Sleep modulates effective connectivity: A study using intracranial stimulation and recording |
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Affiliation: | 1. Department of Neurology, University Emergency Hospital, Bucharest, Romania;2. Department of Clinical Neurosciences, “Carol Davila” University of Medicine and Pharmacy, Bucharest, Romania;3. Brain Research Group, Romanian Academy, Bucharest, Romania;4. Department of Clinical Neurophysiology, Danish Epilepsy Centre, Dianalund, Denmark and Department of Clinical Neurophysiology, Aarhus University Hospital; Department of Clinical Medicine, Aarhus University, Aarhus, Denmark;5. Physics Department, University of Bucharest, Bucharest, Romania;6. Neurosurgery Department, Bagdasar-Arseni Hospital, Bucharest, Romania;7. FHC Inc., Bowdoin, ME, United States;1. Department of Clinical Neurophysiology, Neurological Institute, Faculty of Medicine, Graduate School of Medical Sciences, Kyushu University, Japan;2. Emeritus of Gifu University, Japan;3. Hermitage of Magnetoencephalography, Japan |
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Abstract: | ObjectiveSleep is an active process with an important role in memory. Epilepsy patients often display a disturbed sleep architecture, with consequences on cognition. We aimed to investigate the effect of sleep on cortical networks’ organization.MethodsWe analyzed cortico-cortical evoked responses elicited by single pulse electrical stimulation (SPES) using intracranial depth electrodes in 25 patients with drug-resistant focal epilepsy explored using stereo-EEG. We applied the SPES protocol during wakefulness and NREM – N2 sleep. We analyzed 31,710 significant responses elicited by 799 stimulations covering most brain structures, epileptogenic or non-epileptogenic. We analyzed effective connectivity between structures using a graph-theory approach.ResultsSleep increases excitability in the brain, regardless of epileptogenicity. Local and distant connections are differently modulated by sleep, depending on the tissue epileptogenicity.In non-epileptogenic areas, frontal lobe connectivity is enhanced during sleep. There is increased connectivity between the hippocampus and temporal neocortex, while perisylvian structures are disconnected from the temporal lobe. In epileptogenic areas, we found a clear interhemispheric difference, with decreased connectivity in the right hemisphere during sleep.ConclusionsSleep modulates brain excitability and reconfigures functional brain networks, depending on tissue epileptogenicity.SignificanceWe found specific patterns of information flow during sleep in physiologic and pathologic structures, with possible implications for cognition. |
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Keywords: | Effective connectivity Epilepsy Single pulse electrical stimulation Sleep stereo-EEG A" },{" #name" :" keyword" ," $" :{" id" :" k0035" }," $$" :[{" #name" :" text" ," _" :" amygdala AASM" },{" #name" :" keyword" ," $" :{" id" :" k0045" }," $$" :[{" #name" :" text" ," _" :" American Academy of Sleep Medicine ACC" },{" #name" :" keyword" ," $" :{" id" :" k0055" }," $$" :[{" #name" :" text" ," _" :" anterior cingulum AG" },{" #name" :" keyword" ," $" :{" id" :" k0065" }," $$" :[{" #name" :" text" ," _" :" angular gyrus aI" },{" #name" :" keyword" ," $" :{" id" :" k0075" }," $$" :[{" #name" :" text" ," _" :" anterior insula C" },{" #name" :" keyword" ," $" :{" id" :" k0085" }," $$" :[{" #name" :" text" ," _" :" cuneus CCEP" },{" #name" :" keyword" ," $" :{" id" :" k0095" }," $$" :[{" #name" :" text" ," _" :" cortico-cortical evoked potenatials DLPFC" },{" #name" :" keyword" ," $" :{" id" :" k0105" }," $$" :[{" #name" :" text" ," _" :" dorsolateral prefrontal cortex DMPFC" },{" #name" :" keyword" ," $" :{" id" :" k0115" }," $$" :[{" #name" :" text" ," _" :" dorsomedial prefrontal cortex E" },{" #name" :" keyword" ," $" :{" id" :" k0125" }," $$" :[{" #name" :" text" ," _" :" entorhinal cortex ER" },{" #name" :" keyword" ," $" :{" id" :" k0135" }," $$" :[{" #name" :" text" ," _" :" early responses EZ" },{" #name" :" keyword" ," $" :{" id" :" k0145" }," $$" :[{" #name" :" text" ," _" :" epileptogenic zone, F, fusiform gyrus FEF" },{" #name" :" keyword" ," $" :{" id" :" k0155" }," $$" :[{" #name" :" text" ," _" :" frontal eye fields Hc" },{" #name" :" keyword" ," $" :{" id" :" k0165" }," $$" :[{" #name" :" text" ," _" :" hippocampus IPL" },{" #name" :" keyword" ," $" :{" id" :" k0175" }," $$" :[{" #name" :" text" ," _" :" inferior parietal lobule ITG" },{" #name" :" keyword" ," $" :{" id" :" k0185" }," $$" :[{" #name" :" text" ," _" :" inferior temporal gyrus LG" },{" #name" :" keyword" ," $" :{" id" :" k0195" }," $$" :[{" #name" :" text" ," _" :" lingual gyrus MCC" },{" #name" :" keyword" ," $" :{" id" :" k0205" }," $$" :[{" #name" :" text" ," _" :" middle cingulum MoCA" },{" #name" :" keyword" ," $" :{" id" :" k0215" }," $$" :[{" #name" :" text" ," _" :" Montreal Cognitive Assessment Test MOFC" },{" #name" :" keyword" ," $" :{" id" :" k0225" }," $$" :[{" #name" :" text" ," _" :" medial orbitofrontal cortex MTG" },{" #name" :" keyword" ," $" :{" id" :" k0235" }," $$" :[{" #name" :" text" ," _" :" middle temporal gyrus NEZ" },{" #name" :" keyword" ," $" :{" id" :" k0245" }," $$" :[{" #name" :" text" ," _" :" non-epileptogenic zone O" },{" #name" :" keyword" ," $" :{" id" :" k0255" }," $$" :[{" #name" :" text" ," _" :" lateral occipital cortex OFC" },{" #name" :" keyword" ," $" :{" id" :" k0265" }," $$" :[{" #name" :" text" ," _" :" orbitofrontal cortex OpF" },{" #name" :" keyword" ," $" :{" id" :" k0275" }," $$" :[{" #name" :" text" ," _" :" frontal operculum OpP" },{" #name" :" keyword" ," $" :{" id" :" k0285" }," $$" :[{" #name" :" text" ," _" :" parietal operculum OpR" },{" #name" :" keyword" ," $" :{" id" :" k0295" }," $$" :[{" #name" :" text" ," _" :" Rolandic operculum OpT" },{" #name" :" keyword" ," $" :{" id" :" k0305" }," $$" :[{" #name" :" text" ," _" :" temporal operculum PCC" },{" #name" :" keyword" ," $" :{" id" :" k0315" }," $$" :[{" #name" :" text" ," _" :" posterior cingulum PCL" },{" #name" :" keyword" ," $" :{" id" :" k0325" }," $$" :[{" #name" :" text" ," _" :" paracentral lobule pI" },{" #name" :" keyword" ," $" :{" id" :" k0335" }," $$" :[{" #name" :" text" ," _" :" posterior insula PHG" },{" #name" :" keyword" ," $" :{" id" :" k0345" }," $$" :[{" #name" :" text" ," _" :" parahippocampal gyrus PMC" },{" #name" :" keyword" ," $" :{" id" :" k0355" }," $$" :[{" #name" :" text" ," _" :" premotor cortex PrC" },{" #name" :" keyword" ," $" :{" id" :" k0365" }," $$" :[{" #name" :" text" ," _" :" precuneus preSMA" },{" #name" :" keyword" ," $" :{" id" :" k0375" }," $$" :[{" #name" :" text" ," _" :" 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id" :" k0465" }," $$" :[{" #name" :" text" ," _" :" superior parietal lobule STG" },{" #name" :" keyword" ," $" :{" id" :" k0475" }," $$" :[{" #name" :" text" ," _" :" superior temporal gyrus TP" },{" #name" :" keyword" ," $" :{" id" :" k0485" }," $$" :[{" #name" :" text" ," _" :" temporal pole TPO" },{" #name" :" keyword" ," $" :{" id" :" k0495" }," $$" :[{" #name" :" text" ," _" :" temporo-parieto-occipital junction V1" },{" #name" :" keyword" ," $" :{" id" :" k0505" }," $$" :[{" #name" :" text" ," _" :" primary visual cortex VLPFC" },{" #name" :" keyword" ," $" :{" id" :" k0515" }," $$" :[{" #name" :" text" ," _" :" ventrolateral prefrontal cortex VMPFC" },{" #name" :" keyword" ," $" :{" id" :" k0525" }," $$" :[{" #name" :" text" ," _" :" ventromedial prefrontal cortex W" },{" #name" :" keyword" ," $" :{" id" :" k0535" }," $$" :[{" #name" :" text" ," _" :" Wernicke area WM" },{" #name" :" keyword" ," $" :{" id" :" k0545" }," $$" :[{" #name" :" text" ," _" :" white matter |
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