Title :
On the theory of the electrocardiogram
Author :
Geselowitz, David B.
Author_Institution :
Pennsylvania State Univ., University Park, PA, USA
fDate :
6/1/1989 12:00:00 AM
Abstract :
The biophysical basis for understanding the electrocardiogram is set forth. Bioelectric sources arise from electrical activity in the heart at the cellular level. The relation of these sources, which can be formally represented as impressed currents, to potentials involves solution of the volume conductor problem. This solution is based on Green´s theorem. Sources are related to the transmembrane action potential through a bidomain model of heart muscle. Microscopic and macroscopic aspects of the bidomain model are developed. Various transformations of the source are considered, including multipoles, multiple dipoles, and replacement of the volume distribution with distributions on the heart surface. Time integrals of the waveform are related to excitation time and action potential duration. The theoretical results form the basis of a computer model of the electrocardiogram that relates skin potentials to the spatial and temporal distribution of action potentials in the heart
Keywords :
electrocardiography; Green´s theorem; action potential duration; bidomain model; biophysical basis; cellular level; computer model; electrocardiogram; excitation time; heart electrical activity; heart muscle; impressed currents; macroscopic aspects; microscopic aspects; skin potentials; surface distribution; transmembrane action potential; volume conductor problem; volume distribution; Application software; Bioelectric phenomena; Biomedical engineering; Electric potential; Electrocardiography; Engineering in medicine and biology; Heart; Humans; Instruments; Physics;
Journal_Title :
Proceedings of the IEEE
