Corollary discharge circuits in the primate brain.

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2008-12

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Abstract

Movements are necessary to engage the world, but every movement results in sensorimotor ambiguity. Self-movements cause changes to sensory inflow as well as changes in the positions of objects relative to motor effectors (eyes and limbs). Hence the brain needs to monitor self-movements, and one way this is accomplished is by routing copies of movement commands to appropriate structures. These signals, known as corollary discharge (CD), enable compensation for sensory consequences of movement and preemptive updating of spatial representations. Such operations occur with a speed and accuracy that implies a reliance on prediction. Here we review recent CD studies and find that they arrive at a shared conclusion: CD contributes to prediction for the sake of sensorimotor harmony.

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Published Version (Please cite this version)

10.1016/j.conb.2008.09.017

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Crapse, Trinity B, and Marc A Sommer (2008). Corollary discharge circuits in the primate brain. Curr Opin Neurobiol, 18(6). pp. 552–557. 10.1016/j.conb.2008.09.017 Retrieved from https://hdl.handle.net/10161/11735.

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Sommer

Marc A. Sommer

Professor of Biomedical Engineering

We study circuits for cognition. Using a combination of neurophysiology and biomedical engineering, we focus on the interaction between brain areas during visual perception, decision-making, and motor planning. Specific projects include the role of frontal cortex in metacognition, the role of cerebellar-frontal circuits in action timing, the neural basis of "good enough" decision-making (satisficing), and the neural mechanisms of transcranial magnetic stimulation (TMS).


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