CORDIS proporciona enlaces a los documentos públicos y las publicaciones de los proyectos de los programas marco HORIZONTE.
Los enlaces a los documentos y las publicaciones de los proyectos del Séptimo Programa Marco, así como los enlaces a algunos tipos de resultados específicos, como conjuntos de datos y «software», se obtienen dinámicamente de OpenAIRE .
Resultado final
Report of the external Ethical Advisory Board Report as requested for the Ethical Check
Experimental results. Issue 2 (se abrirá en una nueva ventana)T3.2 Sleep (IFADO, UMI, STA): We will explore if lucid dreaming, which is a unique consciousness model in which primary consciousness – normally present during sleep – is transferred to the secondary mode of consciousness, is associated with specific FC alterations beyond regional prefrontal changes as demonstrated recently (Voss2014). We will systematically modulate connectivity to explore if these physiological processes are causally related to lucidity and to which degree specific FC patterns (frequency bands, synchrony) contribute. Oscillatory activity and connectivity will be studied with the advanced EEG models developed in WP1, and interventional stimulation will be performed. We will monitor sleep-dependent alterations of oscillatory activity with specific relation to FC alterations depending on relaxed wakefulness, drowsiness, light sleep, deep slow wave sleep, and REM-sleep in healthy subjects. The results will provide the basis for testing causality via tCS. We will explore consciousness modulation in healthy subjects as well as in patients suffering from sleep disturbance syndromes, i.e., psychophysiological insomnia states, and narcolepsy. The results of this study will elucidate how states of consciousness can be modulated by NIBS, and whether/how pathological alterations of state changes can be counteracted [IFADO]. PCI-based experiments will be conducted on healthy sleeping subjects in order to find the optimal stimulation parameters that are effective in reducing the magnitude and the rate of occurrence of spontaneously occurring and evoked (NIBS, somatosensory, visual, auditory) cortical downstates. It will also allow testing whether tCS, by reducing bistability, may affect the level of consciousness by promoting a sleep stage transition (e.g., from sleep stage N1 to wakefulness, from dreaming to lucid dreaming). [UMI]
Ethical Requirements. Issue 1 (se abrirá en una nueva ventana)Ethical Requirements resulting from 2nd iteration of the Ethical Screening during GA preparation.
Experimental plans. Issue 2 (se abrirá en una nueva ventana)T3.1 Anaesthesia: (UOX, STA, IFADO, UMI): Apply the concepts/protocols employed during sleep stage N1 or dreaming to subjects who are in a state of mild sedation or during the induction of general anaesthesia (MOOAS level 3) in order to probe the capacity of tCS to (1) alter the EEG features of bistability and (2) shift the level of wakefulness. Explore the relationship of the SWAS biomarker within the information theoretic and PCI approach to consciousness state. We will gather ultra high field 7T resting state fMRI paradigms using the developed EEG metrics as end-points for titration of anaesthesia. In particular we will explore the functional thalamocortical connectivity of the sub-regions of thalamus at these EEG end-points, and identify changes in connectivity induced by tCS. Slow activity is a common feature of both sleep and anaesthesia. There is also evidence that some anaesthetics satisfy the homeostatic need for sleep (Pal2011). By using a within-subject design, we will explore the commonality of these mechanisms further by using EEG recordings of sleep prior to fMRI scanning. We will investigate the effect of tCS on the developed EEG consciousness metrics to elucidate whether the proposed brain interference methods will allow the required dose for anaesthesia-induced loss of consciousness to be reduced, thus reducing the known risks of over-anaesthesia.
Consciousness: models, metrics and intervention. Issue 1 (se abrirá en una nueva ventana)T1.1 Neuroscience, Consciousness & Bits (UMI, all): We will review models of consciousness, the relevance of information integration, KAC, bistability, brain rhythms related with consciousness and other explanatory correlates, and study implications for artificial systems and other cognitive sciences. Guide experimental work: specify methods for consciousness characterization, from classical spectral measures to information transfer, connectivity and complex network EEG metrics; explore intrinsic bistability of cortical neurons as a final common pathway leading to a decreased capacity for information integration (indexed by PCI and other metrics) during loss of consciousness; propose how to test hypotheses by studying the effects of different types of perturbations (NIBS, PNS) on EEG recorded during different consciousness conditions; explore the possibility of calculating PCI, or of detecting signs of cortical bistability, starting from stimulation protocols such as tCS and PNS-mediated stimulation (i.e., oddballs, local-global paradigm, subject’s own name); define KAC metrics: 1) using auditory stimuli and study associated functional networks; 2) explore the existence of similar signals using NIBS 3) evaluate tACS perturbation on EEG to create an analogue of sensory ERP. Design techniques to detect the occurrence of perturbation-induced cortical downstates, including period-amplitude analysis of evoked slow waves, time-frequency decomposition and empirical mode decomposition; assess the impact of the downstate on causality at each single recording site by calculating phase-locking factor (Lachaux1999), and the impact of the downstate on causality across recording sites by calculating the phase-locking value (Palva2010). Pre-select appropriate EEG feedback loops in NIBS and guide the EEG feature search (WP2). Finally, organise the 2-3 day yearly project workshops for brainstorming and experimental design. As a final task in the project the experimental results obtained in WP3 will be interpreted and transformed into theoretical advances on consciousness understanding.
Experimental results. Issue 1 (se abrirá en una nueva ventana)T3.2 Sleep (IFADO, UMI, STA): We will explore if lucid dreaming, which is a unique consciousness model in which primary consciousness – normally present during sleep – is transferred to the secondary mode of consciousness, is associated with specific FC alterations beyond regional prefrontal changes as demonstrated recently (Voss2014). We will systematically modulate connectivity to explore if these physiological processes are causally related to lucidity and to which degree specific FC patterns (frequency bands, synchrony) contribute. Oscillatory activity and connectivity will be studied with the advanced EEG models developed in WP1, and interventional stimulation will be performed. We will monitor sleep-dependent alterations of oscillatory activity with specific relation to FC alterations depending on relaxed wakefulness, drowsiness, light sleep, deep slow wave sleep, and REM-sleep in healthy subjects. The results will provide the basis for testing causality via tCS. We will explore consciousness modulation in healthy subjects as well as in patients suffering from sleep disturbance syndromes, i.e., psychophysiological insomnia states, and narcolepsy. The results of this study will elucidate how states of consciousness can be modulated by NIBS, and whether/how pathological alterations of state changes can be counteracted [IFADO]. PCI-based experiments will be conducted on healthy sleeping subjects in order to find the optimal stimulation parameters that are effective in reducing the magnitude and the rate of occurrence of spontaneously occurring and evoked (NIBS, somatosensory, visual, auditory) cortical downstates. It will also allow testing whether tCS, by reducing bistability, may affect the level of consciousness by promoting a sleep stage transition (e.g., from sleep stage N1 to wakefulness, from dreaming to lucid dreaming). [UMI]
Ethical implications (se abrirá en una nueva ventana)T4.2 Ethics (ULG, all except INS): evaluate project’s S&T socio-ethical implications. Provide open document for wide dissemination and public understanding and for policy makers. Address the impact of potential negative findings of experimental/clinical work and how clinicians and families can deal with them. Analyse next-of-kin verbal reports on how they receive differential diagnosis and NIBS results for their patient, then provide short guides of popularized content addressing to next of kin for psycho-educative purposes on M/EEG assessment and NIBS and guidelines on pragmatic criteria for the differentiation between DOCs – clinical translation of experimental findings. Create and manage a discussion forum on clinical management (pain treatment, treatment limitation) based on the clinical diagnosis delivered by M/EEG measurements and on legal competency of (potentially) recovered patients from NIBS.
Experimental plans. Issue 1 (se abrirá en una nueva ventana)T3.1 Anaesthesia: (UOX, STA, IFADO, UMI): Apply the concepts/protocols employed during sleep stage N1 or dreaming to subjects who are in a state of mild sedation or during the induction of general anaesthesia (MOOAS level 3) in order to probe the capacity of tCS to (1) alter the EEG features of bistability and (2) shift the level of wakefulness. Explore the relationship of the SWAS biomarker within the information theoretic and PCI approach to consciousness state. We will gather ultra high field 7T resting state fMRI paradigms using the developed EEG metrics as end-points for titration of anaesthesia. In particular we will explore the functional thalamocortical connectivity of the sub-regions of thalamus at these EEG end-points, and identify changes in connectivity induced by tCS. Slow activity is a common feature of both sleep and anaesthesia. There is also evidence that some anaesthetics satisfy the homeostatic need for sleep (Pal2011). By using a within-subject design, we will explore the commonality of these mechanisms further by using EEG recordings of sleep prior to fMRI scanning. We will investigate the effect of tCS on the developed EEG consciousness metrics to elucidate whether the proposed brain interference methods will allow the required dose for anaesthesia-induced loss of consciousness to be reduced, thus reducing the known risks of over-anaesthesia.
Ethical Advisory Board (se abrirá en una nueva ventana)Task D4.1 Ethical Advisory Board
Experimental plans. Issue 3 (se abrirá en una nueva ventana)T3.1 Anaesthesia: (UOX, STA, IFADO, UMI): Apply the concepts/protocols employed during sleep stage N1 or dreaming to subjects who are in a state of mild sedation or during the induction of general anaesthesia (MOOAS level 3) in order to probe the capacity of tCS to (1) alter the EEG features of bistability and (2) shift the level of wakefulness. Explore the relationship of the SWAS biomarker within the information theoretic and PCI approach to consciousness state. We will gather ultra high field 7T resting state fMRI paradigms using the developed EEG metrics as end-points for titration of anaesthesia. In particular we will explore the functional thalamocortical connectivity of the sub-regions of thalamus at these EEG end-points, and identify changes in connectivity induced by tCS. Slow activity is a common feature of both sleep and anaesthesia. There is also evidence that some anaesthetics satisfy the homeostatic need for sleep (Pal2011). By using a within-subject design, we will explore the commonality of these mechanisms further by using EEG recordings of sleep prior to fMRI scanning. We will investigate the effect of tCS on the developed EEG consciousness metrics to elucidate whether the proposed brain interference methods will allow the required dose for anaesthesia-induced loss of consciousness to be reduced, thus reducing the known risks of over-anaesthesia.
Experimental results. Issue 3 (se abrirá en una nueva ventana)T3.2 Sleep (IFADO, UMI, STA): We will explore if lucid dreaming, which is a unique consciousness model in which primary consciousness – normally present during sleep – is transferred to the secondary mode of consciousness, is associated with specific FC alterations beyond regional prefrontal changes as demonstrated recently (Voss2014). We will systematically modulate connectivity to explore if these physiological processes are causally related to lucidity and to which degree specific FC patterns (frequency bands, synchrony) contribute. Oscillatory activity and connectivity will be studied with the advanced EEG models developed in WP1, and interventional stimulation will be performed. We will monitor sleep-dependent alterations of oscillatory activity with specific relation to FC alterations depending on relaxed wakefulness, drowsiness, light sleep, deep slow wave sleep, and REM-sleep in healthy subjects. The results will provide the basis for testing causality via tCS. We will explore consciousness modulation in healthy subjects as well as in patients suffering from sleep disturbance syndromes, i.e., psychophysiological insomnia states, and narcolepsy. The results of this study will elucidate how states of consciousness can be modulated by NIBS, and whether/how pathological alterations of state changes can be counteracted [IFADO]. PCI-based experiments will be conducted on healthy sleeping subjects in order to find the optimal stimulation parameters that are effective in reducing the magnitude and the rate of occurrence of spontaneously occurring and evoked (NIBS, somatosensory, visual, auditory) cortical downstates. It will also allow testing whether tCS, by reducing bistability, may affect the level of consciousness by promoting a sleep stage transition (e.g., from sleep stage N1 to wakefulness, from dreaming to lucid dreaming). [UMI]
Ethical Advisory Board Report. Issue 1 (se abrirá en una nueva ventana)Report of the external Ethical Advisory Board as requested by the Ethical check
Consciousness: models, metrics and intervention. Issue 2 (se abrirá en una nueva ventana)T1.1 Neuroscience, Consciousness & Bits (UMI, all): We will review models of consciousness, the relevance of information integration, KAC, bistability, brain rhythms related with consciousness and other explanatory correlates, and study implications for artificial systems and other cognitive sciences. Guide experimental work: specify methods for consciousness characterization, from classical spectral measures to information transfer, connectivity and complex network EEG metrics; explore intrinsic bistability of cortical neurons as a final common pathway leading to a decreased capacity for information integration (indexed by PCI and other metrics) during loss of consciousness; propose how to test hypotheses by studying the effects of different types of perturbations (NIBS, PNS) on EEG recorded during different consciousness conditions; explore the possibility of calculating PCI, or of detecting signs of cortical bistability, starting from stimulation protocols such as tCS and PNS-mediated stimulation (i.e., oddballs, local-global paradigm, subject’s own name); define KAC metrics: 1) using auditory stimuli and study associated functional networks; 2) explore the existence of similar signals using NIBS 3) evaluate tACS perturbation on EEG to create an analogue of sensory ERP. Design techniques to detect the occurrence of perturbation-induced cortical downstates, including period-amplitude analysis of evoked slow waves, time-frequency decomposition and empirical mode decomposition; assess the impact of the downstate on causality at each single recording site by calculating phase-locking factor (Lachaux1999), and the impact of the downstate on causality across recording sites by calculating the phase-locking value (Palva2010). Pre-select appropriate EEG feedback loops in NIBS and guide the EEG feature search (WP2). Finally, organise the 2-3 day yearly project workshops for brainstorming and experimental design. As a final task in the project the experimental results obtained in WP3 will be interpreted and transformed into theoretical advances on consciousness understanding.
T2.4 Experiment prototype integration and validation (STA, INSERM, IFADO): In the last project iteration we will integrate validated metrics with the developed close-loop techniques in a safe prototype for adaptive neuromodulation in consciousness studies and clinical applications. Visualization tools will be developed to monitor subject responses. This prototype for adaptive neuromodulation will be experimentally validated in a pilot (IFADO, all). Validation of the prototype and model predictions will be attained in the visual perception experiment. Parameters for tCS and close-loop tCS will be provided by the model and correlated with experimental results. Conclusions and requirements for the final device implementation will be delivered.
Project website and communication materials (se abrirá en una nueva ventana)All communication materials including brochures, corporate identity, and web site.
Publicaciones
Autores:
Min-Fang Kuo, Po-See Chen, Michael A. Nitsche
Publicado en:
International Review of Psychiatry, Edición 29/2, 2017, Página(s) 146-167, ISSN 0954-0261
Editor:
Brunner - Routledge (US)
DOI:
10.1080/09540261.2017.1286299
Autores:
A. Antal, I. Alekseichuk, M. Bikson, J. Brockmöller, A.R. Brunoni, R. Chen, L.G. Cohen, G. Dowthwaite, J. Ellrich, A. Flöel, F. Fregni, M.S. George, R. Hamilton, J. Haueisen, C.S. Herrmann, F.C. Hummel, J.P. Lefaucheur, D. Liebetanz, C.K. Loo, C.D. McCaig, C. Miniussi, P.C. Miranda, V. Moliadze, M.A. Nitsche, R. Nowak, F. Padberg, A. Pascual-Leone, W. Poppendieck, A. Priori, S. Rossi, P.M. Rossi
Publicado en:
Clinical Neurophysiology, Edición 128/9, 2017, Página(s) 1774-1809, ISSN 1388-2457
Editor:
Elsevier BV
DOI:
10.1016/j.clinph.2017.06.001
Autores:
Rafael Polanía, Michael A. Nitsche, Christian C. Ruff
Publicado en:
Nature Neuroscience, Edición 21/2, 2018, Página(s) 174-187, ISSN 1097-6256
Editor:
Nature Publishing Group
DOI:
10.1038/s41593-017-0054-4
Autores:
Asif Jamil, Michael A. Nitsche
Publicado en:
Current Behavioral Neuroscience Reports, Edición 4/4, 2017, Página(s) 331-340, ISSN 2196-2979
Editor:
Springer International Publishing
DOI:
10.1007/s40473-017-0134-5
Autores:
Andrés Molero-Chamizo, José R. Alameda Bailén, Tamara Garrido Béjar, Macarena García López, Inmaculada Jaén Rodríguez, Carolina Gutiérrez Lérida, Silvia Pérez Panal, Gloria González Ángel, Laura Lemus Corchero, María J. Ruiz Vega, Michael A. Nitsche, Guadalupe N. Rivera-Urbina
Publicado en:
Cognitive, Affective, & Behavioral Neuroscience, Edición 18/1, 2018, Página(s) 167-175, ISSN 1530-7026
Editor:
Psychonomic Society Inc.
DOI:
10.3758/s13415-018-0561-0
Autores:
Fatemeh Yavari, Asif Jamil, Mohsen Mosayebi Samani, Liliane Pinto Vidor, Michael A. Nitsche
Publicado en:
Neuroscience & Biobehavioral Reviews, Edición 85, 2018, Página(s) 81-92, ISSN 0149-7634
Editor:
Pergamon Press Ltd.
DOI:
10.1016/j.neubiorev.2017.06.015
Autores:
Silvia Casarotto, Angela Comanducci, Mario Rosanova, Simone Sarasso, Matteo Fecchio, Martino Napolitani, Andrea Pigorini, Adenauer G. Casali, Pietro D. Trimarchi, Melanie Boly, Olivia Gosseries, Olivier Bodart, Francesco Curto, Cristina Landi, Maurizio Mariotti, Guya Devalle, Steven Laureys, Giulio Tononi, Marcello Massimini
Publicado en:
Annals of Neurology, 2016, ISSN 1531-8249
Editor:
John Wiley & Sons
DOI:
10.1002/ana.24779
Autores:
Christof Koch, Marcello Massimini, Melanie Boly, Giulio Tononi
Publicado en:
Nature Reviews Neuroscience, Edición 17/5, 2016, Página(s) 307-321, ISSN 1471-003X
Editor:
Nature Publishing Group
DOI:
10.1038/nrn.2016.22
Autores:
Jaakko O. Nieminen, Olivia Gosseries, Marcello Massimini, Elyana Saad, Andrew D. Sheldon, Melanie Boly, Francesca Siclari, Bradley R. Postle, Giulio Tononi
Publicado en:
Scientific Reports, 2016, ISSN 2045-2322
Editor:
Nature Publishing Group
DOI:
10.1038/srep30932
Autores:
Olivier Bodart, Olivia Gosseries, Sarah Wannez, Aurore Thibaut, Jitka Annen, Melanie Boly, Mario Rosanova, Adenauer G. Casali, Silvia Casarotto, Giulio Tononi, Marcello Massimini, Steven Laureys
Publicado en:
Neuroimage: Clinical, 2017, ISSN 2213-1582
Editor:
Elsevier BV
DOI:
10.1016/j.nicl.2017.02.002
Autores:
Ujwal Chaudhary, Niels Birbaumer, Ander Ramos-Murguialday
Publicado en:
Nature Reviews Neurology, Edición 12/9, 2016, Página(s) 513-525, ISSN 1759-4758
Editor:
Nature Publishing Group
DOI:
10.1038/nrneurol.2016.113
Autores:
Ranganatha Sitaram, Tomas Ros, Luke Stoeckel, Sven Haller, Frank Scharnowski, Jarrod Lewis-Peacock, Nikolaus Weiskopf, Maria Laura Blefari, Mohit Rana, Ethan Oblak, Niels Birbaumer, James Sulzer
Publicado en:
Nature Reviews Neuroscience, Edición 18/2, 2016, Página(s) 86-100, ISSN 1471-003X
Editor:
Nature Publishing Group
DOI:
10.1038/nrn.2016.164
Autores:
Ujwal Chaudhary, Bin Xia, Stefano Silvoni, Leonardo G. Cohen, Niels Birbaumer
Publicado en:
PLOS Biology, 2017, ISSN 1544-9173
Editor:
Public Library of Science
DOI:
10.1371/journal.pbio.1002593
Autores:
Wangshan Huang, Sarah Wannez, Felipe Fregni, Xiaohua Hu, Shan Jing, Geraldine Martens, Minhui He, Haibo Di, Steven Laureys, Aurore Thibaut
Publicado en:
Brain Stimulation, Edición 10/3, 2017, Página(s) 718-720, ISSN 1935-861X
Editor:
Elsevier BV
DOI:
10.1016/j.brs.2017.02.001
Autores:
Enrico Amico, Olivier Bodart, Mario Rosanova, Olivia Gosseries, Lizette Heine, Pieter Van Mierlo, Charlotte Martial, Marcello Massimini, Daniele Marinazzo, Steven Laureys
Publicado en:
Brain Connectivity, Edición 7/2, 2017, Página(s) 84-97, ISSN 2158-0014
Editor:
Mary Ann Liebert Inc.
DOI:
10.1089/brain.2016.0462
Autores:
Lukas Frase, Hannah Piosczyk, Sulamith Zittel, Friederike Jahn, Peter Selhausen, Lukas Krone, Bernd Feige, Florian Mainberger, Jonathan G Maier, Marion Kuhn, Stefan Klöppel, Claus Normann, Annette Sterr, Kai Spiegelhalder, Dieter Riemann, Michael A Nitsche, Christoph Nissen
Publicado en:
Neuropsychopharmacology, Edición 41/10, 2016, Página(s) 2577-2586, ISSN 0893-133X
Editor:
Nature Publishing Group
DOI:
10.1038/npp.2016.65
Autores:
Fatemeh Yavari, Michael Nitsche and Hamed Ekhtiari
Publicado en:
Frontiers in Human Neuroscience, Edición 11:159, 2017, ISSN 1662-5161
Editor:
Frontiers Research Foundation
DOI:
10.3389/fnhum.2017.00159
Autores:
Géraldine Martens, Felipe Fregni, Manon Carrière, Alice Barra, Steven Laureys, Aurore Thibaut
Publicado en:
Brain Injury, Edición 33/13-14, 2019, Página(s) 1679-1683, ISSN 0269-9052
Editor:
Taylor & Francis
DOI:
10.1080/02699052.2019.1667537
Autores:
Wannez, Sarah; Heine, Lizette; Thonnard, Marie; Gosseries, Olivia; Laureys, Steven; Coma Science Group Collaborators
Publicado en:
Annals of Neurology, Edición 2, 2017, ISSN 1531-8249
Editor:
Wiley Online Library
DOI:
10.5281/zenodo.1194509
Autores:
R.D. Sanders, M.I. Banks, M. Darracq, R. Moran, J. Sleigh, O. Gosseries, V. Bonhomme, J.F. Brichant, M. Rosanova, A. Raz, G. Tononi, M. Massimini, S. Laureys, M. Boly
Publicado en:
British Journal of Anaesthesia, Edición 121/5, 2018, Página(s) 1084-1096, ISSN 0007-0912
Editor:
Oxford University Press
DOI:
10.1016/j.bja.2018.07.006
Autores:
Tim Bayne, Anil K. Seth, Marcello Massimini
Publicado en:
Trends in Neurosciences, Edición 43/1, 2020, Página(s) 6-16, ISSN 0166-2236
Editor:
Elsevier BV
DOI:
10.1016/j.tins.2019.11.003
Autores:
A. Kabbara, W. EL Falou, M. Khalil, F. Wendling, M. Hassan
Publicado en:
Scientific Reports, Edición 7/1, 2017, ISSN 2045-2322
Editor:
Nature Publishing Group
DOI:
10.1038/s41598-017-03420-6
Autores:
Matteo Fecchio, Andrea Pigorini, Angela Comanducci, Simone Sarasso, Silvia Casarotto, Isabella Premoli, Chiara-Camilla Derchi, Alice Mazza, Simone Russo, Federico Resta, Fabio Ferrarelli, Maurizio Mariotti, Ulf Ziemann, Marcello Massimini, Mario Rosanova
Publicado en:
PLOS ONE, Edición 12/9, 2017, Página(s) e0184910, ISSN 1932-6203
Editor:
Public Library of Science
DOI:
10.1371/journal.pone.0184910
Autores:
Michele Angelo Colombo, Martino Napolitani, Melanie Boly, Olivia Gosseries, Silvia Casarotto, Mario Rosanova, Jean-Francois Brichant, Pierre Boveroux, Steffen Rex, Steven Laureys, Marcello Massimini, Arturo Chieregato, Simone Sarasso
Publicado en:
NeuroImage, Edición 189, 2019, Página(s) 631-644, ISSN 1053-8119
Editor:
Academic Press
DOI:
10.1016/j.neuroimage.2019.01.024
Autores:
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
Publicado en:
Nature Communications, Edición 9/1, 2018, ISSN 2041-1723
Editor:
Nature Publishing Group
DOI:
10.1038/s41467-018-06871-1
Autores:
Wannez, Sarah; Gosseries, Olivia; Azzolini, Deborah; Martial, Charlotte; Cassol, Helena; Aubinet, Charlène; Annen, Jitka; Martens, Géraldine; Bodart, Olivier; Heine, Lizette; Charland-Verville, Vanessa; Thibaut, Aurore; Chatelle, Camille; Vanhaudenhuyse, Audrey; Demertzi, Athena; Schnakers, Caroline; Donneau, Anne-Françoise; Laureys, Steven
Publicado en:
Neuropsychological Rehabilitation, Edición 5, 2018, ISSN 0960-2011
Editor:
Psychology Press
DOI:
10.5281/zenodo.1194504
Autores:
Chennu, Shrivas; Annen, Jitka; Wannez, Sarah; Chatelle, Camille; Cassol, Helena; Martens, Géraldine; Schnakers, Caroline; Gosseries, Olivia; Menon, David; Laureys, Steven
Publicado en:
Brain, Edición 6, 2017, ISSN 0006-8950
Editor:
Oxford University Press
DOI:
10.5281/zenodo.1194511
Autores:
Giulio Ruffini
Publicado en:
Neuroscience of Consciousness, Edición 2017/1, 2017, ISSN 2057-2107
Editor:
Oxford: Oxford University Press
DOI:
10.1093/nc/nix019
Autores:
Julien Modolo, Mahmoud Hassan, Fabrice Wendling, Pascal Benquet
Publicado en:
Network Neuroscience, Edición 4/2, 2020, Página(s) 315-337, ISSN 2472-1751
Editor:
MIT Press
DOI:
10.1162/netn_a_00119
Autores:
Siouar Bensaid, Julien Modolo, Isabelle Merlet, Fabrice Wendling, Pascal Benquet
Publicado en:
Frontiers in Systems Neuroscience, Edición 13, 2019, ISSN 1662-5137
Editor:
Frontiers Research Foundation
DOI:
10.3389/fnsys.2019.00059
Autores:
Renzo Comolatti, Andrea Pigorini, Silvia Casarotto, Matteo Fecchio, Guilherme Faria, Simone Sarasso, Mario Rosanova, Olivia Gosseries, Mélanie Boly, Olivier Bodart, Didier Ledoux, Jean-François Brichant, Lino Nobili, Steven Laureys, Giulio Tononi, Marcello Massimini, Adenauer G. Casali
Publicado en:
Brain Stimulation, Edición 12/5, 2019, Página(s) 1280-1289, ISSN 1935-861X
Editor:
Elsevier BV
DOI:
10.1016/j.brs.2019.05.013
Autores:
Aurore Thibaut, Sarah Wannez, Anne-Francoise Donneau, Camille Chatelle, Olivia Gosseries, Marie-Aurélie Bruno, Steven Laureys
Publicado en:
Brain Injury, Edición 31/4, 2017, Página(s) 466-474, ISSN 0269-9052
Editor:
Taylor & Francis
DOI:
10.1080/02699052.2016.1274776
Autores:
Zulay Lugo, Fréderic Pellas, Veronique Blandin, Steven Laureys, Olivia Gosseries
Publicado en:
Brain Injury, Edición 31/12, 2017, Página(s) 1590-1596, ISSN 0269-9052
Editor:
Taylor & Francis
DOI:
10.1080/02699052.2017.1347277
Autores:
Warnaby, Catherine E.; Sleigh, Jamie W.; Hight, Darren; Jbabdi, Saad; Tracey, Irene
Publicado en:
Anesthesiology 127(4) 645-657, Edición 12, 2017, ISSN 0003-3022
Editor:
Lippincott Williams & Wilkins Ltd.
DOI:
10.5281/zenodo.1182660
Autores:
Olivier Bodart, Enrico Amico, Francisco Gómez, Adenauer G. Casali, Sarah Wannez, Lizette Heine, Aurore Thibaut, Jitka Annen, Melanie Boly, Silvia Casarotto, Mario Rosanova, Marcello Massimini, Steven Laureys, Olivia Gosseries
Publicado en:
Brain Stimulation, Edición 11/2, 2018, Página(s) 358-365, ISSN 1935-861X
Editor:
Elsevier BV
DOI:
10.1016/j.brs.2017.11.006
Autores:
Aurore Thibaut, Camille Chatelle, Audrey Vanhaudenhuyse, Géraldine Martens, Helena Cassol, Charlotte Martial, Manon Carrière, Alice Barra, Steven Laureys, Olivia Gosseries
Publicado en:
Brain Stimulation, Edición 11/3, 2018, Página(s) 642-644, ISSN 1935-861X
Editor:
Elsevier BV
DOI:
10.1016/j.brs.2018.02.002
Autores:
Carlo Cavaliere, Marco Aiello, Carol Di Perri, Enrico Amico, Charlotte Martial, Aurore Thibaut, Steven Laureys, Andrea Soddu
Publicado en:
Frontiers in Cellular Neuroscience, Edición 10, 2016, ISSN 1662-5102
Editor:
Frontiers Research Foundation
DOI:
10.3389/fncel.2016.00257
Autores:
Jamie Sleigh, Rebecca M. Pullon, Phillip E. Vlisides, Catherine E. Warnaby
Publicado en:
British Journal of Anaesthesia, Edición 123/5, 2019, Página(s) 592-600, ISSN 0007-0912
Editor:
Oxford University Press
DOI:
10.1016/j.bja.2019.07.021
Autores:
Julien Modolo, Mahmoud Hassan, Giulio Ruffini, Alexandre Legros
Publicado en:
Journal of Neural Engineering, 2019, ISSN 1741-2560
Editor:
Institute of Physics Publishing
DOI:
10.1088/1741-2552/ab97f7
Autores:
J. Sleigh, C. Warnaby, I. Tracey
Publicado en:
British Journal of Anaesthesia, Edición 121/1, 2018, Página(s) 233-240, ISSN 0007-0912
Editor:
Oxford University Press
DOI:
10.1016/j.bja.2017.12.038
Autores:
Majid Khalili Ardali, Aygul Rana, Mehdi Purmohammad, Niels Birbaumer, Ujwal Chaudhary
Publicado en:
Brain and Language, Edición 194, 2019, Página(s) 93-97, ISSN 0093-934X
Editor:
Academic Press
DOI:
10.1016/j.bandl.2019.05.004
Autores:
Azim Malekshahi, Ujwal Chaudhary, Andres Jaramillo-Gonzalez, Alberto Lucas Luna, Aygul Rana, Alessandro Tonin, Niels Birbaumer, Steffen Gais
Publicado en:
Sleep, Edición 42/12, 2019, ISSN 0161-8105
Editor:
The American Academy of Sleep Medicine
DOI:
10.1093/sleep/zsz185
Autores:
Yasuhisa Maruyama, Natsue Yoshimura, Aygul Rana, Azim Malekshahi, Alessandro Tonin, Andres Jaramillo-Gonzalez, Niels Birbaumer, Ujwal Chaudhary
Publicado en:
Neuroscience Research, 2020, ISSN 0168-0102
Editor:
Elsevier BV
DOI:
10.1016/j.neures.2020.01.013
Autores:
Ujwal Chaudhary, Natalie Mrachacz‐Kersting, Niels Birbaumer
Publicado en:
The Journal of Physiology, 2020, ISSN 0022-3751
Editor:
Blackwell Publishing Inc.
DOI:
10.1113/jp278775
Autores:
Jayro Martínez-Cerveró, Majid Khalili Ardali, Andres Jaramillo-Gonzalez, Shizhe Wu, Alessandro Tonin, Niels Birbaumer, Ujwal Chaudhary
Publicado en:
Sensors, Edición 20/9, 2020, Página(s) 2443, ISSN 1424-8220
Editor:
Multidisciplinary Digital Publishing Institute (MDPI)
DOI:
10.3390/s20092443
Autores:
Alessandro Tonin, Andres Jaramillo-Gonzalez, Aygul Rana, Majid Khalili-Ardali, Niels Birbaumer, Ujwal Chaudhary
Publicado en:
Scientific Reports, Edición 10/1, 2020, ISSN 2045-2322
Editor:
Nature Publishing Group
DOI:
10.1038/s41598-020-65333-1
Autores:
Katrin Sippel, Julia Moser, Franziska Schleger, Hubert Preissl, Wolfgang Rosenstiel, Martin Spüler
Publicado en:
Computer Methods and Programs in Biomedicine, Edición 173, 2019, Página(s) 35-41, ISSN 0169-2607
Editor:
Elsevier BV
DOI:
10.1016/j.cmpb.2019.02.016
Autores:
Julia Moser, Siouar Bensaid, Eleni Kroupi, Franziska Schleger, Fabrice Wendling, Giulio Ruffini, Hubert Preißl
Publicado en:
Frontiers in Systems Neuroscience, Edición 13, 2019, ISSN 1662-5137
Editor:
Frontiers Research Foundation
DOI:
10.3389/fnsys.2019.00023
Autores:
Alessandro Tonin, Niels Birbaumer, Ujwal Chaudhary
Publicado en:
Brain Sciences, Edición 8/7, 2018, Página(s) 126, ISSN 2076-3425
Editor:
Multidisciplinary Digital Publishing Institute (MDPI)
DOI:
10.3390/brainsci8070126
Autores:
Charlène Aubinet, Lesley Murphy, Mohamed A. Bahri, Stephen K. Larroque, Helena Cassol, Jitka Annen, Manon Carrière, Sarah Wannez, Aurore Thibaut, Steven Laureys, Olivia Gosseries
Publicado en:
Frontiers in Neurology, Edición 9, 2018, ISSN 1664-2295
Editor:
Frontiers Research Foundation
DOI:
10.3389/fneur.2018.00665
Autores:
Jennifer Rizkallah, Jitka Annen, Julien Modolo, Olivia Gosseries, Pascal Benquet, Sepehr Mortaheb, Hassan Amoud, Helena Cassol, Ahmad Mheich, Aurore Thibaut, Camille Chatelle, Mahmoud Hassan, Rajanikant Panda, Fabrice Wendling, Steven Laureys
Publicado en:
NeuroImage: Clinical, Edición 23, 2019, Página(s) 101841, ISSN 2213-1582
Editor:
Elsevier BV
DOI:
10.1016/j.nicl.2019.101841
Autores:
A. Demertzi, E. Tagliazucchi, S. Dehaene, G. Deco, P. Barttfeld, F. Raimondo, C. Martial, D. Fernández-Espejo, B. Rohaut, H. U. Voss, N. D. Schiff, A. M. Owen, S. Laureys, L. Naccache, J. D. Sitt
Publicado en:
Science Advances, Edición 5/2, 2019, Página(s) eaat7603, ISSN 2375-2548
Editor:
AAAS
DOI:
10.1126/sciadv.aat7603
Autores:
Jennifer Rizkallah, Hassan Amoud, Matteo Fraschini, Fabrice Wendling, Mahmoud Hassan
Publicado en:
Brain Topography, Edición 33/2, 2020, Página(s) 151-160, ISSN 0896-0267
Editor:
Kluwer Academic/Plenum Publishers
DOI:
10.1007/s10548-020-00753-w
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