Electrocardiographic marker of ventricular action potential triangulation (the simulation study)

IF 1.3 4区医学 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS

Journal of electrocardiology Pub Date : 2024-12-27 DOI:10.1016/j.jelectrocard.2024.153857

Natalia V. Arteyeva PhD , Oleg E. Osadchii MD, PhD

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引用次数: 0

Abstract

Background

The aim of this simulation was to examine the utility of a novel ECG-based index of cardiac action potential (AP) triangulation, the Tstart-to-Tpeak (TsTp) interval-to-JTstart (JTs) interval ratio, for assessment of changes in AP profile imposed through variations in the duration of the plateau phase and the phase 3 repolarization.

Methods

ECGs were simulated using a realistic rabbit model based on experimental data. The AP plateau was measured at APD30, and the phase 3 was assessed as APD90-to-APD30 difference (AP durations at 90 % and 30 % repolarization, respectively). AP triangulation was quantified as (APD90-APD30)-to-APD30 ratio. The baseline durations of AP plateau and phase 3 were modified through (1) 50 % shortening, (2) 50 % to 100 % lengthening, and (3) concurrent, non-uniform lengthening in both the AP plateau and phase 3, replicating the long QT syndrome type 2 (LQT2) and type 3 (LQT3) models.

Results

When simulating the isolated changes in either the AP plateau or the phase 3 durations, the (APD90-APD30)-to-APD30 ratios were the same for all model cells. The TsTp/JTs ratios calculated from the simulated ECGs closely approximated the (APD90-APD30)-to-APD30 ratios, despite the lead-to‑lead variability in TsTp and JTs intervals. When simulating the concurrent changes in AP plateau and the phase 3, the (APD90-APD30)-to-APD30 ratios were variable in cells from different layers across the ventricular wall. Nevertheless, the TsTp/JTs ratios were found to be within the range of the minimum-to-maximum values for the (APD90-APD30)-to-APD30 ratio.

Conclusions

The TsTp interval-to-JTs interval ratio can serve as an electrocardiographic marker of cardiac AP triangulation.

查看原文本刊更多论文

心室动作电位三角测量的心电图标记（模拟研究）。

背景：本模拟的目的是研究一种新的基于ecg的心脏动作电位（AP）三角测量指数的效用，即tstart -to- peak （TsTp）间隔与JTs （JTs）间隔比，用于评估通过平台期和第3期复极化持续时间的变化而施加的AP谱变化。方法：根据实验数据，采用真实家兔模型模拟脑电图。在APD30时测量AP平台，第3阶段评估apd90与APD30的差异（分别为90%和30%复极时的AP持续时间）。AP三角剖分量化为(APD90-APD30)- apd30比值。AP平台期和3期的基线持续时间通过(1)缩短50%，(2)延长50%至100%，(3)在AP平台期和3期同时，不均匀延长，复制长QT综合征2型（LQT2）和3型（LQT3）模型。结果：在模拟AP平台期或3期持续时间的分离变化时，所有模型细胞的（APD90-APD30）与apd30之比相同。尽管TsTp和JTs间隔存在铅-铅差异，但通过模拟心电图计算的TsTp/JTs比率与(APD90-APD30)- apd30比率非常接近。在模拟AP平台期和第3期同时变化时，心室壁不同层细胞的APD90-APD30与apd30比值是不同的。然而，发现TsTp/JTs比率在（APD90-APD30）与apd30比率的最小至最大值范围内。结论：TsTp间期与jts间期之比可作为心脏AP三角测量的心电图指标。

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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来源期刊

Journal of electrocardiology 医学-心血管系统

CiteScore

2.70

自引率

7.70%

发文量

152

审稿时长

38 days

期刊介绍： The Journal of Electrocardiology is devoted exclusively to clinical and experimental studies of the electrical activities of the heart. It seeks to contribute significantly to the accuracy of diagnosis and prognosis and the effective treatment, prevention, or delay of heart disease. Editorial contents include electrocardiography, vectorcardiography, arrhythmias, membrane action potential, cardiac pacing, monitoring defibrillation, instrumentation, drug effects, and computer applications.