Wide complex tachycardias
| Wide complex tachycardias | |
| ICD-10 | I47.2 |
|---|---|
| ICD-9 | 427.1 |
| DiseasesDB | 13819 |
| eMedicine | emerg/634 med/2367 ped/2546 |
| MeSH | D017180 |
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]
Overview
Wide complex tachycardia or WCT refers to a cardiac rhythm of more than 100 bpm with a QRS duration of 120 ms or more on the surface electrocardiogram.
Definition
Heart rate >100 with QRS duration >120ms.
Background
- Wide complex tachycardia (WCT) can be either:
- Supra ventricular tachycardia (SVT) with aberrancy
- Ventricular tachycardia (VT)
- Antegrade conduction down an accessory bypass tract.
- 80% of WCT will be VT. 98% will be VT if structural heart disease is present. 7% of patients with SVT will have prior myocardial infarction (MI).
Differential Diagnosis
- Regular
- VT (slight irregularity of RR)
- SVT with aberrancy: Sinus, atrial tachycardia (AT), or Flutter.
- Antidromic atrioventricular reentrant tachycardia (AVRT)
- Irregular
- First 50 beats of VT
- SVT with aberrancy: Atrial fibrillation, multifocal atrial tachycardia (MAT)
- Atrial fibrillation with bypass tract
- The mechanism of SVT with aberrancy is usually concealed retrograde conduction. The ventricular beat penetrates the right branch (RB) or left branch (LB). When the next supraventricular activation front occurs that bundle is refractory and if conduction can occur, it will proceed down the other bundle. Since the RB has a longer refractory period than the LB, a right bundle branch block (RBBB) morphology is more common.
- Other mechanisms of “rate related aberrancy” are preexisting bundle branch block (BBB), physiologic (phase 3) aberration and use dependent aberration secondary to medication. In physiologic aberration, the stimulus comes to the His-Purkinje system before it has fully recovered from the previous stimulus. The ensuing activation is either blocked or conducts slowly. Again, the RB is the one more at risk. Most commonly seen at the onset of paroxysmal supraventricular tachycardia (PSVT), but can become sustained.
- In use-dependent aberration, a patient on and anti-arrhythmic (especially Ic agents) will have a progressive decrement in ventricular conduction rate the more it is stimulated. During faster heart rates, less time is available for the drug to dissociate from the receptor and an increased number of receptors are blocked.
Differentiation of VT from Antidromic AVRT
- Angina pectoris (AP) activate ventricles from base to apex by virtue of their location in the atrioventricular (AV) ring. This results in predominately positive QRS complexes in V4-V6. If negative, favors VT. For same reason, qR complexes in V2-V4 cannot be found in AVRT unless there is preexisting heart disease.[1] [2] [3]
- Because the atria are part of the circuit in AVRT, any relationship other than 1:1 of P and QRS means VT (100%).
Algorithm
- If polarity of V4-V6 is negative, then VT (100%).
- If qR present in V4-V6, then VT (100%).
- If 1:1 AV relationship not present (more QRS than P), then VT. (100%)
- If none of above present, 25% will still be VT
History and Symptoms
- Age
- Presence of preexisting heart disease
- Duration of symptoms
- Medications
Physical Examination
- Vitals to assess hemodynamic stability
- “Cannon-a waves” (a manifestation of AV dissociation)
- Carotid sinus massage (CSM)/Valsalva: ST can gradually slow. MAT, AT, Flutter, and AF may transiently slow. An AV nodal dependent WCT may terminate. AV dissociation may become more apparent with CSM in VT. VT can terminate with CSM
Electrocardiogram
- Extreme axis deviation favors VT. Especially -90 to -180 or “northwest” or “superior” axis. (23% of SVT will have SAD)
- QRS duration >140 msec favors VT (21% of VT will have QRS <140 msec)
- AV dissociation is demonstrated in only 21% of VT
- Morphologic Criteria
- 4% of SVT and 6% of VT did not fulfill criteria in any lead
- 40% will have discordance between V1/V2 and V5/V6. One lead may suggest VT while another suggests SVT.
- An algorithmic approach was proposed by Brugada in 1991. It has a reported sensitivity of 99% and specificity of 97%.
Pharmacotherapy
Acute Pharmacotherapies
- If stable: (More patients than you think)
- DO NOT USE Ca2+ Channel blocker, Digoxin or Adenosine if you don't not know the etiology of the Wide Complex Tachycardia. Ca2+ Channel blockers and Digoxin can lead to accelerated conduction down a bypass tract and VF.
- Though ACLS guidelines recommend a diagnostic trial of Adenosine, it can precipitate VF in some patients with SVT. Patients who have underlying coronary disease may become ischemic from coronary steal. Rhythm can degenerate and lead to VF that cannot be resuscitated. Furthermore, some VT (esp those with structurally normal hearts) are adenosine responsive and can terminate.
- Etiology Uncertain
- Pronestyl 15mg/kg load over 30 minutes then 2-6mg/min gtt
- Ventricular Tachycardia with active ischemia
- Lidocaine 1 mg/kg q5-10 min up to 3 times then 2-6mg.min gtt
- If unsuccessful, Pronestyl as above
- If unsuccessful, IV Amiodarone 150-300 load over 15-20min. 30-60mg/hr gtt for total of 1gram
- Ventricular Tachycardia in Setting of Cardiomyopathy
- Positively SVT with aberrancy
- Antidromic AVRT
- Etiology Uncertain
- Pearls from MEJ
- In right bundle branch block (RBBB) morphology with normal or inferior axis, R/S ratio may be >1 in VT or <1 in SVT
- If QRS during tachycardia is narrower than in normal sinus rhythm (NSR), suggests VT
Surgery and Device Based Therapy
- Hypotension with symptoms, chest pain, congestive heart failure (CHF), seizure etc.: Defibrillate
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [2]
Associate Editor-In-Chief Jiwon Kim
Differential Diagnosis of Tachycardia with Wide QRS Complex
- A regular tachycardia with a rate of 120 to 200 BPM with a QRS duration of .12 seconds or longer may be due to:
- Paroxysmal VT
- Supraventricular tachycardia with abnormally wide QRS
- Sinus tachycardia
- SA nodal reentrant tachycardia
- Paroxysmal atrial tachycardia
- Intraatrial reentrant tachycardia
- Atrial flutter with 2:1 conduction and occasional 1:1 conduction
- AV nodal reentrant tachycardia
- Automatic junctional tachycardia
- AV reentrant tachycardia using a bypass tract
Differential Diagnosis of Wide QRS Complexes
- Aberrant ventricular conduction
- Preexisting left or right bundle branch block
- Preexisting nonspecific IVCD
- Antegrade conduction through the bypass tract in patients with WPW
Clues to the Diagnosis of VT
- Morphology of Premature Beats During Sinus Rhythm:
- Previous EKG may show preexisting IVCD.
- If PVCs are present, and if the morphology of the arrhythmia is the same, then it is likely to be ventricular in origin.
- If there are PACs with aberrant conduction, then the origin of the arrhythmia may be supraventricular.
- Onset of the Tachycardia:
- Diagnosis of SVT made if the episode is initiated by a premature P wave.
- If the paroxysm begins with a QRS then the tachycardia may be either ventricular or junctional in origin.
- If the first QRS of the tachycardia is preceded by a sinus p wave with a PR interval shorter than that of the conducted sinus beats, the tachycardia is ventricular.
- AV Dissociation:
- Although is highly suggestive of VT, it may also be seen in junctional tachycardias with retrograde block.
- Morphology of the QRS Complexes and QRS Axis:
- 80 to 85% of aberrant beats have a RBBB pattern, but ectopic beats that arise from the LV have a similar morphology.
- The finding of a positive or negative QRS complex in all precordial leads is in favor of ventricular ectopy.
- A QRS duration of > .14 seconds (A Wellens criterion)
- Left axis deviation (A Wellens criterion)
- A monophasic or biphasic RBBB QRS complex in V1. But none of their patients with SVT had a preexisting RBBB. Therefore, this finding is of limited importance. (A Wellens criterion)
- Akhtar studied 150 patients with a wide complex tachycardia. The following were helpful in the diagnosis of VT:
- all patients with VT had a QRS duration > 120 msecond.
- QRS > .14 with a RBBB, QRS > .16 with LBBB.
- V1 - V6 all show a positive deflection.
- QRS axis between -90 and + 180 degrees.
- The QRS complexes have a LBBB but the QRS axis is rightward.
- In patients with preexisting bundle branch block, there is a change in the QRS pattern during the tachycardia.
- Capture beats:
- Rare, but one of the strongest pieces of evidence in favor of VT.
- Aberrancy rarely follows a beat of such short cycle length.
- Fusion beats:
- Rare but also strongly suggests VT.
- Vagal Stimulation:
- VT is not affected by vagal stimulation.
- May terminate reentrant arrhythmias
- Atrial pacing:
- A pacing wire is placed in the RA and the atrium is stimulated at a rate faster than the tachycardia.
- If ventricular capture occurs and the QRS is normal in duration, then one can exclude the possibility of aberrant conduction.
- His bundle recording:
- In SVT, each QRS is preceded by a His bundle potential.
- In VT there is no preceding His deflection.
- The retrograde His deflection is usually obscured by the much larger QRS complex.
| example | regularity | atrial frequency | ventricular frequency | origin (SVT/VT) | p-wave | effect of adenosine | |
|---|---|---|---|---|---|---|---|
| Wide complex (QRS>0.12) | |||||||
| Ventricular Tachycardia | 
|
regular (mostly) | 60-100 bpm | 110-250 bpm | ventricle (VT) | AV-dissociation | no rate reduction (sometimes accelerates) |
| Ventricular Fibrillation | 
|
irregular | 60-100 bpm | 400-600 bpm | ventricle (VT) | AV-dissociation | none |
| Ventricular Flutter | 
|
regular | 60-100 bpm | 150-300 bpm | ventricle (VT) | AV-dissociation | none |
| Accelerated Idioventricular Rhythm | 
|
regular (mostly) | 60-100 bpm | 50-110 bpm | ventricle (VT) | AV-dissociation | no rate reduction (sometimes accelerates) |
| Torsade de Pointes | 
|
regular | 150-300 bpm | ventricle (VT) | AV-dissociation | no rate reduction (sometimes accelerates) | |
| Bundle-branch re-entrant tachycardia* | 
|
regular | 60-100 bpm | 150-300 bpm | ventricles (VT) | AV-dissociation | no rate reduction |
| *) Bundle-branch re-entrant tachycardia is extremely rare | |||||||
Differential Diagnosis of Wide QRS Complex Tachycardia
- The following favor the diagnosis of VT:
- AV dissociation
- RBBB with QRS > .14, or LBBB with QRS > .16
- QRS axis in RUQ between -90 and +180 degrees
- Positive QRS in all the precordial leads (V1-V6)
- LBBB with a rightward axis
- LBBB with the following QRS morphology
- R wave in V1 or V2 > 0.03 second
- any Q wave in V6
- Onset of the QRS to nadir of the S wave in V1 > 0.06 seconds
- Notching of the S wave in V1 or V2
- Capture beats, fusion beats
- QRS morphology identical to that of premature ventricular beats during sinus rhythm
Clinical Correlation
- Most patients with VT have organic heart disease.
- Post MI VT is associated with a doubling of the risk of death.
- This was an a risk factor independent of poor LV function.
- VT can be seen with reperfusion, but an accelerated idioventricular rhythm is more common.
- Digoxin intoxication is a common cause. Other antiarrhythmics, phenothiazines, TCAs, and pheochromocytoma may also cause this.
- Cardiac catheterization, DC countershock, following repair of congenital lesions, and the hereditary QT prolongation are all associated with VT.
References
- ↑ Brugada P, Brugada J, Mont L et al. A new approach to the differential diagnosis of a regular tachycardia with wide QRS complex. Circulation. 1991;83: 1649-1659. PMID 2022022
- ↑ Kindwall KE, Brown, J, Josephson ME. Electrocardiographic criteria for ventricular tachycardia in wide complex left bundle branch block morphology tachycardias. Am J Cardiology. 1988; 61:1279-1283. PMID 3376886
- ↑ Podrid P, Brugada P. Approach to wide QRS complex tachycardias. Up To Date. 1998.