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Cardiac Memory after Radiofrequency Ablation of Accessory Pathways: The Post-ablation T Wave Does not Forget the Pre-excited QRS.

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Abstract

Introduction: Normalization of the pre-excited QRS following ablation is accompanied by repolarization changes but their directional relationship to changes in ventricular activation has not been well characterized.

Methods: Accordingly, we measured QRS and T wave vectors and QRS-T angles from 12 lead ECG recordings immediately before and after accessory pathway (AP) radiofrequency ablation in 100 consecutive patients. Patients with bundle branch block, intraventricular conduction defect or intermittent pre-excitation were excluded, leaving a study group of 45 patients: 35 with pre-excitation and 10 with concealed APs.

Results: With AP ablation, changes occurred in the QRS and T wave vectors and QRS-T angles that were essentially equal and opposite, so that the newly normalized QRS complex and QRS vector were accompanied by a T wave whose vector approximated that of the pre-ablation QRS vector. This tended to maintain a large QRS-T angle: 72° ± 50° before, and 54° ± 34° after QRS normalization (p = NS). A QRS-T angle >40° was found before and after ablation in 22/35 patients (63%) with baseline pre-excitation; but never in patients with a concealed AP (p = 0.001). The angle between the pre-excited QRS and the post-ablation T wave was 35° ± 37°, and ≤40° in 25/35 patients (71%). The change in T wave axis with QRS normalization correlated in magnitude with the QRS-T angle before ablation (r = 0.73, p < 0.0001). The change in QRS axis correlated with the QRS-T angle after ablation (r = 0.37, p < 0.03). Shorter AP effective refractory periods (ERPs) correlated with wider QRS-T angles after ablation (r = −0.39, p < 0.03). The ECG leads manifesting these changes depend on AP location.

Conclusion: T-wave changes after ablation of APs (1) are dependent on anterograde AP conduction at baseline and are not observed with concealed APs; (2) correlate in magnitude directly with the change in QRS axis and inversely with the anterograde AP-ERP; (3) are related to AP location. With termination of pre-excitation secondary repolarization changes immediately disappear and the post ablation T wave axis approximates that of the pre-excited QRS. Recognition of this sequence may prevent unnecessary clinical interventions.

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Authors and Affiliations

  1. Department of Medicine, Cardiology Division, Arrhythmia Service, Montefiore Medical Center, Albert Einstein College of Medicine, Bronx, NY

    Bengt Herweg, John D. Fisher, Arzu Ilercil, Marta R. Martinez, Jay N. Gross, Soo G. Kim & Kevin J. Ferrick

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  1. Bengt Herweg
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  2. John D. Fisher
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  3. Arzu Ilercil
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Herweg, B., Fisher, J.D., Ilercil, A. et al. Cardiac Memory after Radiofrequency Ablation of Accessory Pathways: The Post-ablation T Wave Does not Forget the Pre-excited QRS.. J Interv Card Electrophysiol 3, 263–272 (1999). https://doi.org/10.1023/A:1009816228345

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