INTRODUCTION: This study reports the procedural findings and ablation outcome in AF patients referred after ≥2 failed PV isolation (PVI). METHODS: Three hundred and five consecutive AF patients referred after ≥2 PVI were included in the analysis. High-dose isoproterenol challenge was used to identify PV reconnection and non-PV triggers; the latter were ablated based on the operator's discretion during the index procedure. At the repeat procedure, non-PV triggers were ablated in all. Empirical isolation of LA appendage (LAA) and coronary sinus (CS) was performed if the PVs were silent and no non-PV triggers were detected. RESULTS: PV reconnection was detected in 226 and non-PV triggers were identified or empirically isolated in 285 patients during the index procedure. At follow-up, 182 (60%) patients were recurrence-free off-AAD; the success rate with and without non-PV ablation was 81% vs. 8% (P < 0.0001). 104 patients underwent repeat procedure with non-PV trigger ablation in all. At 1 year, 90% were arrhythmia free off-AAD in non-PV ablation group, and 72% who did not receive non-PV triggers ablation at the index procedure (P = 0.035). The success rate of empirical LAA and CS isolation was 78.5% and 82% after the index and repeat procedure, respectively. CONCLUSION: In patients experiencing AF recurrence after multiple failed PVI, despite PV reconnection, non-PV triggers were found to be responsible for AF maintenance in the majority and ablating those triggers increased ablation success. Additionally, in the presence of permanent PVI and no non-PV triggers on isoproterenol, empirical isolation of LAA and CS provided high rate of arrhythmia-free survival.
INTRODUCTION: This study reports the procedural findings and ablation outcome in AFpatients referred after ≥2 failed PV isolation (PVI). METHODS: Three hundred and five consecutive AFpatients referred after ≥2 PVI were included in the analysis. High-dose isoproterenol challenge was used to identify PV reconnection and non-PV triggers; the latter were ablated based on the operator's discretion during the index procedure. At the repeat procedure, non-PV triggers were ablated in all. Empirical isolation of LA appendage (LAA) and coronary sinus (CS) was performed if the PVs were silent and no non-PV triggers were detected. RESULTS: PV reconnection was detected in 226 and non-PV triggers were identified or empirically isolated in 285 patients during the index procedure. At follow-up, 182 (60%) patients were recurrence-free off-AAD; the success rate with and without non-PV ablation was 81% vs. 8% (P < 0.0001). 104 patients underwent repeat procedure with non-PV trigger ablation in all. At 1 year, 90% were arrhythmia free off-AAD in non-PV ablation group, and 72% who did not receive non-PV triggers ablation at the index procedure (P = 0.035). The success rate of empirical LAA and CS isolation was 78.5% and 82% after the index and repeat procedure, respectively. CONCLUSION: In patients experiencing AF recurrence after multiple failed PVI, despite PV reconnection, non-PV triggers were found to be responsible for AF maintenance in the majority and ablating those triggers increased ablation success. Additionally, in the presence of permanent PVI and no non-PV triggers on isoproterenol, empirical isolation of LAA and CS provided high rate of arrhythmia-free survival.
Authors: Michele Magnocavallo; Antonio Parlavecchio; Giampaolo Vetta; Carola Gianni; Marco Polselli; Francesco De Vuono; Luigi Pannone; Sanghamitra Mohanty; Filippo Maria Cauti; Rodolfo Caminiti; Vincenzo Miraglia; Cinzia Monaco; Gian-Battista Chierchia; Pietro Rossi; Luigi Di Biase; Stefano Bianchi; Carlo de Asmundis; Andrea Natale; Domenico Giovanni Della Rocca Journal: J Clin Med Date: 2022-09-21 Impact factor: 4.964