21-31 - Antiarrhythmic Drugs

Question 1

four ways of decreasing spontaneous activity

Answer 1

• decrease slope of phase 4
• increase threshold
• increase maximum diastolic potential
• increase action potential duration

Question 2

two ways of increasing refractoriness

Answer 2

• sodium channel blocker

- action potential prolonging durg

Question 3

sicilian gambit: class 1 MOA

Answer 3

block fast inward sodium channels to varying degrees in conductive tissues of the heart

Question 4

how do class I drugs effect maximum depolarization rate (vmax of phase 0)?

Answer 4

decrease

Question 5

class I drugs _________ automaticity and _____ conduction

Answer 5

reduce

delay

Question 6

how do class I drugs effect the ERP?

Answer 6

prolonged

Question 7

do class I drugs completely block the sodium channel?

Answer 7

no - moderate binding to Na channel also block the potassium channel

–> prolonged QRS and QT

Question 8

do class I drugs block the calcium channel?

Answer 8

only at high doses

Question 9

review the sicilian gambit table

Answer 9

page 10 of handout –> look for patterns

Question 10

quinidine MOA

Answer 10

block rapid inward sodium channel –> slows conduction

Question 11

is quinidine used clinically?

Answer 11

no

only in refractory pts to convert afib or aflutter, prevent reoccurrance of afib and to treat ventricular arrhythmias

Question 12

adverse effects quinidine

Answer 12

• diarrhea
• cinchonism
• hypotension
• torsades de pointes (proarrhythmic)

Question 13

cinchonism is what? it is an adverse effect of what drug?

Answer 13

= tinnitus, hearing loss, blurred vision

quinidine intoxication

Question 14

MOA procainamide

Answer 14

block rapid inward Na channel –> slows stuff down

Question 15

what is the effect of procainamide on APD and refractoriness?

Answer 15

blocks K channels –> prolongs APD and refractoriness

Question 16

quinidine v. procainamide

Answer 16

procainamide has little vagolytic activity and does not prolong the QT interval to as great an extent

Question 17

clinical use of procainamide

Answer 17

ventricular arrhythmias

acute treatment of reentrant SVT, afib, aflutter with WPW sydnrome

Question 18

ventricular tachycardia following an Mi presents to your ER: why don’t you treat with procianamide?

Answer 18

although this drug can be used to treat ventricular arrhythmias, it takes too long (20 min IV loading)

Question 19

observe SLE-like syndrome in a pt: what drug are they taking?

Answer 19

this is an adverse effect of procainamide

Question 20

class Ib general MOA

Answer 20

weak binding of Na channels

due to rapid on off kinetics

Question 21

how do class Ib drugs effect action potential

Answer 21

accelerated phase 3 repolarization

Question 22

indications for class Ib drugs

Answer 22

digitalis and MI induced arrhythmia

Question 23

lidocaine MOA

Answer 23

blocks open and inactivated sodium channels –> reduces vmac and shortens AP (When unnaturally long)

Question 24

would you use lidocaine in an infranodal block?

Answer 24

no - potentiates infranodal blocks

Question 25

indications for lidocaine

Answer 25

second choice for ventricular arrhythmias

Question 26

can lidocaine be used for atrial issues?

Answer 26

no - ineffective in atrial tissue

Question 27

first choice drug for immediately life threatening/symptomatic arrhythmias

Answer 27

amiodarone

Question 28

storngest binding class to sodium channels

Answer 28

class Ic

because slow on/off kinetics

Question 29

MOA propafenone

Answer 29

strong inhibitor of Na channel

Question 30

indications for propafenone

Answer 30

treat atrial arrhythmias, PSVT, and ventricular arrhythmias **in pt with no or minimal heart disease and preserved ventricular function

Question 31

MOA flecainide

Answer 31

potent NA channel blocker –> slows intraventricular conduction

Question 32

clinical use of flecainide

Answer 32

only refractory ectopic ventricular arrhythmia

**not first line because can cause fatal proarrhythmic effects

Question 33

beta-adrenergic antagonists =

Answer 33

class II agents

Question 34

indications for beta-adrenergic antagonists

Answer 34

supraventricular arrhythmias due to excessive sympathetic activity

Question 35

only antiarrhythmic drus found to be clearly effective in preventing sudden cardiac death in pt wit hprior MI

Answer 35

b adrenergic antagonist

Question 36

main MOA of class III agents

Answer 36

potassium blockers

but really block all the channels to some extent

Question 37

main effect of class III agents

Answer 37

prolong phase 3 repolarization , increase QT interval

Question 38

amiodarone half life

Answer 38

after IV: 5-68 hrs

after saturation in tissue (lipophilic) = 13-103 days

Question 39

most dangerous complication of amiodarone

Answer 39

lethal interstitial pneumonitis

could also see hypotension and hypothyroidism

Question 40

MOA class IV agents

Answer 40

calcium channel blockers

–> depressed SA nodal automaticity, AV nodal conduction, decreased ventricular contractility

Question 41

major cardiovascular site of action for calcium channel blockers

Answer 41

• vascular smooth muscle cells
• cardiac myocytes
• SA and AV nodal cells

Question 42

do calcium channel blockers completely block the pore?

Answer 42

no - blockade is incomplete

no CCB binds to all pores

Question 43

calcium channel blocker which effects mainly the vasculature

Answer 43

dihydropyridines

ex: nifedipine

Question 44

calcium channel blockers with effects mainly in the heart

Answer 44

non-dihydopyridines

ex: verapamil and diltiazem

Question 45

do calcium channel blockers effect smooth muscle? uterine muscle? skeletal muscle?

Answer 45

NO
YES - relaxes, can be used for preterm contractions
NO

Question 46

4 main clinical applications for calcium channel blockers

Answer 46

• HTN
• angina pectoris
• SVT supraventricular tachycardia
• post-infarct protection

Question 47

MOA verapamil

Answer 47

blocks slow Ca channels in nodal tissue –> decreased HR and increased PR interval, cardiac depression

Question 48

is verapamil a good drug for ventricular arrhythmias?

Answer 48

no - ineffective on ventricular arrhythmia

Question 49

indications for verampamil

Answer 49

• SVT
• rate control in afib
• angina pectoris
• HTN

Question 50

adverse effects of verapamil

Answer 50

constipation and exacerbate CHF

Question 51

contraindications for verapamil

Answer 51

• WPW with afib

- ventricular tachycardia

Question 52

what type of drug is diltiazem?

Answer 52

type IV calcium channel blocker like verapamil

Question 53

MOA adenosine

Answer 53

A1 receptor in SA and A nodes –> decrease firing rate

also does vasodilation and stimulates pulmonary stretch receptors

Question 54

treatment for paroxysmal supraventricular tachycardia caused by reentry involving accessory bypass pathways

Answer 54

adenosine - rapid acting

Question 55

half life adenosine

Answer 55

10-15 sec

Question 56

adverse effects of adneosine

Answer 56

hypotension
flusing
complete heart block

Question 57

management for bradycardia (3 things)

Answer 57

• atropine
• isoproterenol
• pacemaker

Question 58

non-pharmacological management for sinus tachycardia, PSVT

Answer 58

vagal stimulation through caroid sinus massage or valsalva maneuver

Question 59

AV nodal reentry tachycardia: drug of choice to treat

Answer 59

adenosine - rapidly reduces HR

Question 60

ventricular tachycardia - drug of choice to treat?

Answer 60

amiodarone or lidocaine