Repolarization time map in catheter ablation for scar-related reentrant ventricular tachycardia

IF 2.2 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS

Journal of Arrhythmia Pub Date : 2025-04-15 DOI:10.1002/joa3.70070

Naoya Kataoka MD, PhD, Teruhiko Imamura MD, PhD, FESC, FAHA, FACC, FHFSA, FAPSC, FACP, FJCS, FJCC, FJSH, Takahisa Koi MD, PhD, Keisuke Uchida MD, Koichiro Kinugawa MD, PhD

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Abstract

Background

Ventricular tachycardias (VTs) associated with scar tissue involve reentry mechanisms influenced by both conduction abnormalities and repolarization heterogeneity. However, existing mapping techniques have predominantly focused on conduction delay.

Methods

This retrospective study analyzed 33 consecutive cases of catheter ablation for sustained VT. The EnSite system was employed to measure repolarization time (RT) with a high-pass filter setting of 0.05 Hz. We compared the characteristics and concordance rates of short RT areas, defined as white or red-colored regions, with those identified through conventional mappings in relation to ablation targets. These short RT areas were defined based on the longest interval from the QRS onset to the maximal dV/dt point of unipolar potentials, which was divided into eight equal segments.

Results

Out of 31 VTs across 26 cases, we found that 18 (58%) of the identified ablation targets corresponded to deceleration zones (DZs). Of them, 16 (89%) also overlapped with areas of short RTs. Notably, among the remaining 13 VTs without ablation targets corresponding to DZs, 9 (69%) had ablation targets located in areas with short RTs. The distribution analysis revealed that 84% of short RT regions were located near the exit site, whereas 75% of DZs were situated near the entrance site. The distance between the two was 16 mm (interquartile range: 6.5–27.5 mm).

Conclusion

This study underscored the potential of RT mapping in identifying ablation targets in scar-related VTs. Incorporating both repolarization heterogeneity and conduction delay could significantly enhance the understanding of the intricate circuits involved in these arrhythmias.

Abstract Image

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瘢痕相关性重入性室性心动过速导管消融的复极时间图

背景：与瘢痕组织相关的室性心动过速（vt）涉及受传导异常和复极化异质性影响的再入机制。然而，现有的映射技术主要集中在传导延迟上。方法回顾性分析连续33例持续性室速消融患者，采用EnSite系统测量复极时间（RT），高通滤波设置为0.05 Hz。我们将短RT区域（定义为白色或红色区域）的特征和一致性率与通过与消融目标相关的常规映射确定的区域进行了比较。这些短RT区域是根据QRS开始到单极电位最大dV/dt点的最长间隔来定义的，该间隔被划分为8个相等的区段。结果在26例31个VTs中，我们发现18个（58%）确定的消融目标对应于减速区（DZs）。其中16个（89%）也与短RTs区域重叠。值得注意的是，在其余13个没有相应DZs的消融目标的vt中，9个（69%）的消融目标位于短RTs区域。分布分析显示，84%的短RT区位于出口位点附近，而75%的DZs位于入口位点附近。两者之间的距离为16 mm（四分位数间距为6.5 ~ 27.5 mm）。结论：本研究强调了RT制图在识别瘢痕相关室性静脉血栓消融靶点方面的潜力。结合复极化非均质性和传导延迟可以显著提高对这些心律失常复杂电路的理解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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