杮暥傊僗僉僢僾

孎杮導棫戝妛 娐嫬嫟惗妛晹 怘寬峃娐嫬妛愱峌 徏杮尋媶幒

尋媶嬈愌achievementS




妛弍榑暥

2024

  • ODA H., FUJIBAYASHI M., KUME D., MATSUMOTO N. & NISHIWAKI M. Acute Effects of Low-Intensity One-Legged Electrical Muscle Stimulation on Arterial Stiffness in Experimental and Control Limbs. Sci. Rep. (in press)


2023

  • 擖晹桾堣丒塱棙棞擳丒徏杮捈岾丂晽忣偁傞娐嫬偱偺僼僅僩丒僂僅乕僋儔儕乕偲壏愹擖梺偺慻傒崌傢偣偑婥暘傗悋柊偵媦傏偡塭嬁丂擔杮寬峃奐敪嶨帍 https://doi.org/10.32279/jjhr.202344G06 (2023)May.


2022

  • YOSHIMURA E., HAMADA Y., HATANAKA M., NANRI H., NAKAGATA T., MATSUMOTO N., SHIMODA S., MIYACHI M., HATAMOTO Y. Relationship Between Intra-Individual Variability in Nutrition-Related Lifestyle Behaviors and Blood Glucose Outcomes under Free-Living Conditions in Adults Without Type 2 Diabetes. Diabetes Res. Clin. Pract doi:10.1016/j.diabres.2022.110231(2022) Dec.
  • YOSHIMURA E., TAJIRI E., MICHIWAKI R., MATSUMOTO N., HATAMOTO Y., TANAKA S. Long-Term Effects of the Use of a Step Count-Specific Smartphone App on Physical Activity and Weight Loss: A Randomized Clinical Trial. JMIR Mhealth Uhealth. doi: 10.2196/35628. (2022) Oct.
  • ODA H., FUJIBAYASHI M., MATSUMOTO N. & NISHIWAKI M. Acute Effects of Low-Intensity Electrical Stimulation on Segmental Arterial Stiffness. Front. Physiol. https://doi.org/10.3389/fphys.2022.828670 (2022) Jun.
  • IKEBE H., CHO N., MATSUMOTO N., ISHIDO M., NAKAMURA T. & NISHIWAKI M. Regular Exercise Ball Training Reduces Arterial Stiffness in Sedentary Middle-Aged Males. J. Phys. Ther. Sci. 34: 386-392. doi: 10.1589/jpts.34.386. (2022) May.
  • IKEBE H., TAKIUCHI S., OI N., TAKAYANAGI Y., MAKINO A., ITOH M., MATSUMOTO N., ISHIDO M., NAKAMURA T. & NISHIWAKI M. Effects of Trunk Stretching Using an Exercise Ball on Central Arterial Stiffness and Carotid Arterial Compliance. Eur. J. Appl. Physiol. 122: 1205-1216. doi: 10.1007/s00421-022-04912-8. (2022) Feb.
  • HATANAKA M., HATAMOTO Y., TAJIRI E., MATSUMOTO N., TANAKA S. & YOSHIMURA E. An Earlier First Meal Timing Associate with Weight Loss Effectiveness in a 12-week Weight Loss Support Program. Nutrients 14, 249 https://doi.org/10.3390/nu14020249. (2022) Jan.

2021

  • 摴榚 椓懢丒揷怟 奊棦丒敤杮 梲堦丒徏杮 捈岾丒揷拞 栁曚丒媑懞 塸堦丂尭検巟墖帪偺曕悢傾僾儕偺棙梡偼尭検偍傛傃恎懱妶摦検偵塭嬁偡傞偐 旍枮尋媶 27: 90-98 (2021) Aug.


2020

  • INOKAWA H., MATSUMOTO N., KIMURA M. & YAMADA H.Tonically Active Neurons in the Monkey Dorsal Striatum Signal Outcome Feedback during Trial-and-Error Search Behavior. Neurosci. https://doi.org/10.1016/j.neuroscience.2020.08.007 (2020) Aug.
  • NISHIWAKI M., YAMAGUCHI T., NISHIDA R., & MATSUMOTO N. Dose of Alcohol from Beer Required for Acute Reduction in Arterial Stiffness. Front. Physiol. https://doi.org/10.3389/fphys.2020.01033 (2020) Aug.
  • ENOMOTO K., MATSUMOTO N., INOKAWA H., KIMURA M. & YAMADA H. Topographic Distinction in Long-Term Value Signals between Presumed Dopamine Neurons and Striatal Projection Neurons in Behaving Monkeys. Scientific Rep.https://doi.org/10.1038/s41598-020-65914-0 (2020)Jun.
  • 彫椦 嶇攇丒幍嶳 抦壚丒彫愳 愰巕丒徏杮 捈岾丒惣榚 夒恖丂宲懕揑側椢拑偺愛庢偑庒擭幰偺懱帀朾偲摦柆僗僥傿僼僱僗偵媦傏偡塭嬁 乕柍嶌堊妱傝晅偗夘擖帋尡 懱椡壢妛 69: 249-259 (2020) Jun.


2019

  • NISHIWAKI M., OGAWA N., NANAYAMA C. & MATSUMOTO N. Characteristics of Blood Pressure, Arterial Stiffness, and Physical Fitness in Older Adult Japanese Community Dwellers: A Cross-sectional Observational Study. J Phys Fitness Sports Med. 8:187-193 (2019) Sep.
  • NISHIWAKI M.,NAKANO Y. & MATSUMOTO N.Effects of Regular High-cocoa Chocolate Intake on Arterial Stiffeness and Metabolic Characteristics during Exercise. Nutrition 60: 53-58 (2019) Apr.


2018


2017

  • UEDA Y., YAMANAKA K., NORITAKE A., ENOMOTO K., MATSUMOTO N., YAMADA H., SAMEJIMA K., INOKAWA H., HORI Y., NAKAMURA K. & KIMURA M. Distinct Functions of the Primate Putamen Direct and Indirect Pathways in Adaptive Outcome-Based Action Selection. Front Neuroanat doi: 10.3389/fnana.2017.00066 (2017) Aug.
  • NISHIWAKI N., KORA N. & MATSUMOTO N. Ingesting a Small Amount of Beer Reduces Arterial Stiffness in Healthy Humans. Physiol Rep DOI: 10.14814/phy2.13381 (2017) Jul.
  • HAMADA Y., MIYAJI A., HAYASHI Y., MATSUMOTO N., NISHIWAKI M. & HAYASHI N. Objective and Subjective Eating Speeds are Related to Body Composition and Shape in Female College Students. J Neutr Sci Vitaminol 63: 174-179 (2017) Jun.
  • NISHIWAKI M., FUJIBAYASHI M., NANAYAMA C., OGAWA N., ITAKURA I.& MATSUMOTO N. Increasing Levels of Daily Physical Activity for Arterial Stiffness Reduction in Older Women: A Community-based Pilot Study. J Sports Med Phys Fitness DOI: 10.23736/S0022-4707.17.07238-3 (2017) May.
  • 惣榚 夒恖丒摗椦 恀旤丒徏杮 捈岾丂掅巁慺娐嫬壓偱偺崪奿嬝揹婥巋寖偑摦柆僗僥傿僼僱僗偲摐戙幱偵媦傏偡塭嬁偵岠壥偑摼傜傟傞寬峃憹恑曽朄偺奐敪丒採埬,丂僨僓儞僩僗億乕僣壢妛 38: 89-97 (2017) May.
  • 惣榚 夒恖丒摗椦 恀旤丒徏杮 捈岾丂傾僋僥傿僽僈僀僪偵偍偗傞僗儘乕僈儞偺幚巤丒払惉偑儊儞僞儖僿儖僗偵媦傏偡塭嬁偺専摙乕"僾儔僗10"偺庢傝慻傒偼擣抦徢傗偆偮孹岦梊杊偵杮摉偵岠壥揑側偺偐丠乕,丂寬峃壢妛尋媶彆惉惉壥曬崘彂 32:45-50 (2017) Apr.
  • YAMANAKA K., HORI Y., MINAMIMOTO T., YAMADA H., MATSUMOTO N., ENOMOTO K., AOSAKI T., GRAYBIEL AM. & KIMURA M. Roles of Centromedian Parafascicular Nuclei of Thalamus and Cholinergic Interneurons in the Dorsal Striatum in Associative Learning of Environmental Events. J Neural Transm doi:10.1007/s00702-017-1713-z (2017) Mar.


2016


2015


2014

  • NISHIWAKI M., KURIYAMA A., IKEGAMI Y., NAKASHIMA N. & MATSUMOTO N. Pilot Crossover Study: Effects of an Intervention Using an ActivityMonitor With Computerized Game Functions on Physical Activity and Body Composition. J Physiol Anthrop 33:35 (2014) Dec.
  • NISHIWAKI M., KUROBE K., KIUCHI A., NAKAMURA T. & MATSUMOTO N. Sex Differences in Flexibility-Arterial Stiffness Relationship and Its Application for Diagnosis of Arterial Stiffening: A Cross-Sectional Observational Study. PLoS ONE 9(11): e113646. doi:10.1371/journal.pone. 0113646 (2014) Nov.

2013

  • 媨楬 埄丒惣榚 夒恖丒郷揷 桳崄丒徏杮 捈岾丂恎懱妶摦婎弨2013傪傛傝抁帪娫偱廩懌偡傞偨傔偺怴偟偄曕峴曽朄偺専摙丂懱椡壢妛 62: 383-390 (2013) Oct.
  • 惣榚 夒恖丒拞搱 柤嵷丒抮忋 桼旤丒愳忋 椚巕丒崟晹 堦摴丒徏杮 捈岾丂妶摦検寁偲Twitter傪暪梡偟偨惗妶夘擖偑恎懱妶摦検偵梌偊傞塭嬁 亅柍嶌堊妱傝晅偗夘擖帋尡亅丂懱椡壢妛 62: 293-302 (2013) Aug.
  • 墊杮 堦婭紪{ 捈岾貞 泬丂僪僷儈儞恄宱宯偵傛傞梊應偲堄巙寛掕偺惂屼婡峔丂擔杮惗暔妛揑惛恄堛妛夛帍 24: 89-94乮2013乯Jun.
  • 徏杮 捈岾丒崟晹 堦摴丒惣榚 夒恖丒椦 捈嫓丂惗妶妶摦検憹恑傪懀偡恎懱妶摦検儅僢僾偺嶌惉偲偦偺抧堟怳嫽傊偺棙梡丂SSF僗億乕僣惌嶔尋媶 2: 72-78 (2013) Apr.
  • YAMADA H., INOKAWA H., MATSUMOTO N., UEDA Y., ENOMOTO K. & KIMURA M. Coding of the Long-Term Value of Multiple Future Rewards in the Primate Striatum. J Neurophysiol 109: 1140-1151 (2013) Feb.

2012

  • 惣榚 夒恖丒孖嶳 峎摽丒抮忋 桼旤丒拞搱 柤嵷丒徏杮 捈岾丂怴偟偄僎乕儉婡擻晅偒妶摦検寁偱摼傜傟傞擔忢惗妶帪偺曕悢偲恎懱妶摦検偵娭偡傞専摙丂僩儗乕僯儞僌壢妛 24: 193-201 (2012) Aug.
  • 惣榚 夒恖丒孖嶳 峎摽丒抮忋 桼旤丒拞搱 柤嵷丒徏杮 捈岾丂僎乕儉婡擻晅偒妶摦検寁傪梡偄偨惗妶夘擖偑恎懱妶摦検偵梌偊傞塭嬁 乕柍嶌堊妱傝晅偗僋儘僗僆乕僶乕帋尡乕丂懱椡壢妛 61: 335-341 (2012) Jun.

2011

  • ENOMOTO K., MATSUMOTO N., NAKAI S., SATOH T., SATO T., UEDA Y., INOKAWA H., HARUNO M. & KIMURA M. Dopamine Neurons Learn to Encode the Long-Term Value of Multiple Future Rewards. PNAS 108: 15462-15467 (2011) Sep.
  • YAMADA H., INOKAWA H., MATSUMOTO N., UEDA Y. & KIMURA M. Neuronal Basis for Evaluating Selected Action in the Primate Striatum. Eur J Neurosci 34: 489-506 (2011) Aug.
  • MURANISHI M., INOKAWA H., YAMADA H., UEDA Y., MATSUMOTO N., NAKAGAWA M. & KIMURA M. Inactivation of the Putamen Selectively Impairs Reward History-Based Action Selection. Exp Brain Res 209: 235-246 (2011) Mar.

挊彂

  • 徏杮 捈岾丂乽塰梴妛偺婎慴-恖懱偺棟夝偲塰梴妛偺婎慴-乿 3. 塣摦婍宯乮崪奿宯丄嬝擏宯乯偺峔憿偲婡擻丄撿 媣懃丒壓揷 惤栫丒姁撪 岹柧  堛帟栻弌斉 pp35-44 (2022) Sep.
  • 徏杮 捈岾丂乽塰梴妛偺婎慴-恖懱偺棟夝偲塰梴妛偺婎慴-乿 10. 姶妎婍宯偺峔憿偲婡擻丄撿 媣懃丒壓揷 惤栫丒姁撪 岹柧  堛帟栻弌斉 pp100-111 (2022) Sep.
  • 徏杮捈岾乭寬峃偲塣摦乭in 乽偔傑傕偲怘堢僈僀僪僽僢僋乿孎杮導棫戝妛偔傑傕偲怘堢僈僀僪僽僢僋嶌惉埾堳夛曇.丂戞5復-6.丂pp172-175(2017).Mar.
  • 徏杮 捈岾丒娵嶳 撝晇 乽僗億乕僣丒塣摦惗棟妛奣愢乿丂戞3復乽恄宱偺峔憿偲婡擻乿丄嶳抧 孾巌丒戝抸 棫巙丒揷拞 岹嬇丂曇挊 柧榓弌斉 pp19-60 (2011) Mar.

僔儞億僕僂儉偱偺岥墘

  • 墊杮 堦婭丒徏杮 捈岾丒栘懞 泬丂僪僷儈儞恄宱宯偵傛傞梊應偲堄巙寛掕偺惂屼婡峔乮楈挿椶偵偍偗傞尋媶傪拞怱偵乯 戞34夞擔杮惗暔妛揑惛恄堛妛夛 (2012) Sep. 乮恄屗乯乮僔儞億僕僂儉僞僀僩儖丂梊應偲堄巚寛掕傪惂屼偡傞恄宱夞楬偲惛恄幘姵乯
  • 墊杮 堦婭丒徏杮 捈岾丒栘懞 泬丂僒儖拞擼僪乕僷儈儞嵶朎偵傛傞丄堎側偭偨帪娫僗働乕儖偱偺彨棃曬廣偺壙抣偲岆嵎昞尰乽戞40夞儂儈僯僛乕僔儑儞尋媶夛 僪乕僷儈儞偺栶妱丗塣摦婡擻偐傜崅師婡擻傊乿 (2012) Mar.乮垽抦丒將嶳乯
  • ENOMOTO K., MATSUMOTO N. & KIMURA M. Midbrain Dopamine Neurons Encode Reward Value and Its Error on Heterogeneous Time Scale. 擔杮恄宱壢妛夛 (2011) Sep. (墶昹)乮僔儞億僕僂儉僞僀僩儖丂曬廣宯偺擼壢妛嵟慜慄丗偦偺恄宱婎斦棟夝偐傜椪彴墳梡傑偱乯

妛夛敪昞

2024

  • 壀 昖屷丒嶳 嵤丒徏杮 捈岾 僇僇僆億儕僼僃僲乕儖傪娷傓僐僐傾堸椏愛庢偑塣摦帪偺擣抦婡擻偵媦傏偡塭嬁
    6夞擔杮懱椡堛妛夛撿嬨廈抧曽夛(2024) Feb.乮媨乯

2023

  • 壀昖屷丒徏杮捈岾丂僇僇僆億儕僼僃僲乕儖愛庢偑塣摦帪偺擣抦婡擻偵媦傏偡塭嬁丂戞9夞擔杮僗億乕僣塰梴妛夛戝夛(2023)Sep.丂(戝捗)

  • 郷揷 桳崄丒敤杮 梲堦丒敥拞 恀撧丒撿棦 斳柤巕丒拞妰 悞丒徏杮捈岾丒壓揷惤栫丒揷拞 栁曚丒媨抧 尦旻丒媑懞 塸堦 帺桼惗妶壓偵偍偗傞娫怘愛庢偑寣摐巜昗偵梌偊傞塭嬁
    帪娫塰梴妛夛乮戞10夞妛弍戝夛乯(2023)Aug. (峀搰)

  • OI N., TAKAYANAGI Y., IKEBE H., KUME D., MATSUMOTO N.,NISHIWAKI M. Combined Effects of Acute Aerobic Exercise Before or After Stretching on Arterial Stiffness. ECSS (2023) Jul. (Paris)

2022

  • OI N., TAKAYANAGI Y., IKEBE H., KUME D., MATSUMOTO N.,丂NISHIWAKI M. Combined Effects of Acute Aerobic Exercise Before or After Stretching onBrachial Artery Flow-mediated Dilation. Med Sci Sports Exerc,DOI:10.1249/01.mss.0000880740.40351.4d (2022) May. (San Diego)
  • 旜堜 捈栴丒崅桍 樞恀丒抮曈 惏旤丒媣暷 戝桽丒徏杮 捈岾丒惣榚 夒恖丂桳巁慺塣摦偲僗僩儗僢僠偺暋崌塣摦偺幚巤弴彉偑撪旂婡擻偵媦傏偡塭嬁丂戞77夞擔杮懱椡堛妛夛戝夛(2022)Sep.乮塅搒媨, web乯
  • 彫揷 孾擵丒摗椦 恀旤丒徏杮 捈岾丒惣榚 夒恖丂曅媟傊偺掅嫮搙崪奿嬝揹婥巋寖偑摦柆僗僥傿僼僱僗偵媦傏偡塭嬁丂戞77夞擔杮懱椡堛妛夛戝夛(2022)Sep.乮塅搒媨, web乯
  • 惣榚 夒恖丒揷 惞栫丒戝捤 復懢榊丒旜堜 捈栴丒媣暷 戝桽丒徏杮 捈岾丒媏抮 惔巙丂堦夁惈偺拞嫮搙塣摦偑摦柆僗僥傿僼僱僗偲寣拞傾僪儗僲儊僨儏儕儞擹搙偵梌偊傞塭嬁戞77夞擔杮懱椡堛妛夛戝夛(2022)Sep.乮塅搒媨, web乯

  • 擖晹 桽堣丒徏杮 捈岾丒惸摗丂撃巌丂塣摦拞偺墫枴鑷抣曄壔偲懥塼暘斿検偲偺娭楢
    4夞擔杮懱椡堛妛夛撿嬨廈抧曽夛(2022)Feb.(孎杮)

2021

  • 敥拞 恀撧丒敤杮 梲堦丒揷怟 奊棦丒徏杮 捈岾丒揷拞 栁曚丒媑懞 塸堦丂怘帠愛庢偺僞僀儈儞僌偲尭検岠壥偺娭學 戞76夞擔杮懱椡堛妛夛戝夛梊峞廤p.243(2021)Sep.乮嶰廳, web乯

  • 旜堜丂捈栴丒崅桍丂樞恀丒抮曈丂惏旤丒媣暷丂戝桽丒徏杮丂捈岾丒惣榚丂夒恖丂桳巁慺塣摦偲僗僩儗僢僠偺暋崌塣摦偺幚巤弴彉偑摦柆僗僥傿僼僱僗偵媦傏偡塭嬁戞76夞擔杮懱椡堛妛夛戝夛梊峞廤p.184 (2021)Sep.乮嶰廳, web乯
  • 抮曈丂惏旤丒挿丂撧嵷旤丒徏杮丂捈岾丒愇摴丂曯揟丒拞懞丂桭峗丒惣榚丂夒恖丂拞擭抝惈傊偺掕婜揑側僶儔儞僗儃乕儖僄僋僒僒僀僘偑怱憻-懌庱娫柆攇揱攄懍搙偵梌偊傞塭嬁丂戞76夞擔杮懱椡堛妛夛戝夛梊峞廤p.183 (2021)Sep.乮嶰廳, web乯
  • 彫揷 孾擵丒摗椦 恀旤丒徏杮 捈岾丒惣榚 夒恖丂堦夁惈偺崪奿嬝揹婥巋寖偑摦柆僗僥傿僼僱僗偵媦傏偡塭嬁丂戞76夞擔杮懱椡堛妛夛戝夛梊峞廤p.183 (2021)Sep.乮嶰廳, web乯
  • 嵅抾壜堖丆愇憅湪夘丆摗堜丂愌丆徏杮捈岾丆徏懞惓棽丆塟惗孿夘丆惣墍徦巕丂僯僈僂儕壥廯枛偼掅拞嫮搙塣摦帪偺帀幙巁壔傪懀恑偡傞丂戞68夞擔杮怘昳壢妛岺妛夛戝夛僾儘僌儔儉廤p. 43 (2021)Aug.乮暉壀, web乯
  • 愇憅 湪夘丒嵅抾 壜堖丒摗堜 愌丒徏杮 捈岾丒徏懞 惓棽丒惣墍 徦巕丂僞僂儕儞愛庢偑巁壔僗僩儗僗丒峈巁壔椡側傜傃偵掅拞嫮搙塣摦傊媦傏偡塭嬁丂戞俈夞崙嵺僞僂儕儞尋媶夛擔杮晹夛妛弍廤夛(2021)Feb.乮昹徏, web乯

2020

  • 抮曈惏旤丒戨撪徛懢丒彫愳愰巕丒幍嶳抦壚丒徏杮捈岾丒愇摴曯揟丒拞懞桭峗丒惣榚夒恖丂堦夁惈偺懱姴僗僩儗僢僠塣摦偼拞怱摦柆僗僥傿僼僱僗傪掅壓偝偣傞偐丂戞75夞擔杮懱椡堛妛夛戝夛梊峞廤p.129.(2020)Sep.乮幁帣搰, web
  • 惣榚夒恖丒彫愳愰巕丒幍嶳抦壚丒抮曈惏旤丒徏杮捈岾丂擔杮恖抧堟嵼廧崅楊幰偺寣埑丆摦柆僗僥傿僼僱僗丆偍傛傃懱椡偺摿惈丂戞75夞擔杮懱椡堛妛夛戝夛梊峞廤p.128.(2020)Sep.乮幁帣搰, web
  • 徏杮捈岾丒媑塱寢堖丒擖晹桽堣丒惣榚夒恖丂帠慜偺抁帪娫拞嫮搙塣摦偑斀墳梷惂偍傛傃嶌嬈婰壇壽戣偵媦傏偡塭嬁丂戞75夞擔杮懱椡堛妛夛戝夛梊峞廤p.116.(2020)Sep.乮幁帣搰, web
  • 擖晹桽堣丒塱棙棞擳丒徏杮捈岾丂塣摦偲壏愹擖梺偺慻傒崌傢偣偑婥暘傗悋柊偵媦傏偡塭嬁丂戞75夞擔杮懱椡堛妛夛戝夛梊峞廤p.115.(2020)Sep.乮幁帣搰, web
  • NISHIWAKI M. & MATSUMOTO N. Continuous Physical Activity ModulatesArterial Stiffening in Young People: A Prospective Longitudinal Observational Study. Med Sci Sports Exerc, DOI:10.1249/01.mss.0000685288.43777.d7 (2020) May.


2019

  • 惣榚 夒恖丒彫椦 嶇攇丒嶳壓 椓嬻丒幍嶳 抦壚丒彫愳 愰巕丒徏杮 捈岾丂旂晢偺峝壔搙偲摦柆暻偺峝壔搙偺娭楢惈偵娭偡傞専摙丂戞74夞擔杮懱椡堛妛夛戝夛梊峞廤p.234.(2019)Sep.乮拀攇乯
  • 彫椦 嶇攇丒嶳壓 椓嬻丒幍嶳 抦壚丒彫愳 愰巕丒徏杮 捈岾丒惣榚 夒恖丂宲懕揑側椢拑偺愛庢偑庒擭幰偺懱帀朾偲摦柆僗僥傿僼僱僗偵媦傏偡塭嬁丂戞74夞擔杮懱椡堛妛夛戝夛梊峞廤p.234.(2019)Sep.乮拀攇乯
  • 嶳壓 椓嬻丒彫椦 嶇攇丒彫愳 愰巕丒幍嶳 抦壚丒徏杮 捈岾丒惣榚 夒恖丂崅楊幰偺桭恖偲偺岎棳恖悢偑擣抦婡擻娭楢巜悢偵媦傏偡塭嬁丂戞74夞擔杮懱椡堛妛夛戝夛梊峞廤p.220.(2019)Sep.乮拀攇乯
  • 惣榚 夒恖丒徏杮 捈岾丂悈塲塣摦偲帺揮幵塣摦偑怱憻-忋榬娫偺柆攇揱攄懍搙偵媦傏偡塭嬁:墶抐尋媶丂戞70夞擔杮懱堢妛夛戝夛梊峞廤p.76.(2019)Sep.乮搶嫗乯
  • 徏杮 捈岾丒嶳岥 桾巏丒擖晹 桽堣丒惣榚 夒恖丂帠慜偺抁帪娫拞嫮搙塣摦偼嬻娫忣曬張棟擻椡傪岦忋偝偣傞丂戞27夞擔杮塣摦惗棟妛夛戝夛彺榐廤p70.(2019)Aug.乮峀搰乯
  • NISHIWAKI M., FUJIBAYASHI M. & MATSUMOTO N. Effect of Electrical Stimulation in Hypoxia on Arterial Stiffness. Med Sci Sports Exerc, DOI:10.1249/01.mss.0000561713.49160.62(2019)May.(Orland)

2018

  • 惣揷 傟傫丒懞岥 幍奀丒戨撪 徛懢丒徏杮 捈岾丒惣榚 夒恖丂堎側傞傾儖僐乕儖堸偺愛庢偑摦柆僗僥傿僼僱僗偵梌偊傞塭嬁 JPFSM丂7 p.363 (戞73夞擔杮懱椡堛妛夛戝夛) (2018) Sep.(暉堜)
  • 懞岥 幍奀丒戨撪 徛懢丒惣揷 傟傫丒徏杮 捈岾丒惣榚 夒恖丂柾媅徫偄偲欚殣摦嶌偑庒擭幰偺栩摦柆僐儞僾儔僀傾儞僗偵媦傏偡塭嬁丂JPFSM 7 p.364 (戞73夞擔杮懱椡堛妛夛戝夛) (2018) Sep.(暉堜)
  • 戨撪 徛懢丒惣揷 傟傫丒懞岥 幍奀丒徏杮 捈岾丒惣榚 夒恖丂僶儔儞僗儃乕儖傪梡偄偨僗僩儗僢僠偑拞怱摦柆僗僥傿僼僱僗偵梌偊傞塭嬁 JPFSM 7 p.367 (戞73夞擔杮懱椡堛妛夛戝夛) (2018) Sep.(暉堜)丂
  • 惣榚 夒恖丒嶳岥 梍峢,丂徏杮 捈岾丂堦夁惈偺僲儞傾儖僐乕儖價乕儖偲傾儖僐乕儖偺崿崌堸椏偺愛庢偑摦柆僗僥傿僼僱僗偵媦傏偡塭嬁丗Positive contorol 幚尡丂JPFSM 7 p.368 (戞73夞擔杮懱椡堛妛夛戝夛) (2018) Sep.(暉堜)
  • 嶳岥 桾巏丒拞嶳 桪婭丒徏杮 捈岾丂嬻娫忣曬張棟擻椡偵媦傏偡抁帪娫拞嫮搙塣摦偺塭嬁丂JPFSM 7 p. 434 (戞73夞擔杮懱椡堛妛夛戝夛) (2018) Sep.(暉堜)
  • ENOMOTO K., MATSUMOTO N., INOKAWA H, YAMADA H. & KIMURA M. Topographic Distinction of Reward Value Signals in the Presumed Dopamine Neurons and Striatal Projection Neurons in Monkeys. JNS Meeting Planner 2P-279 (2018) Jul. (恄屗)

2017

  • 懞忋 椚丒嫶杮 隳懢丒拞栰 桟棞丒嶳岥 梍峢丒徏杮 捈岾丒惣榚 夒恖丂掅巁慺娐嫬壓偱偺婡夿揑埑敆偼摦柆僗僥傿僼僱僗傪梊杊丒夵慞偡傞偐丂JPFSM 6 p.401 (戞72夞擔杮懱椡堛妛夛戝夛) (2017) Sep. (徏嶳)
  • 嫶杮 隳懢丒懞忋 椚丒拞栰 桟棞丒嶳岥 梍峢丒徏杮 捈岾丒惣榚 夒恖丂掅巁慺娐嫬傊偺恎懱敇業偑摐戙幱傊媦傏偡塭嬁丂JPFSM 6 p.401 (戞72夞擔杮懱椡堛妛夛戝夛) (2017) Sep. (徏嶳)
  • 嶳岥 梍峢丒懞忋 椚丒嫶杮 隳懢丒拞栰 桟棞丒徏杮 捈岾丒惣榚 夒恖丂摦柆僗僥傿僼僱僗偑堦夁惈偵掅壓偟巒傔傞帄揔側價乕儖愛庢検偺専摙丂JPFSM 6 p.447 (戞72夞擔杮懱椡堛妛夛戝夛) (2017) Sep. (徏嶳)
  • 惣榚 夒恖丒懞忋 椚丒拞栰 桟棞丒嶳岥 梍峢丒嫶杮 隳懢丒徏杮 捈岾丂恎懱婡擻儗儀儖偺堘偄偑庒擭幰偺摦柆僗僥傿僼僱僗偺曄壔偵媦傏偡塭嬁 -廲抐尋媶-丂JPFSM 6 p.448 (戞72夞擔杮懱椡堛妛夛戝夛) (2017) Sep. (徏嶳)
  • 拞栰 桟棞丒嫶杮 隳懢丒懞忋 椚丒嶳岥 梍峢丒徏杮 捈岾丒惣榚 夒恖丂掕婜揑側崅僇僇僆僠儑僐儗乕僩愛庢偑庒擭幰偺摦柆僗僥傿僼僱僗偵媦傏偡塭嬁丂JPFSM 6 p.448 (戞72夞擔杮懱椡堛妛夛戝夛) (2017) Sep. (徏嶳)
  • 嶳岥 桾巏丒壂 恀桽旤丒埨娵 棦撧丒徏杮 捈岾丂3廡娫偺崅僇僇僆僠儑僐儗乕僩愛庢偼拞崅楊抝惈偺摦柆峝壔搙偲抁婜婰壇擻椡傪夵慞偡傞丂JPFSM 6 p.528 (戞72夞擔杮懱椡堛妛夛戝夛) (2017) Sep. (徏嶳)
  • 埨娵 棦撧丒嶳壓 桽棟宐丒嶳岥 桾巏丒徏杮 捈岾丂娫寚揑塣摦慜偺僇僥僉儞愛庢偼塣摦拞偺帀幙戙幱傪槾恑偡傞丂戞4夞擔杮僗億乕僣塰梴妛夛戝夛彺榐 p108. (2017) Aug. (搶嫗)
  • 嶳岥 桾巏丒徏杮 捈岾丂20擔娫偺僶儔儞僗儃乕儖塣摦偑暯峵婡擻偵媦傏偡塭嬁丂戞25夞擔杮塣摦惗棟妛夛戝夛彺榐廤 p57. (2017)Jul. (墶昹)

2016

  • 崄椙 捈婸丒徏杮 捈岾丒惣榚 夒恖丂堦夁惈偺350ml偺價乕儖愛庢偑摦柆暻峝壔搙偵梌偊傞塭嬁丂戞29夞擔杮僩儗乕僯儞僌壢妛夛戝夛梊峞廤 p.38. (2016) Oct. (墶昹)
  • 惣榚 夒恖丒枛塱 徎丒墱搰 戝丒彫揷 孾擵丒崄椙 捈婸丒徏杮 捈岾丒屆夑弐嶔丂戝妛嫞塲慖庤偵懳偡傞掕婜揑側僪儔僀儔儞僪僩儗乕僯儞僌偺傒偺幚巤偑嫞塲僷僼僅乕儅儞僗偵媦傏偡塭嬁丂戞29夞擔杮僩儗乕僯儞僌壢妛夛戝夛梊峞廤 p.62. (2016) Oct. (墶昹)
  • 惣榚 夒恖丒崄椙 捈婸丒徏杮 捈岾丂堦夁惈偺彮検偺價乕儖愛庢偑摦柆僗僥傿僼僱僗偵梌偊傞塭嬁丂JPFSM 5. p.449 (戞71夞擔杮懱椡堛妛夛戝夛) (2016) Sep. (惙壀)
  • 嶳岥 桾巏丒惗揷 岝丒埨娵 棦撧丒徏杮 捈岾丂宲懕揑側崅僇僇僆僠儑僐儗乕僩愛庢偼拞崅楊彈惈偺摦柆峝壔搙偲擣抦婡擻傪夵慞偡傞丂JPFSM 5. p.520 (戞71夞擔杮懱椡堛妛夛戝夛) (2016) Sep. (惙壀)
  • 嶳岥 桾巏丒徏杮 捈岾丂3廡娫偺崅僇僇僆僠儑僐儗乕僩愛庢偼拞崅楊彈惈偺擣抦婡擻傪岦忋偝偣傞丂塰梴妛嶨帍丂74(5) (戞63夞擔杮塰梴夵慞妛夛妛弍憤夛島墘梫巪廤). p.217. (2016) Sep. (惵怷)
  • 惣榚 夒恖丒徏杮 捈岾丂憇擭丒拞擭彈惈偵懳偡傞掕婜揑側僶儔儞僗儃乕儖僩儗乕 僯儞僌偑懱偺廮擃惈偲摦柆僗僥傿僼僱僗偵梌偊傞塭嬁 擔杮懱堢妛夛戞67夞戝夛 梊峞廤, p158. (2016) Aug. (戝嶃)
  • 惣榚 夒恖丒徏杮 捈岾丂拞崅擭抝惈傪懳徾偲偟偨掕婜揑側僶儔儞僗儃乕儖僩儗乕僯儞僌偑懱偺廮擃惈偲摦柆僗僥傿僼僱僗偵梌偊傞塭嬁丂戞24夞擔杮塣摦惗棟妛夛戝夛彺榐廤 p.59. (2016) Jul. (孎杮)
  • 埨娵 棦撧丒嶳岥 桾巏丒徏杮 捈岾丂娐忬僆儕僑擕巁搳梌偑儔僢僩偺摐戙幱偍傛傃帀幙戙幱偵媦傏偡塭嬁丂擔杮僗億乕僣塰梴妛夛戞3夞戝夛彺榐廤 p.91.(2016) Jul. (徏嶳)
  • KUROBE K., WATANABE M. & MATSUMOTO N. Effects of Low to Moderate-Intensity Interval Exercise on Arterial Stiffness. Med Sci Sports Exerc, DOI: 10.1249/01.mss.0000485571.36681.06 (2016) May. (Boston)

2015

  • 拞尨 奀惏丒崅尨 宑桽丒徏杮 捈岾丒惣榚 夒恖丂掅巁慺敇業偍傛傃掅巁慺娐嫬壓偱偺僗僩儗僢僠偑摦柆僗僥傿僼僱僗偲懱偺廮擃惈偵梌偊傞塭嬁丂戞28夞僩儗乕僯儞僌壢妛夛戝夛彺榐廤p.86.(2015) Nov. (幁壆)
  • 崅尨 宑桽丒拞尨 奀惏丒徏杮 捈岾丒惣榚 夒恖丂悈塲塣摦偑摦柆僗僥傿僼僱僗偲懱偺廮擃惈偵梌偊傞塭嬁丂戞28夞僩儗乕僯儞僌壢妛夛戝夛彺榐廤p.86.(2015) Nov. (幁壆)
  • 惣榚 夒恖丒墿 拤丒壃尨 惓戝丒拞尨 奀惏丒崅尨 宑桽丒徏杮 捈岾丂堦夁惈偺掅巁慺巋寖偼懱偺廮擃惈傪崅傔傞偐丂戞28夞僩儗乕僯儞僌壢妛夛戝夛彺榐廤 p.87.(2015) Nov. (幁壆)
  • 惣榚 夒恖丒摗椦 恀旤丒幍嶳 抦壚丒彫愳 愰巕丒斅憅 孧巕丒忋懞 敧恞丒徏杮 捈岾丂夘擖婜娫拞偺乽僾儔僗10乿偺幚巤偑崅楊幰偺摦柆僗僥傿僼僱僗偵梌偊傞塭嬁丂懱椡壢妛 64(6): 582 (2015) Sep. (榓壧嶳)
  • 崟晹 堦摴丒搉绮 旤嵐婫丒徏杮 捈岾丂掅丒拞嫮搙偺娫寚揑塣摦偑摦柆僗僥傿僼僱僗偵媦傏偡塭嬁丂懱椡壢妛 64(6): 579 (2015) Sep. (榓壧嶳)
  • 徏杮 捈岾丒崟晹 堦摴丒惣榚 夒恖丂帠慜偵峴偆抁帪娫拞嫮搙塣摦偑扨弮壛嶼偍傛傃帇妎婰壇壽戣惉愌偵媦傏偡塭嬁丂戞23夞擔杮塣摦惗棟妛夛戝夛彺榐廤 p.78 (2015) Jul. (搶嫗乯
  • KUROBE K., KOUSAKA A., OGTIA F. & MATSUMOTO N. Comparison of Carbohydrade Metabolism between Land and Aquatic Exercise following Glucose lngestion. Med Sci Sports Exerc 47(5S):867(2015) May. (San Diego)


2014

  • 惣榚 夒恖丒暷懞 弔崄丒崟晹 堦摴丒徏杮 捈岾丂4廡娫偺掕婜揑側惷揑僗僩儗僢僠僩儗乕僯儞僌偼拞擭抝惈偺摦柆僗僥傿僼僱僗傪掅壓偝偣傞偐丂懱椡壢妛 63(6): 578 (2014) Sep.乮挿嶈乯
  • 崟晹 堦摴丒峛嶃 埡壚丒壃揷 懢丒徏杮 捈岾丂堎側傞3僞僀僾偺桳巁慺惈塣摦偑僌儖僐乕僗愛庢屻偺戙幱墳摎偵媦傏偡塭嬁丂懱椡壢妛 63(6): 596 (2014) Sep.乮挿嶈乯
  • ENOMOTO K., MATSUMOTO N., HARUNO M. 仌 KIMURA M. Heterogeneous Reward Signals of Midbrain Dopamine Neurons in Over-Trained Monkeys. JNS Meeting Plannner P1-238. (2014) Sep.乮墶昹乯

2013

  • ENOMOTO K., MATSUMOTO N. & KIMURA M. Dopamine Neurons Evolve to Signal Future Rewards Expected Across Blocks of Multiple Choices When Monkeys are Overtrained. Neuroscience Meeting Planner 775.12 (2013) Nov. (San Diego)
  • 惣榚 夒恖丒崟晹 堦摴丒栘撪 撝帉丒拞懞 桭峗丒徏杮 捈岾丂懱偺廮擃惈偲摦柆僗僥傿僼僱僗偼岎棈場巕偺塭嬁傪彍偄偨忋偱傕娭楢偡傞偐丂-墶抐揑尋媶-丂懱椡壢妛 62(6): p.524乮2013乯Sep.乮搶嫗乯
  • 崟晹 堦摴丒拞旜 嵐怐丒惣榚 夒恖丒徏杮 捈岾丂僐乕僸乕愛庢偲娫寚揑塣摦偺慻傒崌傢偣偑帀幙戙幱偵媦傏偡塭嬁丂懱椡壢妛 62(6): p.539乮2013乯Sep.乮搶嫗乯
  • ENOMOTO K., MATSUMOTO N. & KIMURA M. Midbrain Dopamine Neuron Signals Supra-Long Term, Minimum-Discounted Future Rewards in Over-Trained Monkeys. JNS Meeting Planner P3-2-66.(2013) Jun. (嫗搒)

2012

  • 惣榚 夒恖丒抮忋 桼旤丒拞搱 柤嵷丒崟晹 堦摴丒徏杮 捈岾丂妶摦検寁偲Twitter傪梡偄偨惗妶夘擖偲夘擖搑拞偱偺Twitter偺巊梡拞巭偑恎懱妶摦検偵梌偊傞塭嬁丂戞25夞僩儗乕僯儞僌壢妛夛戝夛彺榐廤 p.49 (2012) Dec. (憪捗)
  • ENOMOTO K., MATSUMOTO N. & KIMURA M. Location Specific Roles of Dopamine Neurons in the Midbrain in Learning and Decision-Making. Neuroscience Meeting Planner 103.04/CCC14 (2012) Oct. (New Orleans)
  • UEDA Y., OKAZAKI S., YAMANAKA K., SAMEJIMA K., ENOMOTO K., INOKAWA H., MATSUMOTO N., KANO M. & KIMURA M. Cannabinoid (CB1) Receptors Selectively Modulate Value of Action Encoded in the Striatum. JNS Meeting Planner 166. (2012) Sep. (柤屆壆)
  • ENOMOTO K., MATSUMOTO N. & KIMURA M. Heterogeneous Signals of Midbrain Dopamine Neurons during Learning and Decision-Making. JNS Meeting Planner 166. (2012) Sep. (柤屆壆)
  • 惣榚 夒恖丒媨楬 埄丒鸐揷 桳崄丒抮忋 桼旤丒拞搱 柤嵷丒愳忋 椚巕丒崟晹 堦摴丒徏杮 捈岾丂妶摦検寁偲Twitter傪梡偄偨惗妶夘擖偑擔忢恎懱妶摦検偍傛傃懱帀朾偵梌偊傞塭嬁丂懱椡壢妛 61-6: p.687 (2012) Sep. (婒晫)
  • 媨楬 埄丒郷揷 桳崄丒惣榚 夒恖丒徏杮 捈岾丂惗妶廗姷昦偺梊杊丒夵慞偵岠壥揑側怴偟偄恎懱妶摦條幃偺専摙丂懱椡壢妛 61-6: p.693 (2012) Sep. (婒晫)
  • 郷揷 桳崄丒媨楬 埄丒惣榚 夒恖丒徏杮 捈岾丂媞娤揑偵昡壙偝傟傞憗怘偄傗慹欚殣偲懱帀朾偲偺娭學偵偮偄偰丂懱椡壢妛 61-6: p. 697 (2012) Sep. (婒晫)
  • 惣榚 夒恖丒崟晹 堦摴丒徏杮 捈岾丂妶摦検寁偲Twitter傪梡偄偨惗妶夘擖偑曕悢偍傛傃恎懱妶摦検偵梌偊傞塭嬁丂戞20夞擔杮塣摦惗棟妛夛戝夛彺榐廤 p.70. (2012) Jul. (拀攇)
  • OKAZAKI S., UEDA Y., YAMANAKA K., ENOMOTO K., INOKAWA H., YAGITA K., MATSUMOTO N., KANO M. & KIMURA M. Adaptation of Reward-Based Free-Choices is Impaired by Cannabinoid Receptor (CB1) Antagonist. J. Physiol. Sci. 62 (Suppl. 1) S234 (2012) Mar. (徏杮)

2011

  • 惣榚 夒恖丒徏杮 捈岾丂僎乕儉婡擻晅偒妶摦検寁傪梡偄偨惗妶夘擖偑擔忢恎懱妶摦検丄偍傛傃恎懱慻惉偵梌偊傞塭嬁丂擔杮懱堢妛夛戞62夞戝夛梊峞廤丂p125. (2011) Sep. (幁壆)
  • 惣榚 夒恖丒孖嶳 峎摽丒抮忋 桼旤丒拞搱 柤嵷丒徏杮 捈岾丂僎乕儉婡擻晅偒妶摦検寁傪梡偄偨惗妶夘擖偑擔忢恎懱妶摦検偵梌偊傞塭嬁丂懱椡壢妛 60-6: p777. (2011) Sep. (壓娭)

庴徿楌

擔杮恄宱夞楬妛夛2012擭搙榑暥徿

ENOMOTO K., MATSUMOTO N., NAKAI S., SATOH T., SATO T., UEDA Y., INOKAWA H., HARUNO M. & KIMURA M. Dopamine Neurons Learn to Encode the Long-Term Value of Multiple Future Rewards. PNAS 108: 15462-15467 (2011) Sep.

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妛夛妶摦

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  • 杒暷恄宱壢妛妛夛(Society for Neuroscience)

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