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Charalambos Papaxanthis

profil-pics
  • Professeur
  • Directeur du laboratoire CAPS, UMR INSERM 1093.
  • charalambos.papaxanthis@u-bourgogne.fr
  • 03 80 39 67 48
  • 03 80 39 67 49
  • Bureau n°124
  • Laboratoire INSERM U1093
    Université de Bourgogne
    Faculté des Sciences du Sport (UFR Staps)
    BP 27877
    21078 Dijon

PROFIL

Neuroscience, contrôle moteur, apprentissage moteur, plasticité sensorimotrice cognition motrice.

1991 DEA: “Evaluation et amélioration de la performance motrice”. Université de Bourgogne.
1992 Diplôme Universitaire de la psychologie du sport, Université de Reims. Université de Bourgogne.
1998 Thèse: “Représentation centrale de la force gravitaire lors des mouvements du bras”. Université de Bourgogne.
2004 Habilitation à Diriger des Recherches: “Traitement sensorimoteur et cognitif du champ gravito-inertiel”.
2004 DESS: “Entraînement et management sportifs”, Université de Bourgogne.

Mes travaux de recherche s’inscrivent dans le domaine des neurosciences comportementales, computationnelles et cognitives chez l’homme. Le 1er axe de recherche consiste à comprendre l’intégration de la force gravitaire dans le contrôle du mouvement lors des expositions à des environnements variés (gravité normale, microgravité, hyper-gravité). Le 2ème vise les mécanismes neurophysiologiques sous-jacents aux opérations cérébrales du contrôle et de la simulation mentale du mouvement. Enfin, le 3ème axe explore la possibilité d’appendre un mouvement par simulation mentale ou par observation. Les principaux outils/méthodes de mon activité scientifique sont : l’analyse 3D du mouvement (cinématique et dynamique), l’activité électromyographique (EMG), la stimulation magnétique transcranienne (TMS), et les modèles computationnels du contrôle optimal.

Contrôle moteur, neurosciences cognitives, préparation mentale de l’athlète, Activités Physiques Adaptés et Santé, Anatomie du membre supérieur.

PUBLICATIONS

Article scientifiques dans des revues internationales ou nationales avec comité de lecture répertoriées

2021
Canepa P, Papaxanthis C, Bisio A, Biggio M, Paizis C, Faelli E, Avanzino L, Bove M (2021) Motor Cortical Excitability Changes in Preparation to Concentric and Eccentric Movements. Neuroscience 475:73-82. (IF : 3,88)
De Ghelcke AV, Skoura X, Edwards MG, Quercia P, Papaxanthis C (2021) Action representation deficits in adolescents with developmental dyslexia. Journal of Neuropsychology 15(2):215-234. (IF : 2,80)
Gaveau J, Grospretre S, Berret B, Angelaki DE, Papaxanthis C (2021) A cross-species neural integration of gravity for motor optimization. Science Advances 7(15):eabf7800 (IF : 16,45)
Jamšek M, Kunavar T, Blohm G, Nozaki D, Papaxanthis C, White O, Babič J (2021) Effects of Simulated Microgravity and Hypergravity Conditions on Arm Movements in Normogravity. Frontiers in Neural Circuits 15:750176. (IF : 3,97)
Kunavar T, Jamšek M, Barbiero M, Blohm G, Nozaki D, Papaxanthis C, Babič J, White O (2021) Effects of Local Gravity Compensation on Motor Control During Altered Environmental Gravity. Frontiers in Neural Circuits 15:750267. (IF : 3,97)
Laprevotte J, Papaxanthis C, Saltarelli S, Quercia P, Gaveau J (2021) Movement detection thresholds reveal proprioceptive impairments in developmental dyslexia. Scientific Reports 11(1):299. (IF : 5,13)
Neige C, Lebon F, Mercier C, Gaveau J, Papaxanthis C, Ruffino C (2021) Pain, No Gain: Acute Pain Interrupts Motor Imagery Processes and Affects Mental Training-Induced Plasticity. Cerebral Cortex. 32(3):640-651 (IF : 5,92)
Ruffino C, Rannaud Monany D, Papaxanthis C, Hilt P, Gaveau J, Lebon F (2021) Smoothness discriminates physical from motor imagery practice of arm reaching movements. Neuroscience 483:24-31. (IF : 3,88)
Ruffino C, Truong C, Dupont W, Bouguila F, Michel C, Lebon F, Papaxanthis C (2021) Acquisition and consolidation processes following motor imagery practice. Scientific Reports 11(1):2295. (IF : 5,13)
2020
Grosprêtre S, Papaxanthis C, Martin A (2020) Corticospinal Modulations during Motor Imagery of Concentric, Eccentric, and Isometric Actions.  Medicine and Science in Sports and Exercise 52(5):1031‑40. (IF :5.4)
Neige C, Rannaud Monany D, Stinear CM, Byblow WD, Papaxanthis C, Lebon F (2020) Unravelling the Modulation of Intracortical Inhibition during Motor Imagery: An Adaptive Threshold-Hunting Study. Neuroscience 434:102-110. (IF: 3,59)
Poirier G, Papaxanthis C, Mourey F, Gaveau J (2020) Motor Planning of Vertical Arm Movements in Healthy Older Adults: Does Effort Minimization Persist with Aging? Frontiers in Aging Neuroscience 12. doi:10.3389/fnagi.2020.00037. (IF : 5.75)
Rousseau C, Barbiero M, Pozzo T, Papaxanthis C, White O (2020) Actual and Imagined Movements Reveal a Dual Role of the Insular Cortex for Motor Control. Cerebral Cortex 31(5):2586-2594. (IF: 5.4)
2019
Grosprêtre S, Lebon F, Papaxanthis C, Martin A (2019). Spinal plasticity with motor imagery practice. Journal of Physiology597(3) : 921-934. (IF : 4,6)
Lebon F, Ruffino C, Greenhouse I, Labruna L, Ivry RB, Papaxanthis C(2019) The Neural Specificity of Movement Preparation During Actual and Imagined Movements. Cerebral Cortex 29(2):689-700. (IF : 5,04)
Ruffino C, Bourrelier J, Papaxanthis C, Mourey F, Lebon F (2019) The use of motor imagery training to retain the performance improvement following physical practice in the elderly. Experimental Brain Research 237(6):1375-1382 https://doi.org/10.1007/s00221-019-05514-1 (IF : 1,59)
Ruffino C, Gaveau J, Papaxanthis C, Lebon F (2019) An acute session of motor imagery training induces use-dependent plasticity. Scientific Reports 9:20002. (IF : 4)
2018
White O, Karniel A, Papaxanthis C, Barbiero M, Nisky I (2018) Switching in Feedforward Control of Grip Force During Tool-Mediated Interaction With Elastic Force Fields. Frontiers in Neurorobotics 12:31. (IF : 3)
2017
Ruffino C, Papaxanthis C, Lebon F (2017) Neural plasticity during motor learning with motor imagery practice: Review and perspectives. Neuroscience 341:61–78. (IF : 3.38)
Barbiero M, Rousseau C, Papaxanthis C, White O (2017) Coherent Multimodal Sensory Information Allows Switching between Gravitoinertial Contexts. Frontiers in Physiology 8:290. (IF : 3.39)
Garnier Y, Lepers R, Stapley PJ, Papaxanthis C, Paizis C (2017) Changes in cortico-spinal excitability following uphill versus downhill treadmill exercise. Behavioural Brain Research 317:242–50. (IF : 2.98)
Grosprêtre S, Jacquet T, Lebon F, Papaxanthis C, Martin A (2017) Neural mechanisms of strength increase after 1-week motor imagery training. European Journal of Sport Science 18(2):209-218 (IF : 2.58)
Gueugneau N, Pozzo T, Darlot C, Papaxanthis C (2017). Daily modulation of the speed accuracy trade-off. Neuroscience 356:142–50. (IF : 3.38)
Kanthack TFD, Guillot A, Papaxanthis C et al (2017) Neurophysiological insights on flexibility improvements through motor imagery. Behavioural Brain Research 331:159–68. (IF : 2.98)
Ruffino C, Papaxanthis C, Lebon F (2017) The influence of imagery capacity in motor performance improvement. Experimental Brain Research 235:3049–3057 (IF : 1.81)
2016
Gaveau J, Berret B, Angelaki DE, Papaxanthis C (2016) Direction-dependent arm kinematics reveal optimal integration of gravity cues. eLIFE 5:e16394. (IF : 7.73)
Grosprêtre S, Lebon F, Papaxanthis C, Martin A (2016) New evidence of corticospinal network modulation induced by motor imagery. Journal of neurophysiology 115:1279-1288. (IF : 2.4)
Gueugneau N, Bove M, Ballay Y, Papaxanthis C (2016) Interhemispheric inhibition is dynamically regulated during action observation. Cortex 78:138-149. (IF : 4.28)
Hilt P, Berret B, Papaxanthis C, Stapley PJ, Pozzo T (2016) Evidence for subjective values guiding posture and movement coordination in a free-endpoint whole-body reaching task. Scientific Reports 6:23868. (IF : 4.26)
Lebon F, Greenhouse I, Labruna L, Vanderschelden B, Papaxanthis C, Ivry RB (2016) Influence of Delay Period Duration on Inhibitory Processes for Response Preparation. Cerebral Cortex 26:2461-2470. (IF : 6.56)
Rousseau C, Papaxanthis C, Gaveau J, Pozzo T, White O (2016) Initial information prior to movement onset influences kinematics of upward arm pointing movements. Journal of neurophysiology 116(4):1673-1683. (IF : 2.4)
Rousseau C, Fautrelle L, Papaxanthis C, Fadiga L, Pozzo T, White O (2016) Direction-Dependent Activation of the Insular Cortex during Vertical and Horizontal Hand Movements. Neuroscience 325:10-9 (IF : 3.28)
Rozand V, Lebon F, Stapley PJ, Papaxanthis C, Lepers R (2016) A prolonged motor imagery session alter imagined and actual movement durations: Potential implications for neurorehabilitation. Behavioral Brain Research 297:67-75. (IF : 2.98)