2016 - 2020 Increasing the use of paralyzed arm by rehabilitation system based on the 3 dimensional motor recovery model
2015 - 2018 脳梗塞サルモデルを用いた機能回復メカニズムの統合的理解
2015 - 2016 脳卒中後の把握機能回復をもたらす脳内身体表現の変化:サルモデルによる解明
2012 - 2013 The mechanism of the motor functional recovery after the inner capsular lesion in non-human primate model
Show all
Papers (32):
Yamamoto Tatsuya, Yoshida Yuko, Ose Takayuki, Murata Yumi, Hayashi Takuya, Higo Noriyuki. マカクザル小脳におけるAldoc、PLCB3、PLCB4分子マーカーの特徴的な発現パターン(Distinct expression patterns of Aldolase C, Phospholipase C bata 3, and beta 4 in the macaque cerebellum). The Journal of Physiological Sciences. 2023. 73. Suppl.1. 200-200
Jun Izawa, Noriyuki Higo, Yumi Murata. Accounting for the valley of recovery during post-stroke rehabilitation training via a model-based analysis of macaque manual dexterity. Frontiers in Rehabilitation Sciences. 2022. 3
Junpei Kato, Yumi Murata, Ichiro Takashima, Noriyuki Higo. Time- and area-dependent macrophage/microglial responses after focal infarction of the macaque internal capsule. Neuroscience research. 2020
Suzuki M, Onoe K, Sawada M, Takahashi N, Higo N, Murata Y, Tsukada H, Isa T, Onoe H, Nishimura Y. The Ventral Striatum is a Key Node for Functional Recovery of Finger Dexterity After Spinal Cord Injury in Monkeys. Cerebral cortex (New York, N.Y. : 1991). 2019. 30. 5. 3259-3270
Yamamoto T, Hayashi T, Murata Y, Ose T, Higo N. Premotor Cortical-Cerebellar Reorganization in a Macaque Model of Primary Motor Cortical Lesion and Recovery. The Journal of neuroscience : the official journal of the Society for Neuroscience. 2019. 39. 43. 8484-8496