Multisensory integration

Brain Dynamics

Domaine de recherche principal: 

Cognitive neurosciences / neuropsychology /neuroeconomy

Mots clefs: 

Multisensory integration
magnetoencephalography
neural oscillations
temporal cognition

Labelisation ENP: 

2016

Centre de recherche / Institut: 

Neurospin

Code unité de recherche: 

U992

The Brain Dynamics group focuses on the chronoarchitecture of the Human brain supporting perception and cognition.Our work is committed to the view that perception and cognition rely on inferential brain processes which are fundamental to contemporary theories of cortical functions. Neural inferences are shaped by both hard and soft constraints e.g. cognitive architecture and plasticity, respectively.

Leader

Leader: 

Établissements

Établissement de rattachement: 

Inserm

Établissements affiliés: 

CEA
Direction des Sciences du Vivant
Institut d'Imagerie BioMédicale

École doctorale: 

ED158 3C
Laboratory

Nom: 

Cognitive Neuroimaging Unit

Initiatives d'Excellence: 

IDEX Neuro Saclay
Publications

publications: 

Gauthier B, van Wassenhove V. Time Is Not Space: Core Computations and Domain-Specific Networks for Mental Travels. J Neurosci. 2016 Nov 23;36(47):11891-11903. 

Martin, J. R., #Kösem, A., & #van Wassenhove, V. (2015). Hysteresis in Audiovisual Synchrony Perception. e0119365.

Strauss, M., Sitt, J. D., King, J. R., Elbaz, M., #Azizi, L., #Buiatti, M., ... & Dehaene, S. (2015). Disruption of hierarchical predictivecoding during sleep. Proceedings of the National Academy of Sciences, 112(11), E1353-E1362.

Strauss, M., Sitt, J., King, J. R., Elbaz, M., Azizi, L., #Buiatti, M., ... & Dehaene, S. (2015). Atteinte des processus de prédiction maisconservation de l’adaptation sensorielle au cours du sommeil. Médecine du Sommeil, 12(1), 58.

Strauss, M., Sitt, J., King, J. R., Elbaz, M., Naccache, L., #Van Wassenhove, V., & Dehaene, S. (2015). Atteinte des systèmesprédictifs dans le sommeil.Revue Neurologique, 171, A172.

#van Wassenhove, V., & #Grzeczkowski, L. (2015). Visual-induced expectations modulate auditory cortical responses. Frontiers inNeuroscience, 9, 11.

Métabolisme, Imagerie et Olfaction

Domaine de recherche principal: 

Neurophysiology / systems neuroscience

Mots clefs: 

Olfactory system
neuroglial activity
Multisensory integration
food intake/obesity
imaging
electrophy/oscillations/behavior

Labelisation ENP: 

2010

Code unité de recherche: 

UMR 8165

Notre recherche porte sur l’étude de la plasticité sensorielle dans le système olfactif chez le rongeur adulte. Dans ce cadre, nous étudions la représentation spatiale et temporelle des odeurs dans le la première structure qui est chargée de coder l’information olfactive dans le cerveau, le bulbe olfactif (BO).

Personnel

Membres de l'équipe: 

MARTIN
PAIN
Établissements

Établissement de rattachement: 

Université Paris Diderot

Établissements affiliés: 

Université Paris Sud 11
CNRS

Université: 

Université Paris Sud 11

École doctorale: 

ED 419
Publications

publications: 

Martin C, Ravel N. (2014) Beta and gamma oscillatory activities associated with olfactory memory tasks: different rhythms for different functional networks? Front Behav Neurosci. 8:218. Free on line.

Osmanski BF, Martin C, Montaldo G, Lanièce P, Pain F, Tanter M, Gurden H. (2014) Functional ultrasound imaging reveals different odor-evoked patterns of vascular activity in the olfactory bulb and the anterior piriform cortex. Neuroimage. 95:176-84.

Soria-Gómez E., Bellocchio L., Reguero L., Lepousez G., Martin M., Bendahmane M., Ruehle S, Remmers F, Desprez T, Matias I, Wiesner T, Cannich A, Nissant A, Wadleigh A, Pape HC, Chiarlone AP, Quarta C, Verrier D, Vincent P, Massa F, Lutz B., Guzmán M, Gurden H., Ferreira G., Lledo PM, Grandes P., Marsicano G. (2014) The endocannabinoid system controls food intake via olfactory processes. Nature Neuroscience. 17(3):407-15. 

Martin C, Houitte D, Guillermier M, Petit F, Bonvento G, Gurden H. (2012) Alteration of sensory-evoked metabolic and oscillatory activities in the olfactory bulb of GLAST-deficient mice. Front Neural Circuits. 6:1. Free on line.