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
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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 matrices and neuropathic pain matrices: A review
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Pain and consciousness.
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Heterogeneity of arousals in human sleep: A stereo-electroencephalographic study
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Concussion/mild traumatic brain injury-related chronic pain in males and females: A diagnostic modelling study.
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Pain and sleep: from reaction to action.
TL;DR: This patient exhibited finger lifts in response to stimulations delivered during paradoxical (REM) sleep, suggesting that during PS, not only the processing of sensory inputs but also the capacity for the sleeper to intentionally indicate his perception could be preserved under particular circumstances is suggested.
References
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Parallel processing of nociceptive A-delta inputs in SII and midcingulate cortex in humans.
TL;DR: Characterizing the location and timing of the CC evoked responses during the 1 s period after a painful laser stimulus provides direct evidence that activations underlying the processing of nociceptive information can occur simultaneously in the “medial” and “lateral” subsystems.
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Sleep arousal response to experimental thermal stimulation during sleep in human subjects free of pain and sleep problems.
Gilles Lavigne,Marco Zucconi,C. Castronovo,Christiane Manzini,Paolo Marchettini,Salvatore Smirne +5 more
TL;DR: The present study provides data on polygraphic responses to cool, warm, and heat pain stimuli applied to shoulder skin during different sleep stages: the lighter sleep stage 2, the deep stages 3&4, and REM sleep, and concludes that the processing of nociceptive inputs is attenuated across sleep stages.
Journal ArticleDOI
Painful stimuli evoke potentials recorded from the parasylvian cortex in humans
TL;DR: The present results are the first direct evidence of nociceptive input to the human parasylvian cortex from a subdural grid of electrodes implanted for evaluation of epilepsy.
Reference EntryDOI
Lamotrigine for acute and chronic pain
TL;DR: The limited evidence currently available suggests that lamotrigine is unlikely to be of benefit for the treatment of neuropathic pain, and the availability of more effective treatments including anticonvulsants and antidepressant medicines does not have a significant place in therapy at present.
Journal ArticleDOI
Thalamocortical and intracortical connections of monkey cingulate motor areas
Nobuhiko Hatanaka,Hironobu Tokuno,Ikuma Hamada,Masahiko Inase,Yumi Ito,Michiko Imanishi,Naomi Hasegawa,Toshikazu Akazawa,Atsushi Nambu,Masahiko Takada +9 more
TL;DR: The present results indicate that the CMAr and the caudal cingulate motor area are characterized by distinct patterns of thalamocortical and intracortical connections, reflecting their functional differences.