Delineating postinfarct ventricular tachycardia substrate with dynamic voltage mapping in areas of omnipolar vector disarray

IF 2.5 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS Heart Rhythm O2 Pub Date : 2024-04-01 DOI:10.1016/j.hroo.2024.02.006

Joao Grade Santos MBBS , Mark T. Mills MBChB, MSc , Peter Calvert MBChB, MRCP , Nicole Worthington BSc , Calum Phenton BSc , Simon Modi MD , Reza Ashrafi MBBS, MRCP , Derick Todd MD , Johan Waktare MD , Saagar Mahida PhD, MRCP , Dhiraj Gupta MD , Vishal Luther PhD, MRCP

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Abstract

Background

Defining postinfarct ventricular arrhythmic substrate is challenging with voltage mapping alone, though it may be improved in combination with an activation map. Omnipolar technology on the EnSite X system displays activation as vectors that can be superimposed onto a voltage map.

Objective

The study sought to optimize voltage map settings during ventricular tachycardia (VT) ablation, adjusting them dynamically using omnipolar vectors.

Methods

Consecutive patients undergoing substrate mapping were retrospectively studied. We categorized omnipolar vectors as uniform when pointing in one direction, or in disarray when pointing in multiple directions. We superimposed vectors onto voltage maps colored purple in tissue >1.5 mV, and the voltage settings were adjusted so that uniform vectors appeared within purple voltages, a process termed dynamic voltage mapping (DVM). Vectors in disarray appeared within red-blue lower voltages.

Results

A total of 17 substrate maps were studied in 14 patients (mean age 63 ± 13 years; mean left ventricular ejection fraction 35 ± 6%, median 4 [interquartile range 2-8.5] recent VT episodes). The DVM mean voltage threshold that differentiated tissue supporting uniform vectors from disarray was 0.27 mV, ranging between patients from 0.18 to 0.50 mV, with good interobserver agreement (median difference: 0.00 mV). We found that VT isthmus components, as well as sites of latest activation, isochronal crowding, and excellent pace maps colocated with tissue along the DVM border zone surrounding areas of disarray.

Conclusion

DVM, guided by areas of omnipolar vector disarray, allows for individualized postinfarct ventricular substrate characterization. Tissue bordering areas of disarray may harbor greater arrhythmogenic potential.

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在全极性矢量混乱区域用动态电压图谱划分梗死后室性心动过速的基底

背景确定梗死后的室性心律失常基质仅靠电压图谱是很困难的，不过结合激活图谱可能会有所改善。该研究旨在优化室性心动过速（VT）消融过程中的电压图设置，使用全极矢量对其进行动态调整。方法对连续接受基底图绘制的患者进行了回顾性研究。我们将指向一个方向的全极矢量分为均匀矢量和指向多个方向的杂乱矢量。我们将矢量叠加到以组织>1.5 mV为单位的紫色电压图上，并调整电压设置，使均匀矢量出现在紫色电压内，这一过程被称为动态电压映射（DVM）。结果对 14 名患者（平均年龄 63 ± 13 岁；平均左室射血分数 35 ± 6%，中位数 4 [2-8.5]次近期 VT 发作）共 17 个基底图进行了研究。将支持均匀矢量的组织与杂乱组织区分开来的 DVM 平均电压阈值为 0.27 mV，不同患者的阈值从 0.18 到 0.50 mV 不等，观察者之间的一致性很好（中位数差异：0.00 mV）。我们发现，VT峡部成分以及最新激活的部位、等速拥挤和极好的节奏图与紊乱区域周围沿 DVM 边界区的组织位于同一位置。与紊乱区域接壤的组织可能蕴藏着更大的致心律失常潜能。

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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