is more negative than cells without automaticity.

Answer 45

False - slow response = automaticity = less negative

Question 46

What are the primary etiologies of arrhythmias?

Answer 46

reentrant phenomena and enhanced automaticity.

Question 47

Describe the phases and ion movements in myocyte and pacemaker cells

Answer 47

Phase zero: sodium in

Phase one: potassium out

Phase two: calcium in

Phase three: potassium out

Phase four: if slow response fiber, then sodium leaks in to the cell - regulated by ANS

Question 48

Describe the 4 classes of antiarrhythmics

Answer 48

Class I - Na channel blockers

Class II - beta-blockers

Class III - K channel blockers

Class IV - Ca channel blockers.

Question 49

What is the objective and main mechanism of antiarrhythmics?

Answer 49

changing action potential duration

changing properties of automaticity

Question 50

What is a unique side effect of procainamide?

Answer 50

Lupus-like syndrome

Question 51

What is the effect of the potassium channel blockers on APD (action potential duration) and ERP (effective refractory period)?

Answer 51

Ex: amiodarone, sotalol, ibutilide, dofetilide, and bretylium

lengthen the APD, and the ERP

Question 52

Class II antiarrhythmics effect what phase of the action potential?

Answer 52

Beta-blockers –> Phase 4 of the slow response AP

Question 53

Class 1 antiarrhythmics are most likely to effect which phase(s) of the action potential?

Answer 53

Phase 0 and 4

Question 54

What are some side effects of amiodarone?

Answer 54

Pulmonary toxicity

Hypo or hyperthyroidism

Question 55

Which phases of the standard cardiac myocyte action potential are caused by outflow of potassium into the extracellular space?

Answer 55

Repolarization

• myocyte = phases 1 through 3
• pacemaker cells = phase 3

Question 56

List the progression of EKG changes that occur with progressive hyperkalemia.

Answer 56

6-7 --> peaked T-waves
Prolonged PR
Widened QRS
Dec P-wave amplitude and disappearance
Shortened ST
VF or asystole

Question 57

List the EKG changes seen with hypokalemia.

Answer 57

Inc amplitude and width of P-wave
Prolonged PR
T-wave flattening or inversion
ST depression
Prominent U-waves (precordial leads)
SVT, AF, Aflutter, VT, VF

Question 58

Describe the major effect Ca2+ has on global myocardial function.

Answer 58

excitation-contraction coupling

changes in Ca2+ movement or binding can affect both inotropy (contractility) and lusitropy (relaxation).

Question 59

How does hypocalcemia affect the cardiovascular system?

Answer 59

Dec ionotropy
Hypotension d/t dec tone
QT prolongation

Question 60

What EKG changes occur in hypercalcemia?

Answer 60

Short QT
Short PR
Osborn (J-waves)
VF

Question 61

How does Mg2+ regulate cardiovascular smooth muscle function?

Answer 61

Ca antagonist and regulates entry into cell –> normal vascular tone, prevention of vasospasm, prevention of Ca overload

Question 62

What are three major cardiovascular consequences of hypomagnesemia?

Answer 62

Torsades de Pointes –> VT
Dilated cardiomyopathy
Ionotrope requirement

Question 63

What are the major effects of hypermagnesemia on the vasculature?

Answer 63

Vasodilation - direct SM relaxation, enhanced NO release, inhibits catecholamine release

Bradycardia
Hypotension

5-10mg/dl –> AV block, prolonged QT –> cardiac arrest

Question 64

What primary role does phosphorus play in the function of cardiac myocytes?

Answer 64

ATP - stores and releases energy via high-energy PO43- bonds.

Question 65

What are the major consequences of hypo- and hyperphosphatemia?

Answer 65

Hypo - if severe –> muscle weakness, cardiomyopathy and arrhythmias

Hyper - hypoCa –> dec ionotropy, heart block