Measurement of electrical current density distribution in a simple head phantom with magnetic resonance imaging.

Knowledge of the influence of the human skull on the electrical current (d.c.) distribution within the brain tissue could prove useful in measuring impedance changes inside the human head. These changes can be related to physiological functions. The studies presented in this paper examine the current density distribution in a simple phantom consisting of a saline filled tank (to simulate scalp and brain) and a ring made of dental grade plaster of Paris (to simulate the human skull). Images of the distribution of the d.c. density of the phantom with and without the plaster of Paris ring were produced using a magnetic resonance imaging technique. These images indicate that the skull is likely to produce a more uniform d.c. density within the brain.

[1]  R. Henkelman,et al.  Sensitivity of magnetic-resonance current-density imaging , 1992 .

[2]  R M Henkelman,et al.  Measurement of nonuniform current density by magnetic resonance. , 1991, IEEE transactions on medical imaging.

[3]  D S Holder Electrical impedance tomography with cortical or scalp electrodes during global cerebral ischaemia in the anaesthetised rat. , 1992, Clinical physics and physiological measurement : an official journal of the Hospital Physicists' Association, Deutsche Gesellschaft fur Medizinische Physik and the European Federation of Organisations for Medical Physics.

[4]  Artefacts in MR images of electrical current distribution. , 1997, Physics in medicine and biology.

[5]  Ds Holder,et al.  Biomedical applications of EIT: a critical review , 1993 .

[6]  M. Joy,et al.  In vivo detection of applied electric currents by magnetic resonance imaging. , 1989, Magnetic resonance imaging.

[7]  R H Bayford,et al.  Improvement of the positional accuracy of EIT images of the head using a Lagrange multiplier reconstruction algorithm with diametric excitation. , 1996, Physiological measurement.