Sleep-like cortical OFF-periods disrupt causality and complexity in the brain of unresponsive wakefulness syndrome patients

Many brain-injured patients retain large cortical islands that are intact, active and reactive but blocked in a state of low complexity, leading to unconsciousness. Here, the authors show that this loss of complexity is due to the pathological engagement of sleep-like neuronal mechanisms.

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Autores principales: M. Rosanova, M. Fecchio, S. Casarotto, S. Sarasso, A. G. Casali, A. Pigorini, A. Comanducci, F. Seregni, G. Devalle, G. Citerio, O. Bodart, M. Boly, O. Gosseries, S. Laureys, M. Massimini
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Lenguaje:EN
Publicado: Nature Portfolio 2018
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Acceso en línea:https://doaj.org/article/2c497a066caa46c68d8081936b01511e
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spelling oai:doaj.org-article:2c497a066caa46c68d8081936b01511e2021-12-02T17:31:12ZSleep-like cortical OFF-periods disrupt causality and complexity in the brain of unresponsive wakefulness syndrome patients10.1038/s41467-018-06871-12041-1723https://doaj.org/article/2c497a066caa46c68d8081936b01511e2018-10-01T00:00:00Zhttps://doi.org/10.1038/s41467-018-06871-1https://doaj.org/toc/2041-1723Many brain-injured patients retain large cortical islands that are intact, active and reactive but blocked in a state of low complexity, leading to unconsciousness. Here, the authors show that this loss of complexity is due to the pathological engagement of sleep-like neuronal mechanisms.M. RosanovaM. FecchioS. CasarottoS. SarassoA. G. CasaliA. PigoriniA. ComanducciF. SeregniG. DevalleG. CiterioO. BodartM. BolyO. GosseriesS. LaureysM. MassiminiNature PortfolioarticleScienceQENNature Communications, Vol 9, Iss 1, Pp 1-10 (2018)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
M. Rosanova
M. Fecchio
S. Casarotto
S. Sarasso
A. G. Casali
A. Pigorini
A. Comanducci
F. Seregni
G. Devalle
G. Citerio
O. Bodart
M. Boly
O. Gosseries
S. Laureys
M. Massimini
Sleep-like cortical OFF-periods disrupt causality and complexity in the brain of unresponsive wakefulness syndrome patients
description Many brain-injured patients retain large cortical islands that are intact, active and reactive but blocked in a state of low complexity, leading to unconsciousness. Here, the authors show that this loss of complexity is due to the pathological engagement of sleep-like neuronal mechanisms.
format article
author M. Rosanova
M. Fecchio
S. Casarotto
S. Sarasso
A. G. Casali
A. Pigorini
A. Comanducci
F. Seregni
G. Devalle
G. Citerio
O. Bodart
M. Boly
O. Gosseries
S. Laureys
M. Massimini
author_facet M. Rosanova
M. Fecchio
S. Casarotto
S. Sarasso
A. G. Casali
A. Pigorini
A. Comanducci
F. Seregni
G. Devalle
G. Citerio
O. Bodart
M. Boly
O. Gosseries
S. Laureys
M. Massimini
author_sort M. Rosanova
title Sleep-like cortical OFF-periods disrupt causality and complexity in the brain of unresponsive wakefulness syndrome patients
title_short Sleep-like cortical OFF-periods disrupt causality and complexity in the brain of unresponsive wakefulness syndrome patients
title_full Sleep-like cortical OFF-periods disrupt causality and complexity in the brain of unresponsive wakefulness syndrome patients
title_fullStr Sleep-like cortical OFF-periods disrupt causality and complexity in the brain of unresponsive wakefulness syndrome patients
title_full_unstemmed Sleep-like cortical OFF-periods disrupt causality and complexity in the brain of unresponsive wakefulness syndrome patients
title_sort sleep-like cortical off-periods disrupt causality and complexity in the brain of unresponsive wakefulness syndrome patients
publisher Nature Portfolio
publishDate 2018
url https://doaj.org/article/2c497a066caa46c68d8081936b01511e
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