Cycle Length Estimation Using Accurate Adaptive Detection of Local Activations in Atrial Intracardiac Electrograms

2022 Computing in Cardiology (CinC) Pub Date : 2022-09-04 DOI:10.22489/CinC.2022.142

Dinara Veshchezerova, C. Bars, J. Seitz

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Abstract

The normal electrical potential propagates throughout the atria periodically. During atrial arrhythmias its prop-agation is modified because the substrate is not homoge-neous and new sources of punctual electrical activity appear. The periodic behavior of activation remains predom-inant, but becomes local in different parts of the atria. It is characterized by cycle length (CL) which measures the frequency of activation and can be computed from intrac-ardiac bipolar electrograms (EGM) recorded by a mapping catheter during the catheter ablation procedure. The CL value of different mapped zones is an extremely important resource for physicians when performing persis-tent Atrial Fibrillation (AF) ablation because it helps to identify pathological zones and define the ablation strat-egy. Thus, a reliable estimation of the CL of atrial tissue is essential. The complexity of this task stems from the large variability in EGM morphology influenced by mul-tiple wavefronts, fragmentation and added noise. In this work, we propose a cycle length estimator that can process the complex mapping signals recorded during atrial arrhythmias ablation and reliably provide the frequency of their periodic activity.

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心房心内电局部激活的精确自适应检测周期长度估计

正常电位周期性地在心房内传播。在房性心律失常期间，由于底物不均匀性和新的准时电活动源出现，其促进作用被改变。周期性的激活行为仍然占主导地位，但在心房的不同部位变得局部。它的特征是周期长度(CL)，它测量了激活的频率，可以从心内双极电图(EGM)中计算出来，在导管消融过程中由测绘导管记录。不同映射区域的CL值对于医生进行持续性心房颤动(AF)消融是一个极其重要的资源，因为它有助于识别病理区域和确定消融策略。因此，一个可靠的估计心房组织的CL是必不可少的。这项任务的复杂性源于EGM形态受多个波前、碎片化和附加噪声影响的巨大变异性。在这项工作中，我们提出了一个周期长度估计器，可以处理心房心律失常消融过程中记录的复杂映射信号，并可靠地提供其周期活动的频率。

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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2022 Computing in Cardiology (CinC)

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