INTRODUCTION: The study was designed to evaluate the feasibility and efficacy of a simplified cryoballoon technique in which a microcircular catheter was introduced into the central lumen of a cryoballoon catheter for the purpose of recording pulmonary vein (PV) potentials during ablation procedures and without interchanging catheters. METHODS AND RESULTS: A total of 23 consecutive patients with paroxysmal atrial fibrillation (AF) were enrolled. A single transseptal puncture was made and a cryoballoon catheter was inserted into the left atrium. A 6-pole mapping catheter with a 0.035-inch shaft diameter was introduced into the PV through the central lumen of the cryoballoon catheter. In addition to the function as a recording device, the mapping catheter was also used as a "guide-wire" during the procedure. A total of 84 PVs (84/92, 91.3%) were completely isolated using this novel cryoballoon technique. In 43 of the 84 veins (51.2%), isolation was observed in real time during the cryoablation; in the remaining 41 veins (48.8%), isolation was confirmed immediately post ablation attempt with the mapping catheter. Procedure time was 152.7 +/- 54.9 minutes, and fluoroscopy time was 33.2 +/- 17.3 minutes. At follow-up (7.4 months, range 2-18 months), 17 (73.9%) patients were free from AF. There was 1 occurrence of phrenic nerve palsy during ablation of a right superior PV, which fully resolved after 1 month. CONCLUSION: The use of a cryoballoon catheter equipped with a 6-pole micromapping catheter inserted through its central lumen for the purpose of mapping and ablation during PV isolation procedures is both feasible and effective.
INTRODUCTION: The study was designed to evaluate the feasibility and efficacy of a simplified cryoballoon technique in which a microcircular catheter was introduced into the central lumen of a cryoballoon catheter for the purpose of recording pulmonary vein (PV) potentials during ablation procedures and without interchanging catheters. METHODS AND RESULTS: A total of 23 consecutive patients with paroxysmal atrial fibrillation (AF) were enrolled. A single transseptal puncture was made and a cryoballoon catheter was inserted into the left atrium. A 6-pole mapping catheter with a 0.035-inch shaft diameter was introduced into the PV through the central lumen of the cryoballoon catheter. In addition to the function as a recording device, the mapping catheter was also used as a "guide-wire" during the procedure. A total of 84 PVs (84/92, 91.3%) were completely isolated using this novel cryoballoon technique. In 43 of the 84 veins (51.2%), isolation was observed in real time during the cryoablation; in the remaining 41 veins (48.8%), isolation was confirmed immediately post ablation attempt with the mapping catheter. Procedure time was 152.7 +/- 54.9 minutes, and fluoroscopy time was 33.2 +/- 17.3 minutes. At follow-up (7.4 months, range 2-18 months), 17 (73.9%) patients were free from AF. There was 1 occurrence of phrenic nerve palsy during ablation of a right superior PV, which fully resolved after 1 month. CONCLUSION: The use of a cryoballoon catheter equipped with a 6-pole micromapping catheter inserted through its central lumen for the purpose of mapping and ablation during PV isolation procedures is both feasible and effective.
Authors: Francesca Salghetti; Juan-Pablo Abugattas; Valentina De Regibus; Saverio Iacopino; Ken Takarada; Erwin Ströker; Hugo-Enrique Coutiño; Ian Lusoc; Juan Sieira; Lucio Capulzini; Giacomo Mugnai; Vincent Umbrain; Stefan Beckers; Pedro Brugada; Carlo de Asmundis; Gian-Battista Chierchia Journal: J Atr Fibrillation Date: 2018-04-30
Authors: Jason G Andrade; Marc Dubuc; Peter G Guerra; Laurent Macle; Lena Rivard; Denis Roy; Mario Talajic; Bernard Thibault; Paul Khairy Journal: Indian Pacing Electrophysiol J Date: 2012-04-30