Intracortical Functional Connectivity Predicts Arousal to Noxious Stimuli during Sleep in Humans
Autor: | Luis Garcia-Larrea, Hélène Bastuji, Michel Magnin, Andéol Cadic-Melchior |
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Rok vydání: | 2020 |
Předmět: |
Adult
Male Sensory system Stimulus (physiology) Arousal 03 medical and health sciences 0302 clinical medicine Threshold of pain Noxious stimulus Medicine Humans Research Articles 030304 developmental biology Cerebral Cortex 0303 health sciences business.industry General Neuroscience Electroencephalography Middle Aged Sleep in non-human animals Female Nociceptive Stimulus Nerve Net business Sleep Neuroscience Insula 030217 neurology & neurosurgery |
Zdroj: | J Neurosci |
ISSN: | 1529-2401 |
Popis: | Nociceptive stimuli disrupt sleep, but may, or may not, entail an arousal. While arousal reactions go along with the activation of a widespread cortical network, the factors enabling such activation remain unknown. Here we used intracranial EEG in humans to test the relation between the cortical activity immediately preceding a noxious stimulus and the capacity of such a stimulus to trigger arousal. Intracranial EEG signals were analyzed during all-night sleep in 14 epileptic patients (4 women), who received laser stimuli slightly above their individual pain threshold. During 5 s preceding each stimulus, the functional correlation (spectral phase-coherence) between the main spinothalamic sensory area (posterior insula) and 12 other brain regions, grouped in four networks, as well as their spectral contents, were contrasted according to the presence of a stimulus-induced arousal, and then fed into a logistic regression model to assess their predictive value. Enhanced prestimulus phase-coherence between the sensory posterior insula and neocortical and limbic areas increased significantly the probability of arousal to nociceptive stimuli, in both slow-wave (N2) and rapid eye movements/paradoxical sleep. Furthermore, during N2 sleep, arousal was facilitated by stimulus delivery in periods of attenuated slow-wave activity. Together, these data indicate that sleep micro-states with enhanced interareal communication facilitate information transfer from sensory to higher-order cortical areas, and hence physiological arousal. SIGNIFICANCE STATEMENT Sleep is commonly subdivided into stages based on specific electrophysiological characteristics; however, within each single sleep stage, the functional state of the brain is continuously changing. Here we show that the probability for a phasic noxious stimulus to entail an arousal is modulated by the prestimulus interareal phase-coherence between sensory and higher-level cortical areas. Fluctuations in interareal communication immediately before the noxious stimulus may determine the responsiveness to incoming input by facilitating or preventing the transfer of noxious information from sensory to multiple higher-level cortical networks. |
Databáze: | OpenAIRE |
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