区分左上肺静脉出口传导与假性出口传导的方法。

Method for differentiating left superior pulmonary vein exit conduction from pseudo-exit conduction.

作者信息

Ip James E, Markowitz Steven M, Cheung Jim W, Liu Christopher F, Thomas George, Lessner Seth J, Lee Joseph M, Lerman Bruce B

机构信息

Department of Medicine, Division of Cardiology, Cornell University Medical Center, New York, NY 10021, USA.

出版信息

Pacing Clin Electrophysiol. 2013 Mar;36(3):299-308. doi: 10.1111/pace.12062.

DOI:10.1111/pace.12062

PMID:23461559

Abstract

BACKGROUND

Electrical isolation of pulmonary vein (PV) conduction from the left atrium (LA) is the cornerstone of successful atrial fibrillation (AF) ablation. Exit block is confirmed by the absence of LA capture during pacing from a circular mapping catheter positioned in the PV; however, far-field capture of the left atrial appendage (LAA) (pseudo-pulmonary vein exit conduction) can occur. In this study, we evaluated a methodology for identifying pseudo-exit conduction.

METHODS AND RESULTS

A total of 135 consecutive AF patients undergoing PV isolation were studied. After circumferential ablation established PV entrance block, circumferential pacing (10 mA at 2.0 msec) was performed to assess exit block. In 16 (11.9%) patients, pacing the anterior poles of the left superior PV (LSPV) captured the LA. To differentiate true PV exit conduction from pseudo-exit conduction, the ablation catheter was positioned within the LAA during PV pacing. LAA activation preceding PV capture was consistent with far-field capture and this was confirmed by demonstrating local capture and exit block with decreasing pacing output. Using this approach, 14 patients (10.4%) were identified with pseudo-exit conduction.

CONCLUSIONS

Due to the close proximity between the LSPV and LAA, pseudo-exit conduction is not uncommon and may lead to the erroneous conclusion that the LSPV is not isolated. Using this method to differentiate pseudo-exit conduction from true exit conduction should prevent unnecessary ablation after achievement of complete PV isolation.

摘要

背景

肺静脉（PV）与左心房（LA）之间的电隔离是成功进行房颤（AF）消融的基石。通过位于肺静脉内的环状标测导管起搏时未出现左心房夺获来确认出口阻滞；然而，可能会出现左心耳（LAA）的远场夺获（假性肺静脉出口传导）。在本研究中，我们评估了一种识别假性出口传导的方法。

方法与结果

共对135例连续接受肺静脉隔离的房颤患者进行了研究。在进行环状消融建立肺静脉入口阻滞后，进行环状起搏（2.0毫秒时10毫安）以评估出口阻滞。在16例（11.9%）患者中，起搏左上肺静脉（LSPV）的前极时可夺获左心房。为了区分真正的肺静脉出口传导与假性出口传导，在肺静脉起搏期间将消融导管置于左心耳内。肺静脉夺获之前的左心耳激动与远场夺获一致，通过降低起搏输出显示局部夺获和出口阻滞来证实这一点。采用这种方法，识别出14例（10.4%）患者存在假性出口传导。

结论

由于左上肺静脉与左心耳位置相邻，假性出口传导并不少见，可能会导致错误地认为左上肺静脉未被隔离。使用这种方法区分假性出口传导与真正的出口传导，应可防止在实现完全肺静脉隔离后进行不必要的消融。

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区分左上肺静脉出口传导与假性出口传导的方法。

Method for differentiating left superior pulmonary vein exit conduction from pseudo-exit conduction.

作者信息

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法与结果

结论

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