心内超声引导下非闭塞球囊冷冻应用于实现肺静脉隔离时的窦房隔离。

Intracardiac echocardiography guided nonocclusive balloon cryothermal applications to achieve antral isolation during pulmonary vein isolation.

机构信息

Department of Cardiac Electrophysiology, Northwell Health - Lenox Hill Heart and Lung, 100 East 77th Street 2 Lachman, New York, NY, 10075, USA.

出版信息

J Interv Card Electrophysiol. 2021 Nov;62(2):329-336. doi: 10.1007/s10840-020-00905-9. Epub 2020 Oct 27.

DOI:10.1007/s10840-020-00905-9

PMID:33106958

Abstract

OBJECTIVE

Ablation for atrial fibrillation (AF) requires electrical isolation of the pulmonary veins (PV) by wide-area circumferential PV antral isolation (PVAI). Cryoballoon ablation delivers cryoenergy circumferentially after occlusion of the PV by the cryoballoon; thus, it is likely that the level of isolation, determined by adequate balloon-tissue contact, depends on PV anatomy. We sought to examine the need for nonocclusive segmental cryoballoon ablation in achieving antral isolation, describe methods of accurate visualization of the cryoballoon using intracardiac echocardiography (ICE), and provide data on biophysical characteristics of an effective nonocclusive cryothermal lesion.

METHODS

Forty consecutive patients undergoing catheter ablation with a second-generation 28-mm cryoballoon and electroanatomic mapping (EAM) were included. Balloon was visualized with ICE, and its location was registered in EAM using available technology (CARTOSOUND, Biosense Webster). Need for delivery of nonocclusive lesions was based on level of isolation post occlusive lesions.

RESULTS

Nonocclusive lesions to PVAI was required in 26 of 40 patients (65%) or 46 out of 148 veins (31%). Left PVs > 19.4 ± 2.9 mm, right superior PV > 20.2 ± 4.7mm, funnel-shaped PVs, and right PVs not converging to a carina were more likely to require nonocclusive lesions to achieve an antral level of isolation. Projection of balloon contour on EAM using CARTOSOUND successfully predicted level of isolation by voltage mapping.

CONCLUSION

Nonocclusive cryoballoon applications are commonly required to achieve antral isolation. Use of ICE can be helpful in determining the accurate location of the balloon and in predicting the level of isolation by voltage map.

摘要

目的

通过大面积环形肺静脉（PV）窦部隔离（PVAI）实现对心房颤动（AF）的消融，需要电隔离PV。冷冻球囊消融通过冷冻球囊闭塞 PV 后，沿 PV 环形传递冷冻能；因此，隔离程度，由充分的球囊-组织接触决定，可能取决于 PV 解剖结构。我们试图研究在实现窦部隔离时，非闭塞节段性冷冻球囊消融的必要性，描述使用心腔内超声（ICE）准确显示冷冻球囊的方法，并提供有效非闭塞冷冻治疗的生物物理特性的数据。

方法

纳入 40 例接受第二代 28mm 冷冻球囊和电解剖标测（EAM）导管消融的连续患者。使用 ICE 观察球囊，并使用现有技术（CARTOSOUND，Biosense Webster）将其位置注册到 EAM 中。非闭塞病变的输送基于闭塞病变后的隔离水平。

结果

40 例患者中有 26 例（65%）或 148 条静脉中的 46 条（31%）需要进行非闭塞性病变。左 PV ＞19.4±2.9mm，右上 PV ＞20.2±4.7mm，漏斗状 PV 和右 PV 不向嵴汇聚，更可能需要非闭塞性病变来实现窦部水平的隔离。使用 CARTOSOUND 将球囊轮廓投影到 EAM 上，成功预测了电压映射的隔离水平。

结论

为了实现窦部隔离，通常需要进行非闭塞性冷冻球囊应用。ICE 的使用有助于确定球囊的准确位置，并预测电压图的隔离水平。

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心内超声引导下非闭塞球囊冷冻应用于实现肺静脉隔离时的窦房隔离。

Intracardiac echocardiography guided nonocclusive balloon cryothermal applications to achieve antral isolation during pulmonary vein isolation.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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