Your search keyword '"Leroy, Axelle"' showing total 40 results

1. Flow: Les mots de demain -- 1

Author

Chéron, Guy, Leroy, Axelle, Cebolla Alvarez, Ana Maria, Chéron, Guy, Leroy, Axelle, and Cebolla Alvarez, Ana Maria

Abstract

info:eu-repo/semantics/published, 1

Published

2024

2. Downregulation of the Glial GLT1 Glutamate Transporter and Purkinje Cell Dysfunction in a Mouse Model of Myotonic Dystrophy

Author

Sicot, Géraldine, Servais, Laurent, Dinca, Diana M., Leroy, Axelle, Prigogine, Cynthia, Medja, Fadia, Braz, Sandra O., Huguet-Lachon, Aline, Chhuon, Cerina, Nicole, Annie, Gueriba, Noëmy, Oliveira, Ruan, Dan, Bernard, Furling, Denis, Swanson, Maurice S., Guerrera, Ida Chiara, Cheron, Guy, Gourdon, Geneviève, and Gomes-Pereira, Mário

Published

2017

3. Riemannian classification of single-trial surface EEG and sources during checkerboard and navigational images in humans.

Author

Simar, Cédric, Petit, Robin, Bozga, Nichita, Leroy, Axelle, Cebolla Alvarez, Ana Maria, Petieau, Mathieu, Bontempi, Gianluca, Chéron, Guy, Simar, Cédric, Petit, Robin, Bozga, Nichita, Leroy, Axelle, Cebolla Alvarez, Ana Maria, Petieau, Mathieu, Bontempi, Gianluca, and Chéron, Guy

Abstract

Different visual stimuli are classically used for triggering visual evoked potentials comprising well-defined components linked to the content of the displayed image. These evoked components result from the average of ongoing EEG signals in which additive and oscillatory mechanisms contribute to the component morphology. The evoked related potentials often resulted from a mixed situation (power variation and phase-locking) making basic and clinical interpretations difficult. Besides, the grand average methodology produced artificial constructs that do not reflect individual peculiarities. This motivated new approaches based on single-trial analysis as recently used in the brain-computer interface field., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2022

4. Riemannian classification of single-trial surface EEG and sources during checkerboard and navigational images in humans

Author

Simar, Cédric, primary, Petit, Robin, additional, Bozga, Nichita, additional, Leroy, Axelle, additional, Cebolla, Ana-Maria, additional, Petieau, Mathieu, additional, Bontempi, Gianluca, additional, and Cheron, Guy, additional

Published

2022

5. Egocentric Dynamic Planar Organization of the Angular Movements of the Arm During a Violinist's Performance of a Mozart Symphony

Author

Chéron, Guy, Petieau, Mathieu, Cebolla Alvarez, Ana Maria, Simar, Cédric, Leroy, Axelle, Chéron, Guy, Petieau, Mathieu, Cebolla Alvarez, Ana Maria, Simar, Cédric, and Leroy, Axelle

Abstract

info:eu-repo/semantics/published

Published

2021

6. Neural generators involved in visual cue processing in children with attention-deficit/hyperactivity disorder (ADHD)

Author

Zarka, David, Leroy, Axelle, Cebolla Alvarez, Ana Maria, Cevallos Barragan, Carlos, Palmero Soler, Ernesto, Chéron, Guy, Zarka, David, Leroy, Axelle, Cebolla Alvarez, Ana Maria, Cevallos Barragan, Carlos, Palmero Soler, Ernesto, and Chéron, Guy

Abstract

Event-related potentials (ERP) studies report alterations in the ongoing visuo-attentional processes in children with attention-deficit/hyperactivity disorder (ADHD). We hypothesized that the neural generators progressively recruited after a cue stimulus imply executive-related areas well before engagement in executive processing in children with ADHD compared to typically developed children (TDC). We computed source localization (swLORETA) of the ERP and ERSP evoked by the Cue stimulus during a visual Cue-Go/Nogo paradigm in 15 ADHD compared to 16 TDC. A significant difference in N200/P200 amplitude over the right centro-frontal regions was observed between ADHD and TDC, supported by a stronger contribution of the left visuo-motor coordination area, premotor cortex, and prefrontal cortex in ADHD. In addition, we recorded a greater beta power spectrum in ADHD during the 80–230 ms interval, which was explained by increased activity in occipito-parieto-central areas and lower activity in the left supramarginal gyrus and prefrontal areas in ADHD. Successive analysis of the ERP generators (0–500 ms with successive periods of 50 ms) revealed significant differences beginning at 50 ms, with higher activity in the ventral anterior cingulate cortex, premotor cortex, and fusiform gyrus, and ending at 400–500 ms with higher activity of the dorsolateral prefrontal cortex and lower activity of the posterior cingulate cortex in ADHD compared to TDC. The areas contributing to ERP in ADHD and TDC differ from the early steps of visuo-attentional processing and reveal an overinvestment of the executive networks interfering with the activity of the dorsal attention network in children with ADHD., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2020

7. EEG-based brain-computer interface for alpha speed control of a small robot using the MUSE headband

Author

Simar, Cédric, Petieau, Mathieu, Cebolla Alvarez, Ana Maria, Leroy, Axelle, Bontempi, Gianluca, Chéron, Guy, Simar, Cédric, Petieau, Mathieu, Cebolla Alvarez, Ana Maria, Leroy, Axelle, Bontempi, Gianluca, and Chéron, Guy

Abstract

Non-invasive BMI applications are increasingly used in different contexts ranging from industrial, clinical and gaming. After having tested the difference between a classical EEG recorder with electroconductive gel (ANT system) and the MUSE EEG headband, we studied the BCI performances of the later during the control of a small robot. We demonstrated that the participants were able to successfully control the robot using an online brain-computer interface based on the signal power in different frequency bands (delta, theta and alpha) characterizing the eyes-opened and relaxed eyes-closed states. Additionally, we performed a correlation analysis which demonstrated that the BCI commands were more related to a delta or theta power decrease for the determination of the classifier output probability and to the alpha power increase for the speed control of the robot., info:eu-repo/semantics/published

Published

2020

8. EEG dynamics and neural generators of psychological flow during one tightrope performance

Author

Leroy, Axelle, Chéron, Guy, Leroy, Axelle, and Chéron, Guy

Abstract

Psychological “flow” emerges from a goal requiring action, and a match between skills and challenge. Using high-density electroencephalographic (EEG) recording, we quantified the neural generators characterizing psychological “flow” compared to a mindful “stress” state during a professional tightrope performance. Applying swLORETA based on self-reported mental states revealed the right superior temporal gyrus (BA38), right globus pallidus, and putamen as generators of delta, alpha, and beta oscillations, respectively, when comparing “flow” versus “stress”. Comparison of “stress” versus “flow” identified the middle temporal gyrus (BA39) as the delta generator, and the medial frontal gyrus (BA10) as the alpha and beta generator. These results support that “flow” emergence required transient hypo-frontality. Applying swLORETA on the motor command represented by the tibialis anterior EMG burst identified the ipsilateral cerebellum and contralateral sensorimotor cortex in association with on-line control exerted during both “flow” and “stress”, while the basal ganglia was identified only during “flow”., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2020

9. Neural generators involved in visual cue processing in children with attention‐deficit/hyperactivity disorder (ADHD)

Author

Zarka, David, primary, Leroy, Axelle, additional, Cebolla, Ana Maria, additional, Cevallos, Carlos, additional, Palmero‐Soler, Ernesto, additional, and Cheron, Guy, additional

Published

2020

10. EEG-based brain-computer interface for alpha speed control of a small robot using the MUSE headband

Author

Simar, Cedric, primary, Petieau, Mathieu, additional, Cebolla, Anita, additional, Leroy, Axelle, additional, Bontempi, Gianluca, additional, and Cheron, Guy, additional

Published

2020

11. Pure phase-locking of beta/gamma oscillation contributes to the N30 frontal component of somatosensory evoked potentials

Author

Leroy Axelle, Leurs Françoise, Bengoetxea Ana, De Saedeleer Caty, Cebolla Ana, Cheron Guy, and Dan Bernard

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495

Abstract

Abstract Background Evoked potentials have been proposed to result from phase-locking of electroencephalographic (EEG) activities within specific frequency bands. However, the respective contribution of phasic activity and phase resetting of ongoing EEG oscillation remains largely debated. We here applied the EEGlab procedure in order to quantify the contribution of electroencephalographic oscillation in the generation of the frontal N30 component of the somatosensory evoked potentials (SEP) triggered by median nerve electrical stimulation at the wrist. Power spectrum and intertrial coherence analysis were performed on EEG recordings in relation to median nerve stimulation. Results The frontal N30 component was accompanied by a significant phase-locking of beta/gamma oscillation (25–35 Hz) and to a lesser extent of 80 Hz oscillation. After the selection in each subject of the trials for which the power spectrum amplitude remained unchanged, we found pure phase-locking of beta/gamma oscillation (25–35 Hz) peaking about 30 ms after the stimulation. Transition across trials from uniform to normal phase distribution revealed temporal phase reorganization of ongoing 30 Hz EEG oscillations in relation to stimulation. In a proportion of trials, this phase-locking was accompanied by a spectral power increase peaking in the 30 Hz frequency band. This corresponds to the complex situation of 'phase-locking with enhancement' in which the distinction between the contribution of phasic neural event versus EEG phase resetting is hazardous. Conclusion The identification of a pure phase-locking in a large proportion of the SEP trials reinforces the contribution of the oscillatory model for the physiological correlates of the frontal N30. This may imply that ongoing EEG rhythms, such as beta/gamma oscillation, are involved in somatosensory information processing.

Published

2007

12. ÉVALUATION ET AMÉLIORATION DES CAPACITÉS MOTRICES D'ENFANTS INFIRMES MOTEURS CÉRÉBRAUX CONGOLAIS ÂGES DE 6 Â 15 ANS

Author

Chéron, Guy, Leroy, Axelle, Schepens, Bénédicte, Humblet, Claire Perrine, Zintz, Thierry, Azzi, Aassad, M'Lembakani T'Hengua, Félicien, Chéron, Guy, Leroy, Axelle, Schepens, Bénédicte, Humblet, Claire Perrine, Zintz, Thierry, Azzi, Aassad, and M'Lembakani T'Hengua, Félicien

Abstract

Evaluation et amélioration des capacités motrices d’enfants infirmes moteurs cérébraux congolais âgés de 6 à 15 ansTHESE de Félicien M’LEMBAKANI T’HENGUA (Lic. Agr. Ed. Phys.)Laboratoire de Neurophysiologie et de Biomécanique du Mouvement. Faculté des Sciences de la MotricitéUNIVERSITE LIBRE DE BRUXELLES (U. L. B.)RESUMEAu cours de ce travail nous avons mesuré les capacités psychomotrices potentielles chez des enfants IMC congolais à Kinshasa dans deux Centre de Rééducation (CRHP et CREBD) et dans le Complexe Scolaire du Mont Amba (UNIKIN) en vue de proposer des programmes adaptés de prise en charge pour améliorer leurs capacités et aptitudes motrices et comportementales. Ceci dans le but aussi d’améliorer leur intégration scolaire et ainsi parvenir à une meilleure immersion familiale et sociétale. Proposer des solutions en ces matières permettrait de faire face à la situation actuelle et ensuite de proposer des solutions relatives aux deux problèmes majeurs des enfants IMC en RDC :- (1) les déficiences motrices dues à des lésions cérébrales irréversibles, - (2) les mépris, totales exclusions, rejet et abandons dont ces enfants sont continuellement victimes de la part des familles et de la société congolaise. Pour parvenir à ces objectifs, nous avons d’abord testés à l’aide de l’échelle de développement psychomoteur de Lincoln-Oseretsky (LOMDS) 160 garçons et filles choisis de façon aléatoire parmi une population de 640 enfants dont 80 IMCs et 80 contrôles. Pour la suite de l’étude et afin d’évaluer les effets d’un entraînement de 9 mois aux activités physiques adaptées (APA), ces deux groupes ont été scindés chacun en deux sous-groupes de 40 sujets, un groupe participant à l’entraînement APA et l’autre servant de contrôle. Avant l’expérimentation APA, un important déficit moteur et psychologique a été mis en évidence chez les 80 enfants IMC par rapport aux 80 enfants contrôles du même âge. Nous n’avons pas observé de différence significative entre les genres. Nos r, Doctorat en Sciences de la motricité, info:eu-repo/semantics/nonPublished

Published

2018

13. Clinical contribution to the study of slow wave sleep in chronic fatigue

Author

Chéron, Guy, Verbanck, Paul, Leroy, Axelle, Peigneux, Philippe, Olivier Van Reeth, h, Mairesse, Olivier, Foucart, Jennifer, Neu, Daniel, Chéron, Guy, Verbanck, Paul, Leroy, Axelle, Peigneux, Philippe, Olivier Van Reeth, h, Mairesse, Olivier, Foucart, Jennifer, and Neu, Daniel

Abstract

Objectives: To investigate slow wave sleep (SWS) spectral power proportions in distinct clinical conditions sharing non-restorative sleep and fatigue complaints without excessive daytime sleepiness (EDS), namely the Chronic Fatigue Syndrome (CFS) and Primary Insomnia (PI). Impaired sleep homeostasis has been suspected in both CFS and PI. Methods: We compared perceived sleep quality, fatigue and sleepiness symptom-intensities, polysomnography (PSG) and SWS spectral power distributions of drug-free CFS and PI patients without comorbid sleep or mental disorders, with a good sleeper control group.Results: Higher fatigue without EDS and impaired perceived sleep quality were confirmed in both patient groups. PSG mainly differed in sleep fragmentation and SWS durations. Spectral analysis revealed a similar decrease in central ultra slow power (0.3-0.79Hz) proportion during SWS for both CFS and PI and an increase in frontal power proportions of faster frequencies during SWS in PI only. The latter was correlated to affective symptoms whereas lower central ultra slow power proportions were related to fatigue severity and sleep quality impairment. Conclusions: In combination with normal (PI) or even increased SWS durations (CFS), we found consistent evidence for lower proportions of slow oscillations during SWS in PI and CFS. Significance:Observing normal or increased SWS durations but lower proportions of ultra slow power, our findings suggest a possible quantitative compensation of altered homeostatic regulation., Doctorat en Sciences de la motricité, info:eu-repo/semantics/nonPublished

Published

2018

14. EEG Dynamics and Neural Generators in Implicit Navigational Image Processing in Adults with ADHD

Author

Leroy, Axelle, Petit, Géraldine, Zarka, David, Cebolla Alvarez, Ana Maria, Palmero Soler, Ernesto, Strul, J., Dan, Bernard, Verbanck, Paul, Chéron, Guy, Leroy, Axelle, Petit, Géraldine, Zarka, David, Cebolla Alvarez, Ana Maria, Palmero Soler, Ernesto, Strul, J., Dan, Bernard, Verbanck, Paul, and Chéron, Guy

Abstract

In contrast to childhood ADHD that is characterized by inattention, impulsivity and hyperactivity, most adults with ADHD predominantly exhibit inattention. We used a new oddball paradigm using implicit navigational images and analyzed EEG dynamics with swLORETA inverse modeling of the evoked potential generators to study cortical processing in adults with ADHD and age-matched controls. In passive observation, we demonstrated that P350 amplitude, alpha–beta oscillation event-related synchronization (ERS) anticipation, and beta event-related desynchronization (ERD) were significantly smaller in ADHD. In the active condition, P100 duration was reduced and N140 amplitude increased for both deviant and frequent conditions in the ADHD. Alpha ERS and delta-theta ERS were reduced in the ADHD in the deviant condition. The left somatosensory area (BA2) and the right parietal lobe (BA31, BA40) contributed more to the P100 generators in the control than in the ADHD group, while the left frontal lobe (BA10) contributed more to the P100 generators in the ADHD. The left inferior parietal lobe (BA40) contributed more to the N140 generators in the control than the ADHD group while the right posterior cingulate (BA30) contributed more to the N140 generators in the ADHD. These findings reinforce the notion that earlier cortical stages of visual processing are compromised in adult ADHD by inducing the emergence of different even-related potential generators and EEG dynamics in ADHD. Considering that classical approaches for ADHD diagnosis are based on qualitative clinical investigation possibly biased by subjectivity, EEG analysis is another objective tool that might contribute to diagnosis, future neurofeedback or brain stimulation therapies., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2018

15. Neural generators involved in visual cue processing in children with attention‐deficit/hyperactivity disorder (ADHD).

Author

Zarka, David, Leroy, Axelle, Cebolla, Ana Maria, Cevallos, Carlos, Palmero‐Soler, Ernesto, and Cheron, Guy

Subjects

*ATTENTION-deficit hyperactivity disorder, *FUSIFORM gyrus, *CINGULATE cortex, *PREMOTOR cortex, *PREFRONTAL cortex

Abstract

Event‐related potentials (ERP) studies report alterations in the ongoing visuo‐attentional processes in children with attention‐deficit/hyperactivity disorder (ADHD). We hypothesized that the neural generators progressively recruited after a cue stimulus imply executive‐related areas well before engagement in executive processing in children with ADHD compared to typically developed children (TDC). We computed source localization (swLORETA) of the ERP and ERSP evoked by the Cue stimulus during a visual Cue‐Go/Nogo paradigm in 15 ADHD compared to 16 TDC. A significant difference in N200/P200 amplitude over the right centro‐frontal regions was observed between ADHD and TDC, supported by a stronger contribution of the left visuo‐motor coordination area, premotor cortex, and prefrontal cortex in ADHD. In addition, we recorded a greater beta power spectrum in ADHD during the 80–230 ms interval, which was explained by increased activity in occipito‐parieto‐central areas and lower activity in the left supramarginal gyrus and prefrontal areas in ADHD. Successive analysis of the ERP generators (0–500 ms with successive periods of 50 ms) revealed significant differences beginning at 50 ms, with higher activity in the ventral anterior cingulate cortex, premotor cortex, and fusiform gyrus, and ending at 400–500 ms with higher activity of the dorsolateral prefrontal cortex and lower activity of the posterior cingulate cortex in ADHD compared to TDC. The areas contributing to ERP in ADHD and TDC differ from the early steps of visuo‐attentional processing and reveal an overinvestment of the executive networks interfering with the activity of the dorsal attention network in children with ADHD. [ABSTRACT FROM AUTHOR]

Published

2021

16. Short-term EEG dynamics and neural generators evoked by navigational images

Author

Leroy, Axelle, Cevallos Barragan, Carlos, Cebolla Alvarez, Ana Maria, Caharel, Stéphanie, Dan, Bernard, Chéron, Guy, Leroy, Axelle, Cevallos Barragan, Carlos, Cebolla Alvarez, Ana Maria, Caharel, Stéphanie, Dan, Bernard, and Chéron, Guy

Abstract

The ecological environment offered by virtual reality is primarily supported by visual information. The different image contents and their rhythmic presentation imply specific bottom-up and top-down processing. Because these processes already occur during passive observation we studied the brain responses evoked by the presentation of specific 3D virtual tunnels with respect to 2D checkerboard. For this, we characterized electroencephalograhy dynamics (EEG), the evoked potentials and related neural generators involved in various visual paradigms. Time-frequency analysis showed modulation of alpha-beta oscillations indicating the presence of stronger prediction and after-effects of the 3D-tunnel with respect to the checkerboard. Whatever the presented image, the generators of the P100 were situated bilaterally in the occipital cortex (BA18, BA19) and in the right inferior temporal cortex (BA20). In checkerboard but not 3D-tunnel presentation, the left fusiform gyrus (BA37) was additionally recruited. P200 generators were situated in the temporal cortex (BA21) and the cerebellum (lobule VI/Crus I) specifically for the checkerboard while the right parahippocampal gyrus (BA36) and the cerebellum (lobule IV/V and IX/X) were involved only during the 3D-tunnel presentation. For both type of image, P300 generators were localized in BA37 but also in BA19, the right BA21 and the cerebellar lobule VI for only the checkerboard and the left BA20-BA21 for only the 3D-tunnel. Stronger P300 delta-theta oscillations recorded in this later situation point to a prevalence of the effect of changing direction over the proper visual content of the 3D-tunnel. The parahippocampal gyrus (BA36) implicated in navigation was also identified when the 3D-tunnel was compared to their scrambled versions, highlighting an action-oriented effect linked to navigational content., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2017

17. EEG spectral generators involved in motor imagery: A swLORETA study

Author

Cebolla Alvarez, Ana Maria, Palmero Soler, Ernesto, Leroy, Axelle, Chéron, Guy, Cebolla Alvarez, Ana Maria, Palmero Soler, Ernesto, Leroy, Axelle, and Chéron, Guy

Abstract

In order to characterize the neural generators of the brain oscillations related to motor imagery (MI), we investigated the cortical, subcortical, and cerebellar localizations of their respective electroencephalogram (EEG) spectral power and phase locking modulations. The MI task consisted in throwing a ball with the dominant upper limb while in a standing posture, within an ecological virtual reality (VR) environment (tennis court). The MI was triggered by the visual cues common to the control condition, during which the participant remained mentally passive. As previously developed, our paradigm considers the confounding problem that the reference condition allows two complementary analyses: one which uses the baseline before the occurrence of the visual cues in the MI and control resting conditions respectively; and the other which compares the analog periods between the MI and the control resting-state conditions. We demonstrate that MI activates specific, complex brain networks for the power and phase modulations of the EEG oscillations. An early (225 ms) delta phase-locking related to MI was generated in the thalamus and cerebellum and was followed (480 ms) by phase-locking in theta and alpha oscillations, generated in specific cortical areas and the cerebellum. Phase-locking preceded the power modulations (mainly alpha-beta ERD), whose cortical generators were situated in the frontal BA45, BA11, BA10, central BA6, lateral BA13, and posterior cortex BA2. Cerebellar-thalamic involvement through phase-locking is discussed as an underlying mechanism for recruiting at later stages the cortical areas involved in a cognitive role during MI., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2017

18. EEG Dynamics of a Go/Nogo Task in Children with ADHD.

Author

Baijot, Simon, Cevallos Barragan, Carlos, Zarka, David, Leroy, Axelle, Slama, Hichem, Colin, Cécile, Deconinck, Nicolas, Danna, Brunella, Chéron, Guy, Baijot, Simon, Cevallos Barragan, Carlos, Zarka, David, Leroy, Axelle, Slama, Hichem, Colin, Cécile, Deconinck, Nicolas, Danna, Brunella, and Chéron, Guy

Abstract

Studies investigating event-related potential (ERP) evoked in a Cue-Go/NoGo paradigm have shown lower frontal N1, N2 and central P3 in children with attention-deficit/hyperactivity disorder (ADHD) compared to typically developing children (TDC). However, the electroencephalographic (EEG) dynamics underlying these ERPs remain largely unexplored in ADHD., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2017

19. EEG Dynamics of a Go/Nogo Task in Children with ADHD

Author

Baijot, Simon, primary, Cevallos, Carlos, additional, Zarka, David, additional, Leroy, Axelle, additional, Slama, Hichem, additional, Colin, Cecile, additional, Deconinck, Nicolas, additional, Dan, Bernard, additional, and Cheron, Guy, additional

Published

2017

20. EEG Spectral Generators Involved in Motor Imagery: A swLORETA Study

Author

Cebolla, Ana-Maria, primary, Palmero-Soler, Ernesto, additional, Leroy, Axelle, additional, and Cheron, Guy, additional

Published

2017

21. Short-term EEG dynamics and neural generators evoked by navigational images

Author

Leroy, Axelle, primary, Cevallos, Carlos, additional, Cebolla, Ana-Maria, additional, Caharel, Stéphanie, additional, Dan, Bernard, additional, and Cheron, Guy, additional

Published

2017

22. Brain Oscillations in Sport: Toward EEG Biomarkers of Performance.

Author

ULB - Laboratory of Neurophysiology and Movement Biomechanics, Cheron, Guy, Petit, Géraldine, Cheron, Julian, Leroy, Axelle, Cebolla, Anita, Cevallos, Carlos, Petieau, Mathieu, ULB - Laboratory of Neurophysiology and Movement Biomechanics, Cheron, Guy, Petit, Géraldine, Cheron, Julian, Leroy, Axelle, Cebolla, Anita, Cevallos, Carlos, and Petieau, Mathieu

Published

2016

23. Brain Oscillations in Sport: Toward EEG Biomarkers of Performance

Author

Chéron, Guy, Petit, Géraldine, Cheron, Julian, Leroy, Axelle, Cebolla, Ana Maria, Cevallos Barragan, Carlos, Petieau, Mathieu, Hoellinger, Thomas, Zarka, David, Clarinvale, Anne Marie, Dan, Bernard, Chéron, Guy, Petit, Géraldine, Cheron, Julian, Leroy, Axelle, Cebolla, Ana Maria, Cevallos Barragan, Carlos, Petieau, Mathieu, Hoellinger, Thomas, Zarka, David, Clarinvale, Anne Marie, and Dan, Bernard

Abstract

info:eu-repo/semantics/published

Published

2016

24. Dynamiques des ryhtmes cérébraux (EEG) dans une tâche Cue-Go/Nogo chez l’enfant TDA/h

Author

4ème colloque international de langue française sur le TDA/H (23-25 juin: Bruxelles), Baijot, Simon, Cevallos Barragan, Carlos, Zarka, David, Leroy, Axelle, Slama, Hichem, Colin, Cécile, Deconinck, Nicolas, Dan, Bernard, Chéron, Guy, 4ème colloque international de langue française sur le TDA/H (23-25 juin: Bruxelles), Baijot, Simon, Cevallos Barragan, Carlos, Zarka, David, Leroy, Axelle, Slama, Hichem, Colin, Cécile, Deconinck, Nicolas, Dan, Bernard, and Chéron, Guy

Abstract

info:eu-repo/semantics/published

Published

2016

25. Brain Oscillations in Sport: Toward EEG Biomarkers of Performance

Author

Cheron, Guy, primary, Petit, Géraldine, additional, Cheron, Julian, additional, Leroy, Axelle, additional, Cebolla, Anita, additional, Cevallos, Carlos, additional, Petieau, Mathieu, additional, Hoellinger, Thomas, additional, Zarka, David, additional, Clarinval, Anne-Marie, additional, and Dan, Bernard, additional

Published

2016

26. Long-lasting cortical reorganization as the result of motor imagery of throwing a ball in a virtual tennis court

Author

Cebolla Alvarez, Ana Maria, Petieau, Mathieu, Cevallos Barragan, Carlos, Leroy, Axelle, Dan, Bernard, Chéron, Guy, Cebolla Alvarez, Ana Maria, Petieau, Mathieu, Cevallos Barragan, Carlos, Leroy, Axelle, Dan, Bernard, and Chéron, Guy

Abstract

In order to characterize the neural signature of a motor imagery (MI) task, the present study investigates for the first time the oscillation characteristics including both of the time-frequency measurements, event related spectral perturbation and intertrial coherence (ITC) underlying the variations in the temporal measurements (event related potentials, ERP) directly related to a MI task. We hypothesize that significant variations in both of the time-frequency measurements underlie the specific changes in the ERP directly related to MI. For the MI task, we chose a simple everyday task (throwing a tennis ball), that does not require any particular motor expertise, set within the controlled virtual reality scenario of a tennis court. When compared to the rest condition a consistent, long-lasting negative fronto-central ERP wave was accompanied by significant changes in both time frequency measurements suggesting long-lasting cortical activity reorganization. The ERP wave was characterized by two peaks at about 300 ms (N300) and 1000 ms (N1000). The N300 component was centrally localized on the scalp and was accompanied by significant phase consistency in the delta brain rhythms in the contralateral central scalp areas. The N1000 component spread wider centrally and was accompanied by a significant power decrease (or event related desynchronization) in low beta brain rhythms localized in fronto-precentral and parieto-occipital scalp areas and also by a significant power increase (or event related synchronization) in theta brain rhythms spreading fronto-centrally. During the transition from N300 to N1000, a contralateral alpha (mu) as well as post-central and parieto-theta rhythms occurred. The visual representation of movement formed in the minds of participants might underlie a top-down process from the fronto-central areas which is reflected by the amplitude changes observed in the fronto-central ERPs and by the significant phase synchrony in contralateral fronto-c, SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2015

27. Long-Lasting Cortical Reorganization as the Result of Motor Imagery of Throwing a Ball in a Virtual Tennis Court

Author

Cebolla, Ana M., primary, Petieau, Mathieu, additional, Cevallos, Carlos, additional, Leroy, Axelle, additional, Dan, Bernard, additional, and Cheron, Guy, additional

Published

2015

28. Gravity influences top-down signals in visual processing

Author

Chéron, Guy, Leroy, Axelle, Palmero Soler, Ernesto, De Saedeleer, Caty, Bengoetxea, Ana, Cebolla, Ana Maria, Vidal, Manuel, Dan, Bernard, Berthoz, Alain, McIntyre, Joseph, Chéron, Guy, Leroy, Axelle, Palmero Soler, Ernesto, De Saedeleer, Caty, Bengoetxea, Ana, Cebolla, Ana Maria, Vidal, Manuel, Dan, Bernard, Berthoz, Alain, and McIntyre, Joseph

Abstract

Visual perception is not only based on incoming visual signals but also on information about a multimodal reference frame that incorporates vestibulo-proprioceptive input and motor signals. In addition, top-down modulation of visual processing has previously been demonstrated during cognitive operations including selective attention and working memory tasks. In the absence of a stable gravitational reference, the updating of salient stimuli becomes crucial for successful visuo-spatial behavior by humans in weightlessness. Here we found that visually-evoked potentials triggered by the image of a tunnel just prior to an impending 3D movement in a virtual navigation task were altered in weightlessness aboard the International Space Station, while those evoked by a classical 2D-checkerboard were not. Specifically, the analysis of event-related spectral perturbations and inter-trial phase coherency of these EEG signals recorded in the frontal and occipital areas showed that phase-locking of theta-alpha oscillations was suppressed in weightlessness, but only for the 3D tunnel image. Moreover, analysis of the phase of the coherency demonstrated the existence on Earth of a directional flux in the EEG signals from the frontal to the occipital areas mediating a top-down modulation during the presentation of the image of the 3D tunnel. In weightlessness, this fronto-occipital, top-down control was transformed into a diverging flux from the central areas toward the frontal and occipital areas. These results demonstrate that gravity-related sensory inputs modulate primary visual areas depending on the affordances of the visual scene. © 2014 Cheron et al., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2014

29. Microstates in ADHD children during a visual cued GO/NOGO task

Author

26th Annual Meeting of the European Academy of Childhood Disability (3-5 juillet: Vienne, Autriche), Cevallos Barragan, Carlos, Baijot, Simon, Hoellinger, Thomas, Colin, Cécile, Leroy, Axelle, Zarka, David, Deconinck, Nicolas, Chéron, Guy, Dan, Bernard, 26th Annual Meeting of the European Academy of Childhood Disability (3-5 juillet: Vienne, Autriche), Cevallos Barragan, Carlos, Baijot, Simon, Hoellinger, Thomas, Colin, Cécile, Leroy, Axelle, Zarka, David, Deconinck, Nicolas, Chéron, Guy, and Dan, Bernard

Abstract

info:eu-repo/semantics/nonPublished

Published

2014

30. Gravity Influences Top-Down Signals in Visual Processing

Author

Cheron, Guy, primary, Leroy, Axelle, additional, Palmero-Soler, Ernesto, additional, De Saedeleer, Caty, additional, Bengoetxea, Ana, additional, Cebolla, Ana-Maria, additional, Vidal, Manuel, additional, Dan, Bernard, additional, Berthoz, Alain, additional, and McIntyre, Joseph, additional

Published

2014

31. DUX4c is up-regulated in FSHD. It induces the MYF5 protein and human myoblast proliferation.

Author

Ansseau, Eugénie, Laoudj-Chenivesse, Dalila, Marcowycz, Aline, Tassin, Alexandra, Vanderplanck, Céline, Sauvage, Sébastien, Barro, Marietta, Mahieu, Isabelle, Leroy, Axelle, Leclercq, India, Mainfroid, Véronique, Figlewicz, Denise, Mouly, Vincent, Butler-Browne, Gillian, Belayew, Alexandra, Coppee, Frédérique, Ansseau, Eugénie, Laoudj-Chenivesse, Dalila, Marcowycz, Aline, Tassin, Alexandra, Vanderplanck, Céline, Sauvage, Sébastien, Barro, Marietta, Mahieu, Isabelle, Leroy, Axelle, Leclercq, India, Mainfroid, Véronique, Figlewicz, Denise, Mouly, Vincent, Butler-Browne, Gillian, Belayew, Alexandra, and Coppee, Frédérique

Abstract

Facioscapulohumeral muscular dystrophy (FSHD) is a dominant disease linked to contractions of the D4Z4 repeat array in 4q35. We have previously identified a double homeobox gene (DUX4) within each D4Z4 unit that encodes a transcription factor expressed in FSHD but not control myoblasts. DUX4 and its target genes contribute to the global dysregulation of gene expression observed in FSHD. We have now characterized the homologous DUX4c gene mapped 42 kb centromeric of the D4Z4 repeat array. It encodes a 47-kDa protein with a double homeodomain identical to DUX4 but divergent in the carboxyl-terminal region. DUX4c was detected in primary myoblast extracts by Western blot with a specific antiserum, and was induced upon differentiation. The protein was increased about 2-fold in FSHD versus control myotubes but reached 2-10-fold induction in FSHD muscle biopsies. We have shown by Western blot and by a DNA-binding assay that DUX4c over-expression induced the MYF5 myogenic regulator and its DNA-binding activity. DUX4c might stabilize the MYF5 protein as we detected their interaction by co-immunoprecipitation. In keeping with the known role of Myf5 in myoblast accumulation during mouse muscle regeneration DUX4c over-expression activated proliferation of human primary myoblasts and inhibited their differentiation. Altogether, these results suggested that DUX4c could be involved in muscle regeneration and that changes in its expression could contribute to the FSHD pathology., Journal Article, Research Support, Non-U.S. Gov't, info:eu-repo/semantics/published

Published

2009

32. Adaptive changes of rhythmic EEG oscillations in space implications for brain-machine interface applications

Author

Chéron, Guy, Cebolla, Ana Maria, Petieau, Mathieu, Bengoetxea, Ana, Palmero Soler, Ernesto, Leroy, Axelle, Dan, Bernard, Chéron, Guy, Cebolla, Ana Maria, Petieau, Mathieu, Bengoetxea, Ana, Palmero Soler, Ernesto, Leroy, Axelle, and Dan, Bernard

Abstract

The dramatic development of brain machine interfaces has enhanced the use of human brain signals conveying mental action for controlling external actuators. This chapter will outline current evidences that the rhythmic electroencephalographic activity of the brain is sensitive to microgravity environment. Experiments performed in the International Space Station have shown significant changes in the power of the astronauts' alpha and mu oscillations in resting condition, and other adaptive modifications in the beta and gamma frequency range during the immersion in virtual navigation. In this context, the dynamic aspects of the resting or default condition of the awaken brain, the influence of the "top-down" dynamics, and the possibility to use a more constrained configuration by a new somatosensory-evoked potential (gating approach) are discussed in the sense of future uses of brain computing interface in space mission. Although, the state of the art of the noninvasive BCI approach clearly demonstrates their ability and the great expectance in the field of rehabilitation for the restoration of defective communication between the brain and external world, their future application in space mission urgently needs a better understanding of brain neurophysiology, in particular in aspects related to neural network rhythmicity in microgravity., Journal Article, Research Support, Non-U.S. Gov't, Review, info:eu-repo/semantics/published

Published

2009

33. Pure phase-locking of beta/gamma oscillation contributes to the N30 frontal component of somatosensory evoked potentials.

Author

Chéron, Guy, Cebolla, Ana Maria, De Saedeleer, Caty, Bengoetxea, Ana, Leurs, Françoise, Leroy, Axelle, Dan, Bernard, Chéron, Guy, Cebolla, Ana Maria, De Saedeleer, Caty, Bengoetxea, Ana, Leurs, Françoise, Leroy, Axelle, and Dan, Bernard

Abstract

BACKGROUND: Evoked potentials have been proposed to result from phase-locking of electroencephalographic (EEG) activities within specific frequency bands. However, the respective contribution of phasic activity and phase resetting of ongoing EEG oscillation remains largely debated. We here applied the EEGlab procedure in order to quantify the contribution of electroencephalographic oscillation in the generation of the frontal N30 component of the somatosensory evoked potentials (SEP) triggered by median nerve electrical stimulation at the wrist. Power spectrum and intertrial coherence analysis were performed on EEG recordings in relation to median nerve stimulation. RESULTS: The frontal N30 component was accompanied by a significant phase-locking of beta/gamma oscillation (25-35 Hz) and to a lesser extent of 80 Hz oscillation. After the selection in each subject of the trials for which the power spectrum amplitude remained unchanged, we found pure phase-locking of beta/gamma oscillation (25-35 Hz) peaking about 30 ms after the stimulation. Transition across trials from uniform to normal phase distribution revealed temporal phase reorganization of ongoing 30 Hz EEG oscillations in relation to stimulation. In a proportion of trials, this phase-locking was accompanied by a spectral power increase peaking in the 30 Hz frequency band. This corresponds to the complex situation of 'phase-locking with enhancement' in which the distinction between the contribution of phasic neural event versus EEG phase resetting is hazardous. CONCLUSION: The identification of a pure phase-locking in a large proportion of the SEP trials reinforces the contribution of the oscillatory model for the physiological correlates of the frontal N30. This may imply that ongoing EEG rhythms, such as beta/gamma oscillation, are involved in somatosensory information processing., Comparative Study, Journal Article, Research Support, Non-U.S. Gov't, info:eu-repo/semantics/published

Published

2007

34. Mu and alpha EEG rhythms during the arrest reaction in microgravity

Author

Chéron, Guy, Leroy, Axelle, De Saedeleer, Caty, Bengoetxea, Ana, Cebolla, Ana Maria, Leurs, Françoise, Dan, Bernard, Berthoz, Alain, McIntyre, Joseph, Chéron, Guy, Leroy, Axelle, De Saedeleer, Caty, Bengoetxea, Ana, Cebolla, Ana Maria, Leurs, Françoise, Dan, Bernard, Berthoz, Alain, and McIntyre, Joseph

Abstract

Mu and alpha oscillations (8-12 Hz) are the most prominent electroencephalographic rhythms observed in awake, relaxed subjects. Different cortical sources may participate in these oscillations and appear to be modulated by the sensorimotor context and functional demands. In microgravity, the marked reduction in multimodal graviceptive inputs to cortical networks participating in the representation of space could be expected to affect these spontaneous rhythms. Here, we report the results of an experiment conducted over the course of 3 space flights, in which we quantified the power of the mu and alpha rhythms in relation to the arrest reaction (i.e. in 2 distinct physiological states: eyes open and eyes closed). We observed that the power of the spontaneous mu and alpha rhythms recorded in the eyesclosed state in the sensorimotor areas (mu rhythm) and in the parieto-occipital cortex (alpha rhythm) increased in microgravity. The suppression coefficient produced by eye-opening/ closure state transition also increased in microgravity. These results are discussed in terms of current theories on the source and the physiological significance of these EEG rhythms. © 2007 Z-Tec Publishing., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2007

35. Effect of gravity on human spontaneous 10-Hz electroencephalographic oscillations during the arrest reaction.

Author

Chéron, Guy, Leroy, Axelle, De Saedeleer, Caty, Bengoetxea, Ana, Lipshits, Mark, Cebolla, Ana Maria, Servais, Laurent, Dan, Bernard, Berthoz, A, McIntyre, Joseph, Chéron, Guy, Leroy, Axelle, De Saedeleer, Caty, Bengoetxea, Ana, Lipshits, Mark, Cebolla, Ana Maria, Servais, Laurent, Dan, Bernard, Berthoz, A, and McIntyre, Joseph

Abstract

Electroencephalographic oscillations at 10 Hz (alpha and mu rhythms) are the most prominent rhythms observed in awake, relaxed (eye-closed) subjects. These oscillations may be considered as a marker of cortical inactivity or an index of the active inhibition of the sensory information. Different cortical sources may participate in the 10-Hz oscillation and appear to be modulated by the sensory context and functional demands. In microgravity, the marked reduction in multimodal graviceptive inputs to cortical networks participating in the representation of space could be expected to affect the 10-Hz activity. The effect of microgravity on this basic oscillation has heretofore not been studied quantitatively. Because the alpha rhythm has a functional role in the regulation of network properties of the visual areas, we hypothesised that the absence of gravity would affect its strength. Here, we report the results of an experiment conducted over the course of 3 space flights, in which we quantified the power of the 10-Hz activity in relation to the arrest reaction (i.e. in 2 distinct physiological states: eyes open and eyes closed). We observed that the power of the spontaneous 10-Hz oscillation recorded in the eyes-closed state in the parieto-occipital (alpha rhythm) and sensorimotor areas (mu rhythm) increased in the absence of gravity. The suppression coefficient during the arrest reaction and the related spectral perturbations produced by eye-opening/closure state transition also increased in on orbit. These results are discussed in terms of current theories on the source and the importance of the alpha rhythm for cognitive function., Journal Article, Research Support, Non-U.S. Gov't, info:eu-repo/semantics/published

Published

2006

36. Contribution à l'analyse des signaux cérébraux liés à la navigation virtuelle en microgravité

Author

Chéron, Guy, Leroy, Axelle, Chéron, Guy, and Leroy, Axelle

Abstract

Doctorat en Sciences de la motricité, info:eu-repo/semantics/nonPublished

Published

2006

37. Les neurosciences spatiales :l’électroencéphalographie dans la navigation virtuelle.

Author

Chéron, Guy, Leroy, Axelle, Bengoetxea, Ana, De Saedeleer, Caty, Cebolla Alvarez, Ana Maria, Lipshits, Mark, McIntyre, Joseph, Chéron, Guy, Leroy, Axelle, Bengoetxea, Ana, De Saedeleer, Caty, Cebolla Alvarez, Ana Maria, Lipshits, Mark, and McIntyre, Joseph

Abstract

info:eu-repo/semantics/published

Published

2006

38. DUX4c Is Up-Regulated in FSHD. It Induces the MYF5 Protein and Human Myoblast Proliferation

Author

Ansseau, Eugénie, primary, Laoudj-Chenivesse, Dalila, additional, Marcowycz, Aline, additional, Tassin, Alexandra, additional, Vanderplanck, Céline, additional, Sauvage, Sébastien, additional, Barro, Marietta, additional, Mahieu, Isabelle, additional, Leroy, Axelle, additional, Leclercq, India, additional, Mainfroid, Véronique, additional, Figlewicz, Denise, additional, Mouly, Vincent, additional, Butler-Browne, Gillian, additional, Belayew, Alexandra, additional, and Coppée, Frédérique, additional

Published

2009

39. Pure phase-locking of beta/gamma oscillation contributes to the N30 frontal component of somatosensory evoked potentials

Author

Cheron, Guy, primary, Cebolla, Ana Maria, additional, De Saedeleer, Caty, additional, Bengoetxea, Ana, additional, Leurs, Françoise, additional, Leroy, Axelle, additional, and Dan, Bernard, additional

Published

2007

40. Clinical contribution to the study of slow wave sleep in chronic fatigue

Author

Neu, Daniel, Chéron, Guy, Verbanck, Paul, Leroy, Axelle, Peigneux, Philippe, Olivier Van Reeth, h, Mairesse, Olivier, and Foucart, Jennifer

Subjects

Neurophysiologie, mental disorders, fatigue, sleepiness, polysomnography, sleep, psychological phenomena and processes

Abstract

Objectives: To investigate slow wave sleep (SWS) spectral power proportions in distinct clinical conditions sharing non-restorative sleep and fatigue complaints without excessive daytime sleepiness (EDS), namely the Chronic Fatigue Syndrome (CFS) and Primary Insomnia (PI). Impaired sleep homeostasis has been suspected in both CFS and PI. Methods: We compared perceived sleep quality, fatigue and sleepiness symptom-intensities, polysomnography (PSG) and SWS spectral power distributions of drug-free CFS and PI patients without comorbid sleep or mental disorders, with a good sleeper control group.Results: Higher fatigue without EDS and impaired perceived sleep quality were confirmed in both patient groups. PSG mainly differed in sleep fragmentation and SWS durations. Spectral analysis revealed a similar decrease in central ultra slow power (0.3-0.79Hz) proportion during SWS for both CFS and PI and an increase in frontal power proportions of faster frequencies during SWS in PI only. The latter was correlated to affective symptoms whereas lower central ultra slow power proportions were related to fatigue severity and sleep quality impairment. Conclusions: In combination with normal (PI) or even increased SWS durations (CFS), we found consistent evidence for lower proportions of slow oscillations during SWS in PI and CFS. Significance:Observing normal or increased SWS durations but lower proportions of ultra slow power, our findings suggest a possible quantitative compensation of altered homeostatic regulation., Doctorat en Sciences de la motricité, info:eu-repo/semantics/nonPublished

Published

2018