Abstract
Neocortical local field potentials have shown that gamma oscillations occur spontaneously during slow-wave sleep (SWS). At the macroscopic EEG level in the human brain, no evidences were reported so far. In this study, by using simultaneous scalp and intracranial EEG recordings in 20 epileptic subjects, we examined gamma oscillations in cerebral cortex during SWS. We report that gamma oscillations in low (30–50 Hz) and high (60–120 Hz) frequency bands recurrently emerged in all investigated regions and their amplitudes coincided with specific phases of the cortical slow wave. In most of the cases, multiple oscillatory bursts in different frequency bands from 30 to 120 Hz were correlated with positive peaks of scalp slow waves (“IN-phase” pattern), confirming previous animal findings. In addition, we report another gamma pattern that appears preferentially during the negative phase of the slow wave (“ANTI-phase” pattern). This new pattern presented dominant peaks in the high gamma range and was preferentially expressed in the temporal cortex. Finally, we found that the spatial coherence between cortical sites exhibiting gamma activities was local and fell off quickly when computed between distant sites. Overall, these results provide the first human evidences that gamma oscillations can be observed in macroscopic EEG recordings during sleep. They support the concept that these high-frequency activities might be associated with phasic increases of neural activity during slow oscillations. Such patterned activity in the sleeping brain could play a role in off-line processing of cortical networks.
Highlights
When sleep reaches its deepest levels during slow wave sleep (SWS), the electroencephalogram (EEG) is dominated by globally coherent slow wave activity in the low frequency range (0.5– 3.5 Hz) [1,2]
They were characterized by oscillations in narrow frequency bands in the low (,30–50 Hz) and high gamma (,60–120 Hz) ranges
ANTI-phase patterns tended to appear during the negative phase of the scalp slow wave
Summary
When sleep reaches its deepest levels during slow wave sleep (SWS), the electroencephalogram (EEG) is dominated by globally coherent slow wave activity in the low frequency range (0.5– 3.5 Hz) [1,2]. According to Steriade and coworkers [3], the slow oscillations have the ability to trigger and group faster cortical oscillations like spindles (12–15 Hz) and high-frequency activities in the beta (from 15 to 25 Hz) or gamma range (from 30 to 120 Hz) Evidence for this coupling between slow waves and gamma oscillations comes from in vivo LFP recordings of the rodent and feline cortex [3,4,5,6,7] and it can be reproduced in vitro in acute brain slices [8,9]. The simultaneous recording of slow waves by scalp EEG allowed us to analyze different phasic modulations of gamma activities by global slow components
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