*Arrhythmias

Question 1

What is an arrhythmia?

Answer 1

Abnormality of heart rate or rhythm

Question 2

What are the 2 broad anatomical types of arrhythmias?

Answer 2

Supraventricular

Ventricular

Question 3

What are the names of the 3 internal tracts that connect the SA node and AV node?

Answer 3

Anterior, middle and posterior internodal tracts

Question 4

What are ectopic beats?

Name when you have several of these in a row?

Answer 4

Beats or rhythms that originate in places other than the SA node (when the latent pacemaker fires at a rate faster than the SA node)
Ectopic rhythm - ectopic focus dictates the entire rhythm

Question 5

Are ectopic beats/ rhythms dangerous?

Answer 5

Depends how the affect the cardiac output

Question 6

How can arrhythmias be categorised based on rate?

Answer 6

Tachyarrhymias

Bradyarrhytmias

Question 7

What are the 4 types of atrial tachycardia? (SVT)

Answer 7

Atrial fibrillation
Atrial flutter
Ectopic atrial tachycardia
Sinus tachycardia

Question 8

What are the 2 types of atrial bradycardia?

Answer 8

Sinus bradycardia

Sinus pauses

Question 9

What are the 3 types of atrioventricular node arrhythmias?

Answer 9

AV node re-entry
Accessory pathways
AV block

Question 10

What are the 4 types of ventricular arrhythmias??

Answer 10

Premature ventricular complex
Ventricular tachycardia
Ventricular fibrillation
Asystole

Question 11

What are the clinical causes of arrhythmias? (5)

Answer 11

Abnormal anatomy e.g. left ventricular hypertrophy, accessory pathways
Autonomic e.g. sympathetic stimulation (nervousness, hyperthyroidism), increased vagal tone
Metabolic e.g. hypoxic myocardium, ischaemic myocardium, electrolyte imbalances
Inflammation e.g. viral myocarditis]Drugs
Genetics (mutations of cardiac ion channels) e.g. congenital long QT syndrome

Question 12

What are the 5 mechanisms of arrhythmias?

Answer 12

Defects in impulse formation (altered automaticity, triggered activity)
Defects in impulse conduction (re-entry, accessory tracts, conduction block)

Question 13

What is altered automaticity?

Answer 13

When a latent pacemaker takes over the SA nodes function as the normal pacemaker of the heart (causes escape or ectopic beats) - can occur physiologically when the ANS modulates the SA nods activity e.g. caused by drugs, ischaemia

Question 14

What is triggered activity?

Answer 14

When abnormal action potentials are triggered by a preceding action potential resulting in the heart cells beating twice e.g. tornadoes de points

Question 15

What is re-entry?

Answer 15

Self-sustaining electrical circuit stimulates an area of the myocardium to be stimulated repeatedly

Question 16

What is conduction block?

Answer 16

Any disease that disrupts electrical conduction may reduce conduction or cause heart block

Question 17

What are accessory pathways?

Answer 17

Additional electrical conduction pathway between 2 areas of the heart e.g. WPW

Question 18

What effect does hypothermia have on phase 4 of AP slope?

Answer 18

Decreases it (altered automaticity)

Question 19

What effect does hyperthermia have on phase 4 of action potential slope?

Answer 19

Increases it (altered automaticity)

Question 20

What effect do hypoxia and hypercapnia have on phase 4 of AP slope?

Answer 20

increase it (altered automaticity)

Question 21

What effect does hypokalaemia have on phase 4 of AP slope?

Answer 21

Increases it (also prolongs repolarisation and increases ectopics)

Question 22

Symptoms of arrhythmias?

Answer 22

Palpitations (a noticeably rapid, strong or irregular heart beat)
SOB
Diziness
Syncope
Sudden cardiac death
Worsen pre-exisiting conditiosn e.g. angina

Question 23

Investigations of arrhythmias? (&)

Answer 23

12 lead ECG
CXR
Echocardiogram
Stress ECG
24 hours ECG hotter monitoring
Event recorder
Electrophysiological (EP) study

Question 24

Why is an ECG done for arrhythmias?

Answer 24

To assess rhythm

Signs of previous MI, pre-excitation (WPW)

Question 25

What sign on an ECG suggests a previous MI?

Answer 25

Pathological Q waves

Question 26

Why perform an exercise ECG in a patient with suspected arrhythmia?

Answer 26

To assess for ischaemia

Exercise induced arrhythmia

Question 27

Why perform a 24 hour hotter ECG in a patient with suspected arrhythmia?

Answer 27

To assess for paroxysmal arrhythmia

To link symptoms to underlying heart rhythm

Question 28

Why perform an echo in a patient with suspected arrhythmia?

Answer 28

To assess for structural heart disease

Question 29

Why perform an electrophysiological study in a patient with a suspected arrhythmia?

Answer 29

To trigger the arrhythmia and study its mechanism

Opportunity to treat by ablation at the same time

Question 30

What are the symptoms of atrial ectopic beats?

Answer 30

Asymptomatic

palpitations

Question 31

Treatment of atrial ectopic beats?

Answer 31

Generally no treatment but patients may find B blockers helps (avoid stimulants e.g. caffeine)

Question 32

When is sinus bradycardia physiological?

Answer 32

Athlete

Question 33

What is sick sinus syndrome?

Answer 33

Sinus node dysfunction causing bradycardia +/- rest, senatorial block, or SVT alternating with bradycardia/ asystole

Question 34

What are causes of sinus bradycardia?

Answer 34

Drugs e.g. beta blockers
Ischaemia
Lots more

Question 35

Treatment of sinus bradycardia?

Answer 35

Atropine (if acute, e.g. MI)

Pacing if haemodynamic compromise e.g. hypotension, CHF, angina, collapse

Question 36

Causes of sinus tachycardia?

Answer 36

Physiological in anxiety, fever, hypotension, anaemia

Inappropriate due to drugs, etc.

Question 37

Treatment of sinus tachycardia?

Answer 37

Treat underlying cause

B-adrenergic blockers

Question 38

What is an example of a paediatric vagal manoeuvre (used to treat SVT)?

Answer 38

ice water to face for infants

Blow through straw (valsalva) for child or adolescents

Question 39

What is the most common cause of SVT?

Answer 39

Atriventricular re-entry

Question 40

What causes atrioventricular re-entry anatomically?

Answer 40

A small re-entry circuit involving the atrioventricular node and surrounding atrial tissue

Question 41

What is wolf-parkinson-white?

Answer 41

Presence of an accessory pathway between the atria na ventricles causing ventricular pre-excitation

Question 42

What type of abnormality does WPW cause on an ECG?

Answer 42

Delta waves

Question 43

Acute management of SVT?

Answer 43

Vagal manoeuvres
IV adenosine (extremely short half life so have to push it in as fast as you can)
IV verapamil

Question 44

Chronic management of SVT?

Answer 44

Avoid stimulants
Radifrequency ablation
Anti-arrhythmic drugs (Class II or IV)

Question 45

What is cardiac ablation?

Answer 45

Selective cauterisation of cardiac tissue to prevent tachycardia, targeting either an automatic focus or part of a re-entry circuit

Question 46

What does cardiac ablation involve?

Answer 46

Placement of catheters in heart via femoral veins
Intracardiac ECG recorded during sinus rhythm, tachycardia and during pain manoeuvres
Catheter placed over focus/ pathway and tip heated

Question 47

What causes AV node conduction disease?

Answer 47

Ageing process
Acute MI
Myocarditis
Infiltrative disease e.g. amyloid
Drugs e.g. B blcokers, Calcium channel blockers
Calcific aortic valve disease
Post-aortic valve diseases
Genetic e.g. Lenore's disease, myotonic dystroph

Question 48

1st degree heart block?

Answer 48

PR interval prolonged (greater than 0.2 seconds)

Question 49

Treatment of 1st degree heart block?

Answer 49

None - long term follow up recommended as more advanced block may develop

Question 50

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

Answer 50

Mobitz I

Mobitz II

Question 51

What is Mobitz I?

Answer 51

Prolong PR interval cumulating in a droped ventricular beat (QRS complex)

Question 52

what is Mobitz II?

Answer 52

Regularly more than one P wave to each QRS complex in a 2:1, 3:1 or 4:1 ratio

Question 53

Treatment of mobitz II?

Answer 53

Permanent pacemaker

Question 54

Treatment of mobitz I?

Answer 54

Ventricular pacing

Question 55

What is third degree heart block?

Answer 55

Complete atrioventricular dissociation: regular P waves, regular QRS complexes but no association between the 2

Question 56

Treatment of 3rd degree heart block?

Answer 56

Ventricular pacing

Question 57

What is trancutaneous pacing?

Answer 57

Using a defibrillator to pace the heart during an emergency (other type is transvenous)

Question 58

What are the 2 types of pacemakers available?

Answer 58

Single chamber (paces the right atria or right ventricle only)
Dual chamber (paces the RA and RV)

Question 59

What is a single chamber pacemaker used for?

Answer 59

Atrial = isolated SA node disease but normal AV node
Ventricular = AF with slow ventricular rate

Question 60

What is a dual chamber pacemaker used for?

Answer 60

Maintains AV synchrony - AVN disease

Question 61

What are premature ventricular complexes?

Answer 61

ectopic impulses originating from an area distal to the His Purkinje system. VPCs are the most common ventricular arrhythmia

Question 62

What causes premature ventricular complexes?

Answer 62

May not have structural heart disease
Ischaemic heart disease
Hypertension with left ventricular hypertrophy
Heart failure
May be marker for inherited arrhythmia syndrome

Question 63

Symptoms of premature ventricular complexes?

Answer 63

Usually asymptomatic

Question 64

Treatment of premature ventricular ectopics?

Answer 64

Beta blockers

Question 65

What is a broad complex tachycardia in a patient with no history of cardiac disease?

Answer 65

VT

Question 66

What is ventricular tachycardia?

Answer 66

Tachycardia originating from a ventricular focus

Question 67

Is VT life threatening?

Answer 67

Yes

Question 68

What type of patients does VT occur in?

Answer 68

Usually those with significant heart disease e.g. coronary artery disease
Rarely, cardiomyopathy
Inherited syndrome e.g. long QT, Brugada syndrome
(look for cause of VT .e.g electrolytes (hypokalaemia, hypomagnesaemia, ischaemia, hypoxia, medications)

Question 69

what is long QT syndrome?

Answer 69

a rare inherited or acquired heart condition in which delayed repolarization of the heart following a heartbeat increases the risk of episodes of torsades de pointes

Question 70

What is Brugada syndrome?

Answer 70

a genetic disease that is characterised by abnormal electrocardiogram (ECG) findings and an increased risk of sudden cardiac death.

Question 71

Difference between monomorphic and polymorphic VT?

Answer 71

in mono. QRS = symetrical

In poly. QRS = unsymetrical

Question 72

What is ventricular fibrillation?

Answer 72

Chaotic ventricular electrical activity which causes the heart to lose the ability to function as a pump

Question 73

Treatment of VF?

Answer 73

Defibrillation and cardiopulmonary resuscitation

Question 74

Treatment of VT?

Answer 74

DC cardioversion if unstable
If stable consider pharmacologic cardioversion with AAD
If unsure if VT or something else, consider adenosine to make a diagnosis

Question 75

what long term treatments are available for VT?

Answer 75

Implantable cardiovertor defibralltors

CHF therapies

Question 76

What is normally the cause of ventricular arrhythmias?

Answer 76

Structural problems

Question 77

What causes atrial flutter?

Answer 77

rapid heart rate causes by re-entry circuits in the atrium

Question 78

Appearance of atrial flutter on ECG?

Answer 78

Saw tooth appearance

Question 79

What is atrial fibrillation caused by physiologically?

Answer 79

Rapid, unsynchronised and chaotic electrical activity which causes conduction of irregular signals to the ventricles due to multiple weavlets of re-entry and ectopic focus around the pulmonary veins

Question 80

What results in increased R wave amplitude in the left-sided ECG leads (I, aVL and V4-6) and increased S wave depth in the right-sided leads (III, aVR, V1-3)?

Answer 80

Left ventricular hypertrophy

Question 81

Type of heart beat in A Fib?

Answer 81

Irregular

Question 82

What are the 3 different types of AFib?

Answer 82

Paroxysmal
Persistent
Permanent (chronic)

Question 83

What is paroxysmal AFib?

Answer 83

Reverts to sinus rhythm spontaneously - often recurrent

Question 84

What is persistent AFib?

Answer 84

AF that is not self terminating/ has lasted longer than 7 days but can be terminated through treatment

Question 85

What is permanent AFib?

Answer 85

Continuos AF that cannot be successfully terminated

Question 86

What does incidence of AFib increase with?

Answer 86

Age

Question 87

Associated diseases/ causes of AFib?

Answer 87

Hypertension
Congestive heart failure
Sick sinus syndrome - "tachy brady syndrome"
Coronary heart disease
Thyroid disease
Familial
Valvular heart disease
Alcohol abuse
Congenital heart disease
Cardiac surgery
Other rarer causes e.g. COPD

Either classified into cardiac or non-cardiac cause

Question 88

What is lone (idiopathic) AFib?

Answer 88

Absence of any underlying cause for AF (diagnosis of exclusion)

Question 89

Symptoms of AFib?

Answer 89

Palpitations
Pre-syncope (dizziness)
Syncope
Chest pain
Dyspnoea
Sweatiness
Fatigue
Can be asymptomatic
Symptoms often worse at the onset of AF

Question 90

Termination of atrial fib?

Answer 90

pharmacological cardioversion with anti-arrhythmic drugs (30% effective)
Electrical cardioversion (90% effective)
Spontaneous reversion to sinus rhythm

Question 91

What are the anti-arrhythmic drug examples that can be used to terminate and prevent atrial fib?

Answer 91

Flecainide
Sotalol
Amiodarone

Question 92

ECG of atrial fib?

Answer 92

Atrial rate greater than 300 bpm

Question 93

Rhythm in Atrial Fib?

Answer 93

Irregularly irregular

Question 94

Ventricular rate in atrial fib?

Answer 94

Variable (dependent upon AV node conduction properties, sympathetic and parasympathetic tone, presence of drugs which act on the AV node)

Question 95

Recognition of atrial fib on ECG?

Answer 95

Absence of P waves, presence of f waves - ventricular rate is irregular

Question 96

What pharmacological agents are useful in controlling ventricular rate in AF by decreasing conduction in the AV node?

Answer 96

Beta blcokers

Calcium channel blcokers

Question 97

Ventricular rate in A fib?

Answer 97

Irregular
Can be slow, normal or fast (and ranging between these) - depends on AV node conduction properties, sympathetic and parasympathetic tone, presence of drugs which act on the aV node (e.g. flecanide, sotolol, amiodarone)

Question 98

What is it called when AF goes so fast that it looks regular but it actually its?

Answer 98

Pseudoregularisation

Question 99

How does AF cause a reduced cardiac output?

Answer 99

Lost atrial kick and decreased killing time

Question 100

If the patient has hypertrophic cardiomyopathy, what can AFib result in?

Answer 100

Congestive heart failure

Question 101

What does ventricular rates less than 60bpm in AF suggest?

Answer 101

AV conduction disease

Question 102

Management of AF?

Answer 102

Rhythm control (maintain SR predominantly)
OR
Rate control: Accept AF but control ventricular rate
Anti-coagulation for both approaches if high risk for thromboembolism

Question 103

Rate control during AFib?

Answer 103

Pharmacological therapy to slow down AVN conduction:
Digoxin
Betablcokers
Verapamil, diltizam
Give the above alone or in combination
If the above doesnt work, the aV node can be completely ablated and a pacemaker fitted

Question 104

Rhythm control of Afib?

Answer 104

Restoration of NSR:
Pharmacological cardioversion (anti-arrhythmic drugs e.g. amiodarone)
Direct current cardioversion
Maintenance of NSR:
Anti-Arrhythmic drugs
Catheter ablation of atrial focus/ pulmonary veins
Surgery (Maze procedure)

Question 105

Treatment of paroxysmal AF?

Answer 105

Rhythm control:
Cardiovert (pharma/ DC)
Anti-Arrhythmic drugs to prevent
Anti-coag

Question 106

Treatment of persistent or permanent AF?

Answer 106

Rate control (digoxin, beta blocker, verapamil or diltiazem)
Anti-coagulation if high risk
DC cardioversion if structurally normal heart

Question 107

what is tornadoes de pointes?

Answer 107

a specific form of polymorphic VT in patients with a long QT interval. It is characterized by rapid, irregular QRS complexes, which appear to be twisting around the ECG baseline - it can be acquired or congenital (very deadly form of vt)

Question 108

Heart rate in torsades de points?

Answer 108

200-250 bpm

Question 109

Rhythm in torsades de pointes?

Answer 109

Irregular (In comparison to normal VT)

Question 110

Recognition of tornadoes de pointes?

Answer 110

Long QT interval
Wide QRS
Continuously changing QRS morphology

Question 111

Events leading to Torsdaes de points?

Answer 111

hypokalaemia
Prolongation of AP duration (drug induced)
Renal impairment (increased drug levels)

Question 112

What is the scoring system used to assess risk of thromboembolism in atrial fib?

Answer 112

CHADVASC score

Question 113

What is the CHADSVASC score

Answer 113

C Congestive heart failure (or Left ventricular systolic dysfunction) 1
H Hypertension: blood pressure consistently above 140/90 mmHg (or treated hypertension on medication) 1
A2 Age ≥75 years 2
D Diabetes Mellitus 1
S2 Prior Stroke or TIA or thromboembolism 2
V Vascular disease (e.g. peripheral artery disease, myocardial infarction, aortic plaque) 1
A Age 65–74 years 1
Sc Sex category (i.e. female sex) 1

Score is 1 maybe antii-cogaulant
If 2 or greater then you should be on anti-coagulants

Question 114

What puts patients at a high risk of thromboembolism?

Answer 114

Valvular heart disease
Age greater than 75 especially female
Hypertension
Heart failure
Previous TE/stroke
Coronary artery disease or diabetes and greater than 60yo
Thyrotoxicosis

Question 115

Indications for anti-coag in AF?

Answer 115

Valvular AF (mitral valve disease)
Non valvular AF if:
Age greater than 75
Hypertension
Heart failure
Previous stroke/ thromboembolism
CAD/ DM
Daibetes

Question 116

Bleeding risk assessment for AF?

Answer 116

HAS BLED
Hypertension 1
Abnormal renal or liver function 1 or 2
Stroke 1
Bleeding 1
Labile INRs 1
Elderly (age greater than 65) 1
Drugs or alcohol 1 or 2
(if score is greater than 3 = high risk)

Question 117

Why type of ablation is done in AF to maintain sinus rhythm?

Answer 117

Ablating AF focus

Question 118

What type of ablation is done in AF to control rate?

Answer 118

Ablation of AVN to stop fast conduction to the ventricles

Question 119

Is Atrial flutter regular or irregular?

Answer 119

Regular - usually paroxysmal and is rapid

Question 120

Where is the re-entry circuit in atrial flutter?

Answer 120

Right atrium

Question 121

How long can episodes of Atrial flutter last?

Answer 121

Seconds to years

Question 122

What does chronic atrial flutter usually progress to?

Answer 122

Atrial fibrillation

Question 123

Risk of atrial flutter?

Answer 123

May result in thrombi-embolism

Question 124

Characteristic feature of Atrial flutter on eCG?

Answer 124

Regular rapid rate with saw root F wave

Question 125

Treatment of Atrial flutter?

Answer 125

RF ablation
Pharmacological therapy to slow the ventricular rate = restores sinus rhythm, and maintains sinus rhythm once converted
Cardioversion
Warfarin for prevention of thromboembolism