Title :
Effect of a bath on the epicardial transmembrane potential during internal defibrillation shocks
Author :
Latimer, David C. ; Roth, Bradley J.
Author_Institution :
Math. Inst., Oxford Univ., UK
fDate :
5/1/1999 12:00:00 AM
Abstract :
Using a three dimensional model of cardiac tissue, the authors consider a rectangular slab of tissue. They examine the effect of a defibrillating shock from an intracavitary electrode upon the epicardial transmembrane potential (Vm) for two cases: one in which the epicardium is bounded by air and another in which it is bounded by a conductive bath. The authors find that the inclusion of the bath changes the polarity of the steady-state Vm in the epicardial region that is closest to the shock electrode. In addition, the magnitude of Vm is increased dramatically if the bath is present; the degree of hyperpolarization increases twenty fivefold, while the degree of depolarization increases elevenfold. The remaining bulk of the cardiac tissue is relatively unaffected by the inclusion of the bath.
Keywords :
bioelectric potentials; biomedical electrodes; biomembranes; cardiology; electric shocks; physiological models; cardiac electrophysiology; conductive bath; defibrillating shock; depolarization degree; electrical stimulation; epicardial region; epicardial transmembrane potential; hyperpolarization; internal defibrillation shocks; intracavitary electrode; polarity change; rectangular tissue slab; shock electrode; three dimensional cardiac tissue model; Biomedical electrodes; Cardiac tissue; Conductivity; Defibrillation; Electric shock; Electrical stimulation; Heart; Slabs; Steady-state; Virtual manufacturing; Baths; Electric Conductivity; Electric Countershock; Membrane Potentials; Models, Cardiovascular; Pericardium; Surface Properties;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
