M P Davey1, J D Victor, N D Schiff. 1. Flinders Medical Center, School of Medicine, Flinders Drive, South Australia 5042, Bedford Park, Australia.
Abstract
OBJECTIVES: To examine differences in power spectra and intra-hemispheric coherence between the left and right hemispheres in the presence of severe asymmetric brain damage. METHODS: Power spectra and coherence functions were computed for a patient with severe damage to subcortical gray matter structures on the right side but relative preservation on the left. RESULTS: Power spectra differed modestly over the hemispheres, with greater low frequency power and less high frequency power over the more damaged right hemisphere. Coherence differed dramatically, with marked reduced coherence over the right hemisphere, particularly frontally where the damage was most extensive. CONCLUSIONS: Damage to subcortical structures of one hemisphere may result in a marked reduction in coherence in the ipsilateral EEG with only a modest change in the power spectrum. We speculate that the physiologic basis of this selective change is damage to structures mediating communication between cortical areas.
OBJECTIVES: To examine differences in power spectra and intra-hemispheric coherence between the left and right hemispheres in the presence of severe asymmetric brain damage. METHODS: Power spectra and coherence functions were computed for a patient with severe damage to subcortical gray matter structures on the right side but relative preservation on the left. RESULTS: Power spectra differed modestly over the hemispheres, with greater low frequency power and less high frequency power over the more damaged right hemisphere. Coherence differed dramatically, with marked reduced coherence over the right hemisphere, particularly frontally where the damage was most extensive. CONCLUSIONS: Damage to subcortical structures of one hemisphere may result in a marked reduction in coherence in the ipsilateral EEG with only a modest change in the power spectrum. We speculate that the physiologic basis of this selective change is damage to structures mediating communication between cortical areas.
Authors: Alexander A Fingelkurts; Andrew A Fingelkurts; Sergio Bagnato; Cristina Boccagni; Giuseppe Galardi Journal: PLoS One Date: 2011-10-05 Impact factor: 3.240
Authors: Manoj K Jaiswal; Sotirios Keros; Mingrui Zhao; Melis Inan; Theodore H Schwartz; Stewart A Anderson; Gregg E Homanics; Peter A Goldstein Journal: Front Cell Neurosci Date: 2015-04-09 Impact factor: 5.505