Pierre-Michel Bernier

Professeur agrégé

Coordonnées

Courriel: pierre-michel.bernier@usherbrooke.ca
Téléphone : 819 821-8000 poste 62731
Télécopieur : 819 821-7970
Local : A8-308

Mieux comprendre le cerveau pour redonner le mouvement

Formation

B.Sc. Kinésiologie, Université de Montréal (2003)

M.Sc. Motor Control and Learning Laboratory, University of British Columbia, School of Human Kinetics (2005)

Ph.D. Sciences du Mouvement Humain/Neurosciences, CNRS & Université Aix-Marseille (2009)

Post-doc., University of California Santa Barbara, Brain Imaging Center, Department of Psychological and Brain Sciences (2011)    

Champs d'intérêt

    • Planification et contrôle du mouvement

      • Représentations centrales de l’action
      • Intégration multi-sensorielle

    •  Apprentissage moteur

      • Adaptation sensori-motrice
      • Neuroplasticité

      Publications scientifiques

      Bernier, P-M., Cieslak, M.,& Grafton, S.T. (2012). Effector selection precedes reach planning in the dorsal parieto-frontal cortex. Journal of Neurophysiology,Sous presse.

      Lawrence, G.P., Khan, M.A., Mourton, S., & Bernier, P-M. (2011). The reliance on visual feedback for online and offline processing. Motor Control, 15 : 232-246.

      Bernier, P-M.,& Grafton, S.T. (2010). Human posterior parietal cortex flexibly determines reference frames for reaching based on sensory context. Neuron, 68, 776-788.

      Sarlegna, F.R., & Bernier, P-M. (2010). On the link between sensorimotor adaptation and sensory recalibration. Journal of Neuroscience. 30 : 11555-11557.

      Lawrence, G.P., Khan, M.A., Mourton, S., & Bernier, P-M. (2010). The reliance on visual feedback for online and offline processing. Motor Control. (Sous presse).

      Bernier, P-M., Burle, B., Hasbroucq, T., & Blouin, J. (2009). Spatio-temporal dynamics of reach-related neural activity for visual and somatosensory targets. NeuroImage. 47: 1767-1777.

      Bernier, P-M.,Burle, B., Vidal, F., Hasbroucq, T., & Blouin, J. (2009). Direct evidence for cortical suppression of somatosensory afferents during visuomotor adaptation. Cerebral Cortex. 19: 2106-2113.

      Bernier, P-M., Gauthier, G.M., & Blouin, J. (2007). Evidence for distinct, differentially adaptable sensorimotor transformations for reaches to visual and proprioceptive targets. Journal of Neurophysiology. 98: 1815-1819.

      Bernier, P-M., Chua, R., Inglis, J.T., & Franks, I.M. (2007). Sensorimotor adaptation in response to proprioceptive bias. Experimental Brain Research. 177: 147-156.

      Bernier, P-M., Chua, R., Bard, C., & Franks, I.M. (2006). Updating of an internal model without proprioception: a deafferentation study. Neuroreport. 17: 1421-1425.

      Bernier, P-M., Chua, R., Franks, I.M., & Khan, M.A. (2006). Determinants of offline processing of visual information for the control of reaching movements. Journal of Motor Behavior. 38: 331-338.

      Khan, M.A., Franks, I.M., Elliott, D., Lawrence, G.P., Chua, R., Bernier, P-M., Hansen, S., & Weeks, D.J. (2006). Inferring online and offline processing of visual feedback in target-directed movements from kinematic data. Neuroscience and Biobehavioral Reviews.30: 1106-1121.

      Bernier, P-M., Chua, R., & Franks, I.M. (2005). Is proprioception calibrated during visually guided movements? Experimental Brain Research. 167: 292-296.

      Communications scientifiques récentes

      Bernier, P-M.,& Grafton, S.T. (2011). Fronto-parietal interactions for effector selection during reaching: a simultaneous EEG-fMRI study. Organization for Human Brain Mapping.Québec, Canada.

      Bernier, P-M.,& Grafton, S.T. (2011). Effector selective recruitment of human dorso-medial PPC during reaching. Neural Control of Movement. San Juan, Puerto Rico.

      Viswanathan, S., Bernier, P-M., Wymbs, & Grafton, S.T. (2011). Sensitivity of repetition suppression to functional network structure. Cognitive Neuroscience Society, San Francisco, États-Unis.

      Bernier, P-M.,& Grafton, S.T. (2010). Sensory context determines motor goal representation in human “parietal reach region”. Organization for Human Brain Mapping. Barcelone, Espagne.

      Ortigue, S.T., Bernier, P-M., Hamilton, A.H., & Grafton, S.T. (2010). Virtual lesions of the right anterior intraparietal sulcus disrupt the decoding of action intent: a TMS study. Organization for Human Brain Mapping.Barcelone, Espagne.

      Bernier, P-M.,& Grafton, S.T. (2010). Reaches to proprioceptive targets are encoded in body-centered coordinates in the human “Parietal Reach Region”. 32e Symposium International - Groupe de recherche sur le système nerveux central (GRSNC). Montréal, Canada.

      Travaux de recherche subventionnés par le CRSNG.