TY - JOUR
T1 - Arm-use dependent lateralization of gamma and beta oscillations in primate medial motor areas
AU - Hosaka, Ryosuke
AU - Nakajima, Toshi
AU - Aihara, Kazuyuki
AU - Yamaguchi, Yoko
AU - Mushiake, Hajime
N1 - Funding Information:
We thank Mr. M. Kurama, Mr. Y. Takahashi and Ms. M. Takahashi for technical assistance and animal care. This work was supported by grants from the Tohoku Neuroscience Global COE (T.N.,H.M.), a Grand-in-id for Scientific Research on Innovative Areas Neural creativity for communication (No. 4103) ( 24120702 ) of MEXT (R.H.,T.N.,Y.Y.,H.M.), the Aihara Project, the ERATO program of JST (R.H.,K.A.), and the Aihara Project, the FIRST program from JSPS , initiated by CSTP (K.A.).
Publisher Copyright:
© 2014 Elsevier Ltd.
PY - 2015/2/1
Y1 - 2015/2/1
N2 - The neurons in the motor cortex show lateralization depending on the arm to use. To investigate if local field potential (LFP) oscillations change with contralateral and ipsilateral arm use, we analyzed the power of LFP in supplementary motor areas (SMA) and pre-SMA while animals performed a delayed-response arm use task under visual guidance and memory-based. LFP power changed with the laterality of the arm use, but it was frequency dependent. Specifically, power in the gamma range increased during contralateral arm use, while beta power increased with ipsilateral arm use. Subsequently, we confirmed that the frequency-dependent laterality was true also for the memory-driven movements. Our data therefore suggest that gamma oscillation is linked to the local neuronal activities in the contralateral hemisphere, and beta oscillation is related to withholding undesired arm movements by suppression of the local neuronal activities of the ipsilateral hemisphere.
AB - The neurons in the motor cortex show lateralization depending on the arm to use. To investigate if local field potential (LFP) oscillations change with contralateral and ipsilateral arm use, we analyzed the power of LFP in supplementary motor areas (SMA) and pre-SMA while animals performed a delayed-response arm use task under visual guidance and memory-based. LFP power changed with the laterality of the arm use, but it was frequency dependent. Specifically, power in the gamma range increased during contralateral arm use, while beta power increased with ipsilateral arm use. Subsequently, we confirmed that the frequency-dependent laterality was true also for the memory-driven movements. Our data therefore suggest that gamma oscillation is linked to the local neuronal activities in the contralateral hemisphere, and beta oscillation is related to withholding undesired arm movements by suppression of the local neuronal activities of the ipsilateral hemisphere.
KW - Local field potential
KW - Supplementary motor area
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U2 - 10.1016/j.neunet.2014.06.004
DO - 10.1016/j.neunet.2014.06.004
M3 - Article
C2 - 24975879
AN - SCOPUS:84921370452
SN - 0893-6080
VL - 62
SP - 62
EP - 66
JO - Neural Networks
JF - Neural Networks
ER -