Intercalated discs as a cause for discontinuous propagation in cardiac muscle: A theoretical simulation

Pedro J. Diaz; Yoram Rudy; Robert Plonsey

doi:10.1007/BF02363285

Intercalated discs as a cause for discontinuous propagation in cardiac muscle: A theoretical simulation

Pedro J. Diaz
, Yoram Rudy
, Robert Plonsey

Research output: Contribution to journal › Article › peer-review

48 Scopus citations

Abstract

A theoretical model of a cardiac muscle fiber (strand) based on core conductor principles and which includes a periodic intercalated disc structure has been developed. The model allows for examination of the mechanism of electrical propagation in cardiac muscle on a microscopic cell-to-cell level. The results of the model simulations demonstrate the discontinuous nature of electrical propagation in cardiac muscle and the inability of classical continuous cable theory to adequately describe propagation phenomena in cardiac muscle.

Original language	English
Pages (from-to)	177-189
Number of pages	13
Journal	Annals of biomedical engineering
Volume	11
Issue number	3-4
DOIs	https://doi.org/10.1007/BF02363285
State	Published - May 1983

Keywords

Cable models
Cardiac electrophysiology
Cell-to-cell conduction
Discontinuous electrical propagation
Intercalated discs

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10.1007/BF02363285

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abstract = "A theoretical model of a cardiac muscle fiber (strand) based on core conductor principles and which includes a periodic intercalated disc structure has been developed. The model allows for examination of the mechanism of electrical propagation in cardiac muscle on a microscopic cell-to-cell level. The results of the model simulations demonstrate the discontinuous nature of electrical propagation in cardiac muscle and the inability of classical continuous cable theory to adequately describe propagation phenomena in cardiac muscle.",

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N2 - A theoretical model of a cardiac muscle fiber (strand) based on core conductor principles and which includes a periodic intercalated disc structure has been developed. The model allows for examination of the mechanism of electrical propagation in cardiac muscle on a microscopic cell-to-cell level. The results of the model simulations demonstrate the discontinuous nature of electrical propagation in cardiac muscle and the inability of classical continuous cable theory to adequately describe propagation phenomena in cardiac muscle.

AB - A theoretical model of a cardiac muscle fiber (strand) based on core conductor principles and which includes a periodic intercalated disc structure has been developed. The model allows for examination of the mechanism of electrical propagation in cardiac muscle on a microscopic cell-to-cell level. The results of the model simulations demonstrate the discontinuous nature of electrical propagation in cardiac muscle and the inability of classical continuous cable theory to adequately describe propagation phenomena in cardiac muscle.

KW - Cable models

KW - Cardiac electrophysiology

KW - Cell-to-cell conduction

KW - Discontinuous electrical propagation

KW - Intercalated discs

UR - https://www.scopus.com/pages/publications/0021017374

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DO - 10.1007/BF02363285

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EP - 189

JO - Annals of biomedical engineering

JF - Annals of biomedical engineering

IS - 3-4

ER -

Intercalated discs as a cause for discontinuous propagation in cardiac muscle: A theoretical simulation

Abstract

Keywords

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