Filtering the reality: Functional dissociation of lateral and medial pain systems during sleep in humans
Hélène Bastuji,Stéphanie Mazza,Caroline Perchet,Caroline Perchet,Maud Frot,Maud Frot,François Mauguière,François Mauguière,Michel Magnin,Michel Magnin,Luis Garcia-Larrea,Luis Garcia-Larrea +11 more
TLDR
While the lateral operculo‐insular system subserving sensory analysis of somatic stimuli remained active during paradoxical‐REM sleep, mid‐anterior cingulate processes related to orienting and avoidance behavior were suppressed, explaining why nociceptive stimuli can be either neglected or incorporated into dreams without awakening the subject.Abstract:
Behavioral reactions to sensory stimuli during sleep are scarce despite preservation of sizeable cortical responses. To further understand such dissociation, we recorded intracortical field potentials to painful laser pulses in humans during waking and all-night sleep. Recordings were obtained from the three cortical structures receiving 95% of the spinothalamic cortical input in primates, namely the parietal operculum, posterior insula, and mid-anterior cingulate cortex. The dynamics of responses during sleep differed among cortical sites. In sleep Stage 2, evoked potential amplitudes were similarly attenuated relative to waking in all three cortical regions. During paradoxical, or rapid eye movements (REM), sleep, opercular and insular potentials remained stable in comparison with Stage 2, whereas the responses from mid-anterior cingulate abated drastically, and decreasing below background noise in half of the subjects. Thus, while the lateral operculo-insular system subserving sensory analysis of somatic stimuli remained active during paradoxical-REM sleep, mid-anterior cingulate processes related to orienting and avoidance behavior were suppressed. Dissociation between sensory and orienting-motor networks might explain why nociceptive stimuli can be either neglected or incorporated into dreams without awakening the subject.read more
Citations
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Pain and sleep: from reaction to action.
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Maud Frot,François Mauguière +1 more
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Chapter 5: The organization of central cholinergic systems and their functional importance in sleep-waking states
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Renate Wehrle,Christian Kaufmann,Thomas C. Wetter,Florian Holsboer,Dorothee P. Auer,Thomas Pollmächer,Michael Czisch +6 more
TL;DR: A thalamocortical network including limbic and parahippocampal areas specifically active during phasic REM periods is reported, with the brain acting as a functionally isolated and closed intrinsic loop within general REM sleep.