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Esophageal contraction during cryoablation: A possible protective mechanism
Author(s) -
Cai Dongsheng,
Liu Qiang,
Shehata Michael,
Jiang Ruhong,
Yu Lu,
Zhang Pei,
Sun Yaxun,
Chen Shiquan,
Zhang Zuwen,
Fu Guosheng,
Jiang Chenyang,
Wang Xunzhang
Publication year - 2020
Publication title -
pacing and clinical electrophysiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.686
H-Index - 101
eISSN - 1540-8159
pISSN - 0147-8389
DOI - 10.1111/pace.13967
Subject(s) - medicine , cryoablation , esophagus , contraction (grammar) , pulmonary vein , ablation , endoscopy , lumen (anatomy) , atrial fibrillation , cardiology , gastroenterology
Background Contraction of the esophagus was observed during cryoablation for paroxysmal atrial fibrillation (PAF). The purpose of this study is to investigate the mechanism of esophageal contraction and the correlation between the contraction and esophageal thermal lesions. Methods This prospective study enrolled 64 patients with PAF undergoing second‐generation cryoballoon (CB2) ablation for pulmonary vein isolation (PVI). During PVI for the left inferior pulmonary vein, contrast esophagography was performed before and during cryoablation. The sample population was divided into two groups: A (31 patients) and B (33 patients). Group A consisted of patients in whom the distal half of the CB was in proximity to the esophagus, while for group B the esophagus was away from the distal half of the CB. Esophageal contraction was recorded as a variation in the width of the esophageal lumen during PVI. Postablation esophageal endoscopy was done on all patients. Results The reduction in the width of the esophageal lumen in group A was greater than in group B during freezing (40.12 ± 23.24% vs 8.14 ± 10.35%, P < .001). Following endoscopy, no apparent esophageal lesion was detected in all patients. Conclusion The extent of esophageal contraction is correlated with the positioning of the esophagus at the distal half of the CB. The findings of this study indicate that esophageal contraction during freezing may be a self‐protective mechanism.