Antiarrhythmic Drugs

Question 1

Digoxin

1. Antiarrhythmic effect is on the what?
2. Used for what?
3. Used for it’s effect on?

Answer 1

1. AV node
2. ventricular rate control in atrial fibrillation and flutter
3. positive inotrope effect in CHF

Question 2

1. Digoxin_____ the electrical conduction through the AV node
2. Stimulates the ____________ nervous system and increases ______ ______

Answer 2

1. slows
2. parasymathetic
   vagal tone

Question 3

Slows AV conduction and prolongs the AV nodal refractory period. What does this cause on the EKG? 3

Answer 3

1. Increased PR interval
2. Downward sloping ST segment depression
3. Shortened QT interval

Question 4

Dig is used to slow ventricular rates in Afib and A flutter. What is the downside to this? 2

Answer 4

Slows rates (for rate control)!!!

1. Does NOT convert rhythms (afib/flutter) to sinus!
2. Does not work well for slowing ventricular rates during exercise!

Question 5

Digoxin:

1. Onset?
2. Administration/dosing?
3. Steady State?
4. Theuropeutic range?

Answer 5

1. Slow onset
2. Need a loading dose period
3. May take a week to achieve steady state
4. Monitor serum blood levels periodically
   Therapeutic range 0.8 – 2 ng/mL
   AF and concomitant LVSD is 0.5-1 ng/mL

Question 6

Who has increased mortality on Dig?

Answer 6

Higher levels in pts with LVSD = higher mortality

AF and concomitant LVSD is 0.5-1 ng/mL

Question 7

Digoxin toxicity can be caused by

3

Answer 7

1. Declining renal function
   Renal excretion
2. Electrolyte disturbances
3. Drug interactions
   Many meds may increase serum digoxin concentrations

Question 8

What electrolyte disturbances can cause dig toxicity? 3

What drug interactions may increase serum dig concentrations? 2

Answer 8

1. Hypokalemia,
2. hypomagnesemia and
3. hypercalcemia

can predispose the myocardium to the toxic effects of digoxin

1. amiodarone,
2. verapamil

Question 9

Signs and symptoms of digoxin toxicity

8

Answer 9

1. Heart block
2. AV junctional tachycardia
3. Ventricular arrhythmias
4. Visual disturbances
5. Blurred vision, yellow/green halos
6. Dizziness
7. Weakness
8. GI: N/V/D and anorexia

Question 10

Why is adenosine used?

Answer 10

Used to convert PSVT to SR

Question 11

1. Activates _______ channels by increasing the outward ________ current
2. __________ the membrane potential and __________ spontaneous SA node depolarization
3. _______ automaticity and conduction in the SA and AV nodes
4. Half life?

Answer 11

1. • potassium
   • potassium
2. • Hyperpolarizes
   • decreases
3. Inhibits
4. 10 seconds

Question 12

Adenosine contraindications

2

Answer 12

1. 2nd or 3rd degree heart block

2. sick sinus syndrome in the absence of a pacemaker

Question 13

1. What kind of drug is atropine?

2, What does it enhance and how? 2

3. What does it block? 2
4. Used for the treatment of what?
5. May induce what?

Answer 13

1. Parasympatholytic drug
2. Enhances
   - -sinus nodal automaticity and
   - -AV nodal conduction through direct vagolytic action
3. Block
   - -acetylcholine and
   - -parasympathetic neuroeffector sites
4. Used for the treatment of symptomatic bradycardia
5. May induce tachycardia

Question 14

Atropine contraindications

4

Answer 14

1. Angle closure glaucoma
2. Obstructive uropathy (think BPH)
3. Tachycardia
4. Bowel obstruction or altered bowel transit time

Question 15

Class 1 blocks what?

What are the sub classes?
3

Answer 15

sodium channel blockers

1. Class Ia (intermediate onset/offset)
2. Class Ib (fast onset/offset)
3. Class Ic (slow onset/offset)

Question 16

Class Ia (intermediate onset/offset)
are which drugs?
3

Answer 16

1. Disopyramide (Norpace)
2. Procainimide (Pronestyl)
3. Quinidine (Quinidex)

Question 17

Class Ib (fast onset/offset) are which drugs?
3

Answer 17

1. Lidocaine
2. Mexiletine (Mexitil)
3. Phenytoin (Dilantin)

Question 18

Class Ic (slow onset/offset) are which drugs? 2

Answer 18

1. Flecainide (Tambocor)

2. Propafenone (Rythmol)

Question 19

3 classes of sodium channel blockers are categorized how? 2

Answer 19

1. Subdivided by the rate of sodium channel dissociation

2. Variable rates of binding and dissociating from the sodium channel receptor

Question 20

1. What kind of drugs are Class Ia?
2. What are they used to treat? 2
3. They have anticholinergic effects that can lead to?
4. WHat do you need to prescribe with this?
5. Major complication?
6. Which drug is IV only?

Answer 20

1. These drugs are proarrhythmic

Used to treat atrial and ventricular rhythms

3. Ex: Quinidine and Disopyramide increase automaticity of the SA and AV nodes
4. Need to have a Beta blocker or Calcium channel blocker on board to prevent tachyarrhythmias in afib/flutter pts
5. Torsades
6. Procainimide IV only

Question 21

What are the drugs for Class Ib?

2

Answer 21

Lidocaine

Mexiletine

Question 22

1. What is lidocaine used for?
2. Exerts most of it’s effects on what?
3. Particularily useful for what?
4. Administered how?
5. Toxicity causes? 2

Answer 22

1. Used for ventricular arrhythmias (VT, VF)
2. ischemic or infarcted tissue of the ventricles
3. VT/VF associated with AMI
4. IV only
5. Toxicity: seizures and respiratory arrest

Question 23

What is mexiletine?

Answer 23

Oral analog of Lidocaine used for ventricular arrhythmias

Question 24

What are the Class Ic drugs? 2

Answer 24

Flecainide (Tambocor)

Propafenone (Rhythmol)

Question 25

1. Flecainide (Tambocor) mainly used for what?

2. When can we not use it? 4

Answer 25

1. Mainly used for rhythm control in afib/flutter
   - –FDA approved to use for ventricular arrhythmias but is not very effective for these and has a high incidence of adverse effects

Cannot use if any hx of structural heart disease

1. CAD,
2. LVSD,
3. valvular disorders,
4. LVH

otherwise proarrhythmic

Question 26

Propafenone (Rhythmol) is used for what?

Cannot be used in what situations?

Answer 26

Used for atrial arrhythmias such as afib/flutter

Cannot be used if hx of structural heart disease

Question 27

Beta blockers are used for?

4

Answer 27

1. Used for suppression of ventricular and supraventricular arrhythmias
2. Slow AV nodal conduction and SA nodal rates
3. Negative inotropic agents
4. Decrease myocardial oxygen consumption

Question 28

Review of beta blocker SE

8

Answer 28

1. Bronchospasm
2. Fatigue
3. Depression
4. Nightmares
5. Erectile dysfunction
6. Hypotension
7. Bradycardia
8. Worsening CHF (in some patients…end stage or in acute decompensated state)

Question 29

What are Class III drugs?

what does it block and what are the drugs 4?

Answer 29

POTASSIUM CHANNEL BLOCKERS

1. Amiodarone (Cordarone)
2. Dofetilide (Tikosyn)
3. Ibutilide (Corvert)
4. Sotalol (Betapace)

Question 30

Class III Antiarrhythmics

work how?

Answer 30

Prolong the action potential

Question 31

Amiodarone (Cordorone) is used for what? 2

Answer 31

1. Rhythm control of atrial fibrillation and flutter

2. Ventricular arrhythmias

Question 32

Sotalol (Betapace) used for what? 2

Ibutilide (Tikosyn) used for what?

Answer 32

VT and atrial fibrillation

Rhythm control of atrial fibrillation and flutter

Question 33

Monitor for EKG changes
2

Which drugs should we not use it with?

Answer 33

1. May induce ventricular arrhythmias and ectopy
2. May change intervals
   PR, QRS, QT

Don’t use with other drugs that prolong the QT interval

Question 34

Why is Amiodarone unique?

How is it administered?

Answer 34

Probably the most widely used medication for rhythm control for atrial fibrillation and VT

Unique in that it has characteristics of all 4 antiarrhythmic drug classes
Given IV for acute treatment

Question 35

Amiodarone PK/PD

1. Bioavialbility?
2. Volume of distribution?
3. lipophilic or hydrophilic?
4. These characteristics may lead to what?

Answer 35

1. Poor bioavailability
2. Large volume of distribution
3. Highly lipophilic
4. These characteristics may lead to build up of the drug in various organs

Question 36

What organs might amiodarone build up in? 8

Amiodarone toxicities can cause?
9

(what is the most life threatening?)

Answer 36

1. Lungs,
2. thyroid,
3. eyes,
4. heart,
5. liver,
6. skin,
7. GI tract,
8. CNS
9. Dermatologic
10. Photosensitivity
11. Blue-gray skin discoloration
12. Neurologic
13. Ataxia
14. Peripheral neuropathy
15. Fatigue
16. insomnia
17. The pulmonary toxicity acutely can be life threatening, chronically leads to interstitial lung disease

Question 37

Amiodarone monitoring
What labs should be looked at every 6 months to monitor amiodarone? 3

Baseline and Yearly? 3

Answer 37

1. TSH,
2. CBC,
3. LFTs
4. PFTs (DLCO)
5. CXR
6. Eye Exam

Question 38

Amiodarone visual complications?

6

Answer 38

1. Optic neuritis,
2. optic neuropathy,
3. corneal and lens opacities,
4. halos,
5. blurred vision,
6. photophobia

Question 39

SE of amiodarone

Answer 39

1. GI disturbance common on higher doses

2. Drug interactions

Question 40

Amiodarone:
GI disturbance common on higher doses are? 4

Drug interactions?
5
(what are the two to remember?)

Answer 40

1. N/V,
2. anorexia,
3. abd pain,
4. constipation
5. Substrate of the CYP3A4 isoenzyme
6. Significant interactions with digoxin!!!!! and warfarin!!!!
7. Potentiates the effects of warfarin
8. Can double the serum dose of digoxin
9. Interacts with simvastatin (Zocor) so max dose of Zocor is 20 mg

Question 41

1. Sotalol (Betapace)
   used for? 2
2. Has what kind of properies? (which causes what kind of EKG SE?)
3. During initiation of the drug what do we need to do and why?
4. Side effects?
5. Who should we not use in and why?
6. Cleared by what?
7. Risk for what?

Answer 41

1. VT and afib/flutter
2. Has some beta blocking properties and prolongs the QT
3. During initiation of the drug: hospitalize for 3 days to monitor
   QT interval due to risk for TdP
4. SE similar to B-blockers: fatigue, dyspnea, bradycardia.
5. Negative inotropic effects so usually don’t use in LVSD
6. Renal clearance
7. Risk for torsades

Question 42

1. Dofetilide (Tikosyn) used for what?
2. Can cause what on the EKG?
3. Risk of what with increased serum concentrations?
4. SE? 2

Answer 42

1. Used for afib/flutter
2. QT prolongation
3. Risk of torsades when increased serum concentrations
4. SE include HA and dizziness

Question 43

Dofetilide (Tikosyn)
Many drug interactions including what?
8

Answer 43

1. TMP-SMX,
2. macrolide abx,
3. verapamil,
4. antifungals,
5. SSRIs,
6. Diltiazem,
7. Grapefruit juice,
8. caution with metformin

Question 44

Ibutilide (Corvert) is used for what?
Administered how?

Major adverse effect?

Answer 44

IV only for acute conversion of afib/flutter to sinus rhythm

Major adverse effect is torsades

Question 45

CLASS IV block what?

Which kind do we use?

Answer 45

CALCIUM CHANNEL BLOCKERS

Nondihyros

Question 46

Nondihydropyridine calcium channel blockers:

1. Decrease automaticity where?
2. Decrease conduction where?
3. Treatment for? 4

What do we need to remember about this drug???

Answer 46

1. Decrease automaticity in the SA and AV node
2. Decrease conduction through the AV node
3. Used for treatment of
   - -supraventricular arrhythmias
   - -PSVT,
   - -atrial fibrillation,
   - -atrial flutter

ONLY WORK ON ATRIA (if you have someone with PVCs you need to give them a beta blocker instead)

Question 47

Cardiac effects of NDHP CCBs:

1. Relaxes what?
2. Dont use in which pts and why?
3. which is the best?
4. What kind of chronotropic effect?

Answer 47

1. Vascular relaxation
2. Negative intropic effect (don’t use in LVSD)
3. Verapamil > Diltiazem
4. Negative chronotropic effect

Question 48

NDHP CCBs should not be used in which pts and why?

Answer 48

Do not use in WPW or an accessory pathway because they can shorten the refractory period of the accessory pathway and increase the ventricular rate and lead to VF

Question 49

SE of NDHP CCBs:
1. Why do we need to give verapamil slowly?

2. Other side effects? 8

Answer 49

1. Verapamil IV should be given slowly otherwise can cause severe hypotension
2. Bradycardia,
3. heart block,
4. headache,
5. flushing,
6. dizziness,
7. peripheral edema
8. Constipation with verapamil
9. Many drug-drug interactions: CYP3A4 isoenzyme