A possible path to persistent re-entry waves at the outlet of the left pulmonary vein.

IF 3.5 2区 生物学 Q1 MATHEMATICAL & COMPUTATIONAL BIOLOGY
Karoline Horgmo Jæger, Aslak Tveito
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Abstract

Atrial fibrillation (AF) is the most common form of cardiac arrhythmia, often evolving from paroxysmal episodes to persistent stages over an extended timeframe. While various factors contribute to this progression, the precise biophysical mechanisms driving it remain unclear. Here we explore how rapid firing of cardiomyocytes at the outlet of the pulmonary vein of the left atria can create a substrate for a persistent re-entry wave. This is grounded in a recently formulated mathematical model of the regulation of calcium ion channel density by intracellular calcium concentration. According to the model, the number of calcium channels is controlled by the intracellular calcium concentration. In particular, if the concentration increases above a certain target level, the calcium current is weakened to restore the target level of calcium. During rapid pacing, the intracellular calcium concentration of the cardiomyocytes increases leading to a substantial reduction of the calcium current across the membrane of the myocytes, which again reduces the action potential duration. In a spatially resolved cell-based model of the outlet of the pulmonary vein of the left atria, we show that the reduced action potential duration can lead to re-entry. Initiated by rapid pacing, often stemming from paroxysmal AF episodes lasting several days, the reduction in calcium current is a critical factor. Our findings illustrate how such episodes can foster a conducive environment for persistent AF through electrical remodeling, characterized by diminished calcium currents. This underscores the importance of promptly addressing early AF episodes to prevent their progression to chronic stages.

Abstract Image

左肺静脉出口处出现持续性再入波的可能途径。
心房颤动(房颤)是最常见的心律失常形式,通常在较长时间内从阵发性发作演变为持续性阶段。虽然有多种因素导致了这种演变,但驱动这种演变的确切生物物理机制仍不清楚。在此,我们探讨了左心房肺静脉出口处心肌细胞的快速发射如何为持续性再入波创造基质。其基础是最近制定的钙离子通道密度受细胞内钙浓度调节的数学模型。根据该模型,钙离子通道的数量受细胞内钙浓度的控制。特别是,如果浓度增加到某一目标水平以上,钙电流就会减弱,以恢复钙的目标水平。在快速起搏过程中,心肌细胞内的钙离子浓度增加,导致心肌细胞膜上的钙电流大幅减少,从而再次缩短了动作电位持续时间。在基于细胞的左心房肺静脉出口空间分辨模型中,我们发现动作电位持续时间的缩短会导致再入路。快速起搏通常源于持续数天的阵发性房颤发作,钙电流的减少是一个关键因素。我们的研究结果说明了这种发作如何通过以钙电流减少为特征的电重塑为持续性房颤创造有利环境。这强调了及时处理早期房颤发作以防止其发展为慢性阶段的重要性。
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
NPJ Systems Biology and Applications
NPJ Systems Biology and Applications Mathematics-Applied Mathematics
CiteScore
5.80
自引率
0.00%
发文量
46
审稿时长
8 weeks
期刊介绍: npj Systems Biology and Applications is an online Open Access journal dedicated to publishing the premier research that takes a systems-oriented approach. The journal aims to provide a forum for the presentation of articles that help define this nascent field, as well as those that apply the advances to wider fields. We encourage studies that integrate, or aid the integration of, data, analyses and insight from molecules to organisms and broader systems. Important areas of interest include not only fundamental biological systems and drug discovery, but also applications to health, medical practice and implementation, big data, biotechnology, food science, human behaviour, broader biological systems and industrial applications of systems biology. We encourage all approaches, including network biology, application of control theory to biological systems, computational modelling and analysis, comprehensive and/or high-content measurements, theoretical, analytical and computational studies of system-level properties of biological systems and computational/software/data platforms enabling such studies.
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