Summary
During the past decade, substantial advances in the understanding of the functional organization of the human brain have been made through the technique of MEG topographic mapping. Most of these investigations were concerned with the estimation and localization of sources which were modeled as single current dipoles positioned in a semi-infinite volume conductor with homogeneous conductivity. However, the sources in the brain are complex, and the head as a volume conductor consists of different materials with different electrical conductivities. The influence of these inhomogeneities on the MEG topography is studied by a computer simulation, modeling the sources as single or multiple dipoles located in inhomogeneous volume conductors. The computer simulation suggests some important aspects in estimation of source localization. The sources of MEG activities in human subject during sleep are also studied. A comparison of simulated MEG topographic patterns with measured data suggests that the sources of K-complexes can be modeled by two current dipoles. Sources for delta waves are analyzed by the FFT technique. The results show that the frequency distributions are different for delta waves measured by MEG and EEG techniques, leading us to conclude that at least two different sources are present. The MEG measurements have an advantage to provide important information concerning brain function which cannot be obtained using the EEG measurements.
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This work was supported in part by grants 63850090 and 01790390 from the Ministry of Education Science and Culture, Japan, and by grants from Nakatani Electric Measuring Technology Association, and the Mitsubishi Foundation.
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Ueno, S., Iramina, K. Modeling and source localization of MEG activities. Brain Topogr 3, 151–165 (1990). https://doi.org/10.1007/BF01128872
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DOI: https://doi.org/10.1007/BF01128872