Distributed task-specific processing of somatosensory feedback for voluntary motor control

Authors

Mohsen Omrani, Queen's University, Centre for Neuroscience Studies, Kingston
Chantelle D. Murnaghan, Queen's University, Centre for Neuroscience Studies, Kingston
J. Andrew Pruszynski, Queen's University, Centre for Neuroscience Studies, KingstonFollow
Stephen H. Scott, Queen's University, Centre for Neuroscience Studies, Kingston

Document Type

Article

Publication Date

4-14-2016

Journal

eLife

Volume

5

Issue

APRIL2016

URL with Digital Object Identifier

10.7554/eLife.13141

Abstract

Corrective responses to limb disturbances are surprisingly complex, but the neural basis of these goal-directed responses is poorly understood. Here we show that somatosensory feedback is transmitted to many sensory and motor cortical regions within 25 ms of a mechanical disturbance applied to the monkey’s arm. When limb feedback was salient to an ongoing motor action (task engagement), neurons in parietal area 5 immediately (~ 25 ms) increased their response to limb disturbances, whereas neurons in other regions did not alter their response until 15 to 40 ms later. In contrast, initiation of a motor action elicited by a limb disturbance (target selection) altered neural responses in primary motor cortex ~ 65 ms after the limb disturbance, and then in dorsal premotor cortex, with no effect in parietal regions until 150 ms post-perturbation. Our findings highlight broad parietofrontal circuits that provide the neural substrate for goal-directed corrections, an essential aspect of highly skilled motor behaviors.