Erschienen in:
22.11.2022
Voltage mapping of Koch’s triangle in atrioventricular nodal reentrant tachycardia ablation
Results from an observational multicenter prospective registry
verfasst von:
Alessandro Costa, Alessio Marinelli, Werner Rauhe, Cristian Martignani, Barbara Ignatiuk, Paolo Sabbatani, Renè Nangah, Francesco Basso, Giulio Molon
Erschienen in:
Journal of Interventional Cardiac Electrophysiology
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Ausgabe 5/2023
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Abstract
Background
The identification of a “low-voltage bridge” to guide ablation of atrioventricular nodal reentry tachycardia (AVNRT) has been described as a safe and effective strategy in children. We investigated the presence of a low-voltage bridge in adult patients undergoing AVNRT ablation, to evaluate its anatomical correspondence with the successful ablation site. We also investigated the possible correlations between Koch’s triangle anatomy and patients’ biometric characteristics.
Methods
This observational registry prospectively collected data from 200 patients undergoing AVNRT ablation, guided by 3D electroanatomical mapping system, in 6 electrophysiology centers. Koch’s triangle voltage map was collected; then, the anatomical correspondence between the low-voltage bridge and the successful ablation site was evaluated. Koch’s triangle anatomical dimensions were subsequently drawn from the mapping system and correlated to patients’ gender, age, and weight.
Results
The low-voltage bridge was identified in 159 over 200 procedures (79.5%). When the low-voltage bridge was identified, its anatomical correspondence with the successful ablation site has been proved in 137 over 159 cases (86%), with a reduction of radiofrequency deployment time. No strict correlations were found, on the other side, between Koch’s triangle anatomy and patients’ biometric data.
Conclusions
The identification of the low-voltage bridge has proved to be a helpful strategy to guide AVNRT ablation in a large cohort of adult patients. Targeting the low-voltage bridge during AVNRT ablation helps to reduce RF application time. Koch’s triangle morphological characteristics cannot be predicted on the base of patients’ biometric data.