11 - Cardiac Arrhytmias

Question 1

What is an arrhythmia due to?

Answer 1

• Disturbance in the cardiac cycle where either the pacemaker (SAN) functions incorrectly or there is abnormal contraction/conduction of the heart.
• This causes a change in rate or timing of the heart beat which is insufficient to maintain cardiac outout
• Diagnosed by ECG and may get symptoms like palpitations, feeling dizzy, fainting, SOB

Question 2

What are the phases of the ventricular action potential?

Answer 2

Phase 0: depolarisation as movement of Na into cells

Phase 1: small amount of repolarisation

Phase 2: Plateau stage as Ca influx and K efflux are ewual

Phase 3: Repolarisation as efflux of K

Phase 4: Na/K ATPase sets up membrane potential in refractory period

Question 3

What is the Vaughan Williams classification of anti-arrhythmic drugs?

Answer 3

Class I have A, B and C

Question 4

What effect do Class 1 drugs have on the cardiac action potential?

Answer 4

Na Channel Blockers

• Depolarisation occurs more slowly in ventricles (decrease slope in phase 0)
• Little effect on APD
• SAN cells aren’t dependent on fast Na channels (think SAN A.P) so can still depolarise meaning rate not affected so rhythm controlling drug

Question 5

What effect do Class 2 drugs have on the cardiac action potential?

Answer 5

Beta Blockers

• Block sympathetic nervous system so decreased slope of the funny current so less activation of the A.P in SAN

- Rate controlling drug

• Can’t give to asthmatics

Question 6

What effect do Class 3 drugs have on the cardiac action potential?

Answer 6

K Channel Blocker

• Prolongs phase 3 and refractory period so the APD increases. This prevents early afterdepolarisations

- Rhythm controlling drugs

• Can be pro-arrhythmic as QT extended

Question 7

What effect do Class 4 drugs have on the cardiac action potential?

Answer 7

Calcium Channel Blockers

• Slow down heart rate by preventing Ca influx in the SAN
• Prolong phase 2

- Rate controlling

Question 8

What effect do the following drugs have on the SAN action potential?

• Beta blockers
• Ca channel blockers
• Muscarinic agonists

Answer 8

Question 9

What is the fast and slow cardiac action potential?

Answer 9

Question 10

What is Wolf-Parkinson-White syndrome and how does it lead to an arrhythmia?

Answer 10

• Accessory rentry pathway in the heart called the Bundle of Kent connecting the atria and ventricles
• Leads to pre-excitation and WPW as fibres allowed to travel back up to the atria from the Purkinje fibres
• Tachycardia

Question 11

What are reentry loops and how does it lead to an arrhythmia?

Answer 11

• When an impulse is blocked and so it travels in a retrograde way and reexcites the area it came from giving another action potential in quick succession
• Blockage can be from an area of ischaemia that has scarred
• Causes a ventricular tachycardia

Question 12

In general, how do the four classes of drugs correct arrhythmias?

Answer 12

- Abnormal generation: Beta and Ca channel blockers

- Abnormal conduction: Na and K channel blockers

Want to act to decrease conduction velocity, change the duration of the ERP and suppress abnormal automaticity

Question 13

Apart from re-entry loops and WPW Syndrome, what are some conditions that can cause a tachycardic arrhythmia?

Answer 13

- After-depolarisations:

• Can be early (phase 2 or 3) or late (abnormal depolarisation in phase 4). Can result in long QT or scarring

- Fibrillations (ventricular or atrial)

- Ectopic pacemaker activity following areas being damaged e.g ischaemia

Question 14

What is an example of a Class 1A drug, what arrhythmias is it used to treat, what are the side effects and how will it alter the ECG?

Answer 14

Quinidine (oral or IV)

Used for: AF, flutter, tachycardia, Brugada

Side effects: hypotension, increases QT so can cause torsades de pointes (proarrhytmic), GI effects

ECG: wider QRS, increase QT

Question 15

What is an example of a Class 1B drug, what arrhythmias is it used to treat, what are the side effects and how will it alter the ECG?

Answer 15

Lidocaine (IV)

Used for: acute ventricular tachycardia typically due to ischaemic heart disease (don’t use in atrial arrhythmia or heart block)

Side effects: dizziness, drowsiness, abdominal upset, less pro-arrhytmic than 1A

ECG: increases width of QRS in fast heart rate as blocks phase 0 conduction in fast rate

Question 16

What is an example of a Class 1C drug, what arrhythmias is it used to treat, what are the side effects and how will it alter the ECG?

Answer 16

Flecainide (oral or IV)

Used for: supraventricular tachycardia (AF and flutter), WPW syndrome as binds to Bundle of Kent, premature ventricular contractions

Side effects: proarrhytmic and can cause sudden death if patient has ischaemic heart disease (e.g angina), CNS and GI effects, can raise heart rate more

ECG: Wider QRS, increased QT, increased PR

Question 17

When should you not use Flecainide (Class IC drug)?

Answer 17

• Most potent Na channel blocker

- Do not use in ischaemic heart disease as risk of sudden death

- Use with AVN blocker in flutter and fibrillation as this drug can increase ventricular response to supraventricular arrhythmias causing really high heart rate

Question 18

What is an example of a Class 2 drug, what arrhythmias is it used to treat, what are the side effects and how will it alter the ECG?

Answer 18

Bisoprolol (oral), Propanolol and Metoprolol

Used for: inappropriate sinus tachycardia, protect the ventricles from high atria rates (e.g AF and flutter), converting reentrant arrhytmias

Side effects: bronchospasm, hypotension

ECG: increase QT, decrease heart rate, widen QRS, increase PR

Question 19

When should you not use bisoprolol to treat a cardiac arrhythmia?

Answer 19

• Asthmatic
• On antihypertensives
• With CCBs as can cause asystole
• Partial AV block or acute heart failure

Question 20

What is the main Class 3 drug used, what arrhythmias is it used to treat, what are the side effects and how will it alter the ECG?

Answer 20

Amiodarone

Used for: wide spectrum, most arrhythmias

Side effects (with long term): see image. May need to reduce dose of digoxin and monitor warfarin closely when using this drug

ECG: slows HR, prolongs PR and QT, widens QRS

Question 21

Apart from amiodarone, what is another type of class 3 drug that can also be classed as a class 2 drug?

Answer 21

Sotalol (oral)

• Lower efficacy than amiodarone
• Used wide spectrum
• Increases QT and lowers heart rate
• Can cause fatigue and insomina due to B antagonist effects
• Proarrhythmic

Question 22

What is an example of a Class 4 drug, what arrhythmias is it used to treat, what are the side effects and how will it alter the ECG?

Answer 22

Diltiazem (oral) and Verapamil (oral or IV)

Used for: convert supraventricular tachycardia and control the venricles

Side effects: hypotension (sick sinus), constipation, AV block and therefore asystole if used with beta blocker

ECG: increased PR and change in HR (up or down dependent of blood pressure)

Question 23

What is the mechanism of action of Adenosine, what arrhytmias is it used for, what are the side effects and what effects does it have on the ECG?

Answer 23

• Bolus dose given IV to stop heart beating for 20 seconds reducing spontaneous impulses from the SAN. Short half life so wears off
• Binds to A1 receptors and activates K+ channels in AVN and SAN to hyperpolarise, longer APD and lower heart rate. Also decreases Ca currents. All slow AV conduction
• Convert reentrant supraventricular tachycardias and can help diagnose coronary heart disease
• Abdominal discomfort, hot flushes, chest pain, sense of impending doom, proarrhythmic

Question 24

What is the mechanism of action of Ivabradine, what arrhythmias is it used for and what are the side effects?

Answer 24

Oral

MOA: blocks funny current in SAN to slow the sinus node but not effect blood pressure

Side effects: flashing lights, teratogeicity in pregnancy

Uses: reduce inappropriate sinus tachycardia and reduce heart rate in heart failure and angina as no drop in blood pressure

Question 25

What is the mechanism of action of Digoxin, what arrhythmias is it used for and what are the side effects?

Answer 25

Cardiac Glycoside

Uses: slow ventricular rates in AF and flutter

MOA: slows AV conduction and heart rate and enhances vagal activity by blocking Na/K ATPase

Side effects: only used in AF when beta blockers and CCBs don’t work, proarrhythmic, GI effects, dizziness

Question 26

What is the mechanism of action of Atropine, what arrhythmias is it used for and what are the side effects?

Answer 26

Selective muscarinic antagonist

MOA: blocks vagal activity to speed up AV conduction and increase HR

Uses: vagal bradycardia until pacemaker can be used

Side effects: dizziness, photophobia, tachycardia

Question 27

Which anti-arrhythmic drugs have the highest efficacy?

Answer 27

Amiodarone > Sotalol/Flecainide/Lignocaine > Bisoprolol/Metaprolol/Verapamil/Diltiazem

Reciprocal for safety/tolerability. Use car analogy to patient to weigh up efficacy and safety

Question 28

What antiarrhymic drug should be used in the following scenarios:

• AF/Flutter
• WPW syndrome
• Supraventricular Tachycardia

Answer 28

- AF: first give rate controlling drugs like beta blockers (bisoprolol) and CCBs (verapamil) and then digoxin if not working. then give rhythm controlling drugs for cardioversion like flecainide and amiodarone. Need to give AV nodal blocking drugs with Flecainide to prevent ventricular tachycardia.

Consider giving anticoags like aspirin

- WPW: Flecainide as not a structural or ischaemic disease but long term need ablation

- SVT: Carotid Sinus massage or Adenosine

Question 29

What antiarrhymic drug should be used in the following scenarios:

• Sinus Tachycardia
• Ectopic Beats
• Reentrant SVT

Answer 29

- ST: Ivabradine as no drop in B.P or bisoprolol/verapamil (b-blockers/CCBs)

- Ectopics: Beta Blockers like bisoprolol

- Reentrant SVT: acutely can use adenosine then verapamil then flecainide IV. Chronically can give bisoprolol and verapamil oral but long term need ablation

Question 30

What ions are moving in the funny current?

Question 31

What are the 4 main causes of a supraventricular tachycardia?

Answer 31

• Atrioventricular nodal rentry tachycardia
• Atrial Flutter (rentry in the atria)
• WPW syndrome
• AF

Question 32

How can you tell the difference between AVNRT and Atrial Flutter on an ECG?

Answer 32

Give the patient adenosine to block AV node by blocking A1 receptors so can just see what is going on in the atria.

Will produce sawtooth appearance on ECG

Adenosine works by causing hyperpolarisation by blocking K+ influx so cannot reach the threshold

Question 33

When should you not use a calcium channel blocker (non-dihydropyridine) for a heart arrhythmia?

Answer 33

When a patient has heart failure with reduced ejection fraction as these drugs will lower contractility of heart (as well as beta blockers)

Question 34

What effects does flecainide have on the heart?