BACKGROUND: The SVC may require ablation to treat atrial fibrillation. Phrenic nerve proximity identified with pacing maneuvers may preclude ablation. METHODS: We tested a new method using "cryo-mapping" to ablate despite nerve proximity. RESULTS: Of 833 patients undergoing ablation, 110 (12%) had arrhythmogenic substrate at the SVC/RA junction. Of these 110 patients, 66 (60%) had consistent diaphragmatic stimulation when pacing at 10 mA at the prospective site of ablation. Of these 66 patients, 7 had continued arrhythmogenicity despite attempts to modify this substrate. For these 7 patients, we paced 4 cm into the SVC where consistent phrenic nerve stimulation was obtained, and cryoablation at -30 degrees C was performed at sites requiring ablation. In 6 of 7 patients (86%), with continued diaphragmatic capture, cryoablation at -70/-80 degrees C was then performed. In 1 of 7 patients (14%), diaphragmatic stimulation ceased at -30 degrees C, and energy delivery stopped. In the 6 patients in whom cryoablation was completed, the arrhythmogenic substrate was successfully ablated without phrenic nerve injury. CONCLUSIONS: A novel "cryo-mapping" technique during phrenic nerve pacing can be used to successfully ablate arrhythmogenic substrate at the SVC/RA junction despite phrenic nerve proximity.
BACKGROUND: The SVC may require ablation to treat atrial fibrillation. Phrenic nerve proximity identified with pacing maneuvers may preclude ablation. METHODS: We tested a new method using "cryo-mapping" to ablate despite nerve proximity. RESULTS: Of 833 patients undergoing ablation, 110 (12%) had arrhythmogenic substrate at the SVC/RA junction. Of these 110 patients, 66 (60%) had consistent diaphragmatic stimulation when pacing at 10 mA at the prospective site of ablation. Of these 66 patients, 7 had continued arrhythmogenicity despite attempts to modify this substrate. For these 7 patients, we paced 4 cm into the SVC where consistent phrenic nerve stimulation was obtained, and cryoablation at -30 degrees C was performed at sites requiring ablation. In 6 of 7 patients (86%), with continued diaphragmatic capture, cryoablation at -70/-80 degrees C was then performed. In 1 of 7 patients (14%), diaphragmatic stimulation ceased at -30 degrees C, and energy delivery stopped. In the 6 patients in whom cryoablation was completed, the arrhythmogenic substrate was successfully ablated without phrenic nerve injury. CONCLUSIONS: A novel "cryo-mapping" technique during phrenic nerve pacing can be used to successfully ablate arrhythmogenic substrate at the SVC/RA junction despite phrenic nerve proximity.
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Authors: Kathryn K Collins; Anne M Dubin; Nancy A Chiesa; Kishor Avasarala; George F Van Hare Journal: Heart Rhythm Date: 2006-02-28 Impact factor: 6.343
Authors: Dhiraj Gupta; Rasha K Al-Lamee; Mark J Earley; Peter Kistler; Stuart J Harris; Anthony W Nathan; Simon C Sporton; Richard J Schilling Journal: Europace Date: 2006-11-13 Impact factor: 5.214
Authors: Tom Wong; Vias Markides; Nicholas S Peters; Andrew R Wright; D Wyn Davies Journal: Pacing Clin Electrophysiol Date: 2004-04 Impact factor: 1.976
Authors: Martín R Arceluz; Pedro F Cruz; Estela Falconi; Rosa Montes de Oca; Reina Delgado; Jorge Figueroa; Marta Ortega; José L Merino Journal: J Interv Card Electrophysiol Date: 2018-05-07 Impact factor: 1.900