Functional MRI of arousals in nonrapid eye movement sleep

G Zou, J Xu, S Zhou, J Liu, ZH Su, Q Zou, JH Gao - Sleep, 2020 - academic.oup.com
G Zou, J Xu, S Zhou, J Liu, ZH Su, Q Zou, JH Gao
Sleep, 2020academic.oup.com
Arousals commonly occur during human sleep and have been associated with several sleep
disorders. Arousals are characterized as an abrupt electroencephalography (EEG)
frequency change to higher frequencies during sleep. However, the human brain regions
involved in arousal are not yet clear. Simultaneous EEG and functional magnetic resonance
imaging (fMRI) data were recorded during the early portion of the sleep period in healthy
young adults. Arousals were identified based on the EEG data, and fMRI signal changes …
Abstract
Arousals commonly occur during human sleep and have been associated with several sleep disorders. Arousals are characterized as an abrupt electroencephalography (EEG) frequency change to higher frequencies during sleep. However, the human brain regions involved in arousal are not yet clear. Simultaneous EEG and functional magnetic resonance imaging (fMRI) data were recorded during the early portion of the sleep period in healthy young adults. Arousals were identified based on the EEG data, and fMRI signal changes associated with 83 arousals from 19 subjects were analyzed. Subcortical regions, including the midbrain, thalamus, basal ganglia, and cerebellum, were activated with arousal. Cortices, including the temporal gyrus, occipital gyrus, and frontal gyrus, were deactivated with arousal. The activations associated with arousal in the subcortical regions were consistent with previous findings of subcortical involvement in behavioral arousal and consciousness. Cortical deactivations may serve as a mechanism to direct incoming sensory stimuli to specific brain regions, thereby monitoring environmental perturbations during sleep.
Oxford University Press