■ Research grants & projects
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1.
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(Grant No.:17H03548)
Budget amount:\3,380,000 (Principal investigator)
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2.
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(Grant No.:17K07102)
Budget amount:\1,040,000 (Principal investigator)
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3.
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(Grant No.:17K07058)
Budget amount:\1,170,000 (Principal investigator)
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4.
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(Grant No.:18K14854)
Budget amount:\2,080,000 (Principal investigator)
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5.
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(Grant No.:17H05752)
Budget amount:\5,590,000 (Principal investigator)
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6.
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(Grant No.:17H05775)
Budget amount:\4,420,000 (Principal investigator)
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7.
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(Grant No.:17H05912)
Budget amount:\5,070,000 (Principal investigator)
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8.
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(Grant No.:17K19466)
Budget amount:\1,820,000 (Principal investigator)
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9.
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(Grant No.:16K18995)
Budget amount:\1,269,599 (Principal investigator)
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10.
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(Grant No.:17H06311)
Budget amount:\800,000 (Co-investigator)
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■ Published papers
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Original article
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1.
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Sakai Yusuke†, Kassai Hidetoshi, Nakayama Hisako, Fukaya Masahiro, Maeda Tatsuya, Nakao Kazuki, Hashimoto Kouichi, Sakagami Hiroyuki, Kano Masanobu, Aiba Atsu*:
Hyperactivation of mTORC1 disrupts cellular homeostasis in cerebellar Purkinje cells.
Scientific Reports
9
(1)
:2799
, 2019.2
DOI:10.1038/s41598-019-38730-4.
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2.
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NIIMI Yosuke†, MATSUMINE Hajime*, TAKEUCHI Yuichi, OSAKI Hironobu, TSUNODA Satoshi, MIYATA Mariko, YAMATO Masayuki, SAKURAI Hiroyuki:
A collagen-coated PGA conduit for interpositional-jump graft with end-to-side neurorrhaphy for treating facial nerve paralysis in rat.
Microsurgery
39
(1)
:70-80
, 2019.1
DOI:10.1002/micr.30291
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3.
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Kamei Wataru†, Matsumine Hajime*, Osaki Hironobu, Ueta Yoshifumi, Tsunoda Satoshi, Shimizu Mari, Hashimoto Kazuki, Niimi Yosuke, Miyata Mariko, Sakurai Hiroyuki:
Axonal supercharged interpositional jump-graft with a hybrid artificial nerve conduit containing adipose-derived stem cells in facial nerve paresis rat model.
Microsurgery
38
(8)
:889-898
, 2018.11
DOI:10.1002/micr.30389
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4.
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Shimizu Mari†, Matsumine Hajime*, Osaki Hironobu, Ueta Yoshihumi, Tsunoda Satoshi, Kamei Wataru, Hashimoto Kukazi, Niimi Yosuke, Watanabe Yorikatsu, Miyata Mariko, Sakurai Hiroyuki:
Adipose-derived stem cells and the stromal vascular fraction in polyglycolic-acid (PGA)-collagen nerve conduits promote rat facial nerve regeneration.
Wound Repair and Regeneration
26
(6)
:446-455
, 2018.11
DOI:10.1111/wrr.12665
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5.
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Hisako Nakayama†, Manabu Abe†, Chie Morimoto, Tadatune Iida, Shigeo Okabe, Kenji Sakimura, Kouichi Hashimoto*:
Microglia permit climbing fiber elimination by promoting GABAergic inhibition in the developing cerebellum.
Nature Communications.
9
(1)
:2830
, 2018.7
DOI:10.1038/s41467-018-05100-z
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6.
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Yuki Yagasaki†, Goichi Miyosi, Mariko Miyata*:
Experience-dependent MeCP2 expression in the excitatory cells of mouse visual thalamus.
PLoS ONE
13
(5)
:e0198268
, 2018.5
DOI:10.1371/journal.pone.0198268
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7.
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Yuichi Takeuchi†*, Hironobu Osaki, Hajime Matsumine, Yosuke Niimi, Ryo Sasaki, Mariko Miyata:
A method package for electrophysiological evaluation of reconstructed or regenerated facial nerves in rodents.
MethodsX
5
:283-298
, 2018.4
DOI:https://doi.org/10.1016/j.mex.2018.03.007
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8.
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Osaki Hironobu†*, Naito Tomoyuki, Soma Shogo, Sato Hiromichi:
Receptive field properties of cat perigeniculate neurons correlate with excitatory and inhibitory connectivity to LGN relay neurons.
Neuroscience research
132
:26-36
, 2018
DOI:10.1016/j.neures.2017.09.001
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Review article
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1.
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Miyoshi Goichi†*:
Elucidating the developmental trajectories of GABAergic cortical interneuron subtypes.
Neuroscience Research
138
:26-32
, 2019.1
DOI:10.1016/j.neures.2018.09.012
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2.
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植田禎史†*:
神経損傷に伴う体部位再現図の再構築.
Precision Medicine
1
(3)
:295-299
, 2018.12
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3.
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Midorikawa Mitsuharu:
Real-time imaging of synaptic vesicle exocytosis by total internal reflection fluorescence (TIRF) microscopy.
Neuroscience research
136
:1-5
, 2018.11
DOI:10.1016/j.neures.2018.01.008
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4.
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植田禎史†*:
中枢神経回路の可塑的再構築.
アグリバイオ
2
(11)
:1118-1121
, 2018.9
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5.
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植田禎史†*:
神経損傷に伴う中枢回路の再構築.
細胞
50
(6)
:323-326
, 2018.5
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■ Academic conference presentation
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1.
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◎Kiuchi(Yagasaki) Yuki, Miyoshi Goichi, Miyata Mariko:
Experience and cell type dependent induction of MeCP2 in the visual thalamus.
9th FAOPS Congress,
Kobe, Japan,
2019/03
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2.
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◎Midorikawa Mitsuharu, Miyata Mariko:
Presynaptic properties at lemniscal fiber terminals in the somatosensory thalamus.
9th FAOPS Congress,
kobe, Japan,
2019/03
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3.
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◎Hisako Nakayama:
Microglia permit climbing fiber pruning by promoting synaptic inhibition in the developing cerebellm.
9th FAOPS,
Kobe, Japan,
2019/03
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4.
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◎Narushima Madoka, Yagasaki Yuki, Takeuchi Yuichi, Miyata Mariko:
The mGluR1 contributes strengthening and maintenance of developing lemniscal synapses.
9th FAOPS Congress,
kobe, Japan,
2019/03
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5.
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◎Ueta Yoshifumi, Miyata Mariko:
Regulation of aberrant synaptic remodeling in the thalamus triggered by peripheral nerve injury.
9th FAOPS Congress,
Kobe, Japan,
2019/03
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6.
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Atsushi Fukui, ◎Hironobu Osaki, Yoshifumi Ueta and Mariko Miyata:
Layer-specific impairment of somatosensory processing in the primary
sensory cortex after motor cortex infarction.
2nd International Symposium on Embodied-Brain Systems Science,
Osaka,
2018/12
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7.
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◎Hironobu Osaki, Mizuki Kawashima, Mizuki Yasuda and Mariko Miyata:
Nociceptive neurons in the primary somatosensory cortex:
area and layer specific distribution.
2nd International Symposium on Embodied-Brain Systems Science,
Osaka,
2018/12
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8.
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◎Ueta Yoshifumi, Miyata Mariko:
Suppression of microglia prevents nerve injury-induced synapse remodeling in the thalamus.
Cold Spring Harbor Asia conference "Latest Advances in Development & Function of Neuronal Circuits",
Awaji, Japan,
2018/09
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9.
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Mitsuharu Midorikawa, Takeshi Sakaba:
Measuring dynamics of releasable synaptic vesicles at hippocampal mossy fiber boutons.
Latest Advances in Development & Function of Neuronal Circuits 2018,
Hyogo, Japan,
2018/09
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10.
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◎Nakayama Hisako, Abe Manabu, Morimoto Chie, Sakimura Kenji, Hashimoto Kouichi:
Microglia permit climbing fiber refinement by promoting inhibitory synaptic transmission in the developing cerebellum.
Latest Advances in Development & Function of Neuronal Circuits 2018,
Hyogo, Japan,
2018/09
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11.
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◎佐藤 梓, 辻野賢治, 加藤砂織, 田部瑶子, 上田明子, 中谷 允, 藤原吉希, 宮田麻理子, 尾崎 眞:
医学部の選択講義(医学情報学)におけるタブレット端末の活用.
日本情報教育学会 第1回研究会,
東京, 日本,
2019/03
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12.
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◎UetaYoshifumi, MiyataMariko:
Suppression of microglia prevents nerve injury-induced synaptic remodeling in the thalamus.
新学術領域研究スクラップ&ビルドによる脳機能の動的制御 第3回領域会議,
大阪,日本,
2018/11
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13.
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◎Osaki Hironobu, Ueta Yoshifumi, Miyata Mariko:
Dysgranular area in the primary somatosensory cortex selectively encodes noxious information.
The 41st annual meeting of the Japan Neuroscience Society,
Kobe, Japan,
2018/07
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14.
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FUKUI Atsushi, ◎Osaki Hironobu, Ueta Yoshifumi, Miyata Mariko:
Layer-dependent recovery of tactile sensory processing in mouse primary somatosensory cortex after a focal motor cortex stroke.
The 41st annual meeting of the Japan Neuroscience Society,
Kobe, Japan,
2018/07
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15.
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◎三好悟一、花嶋 かりな、Victor Borrell:
大脳皮質の形成と機能 発現を担う遺伝子発現 制御システムの新展開.
第41回日本神経科学大会,
神戸、日本,
2018/07
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16.
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◎Ueta Yoshifumi, Sekino Sachie, Takeuchi Yuichi, Katayama Yoko, Miyata Mariko:
Suppression of microglia prevents nerve injury-induced remodeling of thalamic circuits and ectopic allodynia.
The 41st annual meeting of the Japan Neuroscience Society,
Kobe, Japan,
2018/07
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17.
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◎尾崎弘展, 植田禎史, 宮田麻理子:
大脳皮質一次体性感覚野での痛覚受容はdysgranular領域で行われている.
第40回日本疼痛学会,
長崎,
2018/06
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18.
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◎Goichi,miyoshi:
Assembly of inhibitory circuitry by FoxG1, a gene associated with autism spectrum disorders.
22nd Biennial Meeting of the International Society for Developmental Neuroscience,
Nara,Japan,
2018/05
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19.
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◎宮田麻理子:
Synaptic remodeling and topological reorganization in the mammalian thalamus.
新学術領域研究スクラップ&ビルドによる脳機能の動的制御 第3回領域会議,
大阪、日本,
2018/11
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20.
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◎宮田 麻理子:
痛覚情報処理に関わる新たな脳領域.
第1回東京女子医科大学・早稲田大学融合研究創出ワークショップ(案)テーマ:脳神経分野,
東京、日本,
2018/07
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21.
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◎尾崎弘展:
大脳皮質一次体性感覚野における痛覚受容細胞の分布様式の電気生理学的検証.
第1回東京女子医科大学・早稲田大学融合創出ワークショップ,
東京、日本,
2018/07
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