Arrythmias: Ventricular tachyarrhythmias

Question 1

List the types of Ventricular tachyarrhythmias

Answer 1

Life-threatening:
-Sustained ventricular tachycardia
-Ventricular fibrillation
-Torsades de pointes
Normal heart ventricular tachycardia
Non-sustained ventricular tachycardia
Ventricular ectopics

Question 2

Define cardiac channelopathies

Answer 2

Congenital disorders due to mutations that affect cardiac ion channels and electrical activity in the heart.

Includes: Brugada syndrome, congenital long QT, short QT, catecholaminergic polymorphic ventricular tachycardia (CPVT), and idiopathic VF

Question 3

Define sustained ventricular tachycardia

Answer 3

A ventricular tachycardia (usually 120-220 bpm) with >30s duration.

Question 4

How may sustained ventricular tachycardia present?

Answer 4

Pre-syncope (dizziness)
Syncope
Hypotension
Cardiac arrest

May be remarkably well tolerated in some patients

Cannon ‘a’ waves in neck (due to AV dissociation), and variable intensity of S1

Question 5

What ECG changes are seen with sustained ventricular tachycardia?

Answer 5

Broad QRS: often >140ms

• 80% of broad complex tachycardias are VT
• Concordant QRS in all chest leads suggestive of VT

Regular R-R intervals
AV dissociation
Capture beats: intermittent narrow QRS due to normal ventricular activation via AVN.
Fusion beats: hybrid complex as supraventricular and ventricular impulse coincide.

Question 6

Outline the treatment of sustained ventricular tachycardia

Answer 6

Treat any identifiable underlying causes

Haemodynamically unstable:

• Emergency DC cardioversion
• May use adjunctive amiodarone and lidocaine

Haeomodynamically stable (non-idiopathic):

• Amiodarone: preferred if LV dysfunction, or
• Lidocaine: history or suspected ischaemia
• If unsuccessful: DC cardioversion

Haemodynamically stable idiopathic sustained VT:
-Electrophysiology specialist advice

Question 7

Distinguish between SVT with BBB and VT

Answer 7

VT is more likely in the following:

• Very broad QRS
• AV dissociation
• Bifid QRS with taller first peak in V1
• Deep S wave in V6
• Concordant QRS in all chest leads

Question 8

Define ventricular fibrillation

Answer 8

Very rapid irregular activation of the ventricles with no mechanical effect (pulseless).

Question 9

How does ventricular fibrillation present?

Answer 9

Pulseless
Rapid unconsciousness
Respiration ceases
Cardiac arrest

Question 10

What ECG changes are seen with ventricular fibrillation?

Answer 10

Broad QRS
Shapeless rapid oscillations
No organised complexes

Question 11

What is the treatment of ventricular fibrillation?

Answer 11

DC cardioversion with basic and advanced life support

ICD if unrelated to an MI, due to high risk of recurrent cardiac arrest and sudden death.

Question 12

Define Brugada syndrome

Answer 12

A hereditary sodium channelopathy resulting in idiopathic VF (no structural disease).

Carries a high risk of sudden cardiac death, and is prevalent amongst young males in SEA.

Question 13

Outline the presentation of Brugada syndrome

Answer 13

Sudden death during sleep*
Resuscitated cardiac arrest
Syncope

May be asymptomatic

Question 14

How is Brugada syndrome diagnosed?

Answer 14

Characteristic Type 1 ECG finding + clinical criteria

Type 1 ECG: Coved ST elevation in at least two of V1-V3, with T wave inversion

Clinical criteria: one of

• Documented VF or polymorphic VT
• FHx of sudden cardiac death <45yr
• Coved ECG in family
• Inducible VT with Class I antiarrhythmics
• Syncope
• Nocturnal agonal respiration

Question 15

What is the treatment for Brugada syndrome?

Answer 15

ICD

Question 16

Name 3 causes of acquired long QT syndrome

Answer 16

Bradycardia: provokes QT prolongation and Torsades
Acute MI

Hypokalaemia, hypomagnesaemia, hypocalcaemia

Quinidine, procainamide (Ia)
Sotalol, amiodarone (III)
Tricyclic antidepressants: Amitriptyline, clomipramine
Antipsychotics:
-FGAs: Haloperidol, chlorpromazine
-SGAs: Olanzapine, quetiapine, risperidone etc.
Macrolides: Erythromycin, clarithromycin
Ciprofloxacin
Methadone

Question 17

Define prolonged QT interval

Answer 17

QTc >450ms (male) or >460ms (female) on ECG

Question 18

Describe the ECG appearance of Torsades de Pointes

Answer 18

QRS complexes twisting around isoelectric line

Question 19

How can Torsades de Pointes present?

Answer 19

Recurrent syncope*
Palpitations

Usually terminates spontaneously, but may degenerate to VF, causes sudden death

Question 20

Outline the treatment of Torsades de Pointes

Answer 20

IV magnesium sulphate

Correct any electrolyte disturbances
Stop causative drugs
Atrial or ventricular pacing to maintain heart rate

Question 21

Name 3 risk factors for Torsades de Pointes

Answer 21

Congenital long QT syndrome
Female gender
Acquired long QT syndrome (causes of which include medications and electrolyte disorders such as hypokalaemia and hypomagnesemia)
Bradycardia
Baseline electrocardiographic abnormalities
Renal or liver failure (such as alcoholic liver disease)

Question 22

What is the management of congenital long QT syndrome?

Answer 22

Lifestyle: avoid drugs that prolong QT interval, prevent electrolyte abnormalities (diarrhoea, vomiting, metabolic conditions, imbalanced weight-loss diets), restrict stressors that may predispose to arrhythmias.

Beta blockers* (reduces mortality from 21% to 0.5%)
ICD: documented cardiac arrest

Family screening

Question 23

What is the treatment of acquired long QT syndrome?

Answer 23

Correct electrolyte disturbances
Stop causative drugs
Maintain atrial or ventricular pacing
Magnesium sulphate

Question 24

When is beta-blocker therapy mandatory in long QT syndrome?

Answer 24

All symptomatic patients

Asymptomatic with a QTc >470 ms

Question 25

State 3 features in a history that would raise suspicion of a cardiac condition of genetic origin

Answer 25

FHx of fainting, cardiac events, sudden unexplained deaths, accidents, or drownings

Question 26

How is QTc calculated?

Answer 26

QTc = QT interval / sq root of RR interval

Accurate for patients with normal heart rate (60-100)

Question 27

How is long QT syndrome diagnosed?

Answer 27

At least one of the following:

1. Schwartz score of 3.5 or greater, in the absence of a secondary cause for QT prolongation
2. QTc of 500ms of greater in repeated 12-lead ECGs, in the absence of a secondary cause for QT prolongation
3. Pathogenic mutation in one of the LQTS genes

Question 28

Name one indications for ICD in long QT syndrome

Answer 28

Documented cardiac arrest

Recurrent syncope while on beta-blocker therapy