Title :
A model of 3D propagation in discrete cardiac tissue
Author :
Stinstra, JG ; Roberts, SF ; Pormann, Jb ; MacLeod, RS ; Henriquez, CS
Author_Institution :
Utah Univ., Salt Lake City, UT
Abstract :
A model was developed of a bundle of cardiac fibers embedded in an extracellular space. In contrast to the classical bidomain approach, the model is constructed such that the intracellular and extracellular spaces are spatially distinct. The model was used to test the hypothesis that the distribution of the extracellular fluid in the tissue can affect the conduction velocity. The preliminary results suggest that under nominally normal conditions, the propagation speed depends on the fraction of extracellular space and less on the actual distribution of extracellular space within the bundle.
Keywords :
bioelectric potentials; biological tissues; cardiology; cellular biophysics; medical computing; physiological models; cardiac fibers; conduction velocity; discrete cardiac tissue; extracellular spaces; intracellular spaces; Anisotropic magnetoresistance; Biomembranes; Cardiac tissue; Cells (biology); Conductivity; Extracellular; Heart; Medical treatment; Optical fiber testing; Surface impedance;
Conference_Titel :
Computers in Cardiology, 2006
Conference_Location :
Valencia
Print_ISBN :
978-1-4244-2532-7
