J
Jerome N. Sanes
Researcher at Brown University
Publications - 98
Citations - 9674
Jerome N. Sanes is an academic researcher from Brown University. The author has contributed to research in topics: Motor cortex & Primary motor cortex. The author has an hindex of 49, co-authored 96 publications receiving 9342 citations. Previous affiliations of Jerome N. Sanes include United States Department of Veterans Affairs & National Institutes of Health.
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Journal ArticleDOI
Plasticity and primary motor cortex.
Jerome N. Sanes,John P. Donoghue +1 more
TL;DR: The intrinsic horizontal neuronal connections in MI are a strong candidate substrate for map reorganization: They interconnect large regions of MI, they show activity-dependent plasticity, and they modify in association with skill learning.
Journal ArticleDOI
Oscillations in local field potentials of the primate motor cortex during voluntary movement.
Jerome N. Sanes,John P. Donoghue +1 more
TL;DR: It is demonstrated that oscillations recorded in the LFP in motor cortex during trained motor tasks are not related to the details of movement execution but may be related to aspects of movement preparation.
Journal ArticleDOI
Neural Discharge and Local Field Potential Oscillations in Primate Motor Cortex During Voluntary Movements
TL;DR: Widespread coupling of oscillatory signals is consistent with the concept that temporal coding processes operate in motor cortex, but because the relationship between neuronal discharge and the appearance of fast oscillations may be altered by behavioral condition, they must reflect a global process active in conjunction with motor planning or preparatory functions.
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Shared neural substrates controlling hand movements in human motor cortex
TL;DR: A functional magnetic resonance imaging method that measures relative cerebral blood flow was used to identify a distributed, overlapping pattern of hand movement representation within the posterior precentral gyrus, which contains M1.
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Dynamic organization of primary motor cortex output to target muscles in adult rats. II. Rapid reorganization following motor nerve lesions.
TL;DR: The results indicated that the output circuits of MI can be quickly reorganized by nerve lesions in adult mammals.