Arrhythmia

Question 1

What is an arrhythmia?

Answer 1

This is a condition in which there are disturbances in the electrophysiology of the heart

Question 2

What are the 2 causes of arrhythmia?

Answer 2

Abnormal impulse formation
Abnormal impulse conduction

Question 3

What are the 2 types of abnormal impulse formation?

Answer 3

Triggered rhythms
Automatic rhythms

Question 4

What can cause a triggered rhythm?

Answer 4

Ectopic foci
Enhanced normal automaticity

Question 5

What is an ectopic beat?

Answer 5

This is a beat that originates in places other than the sino-atrial node

Question 6

What is meant by enhanced normal automaticity?

Answer 6

This is an increased frequency of action potentials from the sino-atrial node

Question 7

What are some possible causes of enhanced normal automaticity?

Answer 7

Ischaemia
Abnormal catecholamine production

Question 8

What is meant by an automatic rhythm?

Answer 8

This is the formation of an abnormal after-depolarisation

Question 9

What are the 2 types of abnormal after-depolarisation?

Answer 9

Early after depolarisation (Phase 2 or 3)
Delayed after depolarisation (Phase 4)

Question 10

What are the 2 types of abnormal impulse conduction?

Answer 10

Conduction block
Re-entry

Question 11

What is conduction (Heart) block?

Answer 11

This is when there’s an obstruction of the normal impulses that travel down the heart

Question 12

What are the 2 types of re-entrant rhythms?

Answer 12

Circus movement (Re-entrant tachycardia)
Reflection

Question 13

What are some forms of cardiac abnormality that can lead to an arrhythmia?

Answer 13

Congenital heart defects
Accessory pathway formation

Question 14

How can the autonomic nervous system cause arrhythmias?

Answer 14

Increased sympathetic tone causes a tachycardia, while increased vagal tone causes a bradycardia

Question 15

What are some metabolic conditions that can cause tachycardias?

Answer 15

Hypoxia
Hyperthermia
Hypercapnia
Myocardial stretch

Question 16

What are some metabolic conditions that can cause bradycardias?

Answer 16

Hypothermia
Hyperkalaemia

Question 17

What are some symptoms of general arrhythmia?

Answer 17

Palpitations
Dyspnoea
Faintness
Shock
Syncope
Death
Anxiety
Heart failure

Question 18

What are some investigations required in arrhythmia?

Answer 18

12-Lead ECG
Stress ECG or 24-hour Holter ECG
Blood testing
CXR
Echocardiography
Electrophysiological study

Question 19

What occurs in an electrophysiological study?

Answer 19

An arrhythmia can be induced, to study the arrhythmia and map the arrhythmia
The region causing the arrhythmia can then be cauterised via catheter radioablation

Question 20

What are the 2 types of tachycardia?

Answer 20

Broad complex tachycardia
Narrow complex tachycardia

Question 21

What is meant by a broad complex tachycardia?

Answer 21

This is a fast heart rate with a QRS duration of >0.12 seconds (3 small squares)

Question 22

What is meant by a narrow complex tachycardia?

Answer 22

This is a fast heart rate with a QRS duration of <0.12 seconds (3 small squares)

Question 23

What are the 4 main differentials of narrow complex tachycardia?

Answer 23

Sinus tachycardia
Supraventricular tachycardia
Atrial fibrillation
Atrial flutter

Question 24

What are the 4 main differentials of broad complex tachycardia?

Answer 24

Ventricular tachycardia
Polymorphic ventricular tachycardia
Atrial fibrillation with bundle branch block
SVT with bundle branch block

Question 25

What is ventricular tachycardia?

Answer 25

This is an arrhythmia resulting in a regular, fast heart rate, usually caused by an underlying disease

Question 26

What are some possible causes of ventricular tachycardia?

Answer 26

Coronary artery disease
Previous MI
Cardiomyopathy
Iatrogenic
Idiopathic

Question 27

What are the 2 forms of ventricular tachycardia?

Answer 27

Monomorphic ventricular tachycardia
Polymorphic ventricular tachycardia

Question 28

What pathways lead to monomorphic ventricular tachycardia?

Answer 28

Enhanced automaticity
Re-entrant circuit in the ventricle

Question 29

What pathways lead to polymorphic ventricular tachycardia?

Answer 29

Abnormal ventricular re-polarisation

Question 30

What are some causes of polymorphic ventricular tachycardia?

Answer 30

Long QT syndrome
Drug toxicity
Electrolyte imbalance

Question 31

What are some symptoms of ventricular tachycardia?

Answer 31

Pre-syncope
Syncope
Hypotension
Cardiac arrest

Question 32

What is the average heart rate range in ventricular tachycardia?

Answer 32

120 - 220 bpm

Question 33

How will monomorphic ventricular tachycardia appear on ECG?

Answer 33

Constant QRS morphology
Broad complex rhythm
Rapid rate

Question 34

How will polymorphic ventricular tachycardia appear on ECG?

Answer 34

Broad QRS complexes that very in amplitude

Question 35

What is Torsades de pointes?

Answer 35

This is a specific polymorphic ventricular tachycardia, associated with long QT intervals and QRS complexes that appear to twist around the isoelectric line

Question 36

What does Torsades de pointes translate to?

Answer 36

Twisting of the points

Question 37

What are some possible causes of Torsades de pointes?

Answer 37

Type I anti-arrhythmics (Na+)
Type III anti-arrhythmics (K+)

Question 38

What does Torsades de pointes look like on ECG?

Answer 38

Long QT
Long QRS
Twisting of the QRS complexes about the isoelectric line

Question 39

How is unstable ventricular tachycardia, with a pulse treated?

Answer 39

Direct Current Cardioversion (DCCV)

Question 40

How is pulseless ventricular tachycardia treated?

Answer 40

Defibrillation (Shockable rhythm of cardiac arrest)
Adrenaline
Amiodarone

Question 41

How is stable ventricular tachycardia treated?

Answer 41

1st - Amiodarone (Type III)
2nd - Lignocaine (Type I)
3rd - Direct current cardioversion (DCCV)

Question 42

How is Torsades de pointes treated?

Answer 42

IV magnesium

Question 43

What is ventricular fibrillation?

Answer 43

This is an arrhythmia that involves very rapid and irregular ventricular activation, with no mechanical effect

Question 44

What is the pathway of arrhythmia in ventricular fibrillation?

Answer 44

Ventricular ectopic beat

Question 45

What are some causes of ventricular fibrillation?

Answer 45

Ischaemic heart disease
Cardiomyopathy
Electrolyte imbalance
Overdose of cardio toxic drugs

Question 46

How does ventricular fibrillation usually present?

Answer 46

It is not supportive of life and so causes cardiac arrest, presenting with rapid unconsciousness and cessation of respiration

Question 47

How does ventricular fibrillation present on ECG?

Answer 47

Bizarre irreglar waveform
No recognisable QRS complexes
Random frequency and amplitude
Uncoordinated electrical activity

Question 48

How is ventricular fibrillation managed acutely?

Answer 48

Defibrillation
Amiodarone
Adrenaline

Question 49

How is ventricular fibrillation managed long term?

Answer 49

Implantable cardiovertor defibrillator (ICD)

Question 50

What are premature ventricular complexes?

Answer 50

These are ventricular ectopics, often caused by random electrical discharges outside the atria

Question 51

What are some causes of premature ventricular complexes?

Answer 51

Left ventricular hypertrophy
Heart failure
Myocarditis
Ischaemic heart disease
Electrolyte imbalance

Question 52

How will ventricular ectopics present on ECG?

Answer 52

These will appear as isolated, random, abnormal broad QRS complexes, within the regular sinus rhythm

Question 53

What is bigeminy?

Answer 53

This is a condition where every other beat is a ventricular ectopic beat

Question 54

How will bigeminy present on ECG?

Answer 54

This will show as a normal beat, followed closely by an ectopic beat

Question 55

How are premature ventricular complexes managed?

Answer 55

Reassurance
Referral in cases of underlying causes
ß-Blockers to control symptoms

Question 56

What is atrial fibrillation?

Answer 56

This is an arrhythmia leading two chaotic and disorganised atrial activity, which produces an irregular heart beat

Question 57

What are some common causes of atrial fibrillation?

Answer 57

Hypertension
Heart failure
MI
Hyperthyroidism
Rheumatic heart disease
Sepsis
Electrolyte disturbances

Question 58

What is the name given to idiopathic atrial fibrillation?

Answer 58

Lone atrial fibrillation

Question 59

What are some possible underlying genetic conditions in lone atrial fibrillation?

Answer 59

Brugada syndrome
Long QT syndrome

Question 60

Describe the pathophysiology of atrial fibrillation?

Answer 60

This is caused by the presence of ectopic foci in the muscle sleeves of the ostia of the pulmonary veins, providing an atrial, premature beat which allows fro the conduction of multiple actin potential through the atria

Question 61

What is the usual range of atrial contraction rate in atrial fibrillation?

Answer 61

300 - 600 bpm
The AV node delays these and causes a rate of around 150 in the ventricles

Question 62

How does atrial fibrillation increase stroke risk?

Answer 62

Increased rate leads to loss of atrial kick and decreased filling times, meaning that there’s a reduced cardiac output, which reduces CO and allows stasis of blood which increases stroke risk

Question 63

What are the 3 classes of atrial fibrillation?

Answer 63

Paroxysmal - < 48 hours
Persistent - > 48 hours but cardiovertable
Permanent - cannot be cardioverted

Question 64

What are some lifestyle risk factors of atrial fibrillation?

Answer 64

Obesity
Alcohol abuse
Infection

Question 65

How can atrial fibrillation present?

Answer 65

Asymptomatic (30%)
Rapid palpitations
Pre-syncope and syncope
Chest pain
Dyspnoea
Sweatiness
Fatigue

Question 66

What is the main clinical sign of atrial fibrillation?

Answer 66

Irregularly irregular pulse

Question 67

How will atrial fibrillation present on ECG?

Answer 67

F waves
Absence of P waves
Atrial rate >300bpm
Variable ventricular rate

Question 68

What is the 1st line treatment of atrial fibrillation in the elderly?

Answer 68

ß-Blockers
Rate limiting calcium channel blockers
Digoxin

Question 69

What is the second line treatment of atrial fibrillation in the elderly?

Answer 69

AV node ablation

Question 70

What is the first line treatment of atrial fibrillation in younger patients?

Answer 70

Direct current cardioversion
Pharmacological cardioversion (Type I or III)

Question 71

What is the second line treatment of atrial fibrillation in younger patients?

Answer 71

Left atrial catheter ablation
Maze procedure

Question 72

Who is most at risk of thromboembolic stroke in atrial fibrillation?

Answer 72

Thyrotoxicosis
Hypertrophic cardiomyopathy
Age >75
Hypertension
Heart failure
Diabetes

Question 73

How is risk of thromboembolic stroke calculated in atrial fibrillation patients?

Answer 73

CHA2DS2-VASc score
Score >2 indicates long term anticoagulation

Question 74

What is given to patients at higher risk of thromboembolic stroke in atrial fibrillation?

Answer 74

Warfarin (Requires INR testing often)
DOAC

Question 75

What is atrial flutter?

Answer 75

This is a form of atrial tachycardia, characterised by a succession of rapid atrial depolarisation

Question 76

What pathway causes arrhythmia in atrial flutter?

Answer 76

Re-entrant rhythm in either atrium, which is recirculated in a self perpetuating loop

Question 77

Can atrial flutter progress to atrial fibrillation?

Answer 77

Yes

Question 78

How will atrial flutter present on ECG?

Answer 78

Atrial rate >300bpm
Ventricular rate ~150bpm
QRS normal
Saw tooth waves

Question 79

What is the first line management strategy in acute paroxysmal cardiac arrhythmia?

Answer 79

Direct current or pharmacological cardioversion

Question 80

What is the usual treatment for recurrent atrial flutter?

Answer 80

Catheter ablation
Class III anti-arrhythmics
AV nodal blocking agents (Adenosine)

Question 81

Does atrial flutter also carry a risk of thromboembolic stroke?

Answer 81

Yes - CHA2DS-VASc score

Question 82

What is a supraventricular tachycardia?

Answer 82

This is a narrow complex tachycardia, resulting from repeated re stimulation of the AV node via a re-entrant rhythm

Question 83

How will supra ventricular tachycardia present on ECG?

Answer 83

QRS complex follows by a T wave and then a QRS complex, with the P waves being lost in the T wave

Question 84

What are the 3 types of supra ventricular tachycardia?

Answer 84

Atrioventricular nodal re-entrant tachycardia
Atrioventricular re-entrant tachycardia
Atrial tachycardia

Question 85

What are the 4 stages of management of supra ventricular tachycardia?

Answer 85

1. Vagal manœuvres
2. Adenosine IV
3. Verapamil or ß-Blocker
4. Synchronised DC cardioverison

Question 86

What are the 3 main vagal manoeuvres?

Answer 86

Valsalva manœuvre
Carotid sinus rhythm
Diving reflex

Question 87

What is a vagal manoeuvre?

Answer 87

This is a manoeuvre to stimulate the vagus nerve, increasing the activity of the parasympathetic nervous system, which can slow heart rate

Question 88

What is the valsalva manouvre?

Answer 88

This is the action of increasing intrathoracic pressure, usually by asking a patient to blow hard against resistance, including blowing into a syringe for 10-15 seconds

Question 89

What is meant by carotid sinus massage?

Answer 89

This is a vagal manoeuvre in which the baroreceptors in the carotid sinus are stimulates, by massaging one side of the neck
Massaging both simultaneously can cause syncope

Question 90

What is the diving reflex?

Answer 90

This is a vagal manoeuvre that involves submerging a patients face in cold water

Question 91

How does adenosine work?

Answer 91

This works by slowing cardiac conduction, primarily through the AV node or accessory pathway

Question 92

How is adenosine given?

Answer 92

It has a half life of only around 10 seconds, so a large bolus is needed via a grey cannula into the antecubital fossa to reach the heart immediately

Question 93

What are some conditions in which adenosine is contraindicated?

Answer 93

Asthma
COPD
Heart failure
Heart block
Severe hypotension
Potential arrhythmia

Question 94

What are some possible side effects of adenosine?

Answer 94

Brief period of asystole or bradycardia
Feeling of dying
Sense of impending doom

Question 95

What 3 doses of adenosine are trialled in supra ventricular tachycardia?

Answer 95

Initially 6mg bolus
Then 12mg bolus
Then 18mg bolus

Question 96

What is meant by atrial tachycardia?

Answer 96

This is a supra ventricular tachycardia in which the electrical signal originates outside the atria, not the SA node

Question 97

What is meant by atria-ventricular nodal re-entrant tachycardia (AVNRT)?

Answer 97

This is a supraventricular tachycardia in which the re-entry point is through the AV node

Question 98

What is atrio-ventricular re-entrant tachycardia?

Answer 98

This is a supra ventricular tachycardia in which the re-entry point is an accessory pathway between the atria and ventricles

Question 99

What are some possible causes of sinus tachycardia?

Answer 99

Anxiety
Fever
Hypotension
Anaemia
Sepsis
Pain

Question 100

How is sinus tachycardia usually treated?

Answer 100

Treatment of underlying cause
ß-Blockers

Question 101

What are some possible causes of sinus bradycardia?

Answer 101

Physiological (e.g. in athletes)
Drugs (e.g. ß-Blockers)

Question 102

How is sinus bradycardia treated?

Answer 102

Atropine (If acute)
Pacing if there is haemodynamic compromise

Question 103

What is sick sinus syndrome?

Answer 103

This encompasses many conditions that cause dysfunction in the SA node, usually caused by idiopathic degenerative fibrosis of the sinoatrial node, resulting in sinus bradycardia, sinus arrhythmia and prolonged pauses, with an increased risk of atrial fibrillation

Question 104

What is asystole?

Answer 104

This refers to an absence of electrical activity in the heart

Question 105

What are some risk factors for asystole?

Answer 105

Mobitz type II heart block
Type III heart block
Previous asystole
Ventricular pauses longer than 3 seconds

Question 106

How are unstable patients with an increased risk of asystole managed?

Answer 106

1st - IV atropine
2nd - Inotropes (e.g. isoprenaline or adrenaline)
3rd - Temporary cardiac pacing
4th - Permanent implantable pacemaker

Question 107

What is atropine?

Answer 107

This is an anti-muscarinic medication, which inhibits the parasympathetic nervous system

Question 108

What are some side effects of atropine

Answer 108

Pupil dilatation
Dry mouth
Urinary retention
Constipation

Question 109

What are the 3 main classes of heart block?

Answer 109

1st degree
2nd degree
3rd degree

Question 110

What is meant by 1st degree heart block?

Answer 110

An AV nodal delay of >0.2 seconds, but presenting with no complications

Question 111

What are the 2 types of 2nd degree heart block?

Answer 111

Mobitz type I
Mobitz type II

Question 112

What is meant by Mobitz type I heart block?

Answer 112

Progressive lengthening of the PR interval eventually leads to a dropped beat

Question 113

What is meant by Mobitz type II heart block?

Answer 113

Beats are dropped at regular intervals, usually at 2:1 or 3:1 intervals

Question 114

What is meant by 3rd degree heart block?

Answer 114

This is full heart block, where there is no communication between the SA and AV node, meaning the ventricles and atria contract separately without each other

Question 115

What is Wolff-Parkinson-White syndrome?

Answer 115

This is a condition causing the formation of an extra-electrical pathway, connecting the atria and ventricles

Question 116

What is the name given to the accessory pathway formed in Wolff-Parkinson-White syndrome?

Answer 116

Bundle of Kent

Question 117

What are some ECG changes in Wolff-Parkinson-White syndrome?

Answer 117

Short PR interval
Wide QRS complex
Delta waves

Question 118

What is the definitive treatment of Wolff-Parkinson-White syndrome?

Answer 118

Radiofrequency ablation of the accessory pathway

Question 119

What can occur is a patient with Wolff-Parkinson-White syndrome develops atrial fibrillation or flutter?

Answer 119

This is lead to a chaotic rhythm that passes through the accessory pathway, causing a polymorphic wide complex tachycardia

Question 120

What medications are contraindicated in those with WPW and AF due to increased risk of polymorphic VT?

Answer 120

ß-Blockers
Ca2+ channel blockers
Digoxin
Adenosine

Question 121

What is meant by inotropy?

Answer 121

Modification of the force of contraction

Question 122

What is meant by lusitropy?

Answer 122

Modification of the rate of relaxation (Length of diastole)

Question 123

What is mean by chronotropy?

Answer 123

Modification of heart rate

Question 124

What is a class I anti-arrhythmic drug?

Answer 124

Sodium channel blockers

Question 125

What are the 3 types of class I anti-arrhythmic drugs?

Answer 125

Ia - Moderate
Ib - Weak
Ic - Strong

Question 126

What is a class II anti-arrhythmic drug?

Answer 126

ß-blockers

Question 127

What is a class III anti-arrhythmic drug?

Answer 127

Potassium channel blockers

Question 128

What is a class IV anti-arrhythmic drug?

Answer 128

Calcium channel blockers

Question 129

How do class I anti-arrhythmics work?

Answer 129

They block Na+ chanels and so slow the depolarisation (Phase 0) of the myocytes, preventing contraction

Question 130

In what conditions are class I anti-arrhythmics indicated in?

Answer 130

Ventricular arrhythmia
Ischaemic tissue
Inherited long QT syndrome

Question 131

What are some examples of class I anti-arrhythmics?

Answer 131

Lidocaine
Mexilitine

Question 132

How does lidocaine work?

Answer 132

It blocks open or inactive sodium channels, so blocks contraction and nerve impulses in damaged, depolarised tissue

Question 133

How do class II anti-arrhythmics work?

Answer 133

They antagonise ß1 adrenoceptors
These adrenoceptors activate Gas which activates adenylyl cyclase
This converts AMP to cAMP
cAMP increases levels of protein kinase A
Protein kinase A increases the rate of the funny current
Therefore ß-blockers slow the funny current and so slow heart rate

Question 134

What are some examples of ß1 cardioselective ß-blockers?

Answer 134

Atenolol
Bisoprolol
Carvedilol

Question 135

What are some examples of non-selective ß-blocker?

Answer 135

Propranolol
Sotalol

Question 136

In which condition are ß-blockers contraindicated in?

Answer 136

Asthma as they also act on ß2 receptors, which causes bronchospasm

Question 137

What conditions are ß-blockers indicated in?

Answer 137

Sustained ventricular arrhythmias
Atrial tachycardia
Angina
Hypertension

Question 138

How do class III anti-arrhythmics work?

Answer 138

They block K+ and thus decrease levels of K+ influx and so prolong the plateau in myocytes (Phase 2), therefore prolonging the refractory period

Question 139

What is an example of a type III anti-arrhythmic?

Answer 139

Amiodarone (Also has type I, II and IV properties)

Question 140

What is the risk of most type III anti-arrhythmic drugs?

Answer 140

Can prolongue the QT interval and so become pro-arrhythmic, with an increased risk of Torsades de pointes

Question 141

How do class IV anti-arrhythmics work?

Answer 141

They block Ca2+ channels, and thus prolong the depolarisation phase of sino-atrial nodal potentials

Question 142

What are some examples of class IV anti-arrhythmics?

Answer 142

Verapamil
Diltiazem