INTRODUCTION: Intra-cardiac echocardiography (ICE) which has some benefits, can be used to obtain detailed anatomy of the heart chambers or large vessels, and the catheter positions, and it has been considered useful for improving the outcome of the ablation. In the present study, we performed pulmonary vein isolation (PVI) under real time monitoring of ICE imaging utilizing an ICE catheter placed at the junction of the left atrium (LA) and PVs (LA-PV junction). METHODS: PVI for atrial fibrillation (AF) was performed in 30 cases with drug-resistant AF (mean age: 66-years-old; including 22 males). An ICE catheter utilizing a 9 MHz frequency was inserted into the LA via the atrial septum, and placed at the LA-PV junction. Circumferential ablation was performed in the LA outside of the PV ostium, encircling both the superior and inferior ostia together under ICE imaging. RESULTS: The anatomy of the LA to the PVs and catheter sites were clearly identified by the ICE during the procedure, which enabled a precise and safe catheter manipulation with minimal fluoroscopy. Further, the wall thickness of the PV and LA, and position of the esophagus could be obtained by ICE, facilitating care in adjusting the power and/or duration of the current delivery. CONCLUSION: ICE imaging of the LA-PV junction permitted real time monitoring of the target sites for PVI during the ablation procedure, and was considered a useful technique for performing PVI.
INTRODUCTION: Intra-cardiac echocardiography (ICE) which has some benefits, can be used to obtain detailed anatomy of the heart chambers or large vessels, and the catheter positions, and it has been considered useful for improving the outcome of the ablation. In the present study, we performed pulmonary vein isolation (PVI) under real time monitoring of ICE imaging utilizing an ICE catheter placed at the junction of the left atrium (LA) and PVs (LA-PV junction). METHODS: PVI for atrial fibrillation (AF) was performed in 30 cases with drug-resistant AF (mean age: 66-years-old; including 22 males). An ICE catheter utilizing a 9 MHz frequency was inserted into the LA via the atrial septum, and placed at the LA-PV junction. Circumferential ablation was performed in the LA outside of the PV ostium, encircling both the superior and inferior ostia together under ICE imaging. RESULTS: The anatomy of the LA to the PVs and catheter sites were clearly identified by the ICE during the procedure, which enabled a precise and safe catheter manipulation with minimal fluoroscopy. Further, the wall thickness of the PV and LA, and position of the esophagus could be obtained by ICE, facilitating care in adjusting the power and/or duration of the current delivery. CONCLUSION: ICE imaging of the LA-PV junction permitted real time monitoring of the target sites for PVI during the ablation procedure, and was considered a useful technique for performing PVI.
Authors: M Haïssaguerre; P Jaïs; D C Shah; S Garrigue; A Takahashi; T Lavergne; M Hocini; J T Peng; R Roudaut; J Clémenty Journal: Circulation Date: 2000-03-28 Impact factor: 29.690
Authors: W C Yu; T L Hsu; C T Tai; C F Tsai; M H Hsieh; W S Lin; Y K Lin; H M Tsao; Y A Ding; M S Chang; S A Chen Journal: J Cardiovasc Electrophysiol Date: 2001-08
Authors: M Haïssaguerre; D C Shah; P Jaïs; M Hocini; T Yamane; I Deisenhofer; M Chauvin; S Garrigue; J Clémenty Journal: Circulation Date: 2000-11-14 Impact factor: 29.690
Authors: C Pappone; S Rosanio; G Oreto; M Tocchi; F Gugliotta; G Vicedomini; A Salvati; C Dicandia; P Mazzone; V Santinelli; S Gulletta; S Chierchia Journal: Circulation Date: 2000-11-21 Impact factor: 29.690
Authors: M Haïssaguerre; P Jaïs; D C Shah; A Takahashi; M Hocini; G Quiniou; S Garrigue; A Le Mouroux; P Le Métayer; J Clémenty Journal: N Engl J Med Date: 1998-09-03 Impact factor: 91.245
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