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Arrhythmias and EKGsArrhythmias and EKGs
Part 1Part 1
OutlineOutline
1.1. Normal Sinus RhythmNormal Sinus Rhythm
2.2. Altered AutomaticityAltered Automaticity
3.3. ReentryReentry
4.4. Conduction BlockConduction Block
5.5. Helpful hints for diagnosing arrhythmiasHelpful hints for diagnosing arrhythmias
Normal Sinus RhythmNormal Sinus Rhythm
Implies normal sequence of conduction, originating in the sinus node and proceeding to the ventricles via the AV node and His-Purkinje system.
EKG Characteristics: Regular narrow-complex rhythm
Rate 60-100 bpm
Each QRS complex is proceeded by a P wave
P wave is upright in lead II & downgoing in lead aVR
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Mechanisms of ArrhythmogenesisMechanisms of Arrhythmogenesis
Recognizing altered automaticity on EKGRecognizing altered automaticity on EKG
Gradual onset and termination of the arrhythmia.Gradual onset and termination of the arrhythmia.
The P wave of the first beat of the arrhythmia is The P wave of the first beat of the arrhythmia is typically the same as the remaining beats of the typically the same as the remaining beats of the arrhythmia (if a P wave is present at all).arrhythmia (if a P wave is present at all).
Decreased AutomaticityDecreased Automaticity
Sinus Bradycardia
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Increased/Abnormal AutomaticityIncreased/Abnormal Automaticity
Sinus tachycardia
Junctional tachycardia
Ectopic atrial tachycardia
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Mechanism of ReentryMechanism of Reentry
Mechanism of ReentryMechanism of Reentry
Reentrant RhythmsReentrant Rhythms
AV nodal reentrant tachycardia (AVNRT)AV nodal reentrant tachycardia (AVNRT)
AV reentrant tachycardia (AVRT)AV reentrant tachycardia (AVRT)– OrthodromicOrthodromic– AntidromicAntidromic
Atrial flutterAtrial flutter
Atrial fibrillationAtrial fibrillation
Ventricular tachycardiaVentricular tachycardia
Recognizing reentry on EKGRecognizing reentry on EKG
Abrupt onset and termination of the arrhythmia.Abrupt onset and termination of the arrhythmia.
The P wave of the first beat of the arrhythmia is The P wave of the first beat of the arrhythmia is different as the remaining beats of the different as the remaining beats of the arrhythmia (if a P wave is present at all).arrhythmia (if a P wave is present at all).
Example of AVNRTExample of AVNRT
Mechanism of AVNRTMechanism of AVNRT
Atrial FlutterAtrial Flutter
Most cases of atrial flutter are caused by a large reentrant circuit in the wall of the right atrium
EKG Characteristics: Biphasic “sawtooth” flutter waves at a rate of ~ 300 bpm
Flutter waves have constant amplitude, duration, and morphology through the cardiac cycle
There is usually either a 2:1 or 4:1 block at the AV node, resulting in ventricular rates of either 150 or 75 bpm
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Unmasking of Flutter WavesUnmasking of Flutter Waves
In the presence of 2:1 AV block, the flutter waves may not be immediately apparent. These can be brought out by administration of adenosine.
Braunwald's Heart Disease: A Textbook of Cardiovascular Medicine, 7th ed., 2005.
Atrial FibrillationAtrial Fibrillation
Atrial fibrillation is caused by numerous wavelets of depolarization spreading throughout the atria simultaneously, leading to an absence of coordinated atrial contraction.
Atrial fibrillation is important because it can lead to:
Hemodynamic compromise
Systemic embolization
Symptoms
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Atrial FibrillationAtrial Fibrillation
EKG Characteristics: Absent P waves
Presence of fine “fibrillatory” waves which vary in amplitude and morphology
Irregularly irregular ventricular response
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What is this arrhythmia?What is this arrhythmia?
Ventricular tachycardia
Ventricular tachycardia is usually caused by reentry, and most commonly seen in patients following myocardial infarction.
Rhythms Produced by Conduction Rhythms Produced by Conduction BlockBlock
AV Block (relatively common) AV Block (relatively common) – 11stst degree AV block degree AV block– Type 1 2Type 1 2ndnd degree AV block degree AV block– Type 2 2Type 2 2ndnd degree AV block degree AV block– 33rdrd degree AV block degree AV block
SA Block (relatively rare)SA Block (relatively rare)
11stst Degree AV Block Degree AV Block
EKG Characteristics: Prolongation of the PR interval, which is constant
All P waves are conducted
The Alan E. Lindsay ECG Learning Center ; http://medstat.med.utah.edu/kw/ecg/
22ndnd Degree AV Block Degree AV Block
Type 1 (Wenckebach)
EKG Characteristics: Progressive prolongation of the PR interval until a P wave is not conducted.
As the PR interval prolongs, the RR interval actually shortens
EKG Characteristics: Constant PR interval with intermittent failure to conduct
Type 2
33rdrd Degree (Complete) AV Block Degree (Complete) AV Block
EKG Characteristics: No relationship between P waves and QRS complexes
Relatively constant PP intervals and RR intervals
Greater number of P waves than QRS complexes
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Questions to answer in order to identify an Questions to answer in order to identify an unknown arrhythmia:unknown arrhythmia:
1. Is the rate slow (<60 bpm) or fast (>100 bpm)?1. Is the rate slow (<60 bpm) or fast (>100 bpm)?Slow Slow Suggests sinus bradycardia, sinus arrest, or Suggests sinus bradycardia, sinus arrest, or conduction blockconduction block
Fast Fast Suggets increased/abnormal automaticity or reentry Suggets increased/abnormal automaticity or reentry
2. Is the rhythm irregular?2. Is the rhythm irregular? Irregular Irregular Suggests atrial fibrillation, 2 Suggests atrial fibrillation, 2ndnd degree AV block, degree AV block,
multifocal atrial tachycardia, or atrial flutter with variable multifocal atrial tachycardia, or atrial flutter with variable AV blockAV block
3. Is the QRS complex narrow or wide?3. Is the QRS complex narrow or wide?Narrow Narrow Rhythm must originate from the AV node or above Rhythm must originate from the AV node or aboveWide Wide Rhythm may originate from anywhere Rhythm may originate from anywhere
Questions to answer in order to identify an Questions to answer in order to identify an unknown arrhythmia:unknown arrhythmia:
4. Are there P waves?4. Are there P waves?Absent P waves Absent P waves Suggests atrial fibrillation, ventricular Suggests atrial fibrillation, ventricular tachycardia, or rhythms originating from the AV nodetachycardia, or rhythms originating from the AV node
5. What is the relationship between the P waves and QRS 5. What is the relationship between the P waves and QRS
complexes?complexes? More P waves than QRS complexes More P waves than QRS complexes Suggests 2 Suggests 2ndnd or 3 or 3rdrd
degree AV blockdegree AV block More QRS complexes than P waves More QRS complexes than P waves Suggests an Suggests an
accelerated junctional or ventricular rhythmaccelerated junctional or ventricular rhythm
6. Is the onset/termination of the rhythm abrupt or gradual?6. Is the onset/termination of the rhythm abrupt or gradual?Abrupt Abrupt Suggests reentrant rhythm Suggests reentrant rhythmGradual Gradual Suggests altered automaticity Suggests altered automaticity