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Accueil du site > Équipes > Bases neurales de la sensori-motricité


Nom prenom statut telephone email
Blouin Jean DR CNRS 0413550946 jean.blouin@univ-amu.fr
Fabre Marie Doctorant
Guillaume Alain MC 0413550948 alain.guillaume@univ-amu.fr
Lhomond Olivia Doctorant olivia.lhomond@etu.univ-amu.fr
Manson Gerome Doctorant gerome.manson@utoronto.ca
Mouchnino Laurence MC 0413550947 laurence.mouchnino@univ-amu.fr


Bases neurales de la sensori-motricité

Portfolio

Membres de l’Equipe : Anahid Saradjian, Nicolas Lebar, Romain Chaumillon, Laurence Mouchnino, Jean Blouin, Alain Guillaume

 Thème de recherche

Notre groupe de recherche s’intéresse aux bases neurales du contrôle des mouvements volontaires et de la posture chez l’humain. Le travail porte sur les processus de base de ce contrôle tels que les transformations sensorimotrices et le maintien de leur précision lors d’altérations des systèmes sensorimoteurs. A l’aide d’études neurophysiologiques et comportementales, nous cherchons à comprendre les liens entre informations sensorielles, représentations internes et production du mouvement (e.g., mouvements oculaire et manuel, marche). Un intérêt particulier est consacré à la fusion d’informations sensorielles (par exemple, visuelle, proprioceptive, cutanée, vestibulaire) lors de la planification, l’exécution et l’apprentissage du mouvement et lors de la mise à jour de la représentation interne de l’environnement lors de nos déplacements.

 Portfolio

Sauvons la Recherche
Sauvons la Recherche
Localisation du laboratoire
Parc National des Calanques, Marseille
Enregistrement EEG lors de conflits visuomoteurs
Enregistrement EEG pendant l’atteinte manuelle d’objets
Vibrations musculaires
Chambre fermée équipée d’une chaise rotative motorisée et d’un système d’analyse du mouvement 3D (la chaise peut être remplacée par une platforme pour des études de posture).
Expérimentation en microgravité (campagne de vols paraboliques CNES)
EEG during walking
EEG recording during walking

 Anciens doctorants (occupation actuelle)

  • Nicolas Lebar (2016)
  • Romain Chaumillon (2015), post-doc Laboratoire de Psychophysique et Perception visuelle, Université de Montréal
  • Anahid Saradjian (2014)
  • Bernier Pierre-Michel (2009, Prix de thèse Université de la Méditerranée) Professeur adjoint, Université de Sherbrooke, Québec
  • Ruget Hélène (2009) Ingénieure biomédicale, Institut de Médecine et de Physiologie Spatiales, Toulouse
  • Cotti Julien (2007, Prix de thèse Université de la Méditerranée)
  • Guillaud Etienne (2006), Ingénieur de recherche CNRS, Laboratoire Mouvement, Adaptation, Cognition, Université de Bordeaux
  • Robert Gilles (2006) Cadre supérieur, Sofitrans
  • Gueguen Nils (2004), Ingénieur, Recherche et Développement, Décathlon, Lille
  • Sarlegna Fabrice (2004), CR CNRS, Institut des Sciences du Mouvement, Université de la Méditerranée, Marseille
  • Bresciani Jean-Pierre (2003) Professeur adjoint, Université Fribourg (Suisse)
  • Mille Marie-Laure (2000) MCU Université de Toulon

 Principaux collaborateurs extérieurs au laboratoire

  • Liliane Borel (Marseille)
  • Emmanuel Daucé (Marseille)
  • Alain Delarque (Marseille)
  • Michel Guerraz (Marseille)
  • Hélène Paugam-Moisy (Lyon)
  • Denis Pélisson (Lyon)
  • François Prince (Montréal)
  • Martin Simoneau (Québec)
  • Normand Teasdale (Québec)
  • Luc Tremblay (Toronto)
  • Jean-Luc Velay (Marseille)
  • Jean-Michel Viton (Marseille)

 Principaux équipements

  • Oculomètre (EOG, EyeLink 2)
  • Plateforme rotative motorisée (station assise ou debout)
  • Systèmes d’analyse du mouvement tri-dimensionnel (Optitrack 6 cameras, Polhemus, Flock of Birds)
  • Stimulateur vestibulaire galvanique
  • Electromyographie
  • Plateforme de force AMTI
  • Electroencéphalographie (EEG, Biosemi 64 canaux)
  • Accès aux vols paraboliques (expérimentations en microgravité)

 Principaux financements

  • Centre National d’Etudes Spatiales (CNES, expériences en microgravité)
  • Délégation Générale pour l’Armement (DGA)
  • Agence Nationale de Recherche (ANR)

 Publications par thème

(Voir les pages personnelles pour une liste actualisée avec pdf en cliquant sur les noms du tableau de la composition de l’équipe en haut de page)

 Adaptation sensorimotrice

  • Lemieux LG, Simoneau M, Tessier J-F, Billot M, Blouin J, Teasdale N (2014). Balance control interferes with the tracing performance of a pattern with mirror-reversed vision in older persons. Age 36:823–837
  • 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
  • Cotti J, Panouilleres M, Munoz DP, Vercher JL, Pélisson D, Guillaume A (2009) Adaptation of reactive and voluntary saccades : different patterns of adaptation revealed in the antisaccade task. Journal of Physiology 587 : 127-138.
  • Bernier P-M, Gauthier GM, Blouin J (2007) Evidence for distinct, differentially adaptable sensorimotor transformations for reaches to visual and proprioceptive targets. Journal of Neurophysiology 98 : 1815-1819
  • Alahyane N, Salemme R, Urquizar C, Cotti J, Guillaume A, Vercher JL, Pélisson D (2007) Oculomotor plasticity : are mechanisms of adaptation for reactive and voluntary saccades separate ? Brain Research 1135(1) : 107-121.
  • Cotti J, Guillaume A, Alahyane N, Pélisson D, Vercher JL (2007). Adaptation of Voluntary Saccades, but not of Reactive Saccades, Transfers to Hand Pointing Movements. Journal of Neurophysiology 98 : 602-612.
  • Sarlegna F, Gauthier GM, Blouin J (2007) The influence of feedback modality on sensorimotor adaptation : contribution of visual, proprioceptive and verbal cues. Journal of Motor Behavior 39 : 247-258
  • Gauthier GM, Blouin J, Bourdin C, Vercher J-L (2007) Adaptive control : A review of the ability to acquire and maintain high sensorimotor performance. Computers in Biology and Medicine 37 : 898-1000
  • Gauthier GM, Blouin J, Bourdin C, Vercher J-L (2006) Le contrôle adaptatif ou comment acquérir et maintenir une performance. In P Fuchs (ed), Traité de la réalité virtuelle. Edition 3. Volume 1. L’homme et l’environnement virtuel (pp 291-305). Paris : Les Presses de l’Ecole des Mines de Paris
  • Bourdin C, Gauthier GM, Blouin J, Vercher J-L (2001) Adaptation to centrifugal and Coriolis forces when pointing in a rotating environment. Neuroscience Letters 301 : 25-28
  • Bresciani J-P, Barthélémy J, Blouin J, Gauthier GM (1999) Perception of postural changes resulting from gravito-inertial force variation. In : Gantchev N, Gantchev GN (eds), From basic motor control to functional recovery (pp 133-141) Sofia : Academic Publishing House
  • Guédon O, Gauthier GM, Cole J, Vercher J-L, Blouin J (1998) Vision and arm afferent information in the adaptation to altered visuo-manual relationships in a two dimensional tracking task. Journal of Motor Behavior 30 : 234-248
  • Gauthier GM, Vercher J-L, Blouin J (1997) Integrating reflexes and voluntary behaviors : coordination and adaptation controls in man. In : Cantoni V, Gesu VD, Setti A, Tegolo D (eds), Human and machine perception : Information fusion (pp 189-205) London : Plenum Press
  • van Donkelaar P, Gauthier GM, Vercher J-L, Blouin J (1996) Changes in saccadic and manual motor control after ocular smooth pursuit adaptive modifications. Journal of Motor Behavior 28 : 315-323

 Ajustements posturaux anticipés

  • Mouchnino L, Fontan A, Tandonnet C, Perrier J, Saradjian, Blouin J, Simoneau M (2015) Facilitation of cutaneous inputs during the planning phase of gait initiation. Journal of Neurophysiology 114 : 301-308
  • Saradjian AH, Paleressompoulle D, Louber D, Blouin J, Mouchnino L (2014) Do gravity-related sensory information enable the enhancement of cortical proprioceptive inputs when planning a step in microgravity ? PlosOne 9(9):e108636.
  • Saradjian AH, Tremblay L, Perrier J, Blouin J, Mouchnino L (2013) Cortical facilitation of proprioceptive inputs related to gravitational balance constraints during step preparation. Journal of Neurophysiology, 110 : 397-407
  • Mouchnino L, Blouin J (2013) When standing on a moving support, cutaneous inputs provide sufficient information to plan the anticipatory postural adjustments for gait initiation. Plos One 8(2):e55081
  • Mouchnino L, Robert R, Ruget H, Blouin J, Simoneau M (2012) Online control of anticipated postural adjustments in step initiation : evidence from behavioral and computational approaches. Gait & Posture 35 : 616-620
  • Ruget H, Blouin J, Coyle T, Mouchnino L (2010) Modulation of proprioceptive inflow when initiating a step influences postural adjustments. Experimental Brain Research 201 : 297–305
  • Ruget H, Blouin J, Teasdale N, Mouchnino L (2008) Can prepared anticipatory postural adjustments be updated by proprioception ? Neuroscience 155 : 640–648
  • Robert G, Blouin J, Ruget H, Mouchnino L (2007) Coordination between postural and movement controls : Effects of change in body mass distribution on postural and focal component characteristics. Experimental Brain Research, in press
  • Lafond D, Mouchnino L, Prince F (2004) Tactile stimulation of insoles and balance control in elderly people. The Lancet 363 : 84-86
  • Mille M-L, Mouchnino L (1998) Are the anticipatory postural adjustments affected by a modification of the initial position of the centre of gravity ? Neuroscience letters 242 : 61-64

 Codage de la position des yeux

  • Chaumillon R, Alahyane N, Senot P, Vergne J, Lemoine-Lardennois C, Blouin J, Doré-Mazars K, Guillaume A, Vergilino-Perez D. (2017). Asymmetry in visual information processing depends on the strength of eye dominance. Neuropsychologia 96 : 129-136.
  • Chaumillon R, Blouin J, Guillaume A (2014) Eye dominance influences triggering action : the Poffenberger paradigm revisited. Cortex 58 : 86-98
  • Chaumillon R, Alahyane N, Senot P, Vergne J, Lemoine C, Doré-Mazars K, Blouin J, Vergilino-Perez D, Guillaume A (2015) Vers une quantification de la dominance oculaire pour une meilleure prise en charge des pathologies de l’œil. Journal Français d’Ophtalmologie 38 : 322-332
  • Blouin J, Bresciani J-P, Gauthier GM (2004) Shifts in the retinal image of a visual scene during saccades contribute to the perception of reached gaze direction in humans. Neuroscience Letters 357 : 29-32
  • Blouin J, Amade N, Vercher J-L, Teasdale N, Gauthier GM (2002) Visual signals contribute to the coding of gaze direction. Experimental Brain Research 144 : 281-292
  • van Donkelaar P, Gauthier GM, Blouin J, Vercher J-L (1997) The role of ocular muscle proprioception during modifications in smooth pursuit output. Vision Research 37 : 769-774
  • Blouin J, Gauthier GM, Vercher J-L, Cole J (1996) Contribution of retinal and extraretinal signals for defining the target goal of reaching movement in normal subjects and a deafferented patient. Experimental Brain Research 109 : 148-153
  • Blouin J, Gauthier GM, Vercher J-L (1995) Internal representation of gaze direction with and without retinal inputs in man. Neuroscience Letters 183 : 187-189
  • Gauthier GM, Vercher J-L, Blouin J (1995) Egocentric visual target position and velocity coding : role of ocular muscle proprioception. Annals of Biomedical Engineering 23 : 423-435

 Conduite automobile

  • Cantin V, Blouin J, Simoneau M, Teasdale N (2004) Driving in a simulator and lower limb movement variability in elderly persons : can we infer something about pedal errors ? Advances in Transportation Studies : An International Journal, special issue, 39-46
  • Teasdale N, Cantin V, Blouin J, Desroches G, Simoneau M (2004) Attentional demands while driving in a simulator : Effects of driving straights on open roads, approaching an intersection and doubling maneuvers. Advances in Transportation Studies : An International Journal, special issue, 29-38

 Désafférentation

  • Guillaud E, Simoneau M, Blouin J (2011). Prediction of the body rotation-induced torques on the arm during reaching movements : Evidence from a proprioceptively deafferented subject. Neuropsychologia 49 : 2055-2059
  • Blouin J, Guillaud E, Bresciani J-P, Guerraz M, Simoneau M (2010) Insights into the control of arm movement during body motion as revealed by EMG analyses. Brain Research 1309 : 40-52
  • Blouin J, Teasdale N, Mouchnino L (2007) Vestibular signal processing in a subject with somatosensory deafferentation : The case of sitting posture. BMC Neurology 7 : 1-8
  • Sarlegna F, Gauthier GM, Bourdin C, Vercher J-L, Blouin J (2006) Internally-driven control of reaching movements : a study on a deafferented subject. Brain Research Bulletin 69 : 404-415
  • Guédon O, Gauthier GM, Cole J, Vercher J-L, Blouin J (1998) Vision and arm afferent information in the adaptation to altered visuo-manual relationships in a two dimensional tracking task. Journal of Motor Behavior 30 : 234-248
  • Vercher J-L, Gauthier GM, Cole J, Blouin J (1997) Role of arm proprioception in calibrating the arm-eye temporal coordination. Neuroscience Letters 237 : 109-112
  • Blouin J, Gauthier GM, Vercher J-L, Cole J (1996) Contribution of retinal and extraretinal signals for defining the target goal of reaching movement in normal subjects and a deafferented patient. Experimental Brain Research 109 : 148-153
  • Vercher J-L, Gauthier GM, Guédon O, Blouin J, Cole J, Lamarre Y (1996) Self-moved target tracking in control and deafferented subjects : role of arm motor command efferent copy and proprioception in arm-eye coordination. Journal of Neurophysiology 76 : 1133-1144
  • Blouin J, Vercher J-L, Gauthier GM, Paillard J, Bard C, Lamarre Y (1995) Perception of passive whole-body rotation in the absence of neck and body proprioception. Journal of Neurophysiology 74 : 2216-2219
  • Blouin J, Bard C, Teasdale N, Paillard J, Fleury M, Forget R, Lamarre Y (1993) Reference systems for coding spatial information in normal subjects and a deafferented patient. Experimental Brain Research 93 : 324-332

 Maladie musculosquelettique et contrôle postural

  • Pialasse J-P, Descarreaux M, Mercier P, Blouin J, Simoneau M. (2015) The vestibular-evoked postural response of adolescents with idiopathic scoliosis is altered. PlosOne 10(11) : e0143124
  • Pialasse J-P, Laurendeau S, Descarreaux M, Blouin J, Simoneau M (2013) Is abnormal vestibulomotor responses related to idiopathic scolosis onset or severity ? Medical Hypotheses 80 : 234-236
  • Pialasse J-P, Descarreaux M, Mercier P, Blouin J, Simoneau M. (2012). Sensorimotor integration in adolescent idiopathic scoliosis patients. In T Grivas (Ed), Recent Advances in Scoliosis (pp 47-70). Intech publisher, ISBN : 978-953-51-0595-4
  • Simoneau M, Lamothe V, Hutin E, Mercier P, Teasdale N, Blouin J (2009) Evidence for vestibular integration impairment in idiopathic scoliosis patients. BMC Neuroscience 10 : 102, 1-7
  • Mouchnino L, Mille M-L, Martin N, Baroni G, Cincera M, Bardot A, Delarque A, Massion J, Pedotti A (2006) Behavioral outcomes following below-knee amputation in the coordination between balance and leg movement. Gait and Posture, 24 : 4-13
  • Simoneau M, Mercier P, Blouin J, Allard P, Teasdale N (2006) Altered sensory-weighting mechanisms is observed in adolescents with idiopathic scoliosis. BMC Neuroscience 7:68 (electronic journal)
  • Mouchnino L, Gueguen N, Blanchard C, Boulay C, Gimet G, Viton J-M, Franceschi J-P, Delarque A (2005) Sensori-motor adaptation to knee osteoarthritis during stepping-down before and after total knee replacement. BMC Musculoskeletal Disorders 6 : 21 (electronic journal)
  • Viton J-M, Bertera-Blanchard C, Gueguen N, Mouchnino L, Mesure S, Gimet G, Franceschi J-P, Delarque A (2003) Conséquences Biomécaniques d’une gonarthtrose unilatérale sur le membre inférieur opposé. Annales Médecine Physique et Réadaptation 46 : 191-197
  • Viton J-M, Mouchnino L, Mille M-L, Cincera M, Delarque A, Pedotti A, Bardot A, Massion J (2000) Equilibrium and movement control strategies in below knee amputees. Prosthetics and Orthotics International 24 : 108-116
  • Mouchnino L, Mille M-L, Cincera M, Bardot, Delarque A, Pedotti A, Massion J (1998) Postural reorganization of weight-shifting in below-knee amputees during leg raising. Experimental Brain Research 121 : 205-214

 Microgravité

  • Saradjian AH, Paleressompoulle D, Louber D, Blouin J, Mouchnino L (2014) Do gravity-related sensory information enable the enhancement of cortical proprioceptive inputs when planning a step in microgravity ? PlosOne 9(9):e108636.
  • Saradjian AH, Tremblay L, Perrier J, Blouin J, Mouchnino L (2013) Cortical facilitation of proprioceptive inputs related to gravitational balance constraints during step preparation. Journal of Neurophysiology, 110 : 397-407
  • Bringoux L, Blouin J, Coyle T, Ruget H, Mouchnino L (2012) Effect of gravity-like torque on goal-directed arm movements in microgravity. Journal of Neurophysiology 107 : 2541-2548
  • Ruget H, Blouin J, Coyle T, Mouchnino L (2010) Modulation of proprioceptive inflow when initiating a step influences postural adjustments. Experimental Brain Research 201 :297–305
  • Robert G, Gueguen N, Avogadro P, Mouchnino L (2004) Anticipatory balance control is affected by loadless training experiences. Human Movement Science 23 : 169-183
  • Gueguen N, Coyle T, Craig C, Bootsma R, Mouchnino L (2004) Intersegmental coordination during leg raising task : normogravity vs microgravity conditions. Experimental Brain Research 156 : 471-477
  • Pedrocchi A, Baroni G, Mouchnino L, Ferrigno G, Pedotti A, Massion J (2002) Absence of center of mass control for leg abduction in long-term weightlessness. Neuroscience Letters 319 : 172-176
  • Massion J, Amblard B, Assaiante C, Mouchnino L, Vernazza S (1998) Body orientation and control of coordinated movements in microgravity. Brain Research Reviews 28 : 83-91
  • Amblard B, Assaiante C, Fabre J-C, Mouchnino L, Massion J (1997) Voluntary head stabilization in space during oscillatory trunk movements in the frontal plane performed in weightlessness. Experimental Brain Research 114 : 214-225
  • Mouchnino L, Cincera M, Fabre J-C, Assaiante C, Amblard B, Pedotti A, Massion J (1996) Is the regulation of the center of mass maintained during leg movement under microgravity conditions ? Journal of Neurophysiology 76 : 1212-1223
  • Massion J, Fabre J-C, Mouchnino L, Obadia A (1995) Body orientation and regulation of the center of gravity during movement under water. Journal of Vestibular Research 5 : 211-221
  • Amblard B, Assaiante C, Fabre J-C, Martin N, Massion J, Mouchnino L, Vernazza S (1995) Voluntary Head Stabilization in Space During Trunk Movement in Weightlessness. Acta Astronautica 36 : 415-422

 Mouvement et codage de la position de la tête

  • Guerraz M, Caudron S, Thomassin N, Blouin J (2011) Influence of head orientation on visually and memory-guided arm movements. Acta Psychologica 136 : 390-398
  • Guerraz M, Navarro J, Ferrero F, Crémieux J, Blouin J (2006) Perceived versus actual head-on-trunk orientation during arm movement control. Experimental Brain Research 172 : 221-229
  • Prieur J-M, Bourdin C, Sarès F, Gauthier GM, Blouin J, Vercher J-L (2005) Accuracy of spatial localization depending on head posture in a perturbed gravitoinertial force field. Experimental Brain Research 161 : 432-440
  • Mars F, Vercher J-L, Blouin J (2004) Perception of the vertical with a head-mounted visual frame during head tilt. Ergonomics 47 : 1116-1130
  • Guerraz M, Blouin J, Vercher J-L (2003) From head orientation to hand control : evidence of both neck and vestibular involvement in hand drawing. Experimental Brain Research 150 : 40-49
  • Sarès F, Prieur J-M, Bourdin C, Gauthier GM, Blouin J, Vercher J-L (2002) Peripheral visual information influence head posture during gravitoinertial changes. Current Psychology of Cognition 21 : 455-477
  • Blouin J, Amade N, Vercher J-L, Gauthier GM (1999) Opposing resistance to the head movement does not affect space perception during head rotation. In : Becker W, Deubel, Mergner T (eds), Current oculomotor research : physiological and psychological aspects (pp 193-201) London : Plenum Press

 Mouvements du bras : Contrôle vestibulaire

  • Blouin J, Bresciani J-P, Guillaud E, Simoneau M (2015) Prediction in the vestibular control of arm movements. Multisensory Research 28 : 487–505. (REVIEW PAPER)
  • Simoneau M, Guillaud E, Blouin J (2013) Effects of underestimating the kinematics of trunk rotation on simultaneous reaching movements : predictions of a biomechanical model. Journal of Neuroengineering and Rehabilitation 10:54
  • Guillaud E, Simoneau M, Blouin J (2011). Prediction of the body rotation-induced torques on the arm during reaching movements : Evidence from a proprioceptively deafferented subject. Neuropsychologia 49 : 2055-2059
  • Blouin J, Guillaud E, Bresciani J-P, Guerraz M, Simoneau M (2010) Insights into the control of arm movement during body motion as revealed by EMG analyses. Brain Research 1309 : 40-52
  • Guillaud E, Simoneau M, Gauthier GM, Blouin J (2006) Controlling reaching movements during self-motion : body-fixed versus earth-fixed targets. Motor Control 10 : 330-347
  • Guillaud E, Gauthier GM, Vercher J-L, Blouin J (2006) Visuo-ocular and vestibular signal fusion in arm motor control. Journal of Neurophysiology 95 : 1134-1146
  • Bresciani J-P, Gauthier GM, Vercher J-L, Blouin J (2005) On the nature of the vestibular control of arm reaching movements during whole-body rotations. Experimental Brain Research 164 : 431-441
  • Gauthier GM, Bresciani J-P, Blouin J (2003) Are hand and eyes stabilized in space through similar processes ? In N. Gantchev, G. Gantchev (eds), From basic motor control to functional recovery III (pp. 139-146). Sofia : Academic Publishing House
  • Bresciani J-P, Blouin J, Popov K, Sarlegna F, Bourdin C, Vercher J-L, Gauthier GM (2002) Vestibular signal contributes to the online control of goal-directed arm movement. Current Psychology of Cognition 21 : 263-280
  • Bresciani J-P, Blouin J, Sarlegna F, Bourdin C, Vercher J-L, Gauthier GM (2002) On-line versus off-line vestibularly-evoked control of goal-directed arm movements. Neuroreport 13 : 1563-1566
  • Bresciani J-P, Blouin J, Popov K, Bourdin C, Sarlegna F, Vercher J-L, Gauthier GM (2002) Galvanic vestibular stimulation on seated and head-fixed subjects modifies the trajectory of reaching movement towards memorized visual target. Neuroscience Letters 318 : 34-38

 Mouvements du bras : Contrôle visuel et proprioceptif

  • Lebar N, Danna J, Moré S, Mouchnino L, Blouin J (2017) On the neural basis of sensory weighting : Alpha, beta and gamma modulations during complex movements. Neuroimage
  • Blouin J (2016) The parameters of the intended movement determine the capacity to correct the forthcoming movement. Motor Control 20 : 149-153.
  • Lebar N, Bernier PM, Guillaume A, Mouchnino L, Blouin J (2015) Neural correlates for task-relevant facilitation of visual inputs during visually guided hand movements. Neuroimage 121 : 39–50.
  • Blouin J, Saradjian AH, Lebar N, Guillaume A, Mouchnino L (2014) Opposed optimal strategies of weighting somatosensory inputs for planning reaching movements towards visual and proprioceptive targets. Journal of Neurophysiology 112 : 2290-2301
  • Sarlegna FR, Blouin J (2010) Visual guidance of arm reaching : online adjustments of movement direction are impaired by amplitude control. Journal of Vision 10 : 1–12
  • 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, Gauthier GM, Blouin J (2007) Evidence for distinct, differentially adaptable sensorimotor transformations for reaches to visual and proprioceptive targets. Journal of Neurophysiology 98 : 1815-1819
  • Sarlegna F, Blouin J, Bresciani J-P, Bourdin C, Vercher J-L, Gauthier GM (2004) Online control of the direction of rapid reaching movements. Experimental Brain Research 157 : 468-471
  • Sarlegna F, Blouin J, Bresciani J-P, Bourdin C, Vercher J-L, Gauthier GM (2003) Target and hand position information in the online control of goal-directed arm movement. Experimental Brain Research 151 : 524-535
  • Boulinguez P, Blouin J, Nougier V (2001) The gap effect for eye and hand movements double-step pointing. Experimental Brain Research 138 : 352-358
  • Billon M, Bard C, Fleury M, Blouin J, Teasdale N (1996) Simultaneity of two effectors in synchronization with a periodic external signal. Human Movement Science 15 : 25-38
  • Blouin J, Teasdale N, Bard C, Fleury M (1995) Control of rapid arm movements when target position is altered during saccadic suppression. Journal of Motor Behavior 27 : 114-122
  • Fleury M, Bard C, Auddifren M, Teasdale N, Blouin J (1994) The attentional cost of amplitude and directional requirements when pointing to targets. Quarterly Journal of Experimental Psychology : Human Experimental Psychology 47A : 481-495
  • Blouin J, Bard C, Teasdale N, Fleury M (1993) Online versus off-line control of rapid aiming movements. Journal of Motor Behavior 25 : 275-279
  • Blouin J, Teasdale N, Bard C, Fleury M (1993) Directional control of rapid arm movements : the role of the visual kinetic feedback system. Canadian Journal of Experimental Psychology 47 : 678-696

 Oculomotricité

  • Chaumillon R, Alahyane N, Senot P, Vergne J, Lemoine-Lardennois C, Blouin J, Doré-Mazars K, Guillaume A, Vergilino-Perez D. (2017). Asymmetry in visual information processing depends on the strength of eye dominance. Neuropsychologia 96 : 129-136.
  • Mégardon, G., Tandonnet, C., Sumner, P., & Guillaume, A. (2015). Limitations of short range Mexican hat connection for driving target selection in a 2D neural field, activity suppression and deviation from input stimuli. Frontiers in Computational Neuroscience. doi, 10.3389/fncom.2015.00128.
  • Guillaume A (2012) Saccadic inhibition is accompanied by large and complex amplitude modulations when induced by visual backward masking. Journal of Vision 12 : 1-20
  • Cotti J, Vercher JL, Guillaume A (2011). Hand-eye coordination relies on extra-retinal signals : evidence from reactive saccade adaptation. Behavioural Brain Research 218 : 248-252
  • Mouraud A, Guillaume A, Paugam-Moisy H (2010) The DAMNED simulator for implementing a dynamic model of the network controlling saccadic eye movements. (International conference paper) In Proc. of ICANN’2010, Lecture notes in Computer Sciences 6353, Springer, Thessaloniki, Greece.
  • Cotti J, Panouilleres M, Munoz DP, Vercher JL, Pélisson D, Guillaume A (2009) Adaptation of reactive and voluntary saccades : different patterns of adaptation revealed in the antisaccade task. Journal of Physiology 587 : 127-138.
  • Pélisson D and Guillaume A (2008) Eye-Head Coordination. In M. D. Binder, N. Hirokawa & U. Windhorst (Eds.), Encyclopedia of Neuroscience, Heidelberg, Germany : Springer.
  • Cotti J, Guillaume A, Alahyane N, Pélisson D, Vercher JL (2007). Adaptation of Voluntary Saccades, but not of Reactive Saccades, Transfers to Hand Pointing Movements. Journal of Neurophysiology 98 : 602-612.
  • Alahyane N, Salemme R, Urquizar C, Cotti J, Guillaume A, Vercher JL, Pélisson D (2007) Oculomotor plasticity : are mechanisms of adaptation for reactive and voluntary saccades separate ? Brain Research 1135(1) : 107-121.
  • Guillaume A, Pélisson D (2006) Kinematics and eye-head coordination of gaze shifts evoked from different sites in the superior colliculus of the cat. Journal of Physiology 577 : 779-794.
  • Pélisson D, Goffart L, Guillaume A (2003) Control of saccadic eye movements and combined eye/head gaze shifts by the medio-posterior cerebellum. Progress in Brain Research 142 : 69-89.
  • Pélisson D, Goffart L, Guillaume A, Quinet J (2003) Visuo-motor deficits induced by fastigial nucleus inactivation. The Cerebellum 2 : 71-76.
  • Guillaume A, Pélisson D (2002) Properties and Cerebellar Control of the Superior Colliculus Motor Map in the Head-Unrestrained Cat. Cahiers de Psychologie Cognitive / Current Psychology of Cognition 21(4-5) : 397-435.
  • Guillaume A, Pélisson D (2001a) Gaze shifts evoked by electrical stimulation of the superior colliculus in the head-unrestrained cat. I. Effect of the locus and of the parameters of stimulation. European Journal of Neuroscience 14 : 1331-1344.
  • Guillaume A, Pélisson D (2001b) Gaze shifts evoked by electrical stimulation of the superior colliculus in the head-unrestrained cat. II. Effect of muscimol inactivation of the caudal fastigial nucleus. European Journal of Neuroscience 14 : 1345-1359.
  • Pélisson D, Goffart L, Guillaume A, Catz N and Raboyeau G (2001) Early head movements elicited by visual stimuli or collicular electrical stimulation in the cat. Vision Research 41 : 3283-3294.
  • Guillaume A, Goffart L, Courjon J, Pélisson D (2000) Altered visuo-motor behavior during inactivation of the caudal fastigial nucleus in the cat. Experimental Brain Research 132 : 457-463.
  • Guillaume A, Goffart L and Pélisson D (1999) Learning from cerebellar lesions about the temporal and spatial aspects of saccadic control. Behavioural and Brain Sciences 22(4) : 687-688.
  • Goffart L, Guillaume A, Pélisson D (1998) Compensation for gaze perturbation during inactivation of the caudal fastigial nucleus in the head-unrestrained cat. Journal of Neurophysiology 80 : 1552-1557.
  • Pélisson D, Goffart L, Guillaume A (1998) Contribution of the rostral fastigial nucleus to the control of orienting gaze shifts in the head-unrestrained cat. Journal of Neurophysiology. 80 : 1180-1196.
  • Goffart L, Pélisson D Guillaume A (1998) Orienting gaze shifts during muscimol inactivation of the caudal fastigial nucleus in the cat. II. Dynamics and eye-head coupling. Journal of Neurophysiology 79 : 1959-1976.

 Posture-mouvement : Coordination intersegmentaire

  • Lemieux LG, Simoneau M, Tessier J-F, Billot M, Blouin J, Teasdale N (2014). Balance control interferes with the tracing performance of a pattern with mirror-reversed vision in older persons. Age 36:823–837
  • Gueguen N, Charbonneau M, Robert G, Coyle T, Prince F, Mouchnino L (2005) Intersegmental coordination : motor pattern in humans stepping over an obstacle with increased ankle joint stiffness. Journal of Biomechanics 38 : 1491-1500
  • Weeks DL, Forget R, Mouchnino L, Gravel D, Bourbonnais D (2003) Interaction between attention demanding motor and cognitive tasks and static postural stability. Gerontology 49 : 225-232
  • Mouchnino L, Mesure S, Lizée E, Landjerit B, Massion J (1998) Is the Spine a rigid or articulated block during leg movement ? Human Movement Science 17 : 289-306
  • Mouchnino L, Massion J (1994) Contrôle de l’équilibre pendant une élévation latérale de jambe. Archives Internationales de Physiologie, de Biochimie et de Biophysique 102 : C9-C10
  • Mouchnino L, Aurenty R, Massion J, Pedotti A (1993) Is the trunk a reference frame for calculating leg position ? NeuroReport 4 : 125-127
  • Mouchnino L, Aurenty R, Massion J, Pedotti A (1992) Coordination between equilibrium and head-trunk orientation during leg movement : a new strategy built up by training. Journal of Neurophysiology 67 : 1587-1598
  • Mouchnino L, Aurenty R, Massion J, Pedotti A (1991) Stratégies de contrôle de l’équilibre et de la position de la tête pendant l’élévation d’une jambe. Comptes Rendus des Séances de l’Académie de Sciences 3 : pp. 225-232

 Poursuite oculo-manuelle de cibles

  • Vercher J-L, Sarès F, Blouin J, Bourdin C, Gauthier GM (2003) Role of sensory information in updating internal models of the effector during arm tracking. Progress in Brain Research 142 : 203-222
  • Vercher J-L, Gauthier GM, Cole J, Blouin J (1997) Role of arm proprioception in calibrating the arm-eye temporal coordination. Neuroscience Letters 237 : 109-112
  • Vercher J-L, Gauthier GM, Guédon O, Blouin J, Cole J, Lamarre Y (1996) Self-moved target tracking in control and deafferented subjects : role of arm motor command efferent copy and proprioception in arm-eye coordination. Journal of Neurophysiology 76 : 1133-1144

 Représentation du corps dans l’environnement : mise à jour durant les déplacements

  • Tremblay L, Kennedy A, Paleressompoulle D, Borel L, Mouchnino L, Blouin J (2013) Biases in the perception of self-motion during whole-bod y acceleration and deceleration. Frontiers in Integrative Neuroscience 7:90
  • Simoneau M, Lamothe V, Hutin E, Mercier P, Teasdale N, Blouin J (2009) Evidence for vestibular integration impairment in idiopathic scoliosis patients. BMC Neuroscience 10:102, 1-7
  • Blouin J, Okada T, Wolsley C, Bronstein A (1998) Encoding target-trunk relative position : cervical vs. vestibular contribution. Experimental Brain Research 122 : 101-107
  • Blouin J, Labrousse L, Simoneau M, Vercher J-L, Gauthier GM (1998) Updating visual space during passive and voluntary head-in-space movements. Experimental Brain Research 122 : 93-100
  • Blouin J, Gauthier GM, Vercher J-L (1997) Visual object localization through vestibular and neck inputs : II- Updating off-mid-sagittal-plane target positions. Journal of Vestibular Research 7 : 137-143
  • Blouin J, Vercher J-L, Gauthier GM, Paillard J, Bard C, Lamarre Y (1995) Perception of passive whole-body rotation in the absence of neck and body proprioception. Journal of Neurophysiology 74 : 2216-2219
  • Blouin J, Gauthier GM, Vercher J-L (1995) Failure to update the egocentric representation of the visual space through labyrinthine signal. Brain and Cognition 29 : 1-22
  • Blouin J, Gauthier GM, van Donkelaar P, Vercher J-L (1995) Encoding the position of a flashed visual target after passive body rotations. Neuroreport 6 : 1165-1168
  • Blouin J, Bridgeman B, Teasdale N, Bard C, Fleury M (1995) Visual stability with goal-directed eye and arm movements toward a target displaced during saccadic suppression. Psychological Research 58 : 169-176
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