Boundary layer heterogeneities can enhance scroll wave stability

Sebastian Echeverria-Alar, Wouter-Jan Rappel
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Abstract

The electrical activity in the heart is affected by the presence of scroll waves, causing lifethreatening arrhythmias. Clinical procedures to handle these electrical disorganizations create nonconductive heterogeneities in the cardiac tissue. We explore how boundary layer heterogeneities affect the scroll wave dynamics in a semidiscrete electrophysiological model. We show that decreasing the coupling strength near the boundaries of the tissue can prevent a meandering instability in the bulk enhancing the stability of scroll waves confined to thin geometries. Based on the coupling strength, the boundary layer length, the slab thickness, and wave deformation, we propose a forced model to reveal how a heterogeneity-induced slowing down of the waves governs the stabilization.
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边界层异质性可增强涡旋波的稳定性
涡旋波的存在会影响心脏的电活动,导致危及生命的心律失常。处理这些电紊乱的临床程序会在心脏组织中产生非导电异质。我们探讨了边界层异质性如何影响半离散电生理模型中的涡旋波动力学。我们的研究表明,减小组织边界附近的耦合强度可以防止大体积中的meandering不稳定性,从而增强限制在薄几何结构中的涡旋波的稳定性。根据耦合强度、边界层长度、板厚度和波变形,我们提出了一个强制模型,以揭示异质性引起的波减速是如何支配稳定的。
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