4.7 Article

Dynamics of hippocampus and orbitofrontal cortex activity during arousing reactions from sleep: An intracranial electroencephalographic study

Journal

HUMAN BRAIN MAPPING
Volume 42, Issue 16, Pages 5188-5203

Publisher

WILEY
DOI: 10.1002/hbm.25609

Keywords

arousal; dream; frontal lobe; hippocampus; humans; intra-cranial electoencephalography; sleep; wakefulness

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Sleep is interrupted by transient increases in vigilance levels called arousals or awakenings, which can affect cognitive functions. This study investigated brain activity in memory-related areas during short arousing reactions, finding that the hippocampus and frontal cortex have different patterns of activity during arousal/awakening, influenced by sleep stage. This suggests that the duration and intensity of these transitions may play a role in memory processes during sleep.
Sleep is punctuated by transient elevations of vigilance level called arousals or awakenings depending on their durations. Understanding the dynamics of brain activity modifications during these transitional phases could help to better understand the changes in cognitive functions according to vigilance states. In this study, we investigated the activity of memory-related areas (hippocampus and orbitofrontal cortex) during short (3 s to 2 min) arousing reactions detected from thalamic activity, using intracranial recordings in four drug-resistant epilepsy patients. The average power of the signal between 0.5 and 128 Hz was compared across four time windows: 10 s of preceding sleep, the first part and the end of the arousal/awakening, and 10 s of wakefulness. We observed that (a) in most frequency bands, the spectral power during hippocampal arousal/awakenings is intermediate between wakefulness and sleep whereas frontal cortex shows an early increase in low and fast activities during non-rapid-eye-movement (NREM) sleep arousals/awakenings; (b) this pattern depends on the preceding sleep stage with fewer modifications for REM than for non-REM sleep arousal/awakenings, potentially reflecting the EEG similarities between REM sleep and wakefulness; (c) a greater activation at the arousing reaction onset in the prefrontal cortex predicts longer arousals/awakenings. Our findings suggest that hippocampus and prefrontal arousals/awakenings are progressive phenomena modulated by sleep stage, and, in the neocortex, by the intensity of the early activation. This pattern of activity could underlie the link between sleep stage, arousal/awakening duration and restoration of memory abilities including dream recall.

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