Title :
The magnetic field associated with a plane wave front propagating through cardiac tissue
Author :
Roth, Bradley J. ; Woods, Marcella C.
Author_Institution :
Dept. of Phys., Oakland Univ., Rochester, MI, USA
Abstract :
An action potential propagating through a two-dimensional sheet of cardiac tissue produces a magnetic field. In the direction of propagation, the intracellular and extracellular current densities are equal and opposite, so the net current is zero. However, because of the unequal anisotropy ratios in the intracellular and extracellular spaces, the component of the current density perpendicular to the direction of propagation does not, in general, vanish. This line of current produces the magnetic field. The amplitude of the magnetic field is zero only if the action potential propagates parallel to or perpendicular to the fiber direction, or if the tissue has equal anisotropy ratios.
Keywords :
bioelectric phenomena; biomagnetism; cardiology; cellular biophysics; current density; physiological models; action potential; associated magnetic field; electrocardiology; extracellular spaces; fiber direction; intracellular spaces; plane wave front propagating through cardiac tissue; propagation direction; unequal anisotropy ratios; Anisotropic magnetoresistance; Biomedical engineering; Cardiac tissue; Conductivity; Current density; Extracellular; Magnetic analysis; Magnetic fields; Optical propagation; Tensile stress; Action Potentials; Animals; Anisotropy; Electric Conductivity; Heart; Humans; Magnetics; Mathematics; Models, Cardiovascular; Nerve Fibers;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
