2019擭埲崀偼戝妛嬈愌僨乕僞儀乕僗傪嶲徠壓偝偄丅
2018
尨挊榑暥
Experience-dependent expression of MeCP2 in the mouse dorsal lateral geniculate nucleus excitatory cells.
Yuki Yagasaki, Goichi Miyoshi, Mariko Miyata
PLOS ONE
May 30, 2018; https://doi.org/10.1371/journal.pone.0198268
A method package for electrophysiological evaluation of reconstructed or regenerated facial nerves in rodents.
Yuichi Takeuchi, Hironobu Osaki, Hajime Matsumine, Yosuke Niimi, Ryo Sasaki, Mariko Miyata
MethodX
Volume 5, 2018, Pages 283-298
2017
尨挊榑暥
A collagen-coated PGA conduit for interpositional-jump graft with end-to-side neurorrhaphy for treating facial nerve paralysis in rat
Yosuke Niimi, Hajime Matsumine, Yuichi Takeuchi, Hironobu Osaki, Satoshi Tsunoda, Mariko Miyata, Masayuki
Yamato, and Hiroyuki Sakurai
Microsurgery
In Press
Comparison of the role of metabotropic glutamate receptor subtype 1 in developmental refinement of neuronal connectivity between the cerebellum and the sensory thalamus
(Review article)
Madoka Narushima
Neuroscience Research
Volume 129, April 2018, Pages 24-3
Afferent fiber remodeling in the somatosensory thalamus of mice as a neural basis of somatotopic reorganization in the brain and ectopic mechanical hypersensitivity after peripheral sensory nerve injury
PDF偼偙偪傜
Yuichi Takeuchi, Hironobu Osaki, Yuki Yagasaki, Yoko Katayama, and Mariko Miyata
eNeuro 23 March 2017, ENEURO.0345-16.2017
亙榑暥偺撪梕亜
偙傟傑偱変乆偼丄枛徑恄宱傪懝彎偡傞偲姶妎帇彴撪偱媮怱惈慄堐偺攝慄曄壔偑惗偠傞偙偲傪柧傜偐偵偟偰偒傑偟偨偑丄偦偺尰徾偑偳偺傛偆側昦懺惗棟妛揑堄枴傪帩偮偺偐偼晄柧偱偟偨丅
杮尋媶偱偼丄摿掕偺恄宱廤抍偑昗幆偝傟偨堚揱巕夵曄摦暔偺棙揰傪妶偐偟丄
丒恄宱夝朥妛
丒in vivo揹婥惗棟妛
丒峴摦幚尡
偵傛傝丄偦偺帇彴撪媮怱惈慄堐攝慄曄壔偑堎強惈醬捝偵娭梌偟偰偄傞壜擻惈傪帵嵈偟傑偟偨丅
2016
尨挊榑暥
Type 1 Metabotropic Glutamate Receptor Mediates Experience-Dependent Maintenance of Mature Synaptic Connectivity in the Visual Thalamus
Narushima M., Uchigashima M., Yagasaki Y., Harada T., Nagumo Y., Uesaka N., Hashimoto K, Aiba A, Watanabe M, Miyata M.* and Kano M*.
*Corresponding author
Neuron. 2016 Sep 7;91(5):1097-109
杮妛偺曬摴敪昞偺撪梕偼偙偪傜乽惉弉偟偨恄宱夞楬傪堐帩偡傞巇慻傒傪夝
柧丂乣帺暵徢偺昦懺夝柧偵婜懸乣乿傪僋儕僢僋偟偰壓偝偄丅
2015
尨挊榑暥
Miyoshi Goichi, Young Allison, Petros Timothy, Karayannis Theofanis, McKenzie Chang Melissa, Lavado Alfonso, Iwano Tomohiko, Nakajima Miho, Taniguchi Hiroki, Huang Z Josh, Heintz Nathaniel, Oliver Guillermo, Matsuzaki Fumio, Machold Robert P, Fishell Gord丗 Prox1 Regulates the Subtype-Specific Development of Caudal Ganglionic Eminence-Derived GABAergic Cortical Interneurons. The Journal of neuroscience : the official journal of the Society for Neuroscience 35 (37) 丗12869-89 , 2015.9
Niimi Y., Matsumine H., Takeuchi Y., Sasaki R, Watanabe Y., Yamato M., Miyata M., Sakurai H. (2015)
Effectively axonal-supercharged interpositional-jump graft with an artificial nerve-conduit for rat facial nerve paralysis model. Plast Reconstr Surg Glob Open; 3:e416
Mariko Miyata丗 Changing times, Chenging Gender Roles, Who Do We Want Female Researcher to be.丂乽彈慜偺尋媶幰偵側傞偨傔偵乿. Acta Anatomica Nipponica 90 (4) 丗27-28 , 2015.9
妛夛敪昞
嶰岲屽堦
恄宱擣抦忈奞娭楢場巕FoxG1偵傛傞戝擼旂幙夞楬宍惉婡峔丂BMB2015,恄屗丂2015.12丂
Nagumo Y., Takeuchi Y., Miyata M.
Remodeling of somatosensory thalamic neural circuit and allodynia-like mechanical hypersensitivity
The 38th Annual Meeting of the Japan Neuroscience Society丂Kobe丂2015.7丂
Takeuchi Y., Nagumo Y., Osaki H., Katayama Y., Miyata M.
Large-scale somatotopic reorganization associated with afferent fiber rewiring in the whisker sensory thalamus
The 38th Annual Meeting of the Japan Neuroscience Society丂Kobe丂2015.7丂
Miyata M., Takeuchi Y., Katayama Y.
Large-scale somatotopic refinement via experience-dependent synapse elimination in the whisker sensory thalamus
The 38th Annual Meeting of the Japan Neuroscience Society丂Kobe丂2015.7丂乮僔儞億僕僂儉島墘乯
Yagasaki Y., Miyata M.
Regulation of MeCP2 protein expression in the mouse dLGN at the experience dependent maintenance phase of retinogeniculate synapse
The 38th Annual Meeting of the Japan Neuroscience Society丂Kobe丂2015.7
仢MiyataMariko, TakeuchiYuichi, OsakiHironobu
恄宱懝彎偵傛傞帇彴忋峴惈慄堐偺懱晹埵忣曬嵞峔抸
戞93夞擔杮惗棟妛夛戝夛, 嶥杫, 2016/03
仢旜嶈 峅揥, 怉揷 掯巎, 媨揷 杻棟巕
In vivo imaging of cortical map remodeling in a mouse model for peripheral nerve injury
戞93夞擔杮惗棟妛夛戝夛, 嶥杫, 2016/03
Miyoshi, G., Ueta, U., Osaki, H., Yagasaki, Y., Hanashima, C., Fishell, G., Miata, M
Assembly of Neocortical Circuitry by FoxG1, a Gene Associated with Neurocognitive Disorders
戞93夞擔杮惗棟妛夛戝夛, 嶥杫, 2016/03
偦偺懠偺敪昞
媨揷杻棟巕
怴妛弍椞堟丂恎懱惈僔僗僥儉椞堟丂戞3夞慡懱夛媍丂岥摢敪昞
壴姫丂娾庤丂2016.3.8
旜嶈峅揥
怴妛弍椞堟丂恎懱惈僔僗僥儉椞堟丂戞3夞慡懱夛媍丂億僗僞乕敪昞
壴姫丂娾庤丂2016.3.7-9
媨揷杻棟巕
枛徑恄宱懝彎偵敽偆拞悤恄宱夞楬偺壜慪揑曄壔偲恎懱昞尰偺曄梕
搶嫗戝妛戝妛堾堛妛宯尋媶壢恄宱惗棟妛暘栰尋媶夛丂搶嫗丂2016.1.30
媨揷杻棟巕
枛徑恄宱懝彎偵傛傞擼撪恎懱昞尰偺曄梕偲偦偺婡峔
孮攏戝妛戝妛堾堛妛宯尋媶壢僙儈僫乕丂孮攏丂2016.1.29
媨揷杻棟巕
拞悤恄宱宯偺堐帩夵曇偵娭傢傞暘巕婡峔
惗棟妛尋媶強尋媶夛乽僔僫僾僗丒恄宱僱僢僩儚乕僋偺婡擻僟僀僫儈僋僗乿丂垽抦導壀嶈巗丂2015.12
媨揷杻棟巕
拞悤恄宱宯夞楬偺堐帩丄夵曇婡峔
摨巙幮戝妛丂僔僗僥儉恄宱壢妛僙儞僞乕丂摿暿僙儈僫乕丂嫗搒丂2015.11
媨揷杻棟巕
怴妛弍椞堟丂恎懱惈僔僗僥儉椞堟丂戞2夞慡懱夛媍丂岥摢敪昞
埱椦戝妛丂嶰戦僉儍儞僷僗丂搶嫗丂2015.7
媨揷杻棟巕
尪巿捝乣尪偺捝傒偺惓懱丗恄宱夞楬儗儀儖偺夝柧傪傔偞偟偰
搶嫗堛壢戝妛丒戞51夞丂堛壢妛僼僅乕儔儉丂戝妛堾摿暿島媊丂搶嫗丂2015.7
2014
尨挊榑暥
Matsumine H., Sasaki R., Takeuchi Y., Watanabe Y., Niimi Y., Sakurai H., Miyata M., Yamato M. (2014)
Unilateral multiple facial-nerve branch reconstruction using "end-to-side loop graft" supercharged by hypoglossal nerve. Plast Reconstr Surg Glob Open 2: e240.
Sasaki R., Matsumine H., Watanabe Y., Takeuchi Y., Yamato M., Okano T., Miyata M., Ando T. (2014)
Electrophysiological and functional evaluations of regenerated facial-nerve defect with a tube containing dental pulp cells in rats. Plast Reconstr Surg 134: 970-978.
Matsumine H., Takeuchi Y., Sasaki R., Kazama T., Kano K., Matsumoto T., Sakurai H., Miyata M., Yamato M. (2014)
Adipocyte-derived and dedifferentiated fat cells promoting facial nerve regeneration in a rat model. Plast Reconstr Surg 134: 686-697.
Ohtani Y.*, Miyata M.*, Hashimoto K., Tabata T., Kishimoto Y., Fukaya M., Kase D., Kassai H., Nakao K., Hirata T., Watanabe M., Kano M., and Aiba A. (2014)
Synaptic targeting of mGluR1 by carboxyl-terminal domain is crucial for cerebellar function. J Neurosci 34: 2702-2712.
*equal contribution
Matsumine H., Sasaki R., Takeuchi Y., Miyata M., Yamato M., Sakurai H. (2014) Vascularized versus non-vascularized island-median nerve grafts in the facial nerve regeneration and functional recovery of rats for facial nerve reconstruction study. J Reconstr Microsurg 30: 127-136.
Takeuchi Y., Asano H., Katayama Y., Muragaki Y., Imoto K., Miyata M. (2014)
Large-scale somatotopic refinement via functional synapse elimination in the thalamus of developing mice. J Neurosci 34: 1258-1270.
妛夛敪昞
Takeuchi Y., Katayama Y., Miyata M.
Functional synapse elimination plays a role in large-scale somatotopic refinement in the sensory thalamus of developing mice.
Program No. 398.04. 2014 Neuroscience Meeting Planner. Washington, DC: Society for Neuroscience, 2014. Online.
媨揷杻棟巕丄柭搰墌丄撪儢搰婎惌丄嫶杮峗堦丄尨揷晲巙丄嬂応撃丄搉曈夒旻丄庪栰曽怢
Molecular mechanism of sensory experience-dependent maintenance of neuronal circuit.
戞俁俈夞擔杮恄宱壢妛戝夛丂墶昹丂2014.9丂乮僔儞億僕僂儉島墘丄僔儞億僕僂儉僆乕僈僫僀僓乕乯
抾撪梇堦丄媨揷杻棟巕
Large-scale somatotopic reorganization via remodeling of thalamic afferent synapses after peripheral sensory nerve injury.
戞俁俈夞擔杮恄宱壢妛戝夛丂墶昹丂2014.9丂乮僔儞億僕僂儉島墘乯
抾撪梇堦丄曅嶳梞巕丄媨揷杻棟巕
A neural circuit mechanism of large-scale somatotopic reorganization in the thalamus after transection of the whisker sensory nerve of mice.
戞俁俈夞擔杮恄宱壢妛戝夛丂墶昹丂2014.9
撿塤峃峴丄媨揷杻棟巕
Role of extrasynaptic GABAA receptor on the remodeling of medial lemniscal fibers in the somatosensory thalamus by peripheral nerve injury.
戞俁俈夞擔杮恄宱壢妛戝夛丂墶昹丂2014.9
柭搰墌丄撪儢搰婎惌丄嫶杮峗堦丄尨揷晲巙丄嬂応撃丄搉曈夒旻丄媨揷杻棟巕丄庪栰曽怢
Type 1 metabotropic glutamate receptor is involved in experience-dependent maintenance of retinogeniculate synapses in the mouse visual system.
戞俁俈夞擔杮恄宱壢妛戝夛丂墶昹丂2014.9
Miyata M., Takeuchi Y.
Large-scale somatotopic refinement by synapse elimination in the whisker sensory thalamus of developing mice.
9th FENS Forum of Neuroscience丂2014.7
柭搰墌丄撪儢搰婎惌丄尨揷晲巙丄嫶杮峗堦丄嬂応撃丄搉曈夒旻丄媨揷杻棟巕丄庪栰曽怢
1宆戙幱宆僌儖僞儈儞巁庴梕懱偵傛傞栐枌亅奜懁旼忬懱僔僫僾僗偺惉弉宆寢崌僷僞儞堐帩
Type 1 metabotropic glutamate receptor regulates experience-dependent maintenance of mature synaptic connectivity in the visual thalamus
戞侾俀侽夞擔杮夝朥妛夛憤夛丒慡崙妛弍廤夛丂戞俋俀夞擔杮惗棟妛夛戝夛崌摨戝夛丂恄屗丂2015.3丂乮僔儞億僕僂儉島墘乯
媨揷杻棟巕
彈慜偺尋媶幰偱偁傞偨傔偵
Changing times, Changing gender roles : Who do we want female researcher to be
戞侾俀侽夞擔杮夝朥妛夛憤夛丒慡崙妛弍廤夛丂戞俋俀夞擔杮惗棟妛夛戝夛崌摨戝夛丂恄屗丂2015.3丂乮僔儞億僕僂儉島墘乯
栴儢嶈桳婓, 媨揷杻棟巕
敪払婜偺儅僂僗奜懁旼忬懱偵偍偗傞 MeCP2僞儞僷僋幙敪尰傪帇妎宱尡偑挷愡偡傞
Visual experience regulates MeCP2 expression in the dLGN in developing mice
戞侾俀侽夞擔杮夝朥妛夛憤夛丒慡崙妛弍廤夛丂戞俋俀夞擔杮惗棟妛夛戝夛崌摨戝夛丂恄屗丂2015.3
抾撪梇堦, 撿塤峃峴, 旜嶈峅揥, 媨揷杻棟巕
枛徑姶妎恄宱愗抐偵傛傞柍杻悓壓儅僂僗懱惈姶妎帇彴拞宲嵶朎偺敪壩僷僞乕儞曄壔
Peripheral nerve injury changes neuronal fi ring patterns in the somatosensory丂thalamus of unanesthetized mice
戞侾俀侽夞擔杮夝朥妛夛憤夛丒慡崙妛弍廤夛丂戞俋俀夞擔杮惗棟妛夛戝夛崌摨戝夛丂恄屗丂2015.3
撿塤峃峴, 抾撪梇堦, 旜嶈峅揥, 媨揷杻棟巕
枛徑恄宱懝彎偵傛傞帇彴 tonic GABA 揹棳偺憹嫮偼帇彴嵶朎妶摦偺梷惂偲偦偺屻偺撪懁栄懷慄堐偺嵞夵曇偵婑梌偡傞
Enhanced tonic GABA currents after peripheral nerve injury contribute to inhibition丂of neuronal activity and subsequent remodeling of medial lemniscal fibers in the丂somatosensory thalamus
戞侾俀侽夞擔杮夝朥妛夛憤夛丒慡崙妛弍廤夛丂戞俋俀夞擔杮惗棟妛夛戝夛崌摨戝夛丂恄屗丂2015.3
偦偺懠偺敪昞
媨揷杻棟巕
懱惈姶妎媮怱楬偵偍偗傞僔僫僾僗儕儌僨儕儞僌.
搶嫗戝妛丒堛妛晹丒恄宱壢妛僙儈僫乕丂搶嫗丂2014.11
媨揷杻棟巕
恄宱懝彎偵傛偭偰堷偒婲偙偝傟傞拞悤恄宱夞楬夵曇儊僇僯僘儉.
暉搰導棫堛壢戝妛丒暉搰塣摦婍醬捝僙儈僫乕丂暉搰丂2014.11.08
媨揷杻棟巕
帇彴恄宱夞楬偺敪払偲偦偺堐帩.
惗棟妛尋媶強丒強挿彽阗僙儈僫乕丂垽抦丂2014.6
媨揷杻棟巕
帇彴恄宱夞楬偺敪払婡峔
宑滀戝妛丒堛妛晹丒Brain Club丂搶嫗丂2014.5
Miyata M.
Developmental remodeling of sensory thalamic synapse:function and mechanisms.
KIST CFC seminar, Soul, Korea 2014.4
媨揷杻棟巕
枛徑恄宱懝彎偵傛偭偰桿摫偝傟傞忋埵拞悤恄宱夞楬偺夵曇偲摦嶌尨棟
偝偒偑偗丂擼忣曬偺夝撉偲惂屼椞堟丂暯惉俀俆擭搙丂惉壥曬崘夛 搶嫗 2014.1
2013
尨挊榑暥
Sogabe S., Yagasaki Y., Onozawa K., Kawakami Y. (2013)
Mesocortical dopamine system modulates mechanical nociceptive responses recorded in the rat prefrontal cortex. BMC Neuroscience 14: 65.
Yagasaki Y., Hayashi M., Tamura N., Kawakami Y. (2013)
Gamma knife irradiation of injured sciatic nerve induces histological and behavioral improvement in the rat neuropathic pain model. PLOS ONE 8 (4): e61010.
憤愢
媨揷杻棟巕丄柭搰墌乮2013乯
帇彴乕憤榑丂僔僫僾僗摿惈偐傜娤偨旂幙帇彴楬偺栶妱
Clinical Neuroscience 31: 38-41.
偦偺懠
愳忋弴巕乮2013乯
彈惈堛巘偑帺暘偺媄検傗抦幆傪崅傔惗奤妛傃懕偗傞巔惃傪巟墖偡傞帠偑恀偺僉儍儕傾巟墖偱偁傞丅
怴堛椕 40丗22-26.
妛夛敪昞
抾撪梇堦丄媨揷杻棟巕
惗屻敪払婜儅僂僗帇彴偵偍偗傞僔僫僾僗姞傝崬傒偼懱惈嬊嵼抧恾偺愭塻壔傪扴偆
擔杮惗棟妛夛庒庤偺夛丂惗棟妛庒庤尋媶幰僼僅乕儔儉丂搶嫗丂2013.8
愳忋弴巕
懕偗傞偨傔偺巟墖偲栠傞偨傔偺庤揱偄
戝嶃娽壢堛夛丂戝嶃丂2013.8
愳忋弴巕
嵞尋廋傪暅怑偵偮側偘傞敪憐偺揮姺
戞侾俆夞擔杮堛椕儅僱僕儊儞僩妛夛丂惙壀丂2013.6
愳忋弴巕
崱屻偺堛椕傪巟偊傞偨傔偵〜彈惈堛巘偺僉儍儕傾傪帩懕偝偣傞偨傔偵偼〜
擔杮恄宱妛夛丂搶嫗丂2013.6
撿塤峃峴丄媨揷杻棟巕
Phasic-GABA current in thalamic relay neurons is reduced by peripheral nerve injury, whereas tonic-GABA current is increased.
戞俁俇夞擔杮恄宱壢妛戝夛丂嫗搒丂2013.6
抾撪梇堦丄媨揷杻棟巕
Somatotopic tuning along with synapse elimination in the whisker sensory thalamus of developing mice.
戞俁俇夞擔杮恄宱壢妛戝夛丂嫗搒丂2013.6
抾撪梇堦丄曅嶳梞巕丄媨揷杻棟巕
Transection of the whisker sensory nerve reorganizes topographical wiring of afferent fibers in the whisker sensory thalamus of mice.
戞俋侾夞擔杮惗棟妛夛戝夛丂幁帣搰丂2014.3
The Journal of Physiological Sciences 64: Suppl. 1, S142 (2014)
柭搰墌丄媨揷杻棟巕
Cortical feedback activity regulates connection pattern of afferent lemniscal synapses in the somatosensory thalamus.
戞俋侾夞擔杮惗棟妛夛戝夛丂幁帣搰丂2014.3
The Journal of Physiological Sciences 64: Suppl. 1, S142 (2014)
栴儢嶈桳婓丄曅嶳梞巕丄挿揷抦栫丄栘壓梲巕丄愳忋弴巕
Iba-1 positive macrophage is activated in the anterior pituitary in the chronic inflammatory pain model rat.
戞俋侾夞擔杮惗棟妛夛戝夛丂幁帣搰丂2014.3
The Journal of Physiological Sciences 64: Suppl. 1, S262 (2014)
媨揷杻棟巕
帇彴撪懁栄懷慄堐偺嫞崌揑僟僀僫儈僋僗.
戞118夞丂擔杮夝朥妛夛憤夛丒慡崙妛弍廤夛 崄愳 2013.3
偦偺懠偺敪昞
媨揷杻棟巕
婡擻揑僔僫僾僗彍嫀偵傛傞懱晹埵忣曬偺愭塻壔
崙棫堚揱妛尋媶強尋媶夛乽歁擕椶擼偺婡擻揑恄宱夞楬偺峔抸儊僇僯僘儉乿 嶰搰 2013.12
媨揷杻棟巕
傎傔偰堢偰傞巕偳傕偺擼偲怱
拞栰嬫巹棫曐堢墍曌嫮夛 2013.3.8.
僾儗僗儕儕乕僗懠
媨揷嫵庼偑壢尋旓NEWS偱徯夘偝傟傑偟偨丅
乭枛徑恄宱懝彎偵傛傝惗偠傞憗婜偺拞悤恄宱夞楬偺乽偮側偓姺偊乿尰徾 -尪巿捝敪徢偺夝柧偺庤偑偐傝傊-乭丄
壢尋旓NEWS2012擭搙 Vol.4, p13
(儕儞僋)
2012
尨挊榑暥
Onozawa K., Izawa Y., Abe H., Kawakami Y. (2012)
Reduction of pain behavior by stimulation of the basolateral amygdalar nuclei in freely moving rats. Neurophysiology 44: 394-400.
Takeuchi Y., Yamasaki M.*, Nagumo Y.*, Imoto K., Watanabe M., Miyata M. (2012)
Rewiring of afferent fibers in the somatosensory thalamus of mice caused by peripheral sensory nerve transection. J Neurosci 32: 6917-6930.
*equal contribution
偦偺懠
塅愳媊堦丄愳忋弴巕丄撿晹撃 (2012) 戝擼婎掙妀忈奞偱偼丄拞悤姶妎宯偑捈愙忈奞偝傟傞偐? Forntiers in Parkinson Disease 5 (2): 69-75.
挊彂
撿塤峃峴 (2012) I曇丒栻嵻忣曬丂係崁丒拞悤恄宱宯丒峈偰傫偐傫栻. 僩儚僀僋儘僗愭惗偺偑傫娚榓働傾張曽栻丂栻岠丒栻棟偲栻偺巊偄曽 226-266. 堛妛彂堾, 搶嫗丄擔杮.
僾儗僗儕儕乕僗懠
媨揷嫵庼偑Takeuchi Y. et al. J. Neurosci. 32: 6917-6930偵偮偄偰丄搶嫗彈巕堛壢戝妛偲JST偲偺嫟摨僾儗僗儕儕乕僗傪峴偄傑偟偨丅僾儗僗儕儕乕僗梫栺 (JST乯
乭乽尪巿捝乿偺巇慻傒堦晹夝柧乭 擔杮宱嵪怴暦梉姧偍傛傃Web斉 2012擭5寧16擔
乭尪巿捝偺徢忬儅僂僗偱妋擣乭 搶嫗怴暦梉姧 2012擭5寧16擔
乭乽尪巿捝乿巇慻傒堦晹夝柧亖愗抐屻丄憗婜偵恄宱曄壔亅帯椕朄乭 帪帠捠怣幮 2012擭5寧16擔
乭恄宱夞楬抁婜娫偱乽偮側偓姺偊乿乭 擔姧岺嬈怴暦 2012擭5寧17擔
乭戝恖偱傕僯儏乕儘儞偺偮側偓姺偊偼憗婜偵婲偒傞乭 儅僀僫價僯儏乕僗 (Web) 2012擭5寧17擔
乭枛徑恄宱懝彎屻偵惗偠傞擼偺拞偺恄宱夞楬偺乽偮側偓姺偊乿婡峔傪夝柧乭 擔宱僶僀僆僥僋ONLINE丂(Web) 2012擭5寧17擔
乭摿廤婰帠丗枛徑恄宱偑愗抐偝傟傞偲丄恄宱夞楬偑懍傗偐偵偮側偓偐偊傜傟傞両乭 naturejapanjobs (Web) 2012擭7寧12擔
媨揷杻棟巕
摿廤丗2012擭怴悽戙傪怣偠傛偆丅擔杮傪棫偰捈偡100恖丅 AERA vol. 25, No.1 2012擭1寧
妛夛敪昞
Miyata M.
The remodeling of thalamic synapses and behavior changes after the peripheral nerve injury.
8th FENS meeting, Barcelona, Spain, 2012.7
柭搰墌丄撪儢搰婎惌丄嫶杮峗堦丄嬂応撃丄搉曈夒旻丄媨揷杻棟巕丄庪栰曽怢
Requirement of type 1 metabotropic glutamate receptor for experience-dependent remodeling of mouse retinogeniculate synapses.
戞俁俆夞擔杮恄宱壢妛戝夛丂柤屆壆丂2012.9
栴儢嶈桳婓丄曅嶳梞巕丄栘壓梲巕丄椦婎峅丄揷懞摽巕丄挿揷抦栫丄愳忋弴巕
Establishment of the gamma knife pituitary radiosurgery for a rat : Study for management of intractable pain with gamma knife.
戞俁俆夞擔杮恄宱壢妛戝夛丂柤屆壆丂2012.9
抾撪梇堦丄撪揷朑堖丄媨揷杻棟巕
Structural changes of lemniscal axon terminals after the peripheral sensory nerve transection of mice.
戞俁俆夞擔杮恄宱壢妛戝夛丂柤屆壆丂2012.9
抾撪梇堦丄撪揷朑堖丄媨揷杻棟巕
枛徑姶妎恄宱愗抐偵傛傞帇彴撪媮怱惈慄堐偺儕儌僨儕儞僌
擔杮惗棟妛夛庒庤偺夛丂惗棟妛庒庤尋媶幰僼僅乕儔儉丂搶嫗丂2012.6
愳忋弴巕
僈儞儅僫僀僼偵偍偗傞婎慴尋媶偺尰忬
僈儞儅僫僀僼帯椕6000徢椺婰擮島墘夛丂搶嫗丂2012.5
抾撪梇堦丄媨揷杻棟巕
Information tuning via synapse elimination in the whisker sensory thalamus of developing mice.
戞俋侽夞擔杮惗棟妛夛戝夛丂搶嫗丂2013.3
The Journal of Physiological Sciences 63: Suppl. 1, S187 (2013)
撿塤峃峴丄媨揷杻棟巕
Contrary changes of phasic- and tonic-inhibition onto thalamic relay neurons in mice with infraorbital nerve cut.
戞俋侽夞擔杮惗棟妛夛戝夛丂搶嫗丂2013.3
The Journal of Physiological Sciences 63: Suppl. 1, S187 (2013)
偦偺懠偺敪昞
柭搰墌丄撪儢搰婎惌丄嫶杮峗堦丄嬂応撃丄搉曈夒旻丄媨揷杻棟巕丄庪栰曽怢
Type 1 metabotropic glutamate receptor regulates experience-dependent remodeling of mouse retinogeniculate synapses.
堚揱尋僔儞億僕僂儉丗Circuit construction in the mammalian cerebral cortex: Genetic and imaging approaches. 2012, Dec 15-16.
抾撪梇堦丄撪揷朑堖丄媨揷杻棟巕
枛徑恄宱愗抐偵傛傞帇彴媮怱惈僔僫僾僗偺儕儌僨儕儞僌
惗棟尋僔僫僾僗尋媶夛亀恄宱僔僫僾僗揱払偺帪嬻娫僟僀僫儈僋僗亁. 2012, Nov 28, No. 17.
抾撪梇堦丄撿塤峃峴丄媨揷杻棟巕
枛徑恄宱懝彎屻偵惗偠傞擼撪恄宱夞楬偺偮側偓姺偊婡峔
僸儏乕儅儞僒僀僄儞僗怳嫽嵿抍. 2012, Aug 30.
柭搰墌丄撪儢搰婎惌丄嫶杮峗堦丄嬂応撃丄搉曈夒旻丄媨揷杻棟巕丄庪栰曽怢
1宆戙幱宆僌儖僞儈儞巁庴梕懱偵傛傞栐枌乗奜懁旼忬懱僔僫僾僗嵞曇惉偺惂屼
岝憖嶌尋媶夛. 2012, July 27-28.
撿塤峃峴丄媨揷杻棟巕
娽鈢壓恄宱愗抐偵傛傞懱惈姶妎帇彴梷惂惈僔僫僾僗擖椡偺媫惈揑曄壔
曪妵擼壞偺儚乕僋僔儑僢僾. 2012, July 24.
2011
尨挊榑暥
Onozawa K, Yagasaki Y., Abe H., Kawakami Y. (2011) Amygdala-prefrontal pathways and the dopamine system affect nociceptive responses in the prefrontal cortex. BMC Neuroscience 12: 115.
Rochefort N.L.*, Narushima M.*, Grienberger C., Marandi N., Hill D.N., Konnerth A. (2011)
Development of direction selectivity in mouse cortical neurons. Neuron 71: 425-432.
*equal contribution
Miyata M., Kishimoto Y., Tanaka M., Hashimoto K., Hirashima N., Murata Y., Kano M., Takagishi Y. (2011) A role for myosin Va in cerebellar plasticity and motor learning: a possible mechanism underlying neurological disorder in myosin Va disease. J Neurosci 31: 6067-6078.
Nagumo Y., Takeuchi Y., Imoto K., Miyata M. (2011) Synapse- and subtype-specific modulation of synaptic transmission by nicotinic acetylcholine receptors in the ventrobasal thalamus. Neurosci Res 69: 203-213.
妛夛敪昞
柭搰墌丄Rochefort N.丄Grienberger C.丄Marandi N.丄Konnerth A.
In vivo two-photon imaging of direction and orientation selective neurons in the developing mouse visual cortex.
戞俉俋夞擔杮惗棟妛夛戝夛丂徏杮丂2012.3
柭搰墌丄Rochefort N.丄Grienberger C.丄Marandi N.丄Konnerth A.
儅僂僗戝擼旂幙帇妎栰2/3憌僯儏乕儘儞偵偍偗傞曽埵丒曽岦慖戰惈偺敪払
戞侾侾俈夞擔杮夝朥妛夛憤夛丒慡崙妛弍廤夛 峛晎丂2012.3
憤愢
媨揷杻棟巕丄抾撪梇堦乮2011乯
恎懱抧恾偺儕儌僨儕儞僌
Clinical Neuroscience 29丗895-899.
慮変晹徆堦丄愳忋弴巕乮2011乯
僪僷儈儞僔僗僥儉偵傛傞捝傒偺廋忺
Frontiers in Parkinson Disease 4丗18-22.
偦偺懠
愳忋弴巕乮2011乯
Support System for Women Doctors
JMAM 54丗136-138.
僾儗僗儕儕乕僗懠
Miyata M. et al. J Neurosci 31: 6067-6078偵偮偄偰
乭暘巕桝憲僞儞僷僋幙丟恄宱揱払暔幙丄妛廗偵娭梌乭丂擔姧岺嬈怴暦丂2011擭4寧20擔
乭塣摦忋払僞儞僷僋幙丂摥偒夝柧乭丂拞擔怴暦丂2011擭4寧20擔丂挬姧
乭摿廤婰帠丗儌乕僞乕僞儞僷僋偺堦偮偑丄塣摦妛廗偵娭偡傞偙偲傪敪尒両乭 naturejapanjobs (Web) 2011擭7寧14擔
妛夛敪昞
Takeuchi Y., Nagumo Y., Miyata M.
Peripheral nerve injury transection-induced remodeling of afferent synapses in the somatosensory thalamus.
The 8th congress of Neuroscience (IBRO), Florence, Italy
Neuroscience (Meeting program) P141 (2011)
Narushima M., Uchigashima M., Hashimoto K., Aiba A., Watanabe M., Miyata M., Kano M.
Requirement of type 1 metabotropic glutamate receptor for experiment dependent pruning of retinogeniculate synapse.
The 8th congress of Neuroscience (IBRO), Florence, Italy
Neuroscience (Meeting program) P146 (2011)
曅嶳梞巕丄栘壓梲巕丄栴儢嶈桳婓丄愳忋弴巕
Histological analysis of pituitary gland in acute and chronic pain rat models.
戞俁係夞擔杮恄宱壢妛戝夛丂墶昹丂2011.9
Neuroscience Res. 71S, e157 (2011)
撿塤峃峴丄媨揷杻棟巕
Transection of infraorbital nerve dynamically reduces inhibitory inputs onto the relay neuron in the ventral posterior medial nucleus.
戞俁係夞擔杮恄宱壢妛戝夛丂墶昹丂2011.9
Neuroscience Res. 71S, e260 (2011)
抾撪梇堦丄柭搰墌丄媨揷杻棟巕
Postnatal development of the lemniscal fiber-relay neuron system in the somatosensory thalamus of mice.
戞俁係夞擔杮恄宱壢妛戝夛丂墶昹丂2011.9
Neuroscience Res. 71S, e261 (2011)
栴儢嶈桳婓丄椦婎峅丄曅嶳梞巕丄挿揷抦栫丄栘壓梲巕丄愳忋弴巕
Mechanism of therapeutic effect of neuropathic pain induced by gamma knife surgery.
戞俁係夞擔杮恄宱壢妛戝夛丂墶昹丂2011.9
Neuroscience Res. 71S, e361 (2011)
柭搰墌丄Rochefort N. L.
Functional development of directioin and orientation selectivity in the mouse visual cortex.
戞俉俉夞擔杮惗棟妛夛戝夛丒戞侾侾俇夞擔杮夝朥妛夛憤夛丒妛弍廤夛崌摨戝夛
The Journal of Physiological Sciences 61: Suppl. 1, S37 (2011)
媨揷杻棟巕丄抾撪梇堦
Synaptic rewiring and compositional changes in glutamate receptors at thalamic lemniscal synapses in the developmental process.
戞俉俉夞擔杮惗棟妛夛戝夛丒戞侾侾俇夞擔杮夝朥妛夛憤夛丒妛弍廤夛崌摨戝夛
The Journal of Physiological Sciences 61: Suppl. 1, S88 (2011)
栴儢嶈桳婓丄椦婎峅丄揷懞摽巕丄曅嶳梞巕丄挿揷抦栫丄栘壓梲巕丄愳忋弴巕
Gamma knife irradiation reduces neuropathic pain in a rat model.
戞俉俉夞擔杮惗棟妛夛戝夛丒戞侾侾俇夞擔杮夝朥妛夛憤夛丒妛弍廤夛崌摨戝夛
The Journal of Physiological Sciences 61: Suppl. 1, S115 (2011)
抾撪梇堦丄柭搰墌丄媨揷杻棟巕
The developmental switch in AMPA receptor subunit composition at lemniscal synapses in the somatosensory thalamus of mice.
戞俉俉夞擔杮惗棟妛夛戝夛丒戞侾侾俇夞擔杮夝朥妛夛憤夛丒妛弍廤夛崌摨戝夛
The Journal of Physiological Sciences 61: Suppl. 1, S172 (2011)
撿塤峃峴丄抾撪梇堦丄媨揷杻棟巕
枛徑姶妎恄宱懝彎偵傛傞帇彴恄宱夞楬偺嵞曇惉偲僔僫僾僗擖椡偺宱帪揑曄壔
擔杮惗棟妛夛庒庤偺夛丂惗棟妛庒庤尋媶幰僼僅乕儔儉丂搶嫗丂2011.6
偦偺懠偺敪昞
媨揷杻棟巕
Peripheral nerve injury-induced remodeling of thalamic synapses.
僷儕戞嶰戝妛丂惗暔暔棟尋媶強丂岞奐僙儈僫乕
乮2011丏7丏12乯
媨揷杻棟巕
傕偭偲抦傝偨偄擼偺傗傢傜偐偝
妡愳巗媑壀淺惗婰擮娰丂岞奐島嵗乮妡愳巗乯
乮2011丏2丏15乯
2010
尨挊榑暥
Nakamura H., Katayama Y., Kawakami Y. (2010) Hippocampal CA1/subiculum-prefrontal cortical pathways induce plastic changes of nociceptive responses in cingulate and prelimbic areas. BMC Neuroscience 11: 100.
憤愢
媨揷杻棟巕乮2010乯
彫擼偲CRH
惗懱偺壢妛 61丗484-485.
妛夛敪昞
Takeuchi Y., Nagumo Y., Katayama Y., Imoto K, Kawakami Y., Miyata M.
Transection of the infraorbital nerve induces rewiring of afferent fibers in the somatosensory thalamus of mice.
Program No. 377.9. 2010 Neuroscience Meeting Planner. San Diego, CA: Society for Neuroscience, 2010. Online.
Nagumo Y., Takeuchi Y., Imoto K, Miyata M.
Synapse- and subtype-specific modulation of synaptic transmission by nicotinic acetylcholine receptors in the ventrobasal thalamus of juvenile mice.
Program No. 442.7. 2010 Neuroscience Meeting Planner. San Diego, CA: Society for Neuroscience, 2010. Online.
媨揷杻棟巕
Peripheral sensory nerve transection induced remodeling of afferent synapses in the somatosensory thalamus. (pain changes the brain-brain changes the pain)
戞俁俁夞擔杮恄宱壢妛戝夛丂恄屗僐儞儀儞僔儑儞僙儞僞乕丂2010.9
Neuroscience Res. 68: S1, e30 (2010)
慮変晹徆堦丄愳忋弴巕
The effects of endogenous dopamine on mechanical nociceptive responses recorded in the prefrontal cortex.
戞俁俁夞擔杮恄宱壢妛戝夛丂恄屗僐儞儀儞僔儑儞僙儞僞乕丂2010.9
Neuroscience Res. 68: S1, e164 (2010)
抾撪梇堦丄撿塤峃峴丄曅嶳梞巕丄堜杮宧擇丄愳忋弴巕丄媨揷杻棟巕
Peripheral nerve transection-induced remodeling of afferent synapses in the somatosensory thalamus of mice.
戞俁俁夞擔杮恄宱壢妛戝夛丂恄屗僐儞儀儞僔儑儞僙儞僞乕丂2010.9
Neuroscience Res. 68: S1, e343 (2010)
恄嶳挩晇丄曅嶳梞巕丄椦婎峅丄愳忋弴巕
Gamma knife irradiation operates differentially on the neuronal subpopulations of the rat basal ganglia.
戞俁俁夞擔杮恄宱壢妛戝夛丂恄屗僐儞儀儞僔儑儞僙儞僞乕丂2010.9
Neuroscience Res. 68: S1, e433 (2010)
偦偺懠偺敪昞
媨揷杻棟巕
Rewiring of afferent fibers after transection of peripheral nerve injury in the mouse thalamus.
惗棟妛尋媶強丂僔僫僾僗尋媶夛
乮2010丏12丏2-3乯
媨揷杻棟巕
彈惈擼偺壜慪惈偲擔杮偵偍偗傞堛巘嵞嫵堢偺庢傝慻傒
戞係夞丂擔拞彈惈壢妛幰夛媍乮杒嫗乯
乮2010丏9丏20乯
2009
尨挊榑暥
Miyata M., Imoto K. (2009) Contrary roles of kainate receptors in transmitter release at corticothalamic synapses onto thalamic relay and reticular neurons. Journal of Physiology 587: 999-1012.
Rochefort N., Graschuk O., Milos R.-I., Narushima M., Marandi N., Pichler B., Kovalchuk Y., Konnerth A. (2009) 'Sparsification' of neuronal activity in the visual cortex at eye-opening. Proc Natl Acad Sci 106: 999-1012.
Hayashi T., Miyata M., Nagata T., Izawa Y., Kawakami Y. (2009) Intracerebroventricular fluvoxamine administraton inhibited pain behavior but increased Fos expression in affective pain pahways. Pharmacology, Biochemistry and Behavior 91: 441-446.
Hirano M., Shibato J., Rakwal R., Kouyama N., Katayama Y., Hayashi M., Masuo Y. (2009) Transcriptomic analysis of rat brain tissue following gamma knife surgery: Early and distinct bilateral effects in the un-irradiated striatum. Mol Cells 27: 263-268.
憤愢
晉揷旤曚巕丄椦婎峅丄愇娵弮堦丄愳忋弴巕乮2009乯
嶰嵆恄宱捝偵懳偡傞僈儞儅僫僀僼帯椕
擔杮岥峯壢妛夛嶨帍 58丗1-6.
媨揷杻棟巕乮2009乯
恄宱懝彎偵傛傞忋埵拞悤偱偺嵞曇惉婡峔
Brain Medical 21丗23-30.
愳忋弴巕丄栘撪桳婓乮2009乯
戝擼婎掙妀僪僷儈儞僔僗僥儉偲捝傒
Brain Medical 21丗31-39.
偦偺懠
愳忋弴巕乮2009乯
彈惈堛巘傪庢傝姫偔彅栤戣偲懳嶔偵偮偄偰乮搶嫗彈巕堛壢戝妛偵偍偗傞儌僨儖働乕僗乯
擔杮偺娽壢 80丗839-842.
挊彂
愳忋弴巕丄恄嶳挩晇
恄宱宯 pp. 66-100
傒偊傞恖懱丄 徏旜棟丄嵅摗払梇曇丄撿峕摪乮2009乯
妛夛敪昞
Miyata M.
Thalamic synapse; their properties and modulations.
IUPS 2009 Kyoto
The Journal of Physiological Sciences 59: Suppl. 1, 109 (2009)
Nagumo Y., Takeuchi Y., Kawakami Y., Imoto K., Miyata M.
Role of nicotinic acetylcholine receptors on synaptic transmission in the ventrobasal thalamic complex.
IUPS 2009 Kyoto
The Journal of Physiological Sciences 59: Suppl. 1, 142 (2009)
Onozawa K., Sogabe S., Abe H., Kawakami Y.
Dopamine modulate the long lasting depression of pain responses induced by stimulation of amygdala in rat prefrontal cortex.
IUPS 2009 Kyoto
The Journal of Physiological Sciences 59: Suppl. 1, 376 (2009)
Yagasaki Y., Hayashi M., Usukura M., Tamura, N., Kawakami Y.
Gamma knife surgery induces a relieving effect on existing tactile allodynia.
IUPS 2009 Kyoto
The Journal of Physiological Sciences 59: Suppl. 1, 424 (2009)
栴儢嶈桳婓丄椦婎峅丄塒憅惌梇丄揷懞摽巕丄愳忋弴巕
儔僢僩枬惈醬捝儌僨儖傪梡偄偨僈儞儅僫僀僼徠幩偵傛傞捔捝岠壥偺夝愅 -嶰嵆恄宱捝帯椕岠壥偺儊僇僯僘儉偺夝愅偺傂偲偮偲偟偰-
戞13夞僈儞儅僫僀僼尋媶夛丂忢梲錣暥僙儞僞乕丂2009.2
戞13夞僈儞儅僫僀僼尋媶夛丂彺榐廤丂31: (2009)
媨揷杻棟巕
Synaptic development of thalamic lemniscal synapse.
戞俁俀夞擔杮恄宱壢妛戝夛丂柤屆壆崙嵺夛媍応丂2009.9
Neuroscience Res. 65: s1, e10 (2009)
抾撪梇堦丄堜杮宧擇丄媨揷杻棟巕
Transection of infraorbital nerve induces multiple innervations of lemniscal fibers onto the relay neuron in the somatosensory thalamus.
戞俁俀夞擔杮恄宱壢妛戝夛丂柤屆壆崙嵺夛媍応丂2009.9
Neuroscience Res. 65: s1, S145 (2009)
2008
尨挊榑暥
Nakaji H., Kouyama N., Muragaki Y., Kawakami Y., Isaki H. (2008) Localization of nerve fiber bundles by polarization-sensitive optical coherence tomography. J Neurosci Methods 174: 82-90.
挊彂
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Society for Neuroscience (Neuroscience 2008)丂Washington, DC. USA丂2008.11
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媨揷杻棟巕丄撿塤峃峴丄抾撪梇堦丄堜杮宧擇丄愳忋弴巕
Acetylcholine distinctly regulates on synaptic transmission in the ventrobasal thalamus.
戞85夞擔杮惗棟妛夛丂搶嫗丂2008.3
The Journal of Physiological Sciences 58: suppl, s131 (2008)
媨揷杻棟巕丄堜杮宧擇
Bidiectional roles of kainate receptors on the release at coricothalamic synapses onto thalamic relay and reticular neurons.
戞俁侾夞丂擔杮恄宱壢妛戝夛丂搶嫗丂2008.7
Neuroscience Res. 61: suppl, s79 (2008)
栴儢嶈桳婓丄椦婎峅丄堜戲桪旤丄愳忋弴巕
Gamma knife irradiation reduced pain responses in neuropathic pain model.
戞俁侾夞擔杮恄宱壢妛戝夛 搶嫗丂2008.3
Neuroscience Res. 61: s, s131 (2008)
恄嶳挩晇丄揷岥棽巌丄曅嶳梞巕
楢懕愗曅傪梡偄偨恄宱嵶朎偺悢偊曽偵偮偄偰偺採埬
戞俁侾夞擔杮恄宱壢妛戝夛 搶嫗 2008.7
Neuroscience Res. 61: s1, s212 (2008)
撿塤峃峴丄抾撪梇堦丄愳忋弴巕丄堜杮宧擇丄媨揷杻棟巕
Neuromodulatory effect of acetylcholine on synaptic transmission in the ventrobasal thalamic nucleus.
戞俁侾夞擔杮恄宱壢妛戝夛丂搶嫗丂2008.7
Neuroscience Res. 61: s1, s220 (2008)
抾撪梇堦丄堜杮宧擇丄媨揷杻棟巕
Developmental change of lemniscus synapses on the mice ventrobasal thalamus.
戞俁侾夞擔杮恄宱壢妛戝夛丂搶嫗丂2008.7
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