Week 3 Pharmacology

Question 1

Background of Nitric Oxide

Answer 1

endogenous, gas messenger
lipophilic, highly reactive and labile free radical
forms from L-arginine
elimiated by oxidation to form Nox, nitrosylation of hemoglobin
half life is a few seconds

Question 2

Pathogenic Biological Roles of Nitric Oxide

Answer 2

Neuronal Injury (NMDA)
Cell proliferation
shock (hypotension)
inflammatory tissue injury

Question 3

Protective Biological Roles of Nitric Oxide

Answer 3

NT
Immune Cytotoxicity
Inhibit Platelet agreggation
Cyto-protection
Vasodilator Smooth muscle relaxant
Decreases cell adhesion and proliferation

Question 4

Nitrovasodilator Drugs

Answer 4

NO- Donor
organic nitrates (nitroglycerin, isosorbide dinitrate, isosorbide mononitrate)
sodium nitroprusside
amyl nitrite
nitric oxide gas

Question 5

Mechanism of Action of Sodium Nitroprusside & Organic Nitrates

Answer 5

NO release resulting in activation GC in vascular smooth muscle, formation of cGMP, vascular smooth muscle relaxation and vasodilation

Question 6

What do organic nitrates require to release NO

Answer 6

metabolism

Question 7

Sodium Nitroprusside

Answer 7

complex of 1 iron, 5 cyanide and 1 NO group
spontaneous breakdown to NO and cynaide
Direct acting peripheral vasodilator
relaxation of arterial and venous smooth muscle

Question 8

Metabolism of Sodium Nitroprusside

Answer 8

cyanide combines with sulfur groups to form thiocyanate undergoes renal excretion

Question 9

Onset of Sodium Nitroprusside

Answer 9

less then 2 minutes

Question 10

Duration of Sodium Nitroprusside

Answer 10

1-10 minutes

Question 11

Half life of Nitroprusside

Answer 11

about 2 minutes

Question 12

Half life of thiocyanate

Answer 12

2-7 days

Increased with impaired renal function

Question 13

Excretion of Sodium Nitroprusside

Answer 13

renal excretion as metabolites (thiocyanate) some exhaled air, feces

Question 14

Cardiovascular Clinical Effects of Sodium Nitroprusside

Answer 14

decrease arterial and venous pressure
decreases peripheral vascular resistance
decrease in afterload 
slight increase in HR
lacks significant effects on nonvascular smooth muscle and cardiac muscle

Question 15

Renal Clinical Effects of Sodium Nitroprusside

Answer 15

vasodilation without significant change in GFR

Question 16

CNS Clinical effects of Sodium Nitroprusside

Answer 16

increase in CBF and intracranial pressure

Question 17

Blood Clinical effects of Sodium Nitroprusside

Answer 17

Decreases platelet aggregation (NO)

Question 18

Clinical Uses of Sodium Nitroprusside

Answer 18

Hypertensive Crisis
Controlled Hypotension during surgery
Congestive Heart Failure (Acute and decompensated)
Acute Myocardial MI

Question 19

During surgery how does sodium nitroprusside help?

Answer 19

reduces bleeding when inidicated

Question 20

What does SNP do during acute myocardial MI?

Answer 20

improves cardiac output in LV failure & low CO post MI

limited use due to coronary steal- altered BF results in diversion of blood away from ischemic areas

Question 21

Adverse effects of SNP?

Answer 21

profound hypotension
cyanide toxicity
methemoglobinemia
thiocyanate accumulation
renal
increase in intracranial pressure, GI, headache, restlessness, flushing, dizziness, palpitation

Question 22

Drug interactions of SNP

Answer 22

negative inotropes
GA
Circualtory depressants
Phosphodiesterase type 5 inhibitors
soluble guanylate cyclase stimulators

Question 23

Stability of SNP

Answer 23

unstable
light and temperature sensitive
protect from light and store at 20-25C
deterioration results in change to blueish color
wrap container with aluminium foil or other opaque material

Question 24

Administration of SNP

Answer 24

IV infusion
Diluted in 5% Dextrose
shortest infusion duration possible to avoid toxicity- if not reduced within 10 mintues @ max infusion move on
solution has faint brownish tint, if discolored discard

Question 25

Cyanide toxicity

Answer 25

often dose/duration related
tissue anoxia
venous hyperoxemia (tissue cannot extract O2)
lactic acidosis
confusion death

Question 26

Thiocyanate accumulation

Answer 26

increase risk with prolonged infusion; renal impairment
neurotoxicity, including… tinnitus, miosis, hyperreflexia
hypothyroidism (d/t impaired iodine uptake)

Question 27

Organic Nitrates

Answer 27

Nitroglycerin (glyceryl trinitrate)
isosorbide dinitrate
isosorbide mononitrate
amyl nitrite (not used)

Question 28

MOA of Nitroglycerin

Answer 28

No release through cellular metabolism (Glutathione-depedent pathway)
requires thiols
NO released, stimulates GC and formation of cGMP
vascular smooth msucle relaxation and peripheral vasodilation

Question 29

Actions of Nitroglycerin

Answer 29

venous capacitance vessles
mildly dilate arteriolar resistance vessels
dilation of large coronary arteries
administered IV SL translingual spray transdermal ointment

Question 30

Major Effects of Nitroglycerin

Answer 30

dilation of venous capacitance vessels that decreases preloand and MVO2 demand
arteriolar resistance vessels (mild) causes small decrease in afterload, decrease MVO2 demand
Myocardial arteries (increases MVO2 supply)

Question 31

Cardiovascular application of nitroglycerin

Answer 31

decreases venous return, decrease L and R ventricular end diastolic pressure
decreases CO
no change in SVR
increase in coronary BF to ischemic subendocardial areas (opposite SNP)

Question 32

Other applications of Nitroglycerin

Answer 32

smooth muscle relaxation in bronchi, GI tract- small

inhibits platelet aggregation

Question 33

Pulmonary application of Nitroglycerin

Answer 33

bronchial dilation

inhibits HPV

Question 34

Tolerance of Nitroglycerin

Answer 34

after 8-10 hours, results in diminishing effects

Question 35

Cautions of Nitroglycerin

Answer 35

volume depletion, hypotension, bradycardia or tachycardia, constrictive pericarditis, aortic/mitral stenosis, inferior wall MI and RT ventricular involvement

Question 36

Clinical Uses of Nitroglycerin

Answer 36

angina
hypertension (peri-op, HTN emergencies, post operative HTN)
controlled hypotension during surgery
Non-ST segment elevation ACD
Acute MI
HF, Low output syndromes

Question 37

Why use nitroglycerin in Low Output Syndromes

Answer 37

decreases preload, relieves pulmonary edema

Question 38

Adverse Effects of Nitroglycerin

Answer 38

throbbing headache, increased ICP, orthostatic hypotension, dizziness, syncope, reflex tachycardia, flushing, vasodilation, venous pooling, decreased CO, methemoglobinemia, limitation of the use of nitrates

Question 39

Pharmacokinetics of Nitroglycerin

Answer 39

large first pass following oral administration

metabolized in the liver

Question 40

Duration of IV Nitroglycerin

Answer 40

3-5 minutes

Question 41

Onset of sublingual Nitroglycerin

Answer 41

1-3 minutes

Question 42

Duration of sublingual Nitroglycerin

Answer 42

> 25 minutes

Question 43

Onset of topical Nitroglycerin

Answer 43

15-30 minutes

Question 44

Duration of topical Nitroglycerin

Answer 44

7 hours

Question 45

Onset of transdermal Nitroglycerin

Answer 45

about 30 minutes

Question 46

Duration of Nitroglycerin

Answer 46

10-12 hours

Question 47

Onset of Oral Isosorbide Dinitrate

Answer 47

about 60 minutes

Question 48

Duration of Oral Isosorbide Dinitrate

Answer 48

up to 8 hours

Question 49

Onset of Oral Isosorbide mononitrate (reg + extended)

Answer 49

30-45 minutes

Question 50

Duration of Oral Isosorbide Mononitrate

Answer 50

greater then 6 hours

Question 51

Duration of Extended release Oral Isosorbide mononitrate

Answer 51

12 to 24 hours

Question 52

Drug Interactions with Nitroglycerinn

Answer 52

antihypertensive drugs (additive effects)
selective PDE5 inihibitor drugs
guanylate cyclase stimulating drugs

Question 53

Phosphodiesterase Enzymes

Answer 53

family of enzymes that breakdown cyclic nucleotides
regulate intracellular levels of 2nd messanger cAMP and cGMP
11 major subfamilies that differ in localization, potential therapeutic targets

Question 54

Inhibitors

Answer 54

boost levels of cyclic nucleotides by preventing breakdown

Question 55

Older non-selective drugs that INHIBIT PDE

Answer 55

caffeine, theophylline

Question 56

Body Distribution of PDE3

Answer 56

broad includes heart and vascular smooth muscle

Question 57

Body Distribution of PDE4

Answer 57

broad includes CV, neural, immune/inflammatory

Question 58

Body Distribution of PDE5

Answer 58

broad

vascular smooth muscle, especially erectile tissue, retina, lung

Question 59

Substrate of PDE3

Answer 59

cAMP

cGMP

Question 60

Substrate of PDE4

Answer 60

cAMP

Question 61

Substrate of PDE5

Answer 61

cGMP

Question 62

Function of PDE3

Answer 62

cardiac contractility

platelet aggregation

Question 63

Function of PDE4

Answer 63

Immune, inflammatory

Question 64

Function of PDE5

Answer 64

vascular smooth muscle relax (erectile tissue, lung)

Question 65

Inhibitor Clinical Use of PDE3 (milrinone, amrinone)

Answer 65

intotrope, peripheral vasodilator

limited for acute HF

Question 66

Inhibitor Clinical Use of PDE3 (cilastazol)

Answer 66

intermittent claudication

helps with exercise

Question 67

Inhibitor Clinical Use of PDE4

Answer 67

roflumilast

COPD- decreases inflammation, decreases remodeling

Question 68

inhibitor of clinical Use of PDE5

Answer 68

Sildenafil
tadalafil
vardenafil
erectile dysfunction, pulmonary hypertension

Question 69

MOA of Milrnone

Answer 69

inhibits breakdown of cAMP

Question 70

Effects of Milrnone

Answer 70

inotropic increases cardiac contractility
vasodilation
little chronotropic activity

Question 71

Clinical uses of Milrnone

Answer 71

acute heart failure or severe chronic HF
cardiogenic shock
heart transplant bridge or post-op

Question 72

Adverse effects of Milrnone

Answer 72

arrhythmias

hypotension

Question 73

PK of Milrnone (Onset, 1/2 life, administration, metabolism)

Answer 73

5-15 minutes
3-6hours
parental only
majority not metabolized > 80% excreted renally unchanged

Question 74

Angiotensin 2

Answer 74

stimualtion of aldosterone secretion

constriction of Vascular smooth muscle

Question 75

Aldosterone

Answer 75

increased water and sodium retention

Question 76

Renin

Answer 76

secreted by JG apparatus
vasoconstriction and sodium retention
formed/secreted from JG cells
release stimulated decrease BP or Na, B1 receptor activation

Question 77

goal of renin

Answer 77

maintain tissue perfusion through increase extracellular fluid volume

Question 78

RAAS is synergistic with

Answer 78

SNS by increasing the release of NE from SN terminals

Question 79

Renin activates what to cleave angiotensinogen to angiotensin 1

Answer 79

protease

Question 80

ACE

Answer 80

broad protease action forms ang2 from ang1
metabolism of BKN to inactive form
located in membrane of EC cells

Question 81

Angiotensin 2

Answer 81

vasoconstriction (AT1 receptor)
aldosterone secretion (AT1 receptors)
increase ADH, increase proximal tubule Na resorbption

Question 82

Aldosterone

Answer 82

steroid, adrenal cortex
regulates gene expression, increase Na reabsorption
H20 retained, K excreted

Question 83

ATI1 Receptor

Answer 83

regulation of blood pressure
regulation of body fluid balance
vasoconstriction
inflammation
platelet aggregation/adhesion
reactive oxygen species production
proliferation
hypertropy
fibrosis

Question 84

B1 adrenegric receptor antagonist (metoprolol)

Answer 84

antagonize sympathetic stimulation of beta 1 receptor JGC

Question 85

Bradykinin

Answer 85

endogenous substance
1/2 life is 17 seconds
stimulates NO and prostacyclin formation
vasodilation (heart, kidney, microvascular beds)
increases capillary permeability

Question 86

ACE inhibitor Drug list

Answer 86

captopril
benazepril
enalapril
fosinopril
lisinopril
moexipril
perindopril
quinapril
ramipril
trandorapril

Question 87

MOA of ACE inhibitors

Answer 87

block conversion of angiotensin 1 to angiotensin 2
prevent vasoconstriction
prevent aldosterone secretion, decrease sodium and water retention

Question 88

First line therapy of ACE Inhibitors

Answer 88

HTN, CHF, Mitral regurgitation

Question 89

ACE inhibitors are

Answer 89

more effective in DM patients

delay progression of renal disease

Question 90

Clinical Effects of ACE Inhibitors

Answer 90

decrease BP, peripheral vascular resistance
decrease preload, afterload
decrease cardiac workload
do not result in reflex tachycardia
improves/presents LV hypertropy, remodeling
improves morbidity/mortality HF
diabetic nephropathy-delays progression (improves renal hemodynamics)

Question 91

Common clinical uses for ACE inhibitors

Answer 91

HTN post MI Systolic HF diabetic nephropathy

Question 92

Drug interactions of ACE inhibitors

Answer 92

K sparing diuretcis

K supplements

Question 93

Cardiovascular AE’s of ACE Inhibitors

Answer 93

hypotensive symptoms (syncope)
1st dose effect

Question 94

Electrolyte AE’s of ACE Inhibitors

Answer 94

increase K

Question 95

Renal AE’s of ACE Inhibitors

Answer 95

decrease GFR adn increase BUN and serum Cr, renal dysfunction
contraindicated in bilateral renal artery stenosis

Question 96

inflammatory AE’s of ACE Inhibitors

Answer 96

vasodilation
cough
angioedema

Question 97

Fetal Development AE’s of ACE Inhibitors

Answer 97

contraindicated

fetal malformations- teratogenic

Question 98

Mnemonic for AE’s of ACE Inhibitors

Answer 98

CAPTOPRIL
cough/ c1 esterase deficiency
angioedema/agranulocytosis
proteinuria/potassium excess
taste change
orthrostatic hypotension
pregnancy contraindication
renal artery stenosis contraindications
increases renin
leuopenia/liver toxicity

Question 99

Angiotensin receptor blockers

Answer 99

azilsartan
candesartan
eprosartan
irbesartan
losartan
olmesartan
telmisartan
valsartan

Question 100

MOA of Angiotensin Receptor Blockers

Answer 100

competitive antagonist @ AT1 receptor
blocks effects of Ang 2 mediated by AT1 receptor
does not block breakdown of BKN

Question 101

PK of ARbs

Answer 101

metabolism CYP2C9- losartan, irbesartan

Question 102

Drug INteractions with ARBs

Answer 102

K sparing diuretics

K supplements

Question 103

Contraindications of ARBS

Answer 103

renal artery stenosis

pregnancy

Question 104

ARBs vs ACEis

Answer 104

no difference in HTN, total mortality, CV morbidity, mortality
ARBs slightly more tolerable d/t less cough
Higher quality data in ACEi

Question 105

Aldosterone Antagonist

Answer 105

spironolactone

eplernone

Question 106

Mechanism of action for Aldosterone Antagonist

Answer 106

competitive antagonist at mineralocorticoid rec
prevent nuclear translocation of receptor
blocks transcription of genes coding for Na channels

Question 107

MOA of spirolactone

Answer 107

off target effects include androgen, progesterone receptor blocking

Question 108

Effects of Aldosterone Antagonist

Answer 108

increase Na, H20 excretion, mild diuresis

increase K reabsorption

Question 109

Uses of Aldosterone Antagonist

Answer 109

HTN, HF

K sparing hyperaldosterism

Question 110

PK of Spirolactone

Answer 110

hepatic

active metabolites

Question 111

Pk of eplernone

Answer 111

CYP3A4

Question 112

AE of Aldosterone Antagonist

Answer 112

hyperkalemia

Question 113

AE of Spirolactone

Answer 113

hepatic, renal, serious derm (SJ, TEN) GI gynecomastia, menstral irregularities

Question 114

Drug interactions of Aldosterone Antagonist

Answer 114

other K sparing drugs (ACEi, ARBs)
K supplements
NSAID increase renal risk

Question 115

MOA of hydralazine

Answer 115

release NO from endothelial cells

inhibition of calcium release from SR?

Question 116

Effects of hydralazine

Answer 116

vasodilates arterioles
minimal venous effect
decreased SVR
DBP reduced > SBP
increase HR, stroke volume, cardiac output

Question 117

PK of hydralazine

Answer 117

extensive first pass
bioavailability ~25%
half life 1.5-3hours

Question 118

Clinical Uses of hydralazine

Answer 118

HTN- used with BB and diuretic

HF- reduced EF

Question 119

AE of hydralazine

Answer 119

headache, nausea, palpitations, sweating, flushing, reflex tachycardia tolerance,
sodium/h20 retention
angina wiht EKG changes
lupus erythematosus (reversible)

Question 120

Contraindications of hydralazine

Answer 120

CAD, mitral valve RH disease

Question 121

MOA of Minoxidil

Answer 121

directly relaxes the arteriolar smooth muscle, no venous effect
increases the efflux of potassium from vascular smooth muscle resulting in hyperpolarization and vasodilation

Question 122

Effects of Minoxidil

Answer 122

dilates arterioles, not veins

used in hypertension

Question 123

PK of Minoxidil

Answer 123

90% oral dose absorbed from GI tract
peak effect 2-3 hours
half life- 4 hours
10% of drug recovered unchanged in urine

Question 124

Clinical uses of Minoxidil

Answer 124

HTN

Question 125

Adverse effects of Minoxidil

Answer 125

tachycardia, increase MVO2, palpitations, angina, sodium fluid retention edema
weight gain
hypertrichosis

Question 126

Warnings of Minoxidil

Answer 126

fluid retention
pericardial effusion/tamponade
rapid BP response
sinus tachycardia
elderly