环形肺静脉隔离和线性左心房消融作为一种单导管技术实现双向传导阻滞：起搏-消融法。

Circumferential pulmonary vein isolation and linear left atrial ablation as a single-catheter technique to achieve bidirectional conduction block: the pace-and-ablate approach.

机构信息

Department of Electrophysiology, University of Leipzig Heart Center, Strümpellstrasse 39, 04289 Leipzig, Germany.

出版信息

Heart Rhythm. 2010;7(2):157-64. doi: 10.1016/j.hrthm.2009.10.003. Epub 2009 Oct 12.

DOI:10.1016/j.hrthm.2009.10.003

PMID:20036199

Abstract

BACKGROUND

Pulmonary vein (PV) isolation has become a cornerstone for ablation of atrial fibrillation (AF). Circular mapping catheter (CMC)-guided techniques for detection of lesion gaps are challenging.

OBJECTIVE

The present study describes a new concept of circumferential PV ablation aiming at bidirectional conduction block based on simultaneous pacing and ablation through the tip of a single mapping/ablation catheter.

METHODS

A total of 147 patients with AF received circumferential PV ablation. In persistent AF, a posterior "box" lesion and a mitral isthmus line were added. All procedures were performed in sinus rhythm. Gaps within the left atrial (LA) ablation lines were detected and closed using voltage and pace mapping through the mapping/ablation catheter. Bidirectional conduction block was the procedural end point. Subsequently, the end point was validated by an independent electrophysiologist using a CMC.

RESULTS

Procedural and radiation time measured 188 +/- 55 and 37 +/- 15 min. Bidirectional PV conduction block (lack of PV potentials and lack of LA capture) was found in 140 of 147 (95%) patients with single mapping/ablation catheter and in 138 of 147 (94%) patients with CMC. Early PV reconduction was seen in 22 of 147 (15%) patients. After 12 months follow-up, 84% of the patients were free from AF and/or atrial macro-re-entrant tachycardia. The rate of reablations was 10% and 24% for patients with paroxysmal and persistent AF, respectively.

CONCLUSION

Pacing and ablation from the tip of the mapping/ablation catheter is feasible to detect and close gaps within long atrial ablation lines to consistently achieve bidirectional conduction block.

摘要

背景

肺静脉（PV）隔离已成为房颤（AF）消融的基石。使用圆形标测导管（CMC）引导的技术检测病变间隙具有挑战性。

目的

本研究描述了一种新的环形 PV 消融概念，该概念旨在通过单个标测/消融导管的尖端同时起搏和消融，实现双向传导阻滞。

方法

共 147 例 AF 患者接受环形 PV 消融。持续性 AF 患者加做后“盒式”消融线和二尖瓣峡部线。所有程序均在窦性心律下进行。通过标测/消融导管的标测和起搏检测左心房（LA）消融线内的间隙，并通过该导管进行电压和起搏标测来闭合这些间隙。双向传导阻滞是程序终点。随后，由独立电生理学家使用 CMC 验证终点。

结果

手术和辐射时间分别为 188 ± 55 分钟和 37 ± 15 分钟。147 例患者中有 140 例（95%）和 138 例（94%）患者分别使用单个标测/消融导管和 CMC 发现 PV 双向传导阻滞（无 PV 电位和无 LA 捕获）。147 例患者中有 22 例（15%）早期出现 PV 再传导。12 个月随访时，84%的患者无 AF 和/或心房大折返性心动过速。阵发性和持续性 AF 患者的再消融率分别为 10%和 24%。

结论

起搏和消融导管尖端的起搏和消融可用于检测和闭合长程心房消融线内的间隙，以持续实现双向传导阻滞。

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环形肺静脉隔离和线性左心房消融作为一种单导管技术实现双向传导阻滞：起搏-消融法。

Circumferential pulmonary vein isolation and linear left atrial ablation as a single-catheter technique to achieve bidirectional conduction block: the pace-and-ablate approach.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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