Quiz 4: Antiarrhythmics

Question 1

What occurs at phase 0 during cardiac action potential:

Answer 1

• RAPID DEPOLARIZATION

- Action potential is initiated by an increase in Na+ conductance through ion-specific fast channels

Question 2

What occurs at phase 1 during cardiac action potential:

Answer 2

• EARLY RAPID RE-POLARIZATION
• Na+ permeability is rapidly inactivated over 1-2 ms
• The cell starts to repolarize

Question 3

What occurs at phase 2 during cardiac action potential:

Answer 3

• PLATEAU
• Repolarization is delayed by an increase in conductance of Ca++ through slow channels
• Maintains Vm at +10 to -20 mV for over 100ms

Question 4

What occurs at phase 3 during cardiac action potential:

Answer 4

• RAPID REPOLARIZATION

- Complete repolarization due to inactivation of Ca++2 conductance and an increase in K+ permeability

Question 5

What occurs at phase 4 during cardiac action potential:

Answer 5

• SPONTANEOUS DEPOLARIZATION
• Slow depolarization characteristic of all pacemaker cells
• Results from a complex interaction between inward and outward currents of Ca +2 and K+ during diastole

Question 6

Ion specific channels that are SLOW channels mediated by _______.

Answer 6

-Ca+2

Question 7

Slow conduction velocity is a _____ mediated and is responsible for phase __ and affects the __ and __ nodes.

Answer 7

• Ca+2
• 0
• SA
• AV

Question 8

Prolongs refractory period is a ___ mediated and contributes to phase __ in the ______ contractile cells.

Answer 8

• Ca+2
• 2
• ventricle

Question 9

Slow channels in cardiac electrophysiology affects phase __ in spontaneous depolarization.

Answer 9

0

Question 10

T/F: Slow channels in cardiac electrophysiology is facilitated by catecholamines.

Answer 10

TRUE

Question 11

Ion specific channels that are fast channels are mediated by __.

Answer 11

Na+

Question 12

Fast channels that are Na+ mediate in phase 0 are responsible for the rapid (sharp) upstroke in the _________ system and _____ and ______muscles.

Answer 12

• His-Purkinje
• atrial
• ventricular

Question 13

Na+ mediated cardiac channel have a SLOW conduction velocity.

Answer 13

FALSE (Na+ mediate cardiac channel have a FAST conduction velocity.)

Question 14

What is the difference in a comparison of a ventricular cell and the sinoatrial cell when considering the slow channel mediated activity?

Answer 14

-In ventricular cells Ca2 accounts for the plateau phase 2, while in S-A cells it is the prime determinant of initial depolarization phase 0.

Question 15

T/F: Cells that undergo phase 0 depolarization are automatic and capable of impulse generation.

Answer 15

FALSE (Cells that undergo phase 4 depolarization…)

Question 16

Factors that reduce automaticity at the higher pacemaker sites will _______ favor the movement of the pacemaker to lower sites.

Answer 16

-passively

Question 17

What factors will reduce automaticity at the higher pacemaker sites to passively favor the movement of the pacemaker to the lower sites?

Answer 17

• Vagal influences
• digitalis drugs
• parasympathomimetic drugs
• Halothane

Question 18

Ectopic foci result from enhanced automaticity at a site outside the SA node and are called ____ ___.

Answer 18

-Ectopic pacemaker

Question 19

What factors influence the ectopic pacemaker?

Answer 19

• Sympathomimetic influence
• Hypercarbia
• Hypoxia
• Dig. Toxicity

Question 20

For a re-entry arrhythmia to occur what must happen?

Answer 20

• Unidirectional block of impulse conduction (area of injury)
• Slow conduction
• Impulse finds the unidirectional block repolarized and able to conduct the impulse retrograde
• Impulse reactivates the alternate pathway and repeats the process

Question 21

Pharmacologic arrhythmia management relies upon the different ion channels responsible for impulse generation in the __ and __ versus the __ and __ nodes

Answer 21

• atria
• ventricles
• SA
• AV

Question 22

The Na+ channel drugs effect the ion channel where in the heart?

Answer 22

• Atria

- Ventricle

Question 23

The Ca++ channel drugs effect the ion channel where in the heart?

Answer 23

• SA node

- AV node

Question 24

Class I antiarrhythmic drugs mechanism of action:

Answer 24

• inhibits fast Na+ channels

Question 25

What drugs fit within the antiarrhytmic drug class of I:

Answer 25

• IA: Quinidine, Procainamide, Disopyramide, Moricizine
• IB: Lidocaine, Mexilitine
• IC: Flecainide, Propafenone

Question 26

Class II antiarrhythmic drug’s mechanism of action is:

Answer 26

-Decrease rate of depolarization

Question 27

What type of drugs fit within the antiarrhythmic class of II:

Answer 27

-Beta Blockers

Question 28

Class III antiarrhythmic drug’s mechanism of action is:

Answer 28

-Inhibit potassium ion channels

Question 29

What type of drugs fit within the antiarrhythmic class of III:

Answer 29

• Amiodarone
• Sotalol
• Ibutilide
• Dofetilide
• Bretylium

Question 30

Class IV antiarrhytmic drug’s mechanism of action is:

Answer 30

Inhibit slow calcium channels

Question 31

What type of drugs fit within the antiarrhythmic class of IV:

Answer 31

• Diltiazem

- Verapamil

Question 32

A sodium channel blocker is what class and how does it exactly work?

Answer 32

• Class I

- Slow conduction and prolong the QRS complexes in the atria and ventricles

Question 33

A calcium channel blocker is what class and how does it exactly work?

Answer 33

• Class IV

- Slow the atrial rate (SA node effect) and slow conduction through the AV node (Prolonging the PR interval)

Question 34

A potassium channel blocker is what class and how does it exactly work?

Answer 34

• Class III
• Interrupts reentry by slowing conduction or increasing the refractory period
• Prolongs the QT interval and induces triggered activity in the ventricle causing polymorphic VT (Torsades de Pointes)

Question 35

How does class Ia effect the action potential:

Answer 35

• slows phase 0 (Na channel blockade)

- Prolongs phase 3 (K channel blockade)

Question 36

How does class Ib effect the action potential:

Answer 36

• Slows phase 0 (Na channel blockade)

- Shortens phase 3 (K channel promoter)

Question 37

How does class Ic effect the action potential:

Answer 37

• Very slow phase 1

- NO effect phase 3

Question 38

How does class II effect the action potential:

Answer 38

-Reduces slope of 4

Decreases heart rate

Question 39

How does class III effect the action potential:

Answer 39

-Prolongs phase 3

Blocks K+ ion Channel

Question 40

How does class IV effect the action potential:

Answer 40

-Reduces slope of 4

Calcium channel blocker

Question 41

Which class has a less powerful sodium channel blocker? Class Ia or Class Ib

Answer 41

-Class Ib

Question 42

What class of antiarrhythmic is associate with more of a prodysrhythmic effect?

Answer 42

-Class Ic
(Flecainide and Propafenone)

-Could consider Class III

Question 43

What does Amiodarone and Sotalol block:

Answer 43

• Sodium channels (Class I )
• Beta Blockade (Class II)
• Calcium channel blockade (Class IV)

Question 44

What are the two unclassified antiarrhythmic drugs?

Answer 44

• Adenosine

- digoxin

Question 45

What is prodysrhytmic effect?

Answer 45

-Brady/tachydysirhythmias that represent new cardiac dysrhytmias associated with chronic antidysrhytmic drug treatment.

Question 46

What are the types of prodysrhytmic effects?

Answer 46

• Torsades de pointes
• Increased ventricualr tachycardias
• Wide Complex ventricular rhythm

Question 47

What causes Torsades de Pointes?

Answer 47

-K channel blockade may prolong the QT interval and induce triggered activity in the ventricle causing polymorphic VT or ventricular fibrillation

Question 48

What class block K+ and prolongs QTc interval?

Answer 48

• Class Ic

- Class III

Question 49

What are the predisposing factors for torsades:

Answer 49

DECREASE

• K+
• Mg++
• slow heart rate
• Pre-existing long QT interval

Question 50

What is the treatment of Torsades??

Answer 50

• D/C the offending agent
• Correction of electrolyte
• Administer Mg++ 2 grams
• Increase HR with pacing or isoproterenol
• Cardiovert only if hemodynamically compromised

Question 51

Incessant Ventricular Tachycardia is usually brought on by what class(es) of antiarrhythmics used:

Answer 51

• Ia

- Ic

Question 52

Wide complex ventricular rhythm are associated with what class?

Answer 52

-Ic

Question 53

What are the goals of using antirrhytmic drugs:

Answer 53

• restore NSR
• Abolish ectopic beats
• control the heart rate

Question 54

What would be some easily reversible conditions for the treatment of arrhythmias:

Answer 54

• Hypoxia
• Acidosis
• Hypercarbia
• Electrolyte imbalances
• Alkalosis
• Temperature

Question 55

What does Halothane do to the heart?

Answer 55

-Makes it sensitive to catecholamine

Question 56

What do inhalational agents do to the heart?

Answer 56

-affect conduction and cause junctional rhythms

Question 57

What muscle relaxants are vagolytic:

Answer 57

• pancuronium

- gallamine

Question 58

What does succinylcholine do after repeated doses do to the heart:

Answer 58

• Cause SB
• Junctonal rhythms,
• ventricular arrhythmias
• asystole

Question 59

What may be the first signs of ischemia with the heart?

Answer 59

• PVC

- conduction changes

Question 60

Yes/No: To increase the heart rate to an anesthetized patient you could give Pancuronium or gallamine.

Answer 60

YES

Question 61

T/F: Intra-op bradycardia can be handled using a beta antagonist or a cholinergic agent.

Answer 61

FALSE (… Handled using a beta agonist or a anticholinergic agent.)

Question 62

Intra-Op SVT cardioversion is needed if SBP < __ .

Answer 62

80

Question 63

What type of drug would be avoided if patient has a AV reciprocating SVTs arise from reentrant circuits that involve accessory pathways (WPW or Pre-excitation).

Answer 63

-Class II
(Beta blockers)
-Class IV
(Diltiazem and verapamil)

Question 64

What drugs would work for a patient that has a AV reciprocating SVTs arise from reentrant circuits that involve accessory pathways?

Answer 64

• Adenosine
• Procainamide (Class Ia (WPW))
• Flecainide??

Question 65

What are nonsustained VT:

Answer 65

• 3 or more PVC
• Rate exceeding 100 beats/min
• Last 30 seconds or less
• without hemodynamic compromise
• Preserved ventricular function, not predivitve of serious VT, no Tx. needed
• Evaluate and treat potential etiologies
• Poor LV function or severe LVH, prophylaxis with lidocaine

Question 66

What drug would be given in Polymorphic VT:

Answer 66

• Class Ib (Lidocaine)

- phenytoin

Question 67

What drug would be give in sustained VT or VF:

Answer 67

• Class Ib (lidocaine)
• Class Ia (procainamide)
• Class III (Amiodarone)

Question 68

What is the mechanism of action of procainamide:

Answer 68

• Class Ia
• Na+ and K+ channel blocker
• PREVENT reenty by converting unidirectional to bidirectional block
• Depresses automaticity by decresing the slope of phase 4 depolarization, increases refractoriness

Question 69

What would be the indication for procainamide:

Answer 69

• ventricular tachydysrhythmias and atrial tachycardia in the presence of accessory pathways
• SVT
• A. Fib
• PVC
• VT

Question 70

What drug toxicity results in the systemic lupus erythematosus like syndrome possible with chronic administration.

Answer 70

-Procainamide

Question 71

Lidocaine is a __ channel blocker.

Answer 71

Na

Question 72

T/F: Lidocaine is the first choice for supraventricular arrhythmias.

Answer 72

FALSE (..first choice for ventricular arrhythmias.)

Question 73

Lidocaine is _____ against Supraventricular arrhythmias.

Answer 73

ineffective

Question 74

What phase does lidocaine work in and where at can the effects be seen?

Answer 74

• Decrease phase 4

- Purkinje fibers

Question 75

What does lidocaine toxicity do to the CNS and CV system?

Answer 75

-CNS: depression to stimulation
-CV: depress LV function in preexisting LV dysfunction
CV:RARELY cause further slowing in patients with sinus bradycardia

Question 76

Phenytoin is a __ channel blocker.

Answer 76

Na

Question 77

Phenytoin _____activity triggered by digitalis induced after depolarization in purkinje fibers.

Answer 77

-abolishes

Question 78

What drug would you use for ventricular dysrhythmias assoociated with digitalis toxicity.

Answer 78

Phenytoin

Question 79

What is the problem with phenytoin when administered through a peripheral IV?

Answer 79

-Highly alkaline and can cause phlebitis

Question 80

Phenytoin administered rapidly will cause:

Answer 80

• respiratory arrest
• severe hypotension
• Ventricular ectopy
• DEATH

Question 81

What will phenytoin toxicity do to the CNS?

Answer 81

-Drowsiness, nystagmus, nausea, vertigo

Question 82

T/F: Flecainide is used to treat WPW.

Answer 82

TRUE

Question 83

What are the side effects of Flecainide?

Answer 83

• Moderate negative inotropic effect
• Vertigo
• Difficulty in visual accommdation

Question 84

Propranolol toxicity includes:

Answer 84

• Profound bradycardia or asystole
• LV failure
• Acute bronchospasm

Question 85

Amiodarone may ______ beta blockers and Ca++ channel blocker.

Answer 85

potentiate

Question 86

T/F: Amiodarone would work in suppression of tachydysrhythmias associated with WPW.

Answer 86

TRUE

Question 87

Where does amiodarone accumulate in the body?

Answer 87

Thyroid

Question 88

Is Amiodarone lipid soluble or not?

Answer 88

Soluble

Question 89

What is the half life of Amiodarone?

Answer 89

-Weeks to months

Question 90

What are the toxicity of amiodarone?

Answer 90

• RESP: ARDS, pulmonary fibrosis
• CV : bradycardia, hypotension, dysrhythmias, heart failure, heart block, sinus arrest
• HEME: coagulation abnormalities
• Hepatic: increase in LFT and liver failure
• ENDO: hypo/hyperthyroidism

Question 91

Dronedarone (MULTAQ) is just like ___ and is used for ____ and is ONLY administered __.

Answer 91

• amiodarone
• A. FIB
• PO

Question 92

T/F: Verapamil has NO effeccct on accessory tracts.

Answer 92

TRUE

Question 93

Digoxin slows the ventricular response rate in ____ but, enhances conduction through _______ pathways which can lead to increase ventricular response in __.

Answer 93

• A. Fib.
• accessory
• WPW

Question 94

Digoxin inhibits what:

Answer 94

-Na+/K+ ATPase pump

Question 95

Adenosine has what type of receptor?

Answer 95

-adenosine (A1 receptor)

Question 96

What will methylxanthine do to adenosine?

Answer 96

-inhibits adenosine by binding to the A1 receptor

Question 97

Dipyridamole will do what to adenosine?

Answer 97

-Potentiate adenosine effects by being an adenosine uptake inhibitor.

Question 98

What will be seen with adenosine toxicity?

Answer 98

• Facial flushing
• dyspnea
• chest pressure most common but subsides in < 60 seconds
• May exacerbate bronchoconstriction in asthmatic.