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J Neurophysiol (November 1, 2002). 10.1152/jn.00304.2002
Submitted on 23 April 2002
Accepted on 1 July 2002
Institute of Pharmacology and Toxicology, University of Zürich, CH-8057 Zurich, Switzerland
Vyazovskiy, Vladyslav V.,
Alexander
A. Borbély, and
Irene Tobler.
Interhemispheric Sleep EEG Asymmetry in the Rat is Enhanced by
Sleep Deprivation. J. Neurophysiol. 88: 2280-2286, 2002. Vigilance state-related topographic
variations of electroencephalographic (EEG) activity have been reported
in humans and animals. To investigate their possible functional
significance, the cortical EEG of the rat was recorded from frontal and
parietal derivations in both hemispheres. Records were obtained for a
24-h baseline day, 6-h sleep deprivation (SD), and subsequent 18-h recovery. During the baseline 12-h light period, the main sleep period
of the rat, low-frequency (<7.0 Hz) power in the non-rapid eye-movement (NREM) sleep EEG declined progressively. Left-hemispheric predominance of low-frequency power at the parietal derivations was
observed at the beginning of the light period when sleep pressure is
high due to preceding spontaneous waking. The left-hemispheric dominance changed to a right-hemispheric dominance in the course of the
12-h rest-phase when sleep pressure dissipated. During recovery from
SD, both low-frequency power and parietal left-hemispheric predominance
were enhanced. The increase in low-frequency power in NREM sleep
observed after SD at the frontal site was larger than at the parietal
site. However, frontally no interhemispheric differences were present.
In REM sleep, power in the theta band (5.25-8.0 Hz) exhibited a
right-hemispheric predominance. In contrast to NREM sleep, the
hemispheric asymmetry showed no trend during baseline and was not
affected by SD. Use-dependent local changes may underlie the regional
differences in the low-frequency NREM sleep EEG within and between
hemispheres. The different interhemispheric asymmetries in NREM and REM
sleep suggest that the two sleep states may subserve different
functions in the brain.
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