II. Model of a two-dimensional anisotropic syncytium

N. I. Kukushkin; F. F. Bukauskas; N. Ye Sakson

II. Model of a two-dimensional anisotropic syncytium

N. I. Kukushkin, F. F. Bukauskas, N. Ye Sakson

Neuroscience

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Abstract

The authors consider the dependence of the input resistance and attenuation constant of the syncytium on its primary parameters and the size of the source and also the dependence of the transfer coefficient through the lateral and longitudinal contact membranes on the primary parameters of the syncytium and the distance from the source. Experimental proof is given of the suitability of the model for evaluating the attenuation constants of fibres forming cardiac structures.

Original language	English (US)
Pages (from-to)	909-914
Number of pages	6
Journal	Biophysics
Volume	19
Issue number	5
State	Published - Dec 1 1974

ASJC Scopus subject areas

Biophysics

Cite this

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title = "II. Model of a two-dimensional anisotropic syncytium",

abstract = "The authors consider the dependence of the input resistance and attenuation constant of the syncytium on its primary parameters and the size of the source and also the dependence of the transfer coefficient through the lateral and longitudinal contact membranes on the primary parameters of the syncytium and the distance from the source. Experimental proof is given of the suitability of the model for evaluating the attenuation constants of fibres forming cardiac structures.",

author = "Kukushkin, {N. I.} and Bukauskas, {F. F.} and Sakson, {N. Ye}",

year = "1974",

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AU - Kukushkin, N. I.

AU - Bukauskas, F. F.

AU - Sakson, N. Ye

PY - 1974/12/1

Y1 - 1974/12/1

N2 - The authors consider the dependence of the input resistance and attenuation constant of the syncytium on its primary parameters and the size of the source and also the dependence of the transfer coefficient through the lateral and longitudinal contact membranes on the primary parameters of the syncytium and the distance from the source. Experimental proof is given of the suitability of the model for evaluating the attenuation constants of fibres forming cardiac structures.

AB - The authors consider the dependence of the input resistance and attenuation constant of the syncytium on its primary parameters and the size of the source and also the dependence of the transfer coefficient through the lateral and longitudinal contact membranes on the primary parameters of the syncytium and the distance from the source. Experimental proof is given of the suitability of the model for evaluating the attenuation constants of fibres forming cardiac structures.

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M3 - Article

AN - SCOPUS:0016327699

SN - 0006-3509

VL - 19

SP - 909

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JO - Biophysics

JF - Biophysics

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II. Model of a two-dimensional anisotropic syncytium

Abstract

ASJC Scopus subject areas

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