用于分析心律失常模式的相位缺陷框架

A Phase Defect Framework for the Analysis of Cardiac Arrhythmia Patterns.

作者信息

Arno Louise, Quan Jan, Nguyen Nhan T, Vanmarcke Maarten, Tolkacheva Elena G, Dierckx Hans

机构信息

KULeuven Campus KULAK, Department of Mathematics, Kortrijk, Belgium.

Biomedical Engineering Department, University of Minnesota, Minneapolis, MN, United States.

出版信息

Front Physiol. 2021 Sep 22;12:690453. doi: 10.3389/fphys.2021.690453. eCollection 2021.

DOI:10.3389/fphys.2021.690453

PMID:34630135

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8494009/

Abstract

During cardiac arrhythmias, dynamical patterns of electrical activation form and evolve, which are of interest to understand and cure heart rhythm disorders. The analysis of these patterns is commonly performed by calculating the local activation phase and searching for phase singularities (PSs), i.e., points around which all phases are present. Here we propose an alternative framework, which focuses on phase defect lines (PDLs) and surfaces (PDSs) as more general mechanisms, which include PSs as a specific case. The proposed framework enables two conceptual unifications: between the local activation time and phase description, and between conduction block lines and the central regions of linear-core rotors. A simple PDL detection method is proposed and applied to data from simulations and optical mapping experiments. Our analysis of ventricular tachycardia in rabbit hearts ( = 6) shows that nearly all detected PSs were found on PDLs, but the PDLs had a significantly longer lifespan than the detected PSs. Since the proposed framework revisits basic building blocks of cardiac activation patterns, it can become a useful tool for further theory development and experimental analysis.

摘要

在心律失常期间，电激活的动态模式形成并演变，这对于理解和治疗心律紊乱具有重要意义。对这些模式的分析通常通过计算局部激活相位并寻找相位奇点（PSs）来进行，即所有相位都存在的点。在此，我们提出了一种替代框架，该框架将重点放在相位缺陷线（PDLs）和表面（PDSs）上，将其作为更普遍的机制，其中PSs是作为一种特殊情况包含在内。所提出的框架实现了两个概念上的统一：局部激活时间与相位描述之间的统一，以及传导阻滞线与线性核心转子中心区域之间的统一。我们提出了一种简单的PDL检测方法，并将其应用于模拟数据和光学映射实验数据。我们对兔心脏（n = 6）室性心动过速的分析表明，几乎所有检测到的PSs都位于PDLs上，但PDLs的寿命明显长于检测到的PSs。由于所提出的框架重新审视了心脏激活模式的基本组成部分，它可以成为进一步理论发展和实验分析的有用工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5501/8494009/932f2f122bf2/fphys-12-690453-g0001.jpg

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用于分析心律失常模式的相位缺陷框架

A Phase Defect Framework for the Analysis of Cardiac Arrhythmia Patterns.

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