JH IM Board Review - Arrhythmias I

Question 1

Arrhythmias are classified as …?

Answer 1

1. Bradyarrhythmias.

2. Tachyarrhythmias.

Question 2

Bradyarrhythmias can result from abnormalities at any point along the conduction path because of … (3):

Answer 2

1. Depressed automaticity.
2. Conduction delay.
3. Block.

Question 3

Tachyarrhythmias are typically classified as:

2

Answer 3

1. SVT.

2. VT.

Question 4

Treatment options for arrhythmias vary depending on …?

4

Answer 4

The underlying cause. May encompass:

1. Pharmacotherapy.
2. Electrical conversion.
3. Pacemaker or defibrillator insertion.
4. Catheter or surgical ablation.

Question 5

Bradyarrhythmias - Basic info - Arise from abnormalities in one or more of three locations:

(3)

Answer 5

1. SA node.
2. AV node.
3. Infranodal.

Question 6

SA node - Sinus node dysfunction (2 forms):

Answer 6

1. SYMPTOMATIC sinus pauses (more than 2sec).
2. CHRONOTROPIC INCOMPETENCE ==> Inability to attain 80% of the max predicted HR in response to exercise associated with fatigue or other symptoms.

==> Often coexists with A-fib (ie “tachy-brady” syndrome).

Question 7

Brief ASYMPTOMATIC sinus pauses are …?

Pacemaker?

Answer 7

COMMON.

==> Permanent pacemaker therapy is generally indicated only in the presence of symptoms.

Question 8

AV node and His-Purkinje system - 1o block - PR interval prolongation more than …

Answer 8

200ms.

Question 9

AV node and His-Purkinje system - Mobitz I:

MC site of block is in the …

Answer 9

Progressive PR interval prolongation followed by single blocked P wave.

**MC site of block is in the AV node.

Question 10

Mobitz II?

MC site of block is in the …

Answer 10

No progressive PR interval prolongation before blocked P wave.

==> MC site of block is in the His-Purkinje system.

Question 11

3o AV block — Narrow QRS vs Wide QRS?

Answer 11

Narrow QRS (junctional) escape rhythm ==> Usually blocked in AV node.

Wide QRS (ventricular) escape rhythm ==> Suggests block in His bundle or below.

Question 12

Some pts with Mobitz II and 3o AV block are asx.

Most present w/ …

(4)

Answer 12

1. Fatigue.
2. Dyspnea on exertion.
3. Presyncope.
4. Syncope.

Question 13

AV node and His-Purkinje system pathology is often better tolerated than tachyarrhythmias b/c of their …

Answer 13

Slow progression.

**exception is INFRANODAL AV block.

Question 14

Infranodal AV block may present w/ …

Answer 14

Syncope or cardiac arrest.

Question 15

Sinus node dysfunction in young, healthy pts?

Answer 15

Very rare.

Question 16

Sinus node dysfunction — Acute management:

Answer 16

Treat only if sx.

==> Atropine, isoproterenol.

==> Rarely, temporary pacer (if sx).

Question 17

Permanent pacemaker implantation for chronic management of bradyarrhythmias — Indications:

(2)

Answer 17

1. Sinus node dysfunction and Mobitz I in the presence of sx that correlate w/ the bradycardia.
2. Mobitz II + 3o AV block, even when asx.

Question 18

Device types:

3

Answer 18

1. Dual-chamber pacemaker (DDD).
2. Single-chamber ventricular pacemaker (VVI).
3. Biventricular pacemaker, which provides cardiac resynchronization therapy (CRT).

Question 19

DDD does what?

If A-fib is present …?

Answer 19

Senses and paces RA and RV.

**Unless permanent A-fib is present, in which case VVI is the most appropriate.

Question 20

Biventricular therapy w/ CRT, increasingly used for pts with …

Answer 20

Chronic systolic HF (EF <50% or less).

Who require frequent ventricular pacing.

Question 21

Narrow QRS complex tachycardias — 8 atrial rates:

Answer 21

Sinus tachy ==> 100-180.

AVNRT ==> 150-230.

Orthodromic AVRT ==> 150-250.

A-flutter ==> 240-320.

A-fib ==> 350-500.

A-tachy ==> 100-250.

Junctional tachy ==> 60-150.

MAT ==> 100-180.

Question 22

Narrow QRS complex tachycardias — A to V?

Answer 22

Sinus tachy ==> 1:1.

AVNRT ==> 1:1.

Orthodromic AVRT ==> 1:1.

A-flutter ==> A > V.

A-fib ==> A&raquo_space; V.

A-tachy ==> A > V.

Junctional tachy ==> 1:1.

MAT ==> A > V.

Question 23

Narrow QRS complex tachycardias — P wave morphology:

Answer 23

Sinus tachy ==> Sinus

AVNRT ==> Retrograde.

Orthodromic AVRT ==> Eccentric.

A-flutter ==> Sawtooth flutter waves.

A-fib ==> Fib (F) waves.

A-tachy ==> Eccentric.

Junctional tachy ==> Retrograde.

MAT ==> 3 or more different types.

Question 24

Narrow QRS complex tachycardias — Response to carotid sinus pressure:

Answer 24

Sinus tachy ==> Slowing.

AVNRT ==> Termination.

Orthodromic AVRT ==> Termination.

A-flutter ==> Incr AV block.

A-fib ==> Decr ventricular rate.

A-tachy ==> Incr AV block.

Junctional tachy ==> Slight slowing.

MAT ==> Usually none.

Question 25

Two functionally + anatomically distinct pathways within the AV node (“dual nodal physiology”):

(2)

Answer 25

1. Slow-conducting pathway with short refractory period.

2. Fast-conducting pathway with long refractory period.

Question 26

Typical form of AVNRT (90%) conducts …

Answer 26

Antegrade down slow path.

Retrograde up the fast.

Question 27

Atypical form of AVNRT conducts …

Answer 27

Antegrade down fast path.

Retrograde up the slow.

Question 28

Although up to …% of the general population may have dual nodal physiology, only a small proportion will experience AVNRT.

Answer 28

10%.

Question 29

AVNRT is notable for

Answer 29

ABRUPT onset + termination of rapid, regular heart beat.

Question 30

AVNRT age of onset may range from …

Answer 30

Childhood to old age.

Question 31

AVNRT - What is the occasional associations?

Answer 31

Syncope or near-syncope but usually well tolerated.

Question 32

Event monitor may be useful in pts with intermittent palpitations.

3 Typical AVNRT findings on ECG:

Answer 32

1. 1:1 relationship of P wave to QRS complex.
2. RP interval less than PR interval (“short PR tachycardia”), if P wave can be seen.
3. Retrograde P wave at end of QRS complex (pseudo-R’ in lead V1, pseudo-S in lead II).

Question 33

Atypical AVNRT findings on ECG:

Answer 33

RP interval more than PR interval (“long RP” tachycardia).

Question 34

AVNRT — Acute management involves:

3

Answer 34

1. Vagal maneuvers = Carotid sinus pressure, valsalva maneuver.
2. IV adenosine (6-12mg rapid push) ==> Highly effective (90% conversion).
3. IV verapamil (2.5-10mg) ==> Highly effective.

Question 35

AVNRT — Chronic management:

Answer 35

1. Catheter ablation (AV node modification, with ablation of slow AV nodal pathway).

==> 1st line tx — cures arrhythmia in more than 95% of pts.

2. Medications if not a candidate for ablation:

==> Suppress AV node ==> Verapamil, diltiazem, or beta-blockers.

==> Slow conduction within the re-entrant circuit ==> Flecainide (Na channel blocker).

Question 36

WPW syndrome - Definition:

Answer 36

Pt with both pre-excitation on ECG + an associated tachyarrhythmia.

Question 37

WPW - MC tachyarrhythmia?

Answer 37

AV reciprocating tachycardia (AVRT).

Question 38

WPW - 2nd MC tachyarrhythmia:

Answer 38

A-fib.

==> May be life-threatening in this setting because of rapid conduction down the accessory pathway.

Question 39

What is the accessory pathway in WPW?

Answer 39

A congenital muscle fiber that connects the myocardium of the atrium to the ventricle outside of the AV node.

Question 40

The accessory pathway may be (2):

Answer 40

1. Manifest.

2. Concealed.

Question 41

The manifest accessory pathway conducts in the …

Answer 41

Antegrade direction (atrium to ventricle) and usually the retrograde direction (ventricle to atrium) as well.

==> ECG shows pre-excitation (short PR + delta wave) + a slurred upstroke of the QRS complex.

Question 42

The concealed accessory pathway conducts only in the …

Answer 42

Retrograde direction.

Baseline ECG appears normal.

Question 43

What is the age of symptom onset in WPW?

Answer 43

Childhood through middle age.

Question 44

Some pts with accessory pathways may never develop sx tachycardia.

These pts technically do not have WPW syndrome, but rather …

Answer 44

WPW ECG.

Question 45

WPW may present with tachycardia:

…% AVRT

…% A-fib.

Answer 45

70%.

30%.

Question 46

AVRT in WPW is classified into (2):

Answer 46

Orthodromic or antidromic depending on the direction of conduction over the AV node.

Question 47

Orthodromic AV reciprocating tachycardia (ORT):

Answer 47

Tachycardia conducts antegrade down the AV node and retrograde up the accessory pathway.

Question 48

Orthodromic AV reciprocating tachycardia (ORT) is the …

Answer 48

MC form of AVRT (95%).

Question 49

ORT may occur with which type of pathway?

Answer 49

Both with manifest and with concealed accessory.

Question 50

ORT - ECG reveals a … tachycardia.

Answer 50

Narrow-complex.

Question 51

Antidromic AV reciprocating tachycardia (ART):

Answer 51

Tachycardia that conducts antegrade down the accessory pathway and retrograde up the AV node or a 2nd accessory path.

Question 52

ART - ECG reveals a … tachycardia.

May be mistaken for …

Answer 52

Wide-complex.

VT

Question 53

A-fib in WPW is …

Answer 53

Life-threatening!

Question 54

A-fib in WPW — Accessory pathways often conduct rapidly w/ small refractory periods.

May result in …

Answer 54

Extremely rapid transmission of A-fib impulses into the ventricles.

Question 55

What is the ECG in a-fib-WPW?

Answer 55

Shows wide, irregular QRS complex morphology.

Question 56

What is a possible consequence of A-fib in WPW?

Answer 56

May degenerate to V-fib and cardiac arrest.

Question 57

What are the ECG findings in WPW?

Answer 57

1. Short PR <120ms.

2. Delta wave with widened QRS complex.

Question 58

What is the cause of the widened QRS complex in WPW?

Answer 58

Dual ventricular activation through both the accessory pathway and the normal AV node/His-Purkinje conduction system.

Question 59

What is the risk of sudden death for asx WPW pts?

Answer 59

Very low.

Question 60

What are the guidelines for EP studies in asx WPW?

2

Answer 60

1. Pts in high risk occupations (eg pilot, competitive athletes) may need EP testing for medical clearance.
2. Some studies support EP testing in <35.

Question 61

What is the acute management of AVRT-WPW?

2

Answer 61

1. Vagal maneuvers.

2. IV AV nodal blockers — adenosine, beta blockers, verapamil.

Question 62

What is the 1st line — acute management of A-fib with pre-excitation?

Answer 62

IV procainamide ==> slows accessory path + AV nodal conduction.

IV ibutilide ==> convert acute-onset AF to sinus rhythm.

Question 63

What should be avoided during the acute management of A-fib with pre-excitation?

Answer 63

1. Digoxin.
2. CCBs.

==> They cause even more rapid ventricular response via selective AV nodal blockade and shortening of atrial refractoriness.

Question 64

What is the acute management of a-fib with pre-excitation if pt is hypotensive or otherwise unstable?

Answer 64

Urgent/emergent electrical cardioversion.

Question 65

What is the chronic management of sx WPW pts?

Answer 65

Catheter ablation = 1st line.

Question 66

What is the time required for catheter ablation of the accessory path?

Answer 66

2-4h procedure to localize and ablate (cauterize) the path.

Question 67

What is the success rate of the cauterization of the accessory path?

Answer 67

90-95% depending on the site.

Question 68

What are the drugs that can be given to WPW pts who are managed chronically?

Answer 68

1. Flecainide.
2. Beta blockers.

==> To prevent further episodes of AVRT in pts awaiting catheter ablation OR if ablation is contraindicated OR not accepted by the pt.

Question 69

What are the 2 types of A-fib?

Answer 69

1. Paroxysmal (<7days).

2. Persistent (>7days).

Question 70

What is the cause of the paroxysmal a-fib?

Answer 70

Initiated by PACs (premature atrial contractions) or by bursts of ectopic atrial activity (freq. originating in the pulm. Veins.).

**often no structural heart disease present.

Question 71

What is the cause of persistent a-fib?

2

Answer 71

1. Structural heart disease (MS, atrial enlargement, HTN, CHF).
2. Hyperthyroidism (1% of AF cases).

Question 72

What is the cause of a-flutter?

Answer 72

Reentrant circuit usually confined to the RA.

==> Typically proceeds COUNTER CLOCKWISE.

Question 73

What is the age of onset for a-flutter?

Answer 73

40 or older, similar to a-fib.

Question 74

What is the acute management of AF and A-fib?

Answer 74

1. Rate control ==> beta blocker, CCB (verapamil, diltiazem).
2. Digoxin (not for paroxysmal).
3. Attempt cardioversion if hemodynamically UNSTABLE (hypotension, CHF, angina).

Question 75

What are the chronic management options for A-fib?

Answer 75

1. Rate control ==> Beta blockers, CCBs, digoxin.
2. If sx despite rate-controlling agents ==> antiarrhythmics.
3. Consider electrical cardioversion to achieve sinus rhythm in sx pts.
4. “Ablate and pace”.
5. Consider pulm vein isolation.
6. Chronic anticoagulation for stroke prevention.

Question 76

What are the antiarrhythmics for the chronic management of A-fib?

(4)

Answer 76

1. Class IC ==> 1st line in structurally normal hearts (flecainide, propafenone).
2. Amiodarone generally used in pts with systolic HF + severe LV hypertrophy.
3. Sotalol + dofetilide ==> acceptable alternative in pts with CAD.
4. Dronedarone ==> not in systolic HF or permanent a-fib.

Question 77

Chronic management options of AF — Can consider electrical cardioversion to achieve sinus rhythm in sx pts.

— What is that pts w/ AF or A-flutter should receive for more than 36 to 48h before the electrical cardioversion? (2)

Answer 77

1. Therapeutic anticoagulation tx for at least 3wks before and 4wks after cardioversion.

Or

2. Transesophageal echocardio to exclude atrial thrombus, followed by 4wks of continuous anticoagulation after cardioversion.

Question 78

What is the meaning of “ablate and pace” in the chronic management of A-fib?

Answer 78

In selected pts w/ refractory symptoms caused by rapid ventricular response, AV NODE ABLATION prevents conduction of rapid impulses to the ventricle and can decrease sx.

Question 79

What are the requirements of “ablate and pace” chronic management of AF?

(2)

Answer 79

1. Chronic anticoagulation remains necessary, because the atria still fibrillate.
2. Requires permanent ventricular pacemaker placement b/c of resulting complete AV block.

Question 80

What is the target group of “ablate and pace” chronic management of AF?

Answer 80

Older pts w/ sx refractory to other therapies.

Question 81

What is the target group in which we should consider pulmonary vein isolation?

Answer 81

Sx individuals w/ paroxysmal or short-duration persistent AF who are refractory to or intolerant of antiarrhythmic medications.

Question 82

What is the pulmonary vein isolation?

Answer 82

Catheter ablation procedure that does not involve AV node ablation.

Question 83

What is the criterion for chronic anticoagulation in order to prevent stroke in persistent + paroxysmal AF pts?

Answer 83

Depends on the risk score ==> CHA2DS2-VASc.

Question 84

What are the alternative anticoagulants in pts with nonvalvular AF?

Answer 84

NOACs ==> Dabigatran, rivaroxaban, apixaban, edoxaban.

Question 85

What are the 2 major contraindications for NOACs?

Answer 85

1. Dose-adjustment depending on renal function and not recommended for use w/ ESRD.
2. Pts with rheumatic valve disease or mechanical prosthetic valves.

Question 86

What is involved in the chronic management of A-flutter?

Answer 86

1. Cardioversion (electrical or chemical).
2. Catheter ablation of re-entrant circuit ==> 90-95% permanent elimination.
3. Anticoagulation.

Question 87

What is the thromboembolic risk of atrial flutter?

Answer 87

Similar to A-fib.

Question 88

What are the characteristics suggestive of ventricular origin (vs supraventricular origin) in wide-complex tachycardias?

(6)

Answer 88

1. Hx of structural or ischemic heart disease.
2. Absence of an RS complex in all precordial leads (V1-V6).
3. Peak of R wave to nadir of S interval >100ms in one precordial lead (V1-V6).
4. Presence of AV dissociation (P waves unrelated to QRS complexes).
5. Presence of fusion complexes (sinus QRS complex fuses with VT beats) or capture beats (sinus QRS complex appears between VT beats).
6. QRS >0.16sec.

Question 89

What is the tx of sinus tachycardia?

2

Answer 89

1. Identify and treat the underlying cause.

2. Beta blockade if caused by thyrotoxicosis, inappropriate sinus tachycardia, or if associated with cardiac ischemia.

Question 90

What is the cause of focal atrial arrhythmia?

2

Answer 90

1. Enhanced atrial automaticity or triggered activity (rare).
2. Digoxin toxicity.

Question 91

What is the acute management of focal atrial tachycardia?

Answer 91

Rate control or suppression with beta-blocker or verapamil.

Question 92

What is the chronic management of focal atrial tachycardia?

3

Answer 92

1. Rate control.
2. Suppression with flecainide, sotalol, amiodarone.
3. Catheter ablation.

Question 93

What is the cause of multifocal atrial tachycardia?

Answer 93

1. Multiple automatic or triggered atrial foci.

2. Occurs with elevated SNS tone, pulmonary disease (eg COPD), hypoxemia, stimulant, theophylline use.

Question 94

What is the ECG of MAT?

Answer 94

3 or more P wave morphologies are present, usually with varying PR intervals.

Question 95

What is the tx of MAT?

Answer 95

Treat underlying cause (eg hypoxemia).

==> Rate control w/ CCB or beta blockers.

Question 96

What is the tx to which MAT is generally NOT amenable?

Answer 96

Catheter ablation.

Question 97

What is a junctional tachycardia?

Answer 97

Automatic rhythm arising from the AV node.

Question 98

What is the cause of junctional tachycardia?

4

Answer 98

1. Situations of enhanced automaticity (ie elevated SNS tone).
2. Post-cardiac surgery.
3. MI.
4. Digoxin toxicity.

Question 99

What is the acute management of junctional tachycardia?

Answer 99

Treat the underlying cause.

Question 100

What is the chronic management of junctional tachycardia?

Answer 100

No tx is usually required.

Question 101

What is the chronic management of rare sx cases of junctional tachycardia?

Answer 101

Require antiarrhythmic drug therapy.

==> Catheter ablation may lead to AV block.

Question 102

What are the 4 major VTs?

Answer 102

1. Sustained monomorphic VT.
2. Idiopathic RVOT VT.
3. V-fib.
4. Torsades de pointes.

Question 103

What are the V-rates of the 4 major VTs?

Answer 103

1. Sustained monomorphic VT ==> 140-250.
2. Idiopathic RVOT VT ==> 140-230.
3. V-fib ==> >300.
4. Torsades ==> 200-300.

Question 104

What is the QRS morphology of the 4 major VTs?

Answer 104

1. Sustained monomorphic VT ==> Any.
2. Idiopathic RVOT VT ==> LBBB.
3. V-fib ==> Polymorphic.
4. Torsades ==> Polymorphic.

Question 105

What is the substrate for the 4 major VTs?

Answer 105

1. Sustained monomorphic VT ==> Post-MI, cardiomyopathy.
2. Idiopathic RVOT VT ==> Normal.
3. V-fib ==> Ischemia, cardiomyopathy.
4. Torsades ==> Long QTc interval.

Question 106

What is the medical tx of the 4 major VTs?

Answer 106

1. Sustained monomorphic VT ==> Amiodarone, procainamide.
2. Idiopathic RVOT VT ==> beta blockers, verapamil.
3. V-fib ==> Amiodarone, lidocaine.
4. Torsades ==> Mg, lidocaine.

Question 107

What are the 2 VTs in which ablation is possible?

Answer 107

1. Sustained monomorphic VT.

2. Idiopathic RVOT VT.