EFFECTS OF HEAD SHAPE ON EEGS AND MEGS

This paper presents results of computer modeling studies of the effects of head shape on electroencephalograms (EEG’s) and magnetoencephalograms (MEG’s) and on the localization of electrical sources in the brain using these measurements. The effects of general, nonspherical head shape on EEG’s and MEG’s are determined by comparisons of EEG and MEG maps from nonspherical head models with corresponding maps from a spherical head model. The effects on source localization accuracy are determined by calculating moving dipole inverse solutions in a spherical head model using EEG’s and MEG’s from the nonspherical models and comparing the solutions with the known sources. It was found that nonspherical head shape can produce significant changes in the maps produced by some sources in the cortical region of the brain. However, it was also found that such deviations of the head from sphericity produce localization errors of less than approximately 1 cm. No significant differences in the effects of such deviations on EEG’s and MEG’s were found. Finally, it was found that most such deviations do not cause a dipolar source which is perpendicular to the surface of the head model to produce a significant magnetic field; such a source produces zero magnetic field in a sphere. © 1990 IEEE