负曲率边界作为控制生物激发介质的波发射位点。

Negative curvature boundaries as wave emitting sites for the control of biological excitable media.

机构信息

Max Planck Institute for Dynamics and Self-Organization, Göttingen, Germany.

出版信息

Phys Rev Lett. 2012 Sep 14;109(11):118106. doi: 10.1103/PhysRevLett.109.118106.

DOI:10.1103/PhysRevLett.109.118106

Abstract

Understanding the interaction of electric fields with the complex anatomy of biological excitable media is key to optimizing control strategies for spatiotemporal dynamics in those systems. On the basis of a bidomain description, we provide a unified theory for the electric-field-induced depolarization of the substrate near curved boundaries of generalized shapes, resulting in the localized recruitment of control sites. Our findings are confirmed in experiments on cardiomyocyte cell cultures and supported by two-dimensional numerical simulations on a cross section of a rabbit ventricle.

摘要

理解电场与生物可兴奋介质复杂解剖结构的相互作用，是优化这些系统时空动力学控制策略的关键。本文基于双域描述，为在广义形状的弯曲边界附近基质中电场诱导去极化提供了统一的理论，从而导致控制部位的局部募集。我们的发现得到了心肌细胞培养实验的证实，并得到了兔心室横截面二维数值模拟的支持。

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负曲率边界作为控制生物激发介质的波发射位点。

Negative curvature boundaries as wave emitting sites for the control of biological excitable media.

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