Title :
A ventricular model with a 3-D fractal conduction network
Author :
Eylon, D. ; Beker, A. ; Abboud, S. ; Sadeh, D.
Author_Institution :
Tel-Aviv Univ., Israel
Abstract :
A 3-D electrical model of the heart´s ventricles is introduced. The model consists of 75×75×75 (or 421875) cubical finite elements arranged inside a cube. Each of these elements can be defined as one of several types of cells, characterized by various electrophysiological attributes, such as conduction velocity and action potential shape. Inside this structure, a general geometrical form similar to the general shape of the heart´s ventricles is defined. A specialized group of elements simulates the heart´s conduction system. This group has the 3-D structure of a bifurcating, self-similar tree, which is connected to bundle branches and a bundle of His. Preliminary traces of the electrical activity of the model show similarity to physiological QRST complexes
Keywords :
bioelectric phenomena; cardiology; fractals; physiological models; 3D electrical model; 3D structure; action potential shape; bifurcating self-similar tree; bundle of His; conduction velocity; cubical finite elements; electrical activity traces; electrophysiological attributes; general geometrical form; physiological QRST complexes; ventricular model; Bifurcation; Biomedical engineering; Contracts; Finite element methods; Fractals; Myocardium; Physics; Shape; Solid modeling; Surface morphology;
Conference_Titel :
Computers in Cardiology 1991, Proceedings.
Conference_Location :
Venice
Print_ISBN :
0-8186-2485-X
DOI :
10.1109/CIC.1991.168969
