Literature DB >> 23575852

Functional role of the cerebellum in gamma-band synchronization of the sensory and motor cortices.

Daniela Popa1, Maria Spolidoro, Rémi D Proville, Nicolas Guyon, Lucile Belliveau, Clément Léna.   

Abstract

The cerebellum is an essential structure for the control of movement. It sends abundant ascending projections to the cerebral cortex via the thalamus, but its contribution to cortical activity remains largely unknown. Here we studied its influence on cortical neuronal activity in freely moving rats. We demonstrate an excitatory action of the cerebellum on the motor thalamus and the motor cortex. We also show that cerebellar inactivation disrupts the gamma-band coherence of local field potential between the sensory and motor cortices during whisking. In contrast, phase locking of neuronal activities to local gamma oscillations was preserved in the sensory and motor cortices by cerebellar inactivation. These results indicate that the cerebellum contributes to coordinated sensorimotor cortical activities during motor activation and thus participates in the multiregional cortical processing of information.

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Year:  2013        PMID: 23575852      PMCID: PMC6619065          DOI: 10.1523/JNEUROSCI.5521-12.2013

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  46 in total

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  37 in total

1.  Cerebellum involvement in cortical sensorimotor circuits for the control of voluntary movements.

Authors:  Rémi D Proville; Maria Spolidoro; Nicolas Guyon; Guillaume P Dugué; Fekrije Selimi; Philippe Isope; Daniela Popa; Clément Léna
Journal:  Nat Neurosci       Date:  2014-07-27       Impact factor: 24.884

2.  Cerebellar potentiation and learning a whisker-based object localization task with a time response window.

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8.  Respiration modulates oscillatory neural network activity at rest.

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Review 9.  A Liaison Brought to Light: Cerebellum-Hippocampus, Partners for Spatial Cognition.

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10.  Interhemispheric Connectivity Characterizes Cortical Reorganization in Motor-Related Networks After Cerebellar Lesions.

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