all CRR drugs

Question 1

abciximab (reopro)

Answer 1

glycoprotein IIb/IIIa antagonist
blocks GPIIb/IIIa receptor on platelets to bind vWF or fibrinogen therefore reduces platelet aggregation and clotting

other examples of glycoprotein IIb/IIIa antagonists: eptifibatide, tirofiban

Question 2

aspirin

Answer 2

NSAID- nonsteroidal anti-inflammatroy drug
acetylsalycic acid
irreversibly inhibits COX (inhibits activation/secretion step of platelet plug formation), reduces clotting

Question 3

NSAIDs

Answer 3

NSAID- nonsteroidal anti-inflammatroy drug
competitive inhibitors for COX (therefore reduce platelet aggregation and clotting)
reversible: ibuprofen, acetaminophin, indomethacin
irreversible: aspririn

Question 4

ADP receptor (PY12) antagonists

Answer 4

irreversibly blocks ADP receptor on platelet therefore reduce platelet aggregation and platelet plug formation
ex. plavix (clopidogrel)

Question 5

plavix (clopidogrel)

Answer 5

ADP receptor (PY12) antagonist
irreversibly blocks ADP receptor on platelet therefore reduce platelet aggregation and platelet plug formation

Question 6

glycoprotein IIb/IIIa antagonist

Answer 6

blocks GP IIb/IIIa receptor on platelets therefore reducing platelet aggregation and platelet plug formation

Reopro (abciximab, eptifiatide, tirofiban)

Question 7

vorapaxar

Answer 7

blocks thrombin receptor (PAR-1) on platelets, reduces platelet plug formation and clotting

Question 8

heparin

Answer 8

increases antithrombin III activity in inhibiting factor X and thrombin
reduces coagulation

Question 9

warfarin

Answer 9

inhibits vitamin K synthesis therefore inhibiting vitamin K dependent factors in coagulation: X, IX, XII, II, protein Ca, and protein S

Question 10

direct thrombin inhibitors

Answer 10

anticoagulants
bivalirudin (angiomax)
dabigatran (pradaxa)
apixaban (eliquis)

Question 11

bivalirudin (angiomax)

Answer 11

inhibits thrombin

anticoagulant

Question 12

dabigatran (pradaxa)

Answer 12

inhibits thrombin

anticoagulant

Question 13

apixaban (eliquis)

Answer 13

inhibits factor Xa

anticoagulant

Question 14

voxelotor

Answer 14

blocks the polymerization of hemoglobin in SCD and beta thalassemias

Question 15

5-azacytidine

Answer 15

removes methylation on CpGs islands of gamma globin genes (normally repress gamma globin expression) in order to promote HbF expression

Question 16

hydroxyurea

Answer 16

promotes gamma globin expression, therefore HbF expression

Question 17

Endari

Answer 17

increases NADH in RBC to promote glutathione reduction

Question 18

Thiopental

Answer 18

high lipid coefficient which allows it to rapidly enter the brain
induces rapid anesthesia
also leaves the brain rapidly so short duration of action

Question 19

Inducers of CYP450 enzymes

Answer 19

enhance CYP450 activity which increases the rate at which they metabolize drugs, excrete drugs more quickly

ex. phenobarbital, rifampin, carbamazepine, cruciferous vegetables, smoking

Question 20

inhibitors of CYP450 enzymes

Answer 20

inhibit CYP450 enzymes from metabolizing drugs, drug build up in the body, increases response to drug

ex. omeprazole, eeythromycin, grapefruit juice, cumin,

Question 21

MAOIs

Answer 21

inhibitors of MAO which normally breaks down catecholamines and serotonin, allows build up of these neurotransmitters increasing the post synaptic stimulation

Question 22

disulfiram

Answer 22

inhibits aldehyde dehydrogenase (breaks down aldehyde, by product of alcohol metabolism
causes aldehyde build up when person drinks alcohol–> ill with vommitting, sweat, etc

Question 23

naltrexone

Answer 23

k and m opiod receptor antagonist

reduces cravings for alcohol bc decreases alcohol activation of dopamine reward pathway

Question 24

acamprosate

Answer 24

antagonist of NMDA receptors thus reducings the activity of glutamate in the CNS and reduces cravings for alcohol

Question 25

isoproterenol

Answer 25

beta agonist: increases heart rate, increase contraction force, increases conduction velocity, dilates blood vessels

Question 26

epinephrine

Answer 26

mixed alpha, beta agonist: primarily a beta receptor agonsit at low doses and an alpha agonist at high doses

used clinically as:
with local anestetic bc local vasoconstriction will localize action of the anesthetic
local hemostatic (control bleeding during surgery)
increase cardiac activity after cardiac arrest
treat allergic reaction by counter acting hypotention from histamines, counters constriction of airways (beta 2 broncho dilation)

Question 27

norepinephrine

Answer 27

catecholamine
primarily alpha receptor agonist

used clinically as:
pressor agent to block system hypotension

Question 28

nonselective beta agonist

Answer 28

increase intropic and chronotropic effects and cause some vasodilation

ex. isoproterenol

Question 29

beta 1 selective agonist

Answer 29

inotropic/cardioselective effects, increase myocardial oxygen demand

ex. dobutamine

Question 30

beta 2 selective agonist

Answer 30

bronchodilation

ex. salbutamol, terbutaline, elbuterol, arformoterol tartarate

Question 31

non selective beta blocker

Answer 31

decrease HR, CF, and CO
effects are more substantial as sympathetic tone increases
reflex from decreased BP causes a temporary rise in BP
can have bronchodilation effects so bad for pulmonary compromised patients

also blocks renin secretion in kidney –> vasodilation

ex. propranolol

Question 32

beta 1 selective blocker

Answer 32

cardioselectively increase HR, CF, and CO, do NOT cause a decrease in bronchoconstriction like non selective so these are safer to use with pulmonary compromised patients

also blocks renin secretion in kidney –> vasodilation

ex. metoprolol, esmolol, atenolol, nadolol

Question 33

beta 2 selective blocker

Answer 33

inhibits bronchodilation –> bronchoconstriction

Question 34

alpha receptor blocker

Answer 34

decreases peripheral resistance
used to treat hypertension without effecting heart rate, renal blood flow, or GFR

ex. prazosin, terazosin, doxazosin, phenoxybenzamine

Question 35

muscarininc agonist

Answer 35

stimulates effect of PNS

direct: ex. pilocarpine, carbachol
indirect: inhibits AChE ex. neostigmine, physostigmine, organophosphate

Question 36

muscarininc antagonsit

Answer 36

inhibit response from PNS

ex. atropine, ipratropium

Question 37

isoproterenol

Answer 37

nonselective beta agonist

Question 38

dobutamine

Answer 38

beta 1 selective agonist

Question 39

salbutamol

Answer 39

beta 2 selective agonist

Question 40

terbutaline

Answer 40

beta 2 selective agonist

Question 41

albuterol

Answer 41

beta 2 selective agonist

Question 42

arformoterol tartrate

Answer 42

beta 2 selective agonist

Question 43

propranolol

Answer 43

nonselective beta blocker

Question 44

metoprolol

Answer 44

beta 1 selective blocker

Question 45

atenolol

Answer 45

beta 1 selective blocker

Question 46

esmolol

Answer 46

beta 1 selective blocker

Question 47

nadolol

Answer 47

beta 1 selective blocker

Question 48

prazosin

Answer 48

alpha receptor blocker

Question 49

terazosin

Answer 49

alpha receptor blocker

Question 50

doxazosin

Answer 50

alphareceptor blocker

Question 51

pilocarpine

Answer 51

direct muscarinic agonist

Question 52

carbachol

Answer 52

direct muscarinic agonist

Question 53

neostigmine

Answer 53

indirect muscarinic agonist

Question 54

physostigmine

Answer 54

indirect muscarininc agonist

Question 55

organophosphate

Answer 55

indirect muscarininc agonist

Question 56

atropine

Answer 56

muscarininc antagonist

Question 57

ipratropium

Answer 57

muscarininc antagonist

Question 58

class I antiarrhythmic drugs

Answer 58

sodium channel blockers
slow phase 0, work better on cells rapidly depolarizing
1A: slow 0, prolong action potential (ex. procainamide)
1B: shorten phase 3 ex. lidocane
1C: slow phase 0 ex. flecainide

treat re-entrant arrhythmias (mainly 1A), tachyarrythmias, and abnormal automacity

Question 59

procainamide

Answer 59

type IA antiarrythmic drug

slows phase 0 and prolongs action potential by blocking sodium channels

Question 60

lidocane

Answer 60

type 1B antiarrhythmic drug

shortens phase 3 by blocking sodium channels

Question 61

flecainide

Answer 61

type 1C antiarrhythmia drug

slows phase 0 by blocking sodium channels

Question 62

class II antiarrhythmic drugs

Answer 62

beta blockers
decrease HR, CF, and CO
effectiveness increases as sympathetic tone increases
treat tachyarrhytmias secondary to sympathoadrenal discharge, distubance of aytomaticity and re-entry

ex. non selective: propanolol, B1 selective: metoprolol, atenolol, nadolol, esmolol

Question 63

class III antiarrhythmic drugs

Answer 63

potassium channel blockers
prolong phase 3 which increases effective refactory period, depolarization
treat supraventricular and or ventricullar tachy
ex. amiodarone, sotalol

Question 64

amiodarone

Answer 64

class III/potassium channel blocker
treat tachycardia

Question 65

sotalol

Answer 65

class III/potassium channel blocker
treat tachy

Question 66

class IV antiarrhymic

Answer 66

calcium channel blocker
especially affects AV node (ca++ dependent) to decrease phase 4 which prolongs effecticve refractory period
decreases normal and abnormal automaticity
treat supraventricular arrhythmias, AV reentry and ectopic stimulation

ex. verapamil and diltiazem

Question 67

verapamil

Answer 67

class IV/ calcium channel blocker
treat supraventricular arrhythmias, AV re entry and ectopic stimulation

Question 68

class V antiarrhymic

Answer 68

misc.

ex. digoxin, atropine, epi, iso, adenosine

Question 69

digoxin

Answer 69

increase calcium which increases force of contraction

enhances pNS at nodal areas which decreases SA and AV automaticity but mainly affects AV

Question 70

atropine

Answer 70

musc. blocker, treats bradycardia and sinus arrest secondary to PNS stimulation

Question 71

adenosine

Answer 71

receptors at SA and AV
inhibits adenylyl cyclase –> decreased calcium and increased potassium, thereofre decreasing conduction, prolonging ERP and decreasing AV automaticity
treats paroxysmal supraventricular tachycardia

Question 72

ACEI

Answer 72

angiotensin converting enzyme inhibitors
AT I is not turned into AT II, so blocks the vasoconstriction ATII usually produces in arteries and venules
decreases cardiac load and arterial pressure

ex. captopril, enalapril, lisinopril

good for young people and European people who have normal or high plasma renin

Question 73

captopril

Answer 73

ACEI
short duration of action
treat HTN by lowering BP

Question 74

enalapril

Answer 74

ACEI
long duration
treat HTN

Question 75

lisinopril

Answer 75

ACEI
long duration
treat HTN

Question 76

ARB

Answer 76

angiotensin II receptor blocker/angiotensin I antagonist
blocks receptor ATII binds to (ATI)
blocks inflow of calcium and therefore block vasoconstriction
works well in kidney and brain

ex. losartan, valsartan, irbesartan, candesartan

works well in young people and european people with high plasma renin

Question 77

losartan

Answer 77

ARB

Question 78

candesartan

Answer 78

ARB

Question 79

valsartan

Answer 79

ARB

Question 80

Irbesartan

Answer 80

ARB

Question 81

Ca+ channel antagonists

Answer 81

block influx of calcium thus inducing vasodilation

ex. nifedipine, amlodipin, verapramil, dilitiazem

good for older people and people with low plasma renin

Question 82

nifedipine

Answer 82

Ca+ channel antagonist

vasodilation

Question 83

amlodipine

Answer 83

Ca+ channel antagonist

vasodilation

Question 84

verapramil

Answer 84

Ca+ channel antagonsit

vasodilation

Question 85

dilitiazem

Answer 85

Ca+ channel antagonist

vasodilation

Question 86

HCTZ

Answer 86

thiazide diuretic

Question 87

lopressor HCT

Answer 87

metoprolol and HCTZ

beta blocker and thiazide diuretic

Question 88

HYZAAR

Answer 88

losartan + HCTZ

ARB and thiazide diuretic

Question 89

vaseretic

Answer 89

enalapril + HCT

ACEI and thiazide diuretic

Question 90

renin inhibitors

Answer 90

blocks ATI –> ATII
vasodilation

ex. aliskiren

Question 91

aliskiren

Answer 91

renin inhibitor

vasodilation

Question 92

phenoxybenzamine

Answer 92

non selective alpha receptor antagonist
binds irreversibly and only used during removal of phaeochromocytoma removal (adrenal gland tumor) since the tumor could release catecholamines when moved

Question 93

aldosterone antagonist

Answer 93

blocks Na and H2O reabsorption in kidney and potassium excretion thus decreases BP while sparing potassium

ex. spironolactone

Question 94

spironolactone

Answer 94

aldosterone antagonist

potassium sparing diuretic

Question 95

potassium channel activator

Answer 95

opens KATP channel causing hyperpolarization of cells and decreasing activity of calcium channels and calcium influx thus induces vasodilation

ex. minoxidil

Question 96

minoxidil

Answer 96

potassium channel activator
vasodilator
last resort for severe HTN because very potent and long duration

Question 97

endothelin receptor antagonist

Answer 97

blocks endothelin induced vasoconstriction

ex. bosentan

Question 98

bosentan

Answer 98

blocks both ETA and ETB receptors of endothelin

vasodilation

Question 99

alpha methyldopa

Answer 99

sympatholytic
decreases BP without affecting the kidney
safe to use in kidney compromised patients and during pregnancy

Question 100

hydralazine

Answer 100

acts on arteries by unkown mechanism to decrease blood pressure
can cause tachycardia and increased cardiac output
only used short term for severe hypertension during pregnancy

Question 101

Nitric Oxide

Answer 101

activates guanylyl cylcase to increase cGMP to alter PKG, cyclic nucleotide phosphodiesterase, and ion channels in order to decrease/block Ca++ channels and stop constriction

vasodilation

ex. nitroprusside

Question 102

sacubitril

Answer 102

blocks neprilysin
neprilysin cleaves ANP, BNP, and CNP which usually induce vasoconstriction but also degrades ATII which usualy induce vasoconstriction
using ACEI with neprilysin will block increased ATII and result in only vasodilation

Question 103

nitroprusside

Answer 103

NO

vasodilation

Question 104

entresto

Answer 104

valsartan + sacubitril

ACEI and sacubitril (degrades neprilysin)

Question 105

acetazolamide

Answer 105

inhibits carbonic andhydrase which normally breaks down HCO3 into CO2 and H2O
results in decreases H2O and Na+ absorptopn and alkaline urine (HCO3 is excreted and not absorbed)

Question 106

osmotic diuretics

Answer 106

inhibit reabsorption of solute and water by altering the osmotic forces along the nephron in the proximal tubule

makes the lumen of tubule very concrentrated so water does not leave the lumen

ex. mannitol, glyverin, isosorbide, and urea

Question 107

mannitol

Answer 107

osmotic diuretic

decreases H2O and solute reabsorption in proximal tubule

Question 108

carbonic anhydrase inhibitors

Answer 108

inhibits carbonic anhydrase which decreases bicarb break down which decreases CO2 and H2O absorption which decreases H+ leaving cell via H/Na transporter leading to decreased Na+ reabsorption

results in decreases H2O and Na absorption and alkaline urine

ex. acetazolamide

Question 109

loop diuretics

Answer 109

inhibit Na,2Cl, K symporter in loop of henle
decreases Na reabsorption and H2O reabsorption
risk of hypokalemia

ex. furosemide, ethocrynic (etharcinic) acid, bumetanide, torsemide

Question 110

furosemide

Answer 110

loop diuretic

Question 111

ethocrynic (etharcinic) acid

Answer 111

loop diuretic

Question 112

bumetanide

Answer 112

loop diuretic

Question 113

torsemide

Answer 113

loop diuretic

Question 114

thiazide diuretics

Answer 114

block Na/Cl symporter in distal convoluted tubule
decreasing Na+ absorption and H2O absorption

risk of hypokalemia

ex. HCTZ, chlorthalidone, indapamide, metolazone

Question 115

HCTZ

Answer 115

thiazide diuretic

Question 116

chlorthalidone

Answer 116

thiazide diuretic

Question 117

indapamide

Answer 117

thiazide diuretic

Question 118

metolazone

Answer 118

thiazide diuretic

Question 119

potassium sparing diuretics

Answer 119

inhibit either Na+ channel (ENAC) or aldosterone action in the principal cells which decreases the amount of K+ secretion and excretion

only has small volume changes

ex. Na+ channel inhibitors: amiloride, triamterene
ex. aldosterone antagonist: spironolactone, eplerenone

Question 120

spironolactone

Answer 120

potassium sparing diuretic that acts on aldosterone

Question 121

eplerenone

Answer 121

potassium sparing diuretic that acts on aldosterone

Question 122

amiloride

Answer 122

potassium sparing diuretic that acts on ENAC

Question 123

triamteren

Answer 123

potassium sparing diuretic that acts on ENAC