Transmembrane potential changes during stimulation in a bidomain model of the myocardium

Author

Trayanova, N.

Author_Institution

Dept. of Biomed. Eng., Duke Univ., Durham, NC, USA

fYear

1993

fDate

5-8 Sep 1993

Firstpage

253

Lastpage

256

Abstract

The changes in the transmembrane potential in cardiac tissue due to a point source extracellular stimulus are studied to help clarify the underlying mechanisms of cardiac stimulation and defibrillation. The present calculations employ the bidomain model of the myocardium. The tissue is considered passive and under steady-state conditions. Membrane polarization throughout the tissue is determined by the relative degrees of anisotropy in the intracellular space (the collection of the interiors of all fibers, including myoplasm and intracellular junctions) and in the extracellular space (interstitium). The results show that the intracellular space has to have an anisotropy ratio twice (or more) that of the extracellular space in order that regions of suprathreshold depolarization appear in the tissue interior

Keywords

bioelectric potentials; biomembranes; cellular biophysics; electrocardiography; muscle; physiological models; anisotropy ratio; bidomain model; cardiac defibrillation; cardiac stimulation mechanisms; extracellular space; interstitium; intracellular junctions; intracellular space anisotropy; membrane polarization; myocardial stimulation; myoplasm; point source extracellular stimulus; steady-state conditions; suprathreshold depolarization regions; transmembrane potential changes; Anisotropic magnetoresistance; Biomembranes; Cardiac tissue; Conductivity; Defibrillation; Extracellular; Myocardium; Optical fiber polarization; Predictive models; Steady-state;

fLanguage

English

Publisher

ieee

Conference_Titel

Computers in Cardiology 1993, Proceedings.

Conference_Location

London

Print_ISBN

0-8186-5470-8

Type

conf

DOI

10.1109/CIC.1993.378456

Filename

378456