308 Drugs used in arrhythmias

Question 1

What are the 2 types of cardiac cells?

Answer 1

contractile cells - which make up most of the walls of the atria and ventricles - when stimulated they generate force for contraction of the heart (myocyte)

conducting cells - initiate the electrical impulse which controls those contractions (automaticity). Found in SA node, AV node, His bundles and purkinje fibres

Question 2

Why is the SA node the natural pacemaker of the heart?

Answer 2

It reaches membrane potential the fastest

Question 3

Describe normal cardiac conduction

Answer 3

SA node action potential triggers atrial depolarisation

• AV node is the only pathway for AP to enter the ventricles
• The bundle of His and its branches conduct the impulse to the Apex of the heart

Question 4

What are the areas of fast and slow conduction within the heart?

Answer 4

• Slow conduction: complete atrial systole before ventricular systole starts (SA/AV node)
• Fast conduction: His bundles and Purkinje fibres (ventricular depolarisation and contraction)

Question 5

What causes arrhythmias?

Answer 5

-Changes in automaticity of the natural pacemaker

• Etopic foci causing abnormal APs

-excitable groups of cells that cause premature heart beats

-hypoxic/ischaemic tissue can undergo spontaneous depolarisation and can become an ectopic pacemaker

-the normal conduction pathway is interrupted

-abnormal conduction pathways

-electrolyte disturbances and drugs

Question 6

What are the mechanisms of tachycardias?

Answer 6

Abnormal automaticity
- when membrane becomes abnormally permeable to sodium
- this can cause other cells to accelerate
automaticity thus generating impulses faster than the SA node

Triggered activity
- Anormal leakage of positive ions into cardiac cell leading to bump on action
potential called after depolarisation
- if sufficient magnitude can trigger premature AP, can lead to TdP

Re-entry
-Where an extra/accessory pathway exists
between upper and lower chambers of the heart
Eg. Wolf-parkinson-white syndrome
- AVNRT
- cardiac re-entry is responsible for the majority of clinically important arrhythmias

Question 7

How can drugs cause arrhythmias?

Answer 7

• Suppressing enhanced automaticity
• Decreasing conduction velocity
• Changing the effective refractory period to suppress re-entry

Question 8

What is the Vaughan Williams Classification?

Answer 8

Classifies antiarrhythmic drugs
agents by their ability to directly or indirectly block flux of one or more of these ions across the membranes of excitable cardiac
muscle cells

Question 9

What are some class 1A agents in the Vaughan Williams Classification?

Answer 9

Disopyramide, quinidine (not licensed in
the UK), procainamide

Block fast sodium and potassium channels infast APs and depress phase 0, prolong repolarisation. Can prolong QRS duration and QT interval on the ECG: can be pro-arrhythmic

• Useful for supraventricular arrhythmias, and
  ventricular arrhythmias

Only in patients with good ventricular function because of their negative inotropic effects

Question 10

What are some class 1B agents in the Vaughan Williams Classification?

Answer 10

Lidocaine: causes weak blockade of fast sodium channels, shorten repolarisation and
therefore action potential
-Only used to treat ventricular arrhythmias (does not work on atrial tissues
or on normal cardiac tissues)
-Given by intravenous bolus followed by a continuous intravenous
infusion (high first pass metabolism)

Mexiletine: lidocaine’s orally active sister

-Do not prolong QT interval
-The most frequent side effects are CNS:
including tinnitus and seizures, and occasionally hallucinations, drowsiness,
and coma, nausea/vomiting with mexiletine

Question 11

What are some class 1C agents in the Vaughan Williams Classification?

Answer 11

Propafenone, flecainide

Potent fast Na channel blockade
depress phase 0 depolarisation markedly and inhibits His/purkinje conduction system, with
limited effect on repolarisation period

• No effect on AP duration
• No effect on QRS length
• treatment of refractory ventricular arrhythmias

Flecainide: A potent fast inward sodium channel blocker used to treat symptomatic supraventricular arrhythmias
-Lowers ventricular function in most patients
-It also raises the threshold of pacing and cardiac defibrillators and should be used with caution in patients with
pacemakers or ICDs

Question 12

What are some class 2 agents in the Vaughan Williams Classification?

Answer 12

Beta blockers

Competitive beta1 receptor blockade preventing action of catecholamines on the heart

-Depress sinus node automaticity, slows conduction in AV node which
causes reduction in heart rate and contractility
-Prolonged repolarisation phase, which helps reduce incidence of re-entry
-Increases diastolic filling time (chronotropy), reduces the force of
contraction (inotropy)
-Improves coronary perfusion
-Prolongs PR interval which may lead to 1st degree AV block

Question 13

Give examples of class 2 Vaughan Williams Classification edications

Answer 13

-Propranolol
-Labetalol
-Atenolol
-Metoprolol
-Bisoprolol
-Nebivolol
-Carvedilol
-Esmolol

Question 14

What are some side effects of beta blockers?

Answer 14

Side effects:
o Bronchospasm – Asthma and COPD
o Hypotension
o Bradycardia
o Cardiac failure
o Impotence
o Exacerbation of PVD

Overdose:
o Glucagon
o Temporary pacing
o Inotropic support

No proarrhythmic effects

Question 15

What are some class 3 agents in the Vaughan Williams Classification?

Answer 15

Potassium channel blockers
Eg. Amiodarone, Dronaderone, Sotalo

Prolong repolarization phase by blocking outward potassium flux in phase 3 causing
prolonged refractory period

• leads to increase in duration of AP and decreases incidence
  of re-entry
• Anti-fibrillatory agents
• Useful in re-entry tachyarrhythmias (supraventricular)

Question 16

What is amiodarone good for?

Answer 16

The “demestos” of anti-arrhythmics – kills all known arrhythmias

Also blocks, Na channels, calcium and even alpha and beta receptors (hence ++ SE’s)

Question 17

What is the drug Sotalol good for?

Answer 17

has both Class II and Class III effects
= Beta-blocking effects and effects on prolonging the action potential
The combination of effects makes the drug effective in atrial and ventricular arrhythmias

Question 18

When in sotalol contraindicated?

Answer 18

In patients with QT prolongation,
bradycardia, torsades, hypomagnesemia, hypokalemia, bronchospasm, pulmonary oedema, heart failure, or AV block

Drug combinations that enhance the pharmacological effects of sotalol (beta-blockade, QT prolongation, AV
blockade) should be used with caution

Question 19

How does amiodarone work?

Answer 19

Structurally related to thyroid hormone, contains iodine

It has multiple function so is considered a ‘broad spectrum antiarrhythmic’

Used IV, amiodarone is superior to lidocaine (Lignocaine) and other agents for the treatment of ventricular arrhythmias

++ Drug-drug interactions

Question 20

What are the side effects of Amiodarone?

Answer 20

-Pulmonary fibrosis / interstitial pneumonitis (2-15%)
-Hepatotoxicity
-Hyperthyroidism and hypothyroidism (2-24%; amiodarone is structurally similar to thyroid hormone and contains large
quantities of iodine) - need baseline TFTs and at 3-6 months, earlier if already have thyroid dysfunction
-Peripheral neuropathy (20-40%, but reversible by lowering
dose)
-Skin reactions (15-20%) including photosensitivity (10%), which can result in blue-grey skin colour, and various visual
disturbances (10%)
-Corneal microdeposits - virtually all patients on drug for more than 6 months develop these which can eventually interfere
with vision

Question 21

What are some class 4 agents in the Vaughan Williams Classification?

Answer 21

Calcium channel blockers

More effective than Digoxin in controlling ventricular rate in patients with AC

• Relatively contraindicated in heart failure, impaired LV function, sick sinus
  syndrome, heart block
• ++CYP450 liver enzyme inhibitors therefore increased toxicity of many drugs

Question 22

What is the drug adenosine used for?

Answer 22

For paroxysmal SVT

IV only, extremely short half-life
Used to terminate arrhythmias (blocks
re-entrant pathway)

Question 23

How does the drug adenosine work?

Answer 23

stimulates A1 adenosine receptors on atrium, SA node and AV node

Decreased automaticity, decreased conduction velocity and prolonged refractory period

Question 24

What are some side-effects of adenosine?

Answer 24

Facial flushing
Dyspnoea
Chest pressure

Question 25

How does Digoxin work?

Answer 25

Digoxin is a cardiac glycoside that acts by inhibiting the sodium/potassium ATPase.

Used to control ventricular rate in patients with atrial tachycardias(AF), improves filling and efficiency

It increases vagal tone, thus slowing AV conduction

Question 26

How can Digoxin exacerbate AF?

Answer 26

It can cause calcium overload (and increased contractility which man help in HF) → but
should only be used in patients with sedentary lifestyles (any added
sympathetic drive can worsen)

Question 27

What is the drug magnesium sulphate used for?

Answer 27

To treat convulsions during pregnancy, nephritis in children, magnesium deficiency, and tetany

In arrhythmias, mechanism is unknown

Question 28

What is torsades de pointes?

Answer 28

A type of polymorphic ventricular tachycardia characterized on electrocardiogram by oscillatory changes in amplitude of the QRS complexes around the isoelectric line

It’s associated with QTc prolongation, which is the heart rate adjusted lengthening of the QT interval

Question 29

What is the drug magnesium sulphate used for?

Answer 29

Given IV in torsades de pointes and digoxin induced arrhythmias

Question 30

What are the side effects of magnesium sulphate?

Answer 30

bradycardia
respiratory paralysis
flushing
headache

Question 31

What are some examples of tachyarrhythmias?

Answer 31

• Supraventricular tachycardia
• Atrial fibrillation
• Atrial flutter
• Ventricular tachycardia
• Monomorphic
• Polymorphic (Torsades de pointe)
• Ventricular fibrillation

Question 32

What is meant by narrow vs broad tachycardia?

Answer 32

Relates to the QRS internal

Question 33

What is a Supraventricular Tachycardia?

Answer 33

Any tachyarrhythmia arising from above the level of the Bundle of His

Question 34

What is a Sinus Tachycardia?

Answer 34

An increase in HR to >100bpm

Normal sinus rhythm on ECG

Question 35

What is Wolff-Parkinson-White syndrome?

Answer 35

A condition that makes the heart suddenly beat abnormally fast, in an abnormal heart rhythm called supraventricular tachycardia (SVT)

Because WPW has both normal conduction through the AV node and accessory pathway conduction that bypasses the AV node, AF can happen via the accessory pathway

Inhibition of the AV node will end up in worsening the AF because none of the signals are slowed down by the AV node before hitting the ventricle

Question 36

What is the normal range for a QT interval?

Answer 36

adult men </=440 msec
adult women </=460 msec

Question 37

What is the management for a prolonged QT interval?

Answer 37

Acute: Remove offending medication. Shorten the QT interval with magnesium, lidocaine, or temporary overdrive pacing (if available)

Chronic: may need Pacemaker, ICD, amiodarone, or beta-blockers

Question 38

What are some common drugs that prolong QT interval?

Answer 38

antidepressants
antipsychotics
anticholinergic agents
methadone
loperamide
quinine
antibiotics like clarithromycin, ciprofloxacin

Question 39

What is ventricular fibrillation?

Answer 39

Chaotic irregular deflections without identifiable P-QRS-T waves
-This rapid and irregular electrical activity renders the
ventricles unable to contract in a synchronised manner,
resulting in immediate loss of cardiac output

The most important shockable cardiac arrest rhythm

It is invariably fatal unless advanced
life support is rapidly instituted