• Neuroscience · Nov 2024

    Posture-dependent modulation of marmoset cortical motor maps detected via rapid multichannel epidural stimulation.

    • Mitsuaki Takemi, Banty Tia, Akito Kosugi, Elisa Castagnola, Alberto Ansaldo, Davide Ricci, Luciano Fadiga, Junichi Ushiba, and Atsushi Iriki.
    • Laboratory for Symbolic Cognitive Development, RIKEN Brain Science Institute, Saitama, Japan; Graduate School of Science and Technology, Keio University, Kanagawa, Japan; Japan Science and Technology Agency, PRESTO, Saitama, Japan.
    • Neuroscience. 2024 Nov 12; 560: 263271263-271.

    AbstractRecent neuroimaging and electrophysiological studies have suggested substantial short-term plasticity in the topographic maps of the primary motor cortex (M1). However, previous methods lack the temporal resolution to detect rapid modulation of these maps, particularly in naturalistic conditions. To address this limitation, we previously developed a rapid stimulation mapping procedure with implanted cortical surface electrodes. In this study, employing our previously established procedure, we examined rapid topographical changes in forelimb M1 motor maps in three awake male marmoset monkeys. The results revealed that although the hotspot (the location in M1 that elicited a forelimb muscle twitch with the lowest stimulus intensity) remained constant across postures, the stimulus intensity required to elicit the forelimb muscle twitch in the perihotspot region and the size of motor representations were posture-dependent. Hindlimb posture was particularly effective in inducing these modulations. The angle of the body axis relative to the gravitational vertical line did not alter the motor maps. These results provide a proof of concept that a rapid stimulation mapping system with chronically implanted cortical electrodes can capture the dynamic regulation of forelimb motor maps in natural conditions. Moreover, they suggest that posture is a crucial variable to be controlled in future studies of motor control and cortical plasticity. Further exploration is warranted into the neural mechanisms regulating forelimb muscle representations in M1 by the hindlimb sensorimotor state.Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.

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