Title :
The four-electrode resistivity technique in anisotropic media: theoretical analysis and application on myocardial tissue in vivo
Author :
Steendijk, Paul ; Mur, Gerrit ; Van der Velde, Enno T. ; Baan, Jan
Author_Institution :
Dept. of Cardiology, Leiden Univ. Hospital, Netherlands
Abstract :
Several aspects of the 4-electrode resistivity technique were studied with special emphasis on the theoretical determination of penetration depth and sample volume in anisotropic media such as (cardiac) muscle. Moreover, the presence of a thin disturbing layer on top of the medium under study was analyzed. A 4-electrode sensor was developed for the measurement of local myocardial resistivity in 2 orthogonal directions. The sensor was applied to the epicardium of anesthetized open chest dogs and, as an example, results are given on the frequency dependence (5-60 kHz) and the changes during the cardiac cycle of longitudinal and transverse myocardial resistivity.
Keywords :
bioelectric phenomena; biological techniques and instruments; cardiology; electric impedance measurement; muscle; 4-electrode resistivity technique; 5 to 60 kHz; anesthetized open chest dogs; anisotropic media; cardiac muscle; epicardium; frequency dependence; in vivo; local myocardial resistivity; longitudinal myocardial resistivity; myocardial tissue; orthogonal directions; penetration depth; sample volume; thin disturbing layer; transverse myocardial resistivity; Anisotropic magnetoresistance; Conductivity; Dogs; Electrodes; Frequency dependence; Impedance measurement; In vivo; Iron; Muscles; Myocardium; Optical fiber polarization; Surface impedance; Animals; Anisotropy; Dogs; Electric Impedance; Electrodes; Heart; Transducers;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
