Tachyarrhythmias

Question 1

PAC characteristics

Answer 1

• Early atrial depolarization
• Bigeminal or trigeminal
• P wave morphology may be different

Question 2

SVT characteristics

Answer 2

• Narrow QRS complex at 140-240 bpm
• Abrupt onset/offset
• P wave buried in QRS

Question 3

What causes SVT?

Answer 3

An accessory pathway

Question 4

What terminates SVT?

Answer 4

Adenosine

Question 5

AV re-entry tachycardia: Normal conduction/sinus steps

Answer 5

1. Conduction occurs normally through atrium

2. Accessory pathway conducts to ventricles & AV node

Question 6

AV re-entry tachycardia: Tachycardia activation steps

Answer 6

1. Premature beat arrives while accessory is still refractory
2. Slowly activates AV node
3. By the time the signal reaches the ventricle, accessory pathway has recovered & is able to transmit signal to atria
4. Atria reactivates ventricle via AV node

Question 7

Concealed pathway

Answer 7

SVT via an accessory pathway, but has normal EKG

Question 8

WPW characteristics

Answer 8

• SVT via accessory pathway & has delta wave on resting/sinus EKG
• Pre-excitation of ventricle in the location of accessory pathway, while conducting through AV node
• Narrow PR interval

Question 9

WPW definition

Answer 9

Must have SVT, sx, & delta wave on EKG

Question 10

AVNRT: Dual AV nodal physiology

Answer 10

• Slow pathway (fast recovery)

- Fast pathway (slow recovery)

Question 11

AVNRT: Initiation of tachycardia

Answer 11

1. Normal impulse conducted
2. PAC occurs (conducted via slow pathway bc fast pathway is refractory)
3. PAC reaches end of slow pathway –> fast pathway is recovered –> transmits signal to atria

Question 12

Atrial tachycardia characteristics

Answer 12

• Originates within atria, but outside sinus node
• Bc rate is faster than sinus rate, it takes over as main pacemaker
• Rate of 140-220, rarely sustained for long periods
• P wave often buried within T wave
• Not terminated by adenosine
• May require meds if symptomatic

Question 13

Multifocal atrial tachycardia

Answer 13

• Multiple ectopic foci in atria firing –> multiple p wave morphology
• HR: 100-150
• Transitional arrhythmia from AT to AF

Question 14

What is the most common cause of COPD?

Answer 14

MAT

Question 15

AF characteristics

Answer 15

• Ventricular rates are usually fast, over 100

- No discernable p waves

Question 16

What is the most common chronic arrhythmia?

Answer 16

AF

Question 17

How do you tx AF?

Answer 17

• Rate control
• Stroke prevention
• DCCV
• Anti-arrhythmics

Question 18

AF carries a risk of what?

Answer 18

CVA (evaluate w/ CHADS score)

Question 19

Atrial flutter characteristics

Answer 19

• “Saw tooth” in inferior leads (II,III, & aVF)
• Short re-entrant circuit within RA (conducting at 300bpm)
• Usually regular ventricular response (150bpm)

Question 20

Atypical atrial flutter

Answer 20

re-entrant circuit in the atria from any other location in the atria

Question 21

Atrial flutter carries a risk of what?

Answer 21

CVA (anticoagulation = prevention)

Question 22

How do you tx atrial flutter?

Answer 22

• Anticoagulation
• Ablation
• Anti-arrhythmics

Question 23

PVC characteristics

Answer 23

• Wide QRS w/out preceding P wave

- Bigeminal or trigeminal

Question 24

What can PVCs cause?

Answer 24

Palpitations

Question 25

How do you treat PVCs?

Answer 25

• Beta blocker
• Calcium channel blocker
• Ablation if sx/cardiomyopathy

Question 26

VT characteristics

Answer 26

• 3 or more consecutive PVCs (160-200bpm)
• Nonsustained: more than 3 beats but less than 30 seconds before terminating spontaneously
• Sustained: over 30 seconds &/or requiring DCCV

Question 27

How do you tx VT?

Answer 27

Based on hemodynamic stability

• Stable: IE beta blockers, anti-arrhythmics
• Unstable: cardiovert emergently

Question 28

Monomorphic VT

Answer 28

Due to re-entrant circuit within ventricle (caused by MI scar)

Question 29

Polymorphic VT

Answer 29

• Omnious, indicating more electrically unstable/irritable ventricle
• See Review 8a

Question 30

Wide complex tachycardia

Answer 30

• VT or aberrantly conducted SVT

- Dx via cardiology/EP

Question 31

How do you tx wide complex tachycardia?

Answer 31

Tx as VT until proven otherwise

- If unstable, tx w/ DCCV

Question 32

Torsades de Pointes characteristics

Answer 32

• Polymorphic VT (long QT interval)
• Twisting of QRS complex along isoelectric baseline
• Also occurs in complete heart block

Question 33

How do you tx Torsades de Pointes ?

Answer 33

• Emergent defibrillation
• Leads to sudden cardiac death
• Magnesium after defibrillation

Question 34

VF characteristics

Answer 34

• No discernable ventricular activity (200-300bpm)

- Pulseless

Question 35

How do you tx VF?

Answer 35

• Causes death unless quickly resuscitated (next step = asystole)
• Requires defibrillation ASAP

Question 36

Indications for ICD

Answer 36

• EF less than 35%

- Previous cardiac arrest in absence of reversible cause