借助定量形态匹配软件辅助消融消失的室性早搏。

Ablation of the vanishing PVC, facilitated by quantitative morphology-matching software.

作者信息

Moak Jeffrey P, Sumihara Kohei, Swink Jonathan, Hanumanthaiah Sridhar, Berul Charles I

机构信息

Division of Cardiology, Children's National Health System, Washington, DC, USA.

Division of Cardiovascular Anesthesia, Children's National Health System, Washington, DC, USA.

出版信息

Pacing Clin Electrophysiol. 2017 Nov;40(11):1227-1233. doi: 10.1111/pace.13186. Epub 2017 Sep 29.

DOI:10.1111/pace.13186

PMID:28846152

Abstract

BACKGROUND

Ablation of cardiac arrhythmias in children and teenagers often necessitates the use of anesthesia, which can suppress ventricular arrhythmias (VAs), making it difficult to map the site of origin using activation time (AT). Pace mapping, a technique employed to assist with VA origin localization, depends on subjective comparison of paced and targeted QRS morphology. We assessed the utility of a quantitative approach to paced QRS to VA morphology matching using the PaSo software (Carto 3, Biosense Webster), to localize the VA site of origin.

METHODS

Twenty-four patients underwent 26 procedures for frequent VAs, 29 for targeted VA. If AT mapping was precluded due to infrequent VA, pace mapping was executed using the PaSo software, after regionalization based on targeted VA QRS morphology.

RESULTS

Subjects were aged 1-32 (mean 14 ± 6) years; 10 were male. Heart disease was present in six patients. PVC frequency prior to onset of anesthesia was 15 ± 16/min, decreasing to 0-1 PVC/min in 17 cases prior to ablation. Arrhythmia localization was performed by AT mapping + PaSo (12) or PaSo only (17). Pace mapping exhibited an intraventricular gradient of percent QRS morphology match. Highest achieved QRS match averaged 96 ± 2%. Successful ablation (> 1-month follow-up) was achieved in 24/29 targeted VAs, 11/12 ablated using AT and pace mapping, and 13/17 VA ablated using pace mapping only, P = 0.29.

CONCLUSIONS

(1) Spontaneous VA frequency was markedly reduced following anesthesia, despite catecholamine administration. (2) Notwithstanding the ability to perform AT mapping, successful ablation can still be performed using pace mapping only, facilitated by the PaSo software.

摘要

背景

儿童和青少年心律失常的消融术常常需要使用麻醉，而麻醉会抑制室性心律失常（VA），导致难以通过激动时间（AT）来标测起源部位。起搏标测是一种用于辅助定位VA起源的技术，它依赖于对起搏QRS形态与目标QRS形态的主观比较。我们评估了使用PaSo软件（Carto 3，Biosense Webster）对起搏QRS与VA形态匹配进行定量分析的方法在定位VA起源部位方面的实用性。

方法

24例患者因频发VA接受了26次手术，29例因目标性VA接受手术。如果因VA发作不频繁而无法进行AT标测，则在根据目标性VA QRS形态进行分区后，使用PaSo软件进行起搏标测。

结果

受试者年龄为1 - 32岁（平均14±6岁）；10例为男性。6例患者存在心脏病。麻醉开始前PVC频率为15±16次/分钟，17例患者在消融前降至0 - 1次PVC/分钟。心律失常定位通过AT标测 + PaSo（12例）或仅使用PaSo（17例）进行。起搏标测显示出QRS形态匹配百分比的室内梯度。最高的QRS匹配平均为96±2%。29例目标性VA中有24例成功消融（随访>1个月），12例中11例通过AT和起搏标测消融，17例中13例仅通过起搏标测消融，P = 0.29。

结论

（1）尽管使用了儿茶酚胺，但麻醉后自发性VA频率明显降低。（2）尽管能够进行AT标测，但仅使用起搏标测结合PaSo软件仍可成功消融。

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借助定量形态匹配软件辅助消融消失的室性早搏。

Ablation of the vanishing PVC, facilitated by quantitative morphology-matching software.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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