Tensorial Representation of Ionophoresis Effects by MRI

Abstract

The goal of this study is to make active or passive electrical characteristics of biological systems visible by magnetic resonance imaging (MRI). As a starting investigation, we visualized a precise flow effected by ionophoresis. We used CuSO₄ doped water (25 mM) electrolytes in an ionophoresis cell composed of a pair of horizontal copper electrodes. An evaluation of ion drift, we made by MR diffusion tensor imaging method. The impressed voltage was 0.0-0.5 V, and the current density at that time increased monotonously was 0.00-1.06 mA/cm². With increasing current density, higher values of drift diffusion coefficient (DDC) induced by the electric field were observed.
The diffusion tensor ellipsoid in current density of 1.06 mA/cm² was successfully visualized as the effects of ion drift induced by the electric field. By applying this method to biological systems, it has a possibility to make functional electrical characteristics visible.