心室性心动过速周期长度的电路决定因素：快速和不稳定人心室性心动过速的特征。

Circuit Determinants of Ventricular Tachycardia Cycle Length: Characterization of Fast and Unstable Human Ventricular Tachycardia.

机构信息

The University of Chicago Medicine, Center for Arrhythmia Care, Pritzker School of Medicine, Department of Medicine, Section of Cardiology, IL.

出版信息

Circulation. 2021 Jan 19;143(3):212-226. doi: 10.1161/CIRCULATIONAHA.120.050363. Epub 2020 Nov 10.

DOI:10.1161/CIRCULATIONAHA.120.050363

PMID:33169628

Abstract

BACKGROUND

Fast ventricular tachycardias (VTs) have historically been attributed to shorter path lengths with smaller reentrant circuit dimensions in animal models. The relationship between the dimensions of the reentrant VT circuit and tachycardia cycle length (TCL) has not been examined in humans. This study aimed to analyze the determinants of the rate of human VT with comparison of circuit dimensions and conduction velocity (CV) across a wide range of both stable and unstable VTs delineated by high-resolution mapping.

METHODS

Fifty-four VTs with complete circuit delineation (>90% TCL) by high-resolution multielectrode mapping were analyzed in 49 patients (men, 88%; age, 65 years [58-71 years]; nonischemic, 47%). Fast VT was defined as TCL <333 milliseconds (rate >180 bpm). Unstable VT was defined by hemodynamic deterioration with an intrinsic mean arterial pressure <60 mm Hg during a sustained episode.

RESULTS

The median TCL of VT was 365 milliseconds (306-443 milliseconds), and 24 fast VTs were characterized. A wide range of CVs was observed within the entrance (0.03-0.55 m/s), common pathway (0.03-0.77 m/s), exit (0.03-0.53 m/s), and outer loop (0.17-1.13 m/s). There were no significant differences in the median dimensions of the isthmus and path length between fast and slow VTs and between unstable and stable VTs. The outer loop CV was the only circuit component that correlated with TCL in both ischemic cardiomyopathy (=-0.5, =0.006) and nonischemic cardiomyopathy (=-0.45, =0.028). The duration of the longest diastolic electrogram was inversely correlated with the dimensions of common pathway (length: =-0.46, =0.001, width: =-0.3, =0.047) and predictive of rapid VT termination by a single radiofrequency application (=-0.41, =0.023).

CONCLUSIONS

Because of a wide spectrum of CV observed within the reentrant path during human VT, the dimensions of the circuit were not predictive of VT cycle length. For the first time, we demonstrate that the CV of the outer loop, rather than isthmus, is the principal determinant of the rate of VT. The size of the circuit was similar between fast and slow VTs and between unstable and stable VTs. Long, continuous electrograms were indicative of spatially confined isthmus dimensions, confirmed by rapid termination of VT during radiofrequency delivery.

摘要

背景

快速室性心动过速（VT）在动物模型中，由于折返环的路径长度较短，折返环的尺寸较小，因此通常归因于折返环。折返 VT 环的尺寸与心动过速周期长度（TCL）之间的关系尚未在人体中进行研究。本研究旨在通过高分辨率标测分析快速 VT 的决定因素，并比较稳定和不稳定 VT 之间折返 VT 环的尺寸和传导速度（CV）。

方法

在 49 名患者（男性占 88％；年龄 65 岁[58-71 岁]；非缺血性心肌病 47％）中，对 54 种具有完整环（> 90％TCL）的 VT 进行了分析。通过高分辨率多电极标测进行全面分析。快速 VT 定义为 TCL <333 毫秒（速率> 180 bpm）。不稳定 VT 定义为在持续发作期间内在平均动脉压<60 mmHg 时出现血液动力学恶化。

结果

VT 的中位 TCL 为 365 毫秒（306-443 毫秒），特征为 24 种快速 VT。在入口处（0.03-0.55 m/s），公共途径（0.03-0.77 m/s），出口（0.03-0.53 m/s）和外环（0.17-1.13 m/s）内观察到 CV 的范围很广。快速 VT 和缓慢 VT 之间以及不稳定 VT 和稳定 VT 之间，峡部和路径长度的中位尺寸均无显着差异。在外环 CV 是与缺血性心肌病（=-0.5，= 0.006）和非缺血性心肌病（=-0.45，= 0.028）中均与 TCL 相关的唯一环组件。最长舒张期电图的持续时间与公共途径的尺寸呈负相关（长度：=-0.46，= 0.001，宽度：=-0.3，= 0.047），并可预测单次射频消融即可快速终止 VT（=-0.41，= 0.023）。

结论

由于在人体 VT 期间折返环内观察到 CV 的广泛谱，因此环的尺寸不能预测 VT 周期长度。我们首次证明，外环的 CV 而不是峡部是 VT 率的主要决定因素。快速 VT 和缓慢 VT 之间以及不稳定 VT 和稳定 VT 之间的电路尺寸相似。长连续电图表明峡部的尺寸是空间受限的，这在射频输送过程中 VT 的快速终止得到了证实。

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心室性心动过速周期长度的电路决定因素：快速和不稳定人心室性心动过速的特征。

Circuit Determinants of Ventricular Tachycardia Cycle Length: Characterization of Fast and Unstable Human Ventricular Tachycardia.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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