各向异性心室肌对外周传导系统的负荷效应

Proceedings of 17th International Conference of the Engineering in Medicine and Biology Society Pub Date : 1995-09-20 DOI:10.1109/IEMBS.1995.574996

D. Huelsing, A. Pollard

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引用次数: 0

摘要

作者在连接上覆心室心肌的外周传导系统模型中进行了动作电位传播的三维模拟。作者的目的是研究离散心内膜下浦肯野-心室连接(PVJ)的电相互作用以及心肌对浦肯野层施加的负荷的性质。作者描述了该模型的构造，该模型通过离散连接处的过渡层将各向异性心肌细胞薄片电连接到一层分支浦肯野电缆上。模型的心肌和过渡部分采用Luo和Rudy Phase I膜方程，外周传导系统部分采用Di Francesco和Noble膜方程进行模拟。

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Loading effects of anisotropic ventricular muscle on the peripheral conduction system

The authors performed three-dimensional simulations of action potential propagation in a model of the peripheral conduction system connected to overlying ventricular myocardium. The authors' goal was to study the electrical interactions at the discrete subendocardial Purkinje-ventricular junctions (PVJ) and the nature of the load imposed on the Purkinje layer by the myocardium. The authors describe the construction of the model, which electrically connects an anisotropic sheet of myocardial cells to a layer of branching Purkinje cables through a transitional layer at discrete junctional sites. Simulations used the Luo and Rudy Phase I membrane equations for the myocardial and transitional components of the model and the Di Francesco and Noble membrane equations for the peripheral conduction system component.

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Proceedings of 17th International Conference of the Engineering in Medicine and Biology Society

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