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Spatial EEG synchronisation over sensorimotor hand areas in brisk and slow self-paced index finger movements

Publikace na 3. lékařská fakulta |
1998

Tento text není v aktuálním jazyce dostupný. Zobrazuje se verze "en".Abstrakt

The changes of spatial EEG synchronisation during brisk and slow voluntary self-paced movements of the right and left index finger were analysed in 12 right-handed and 11 left-handed subjects. EEG was recorded from the left and right sensorimotor area using 24 closely spaced electrodes.

A novel measure of spatial EEG synchronisation, Omega-complexity, was computed separately for the left and right sensorimotor area in 64 overlapping one-second epochs representing 4.5 s of the pre-movement and 3.5 s of the post-movement period. Omega-complexity was higher, hence spatial synchronisation was lower, in slow than in brisk movements, especially in the right-handed.

A sustained increase of Omega-complexity was observed during execution of a slow movement. A decrease of Omega-complexity which was often associated with a brief burst of spatially synchronised 10-Hz oscillations occurred at the onset of extensor muscle contraction We suggest that increased spatial EEG synchronisation at movement onset may prevent "spillover" of excitation from the sensorimotor hand area to other cortical regions.

During movement, the cortical neuronal assemblies subserve distinct, specialised functions manifesting in increased Omega-complexity.