Curriculum Vitaes
Profile Information
- Affiliation
- assistant professor, Department of Rehabilitation / Physical Therapy Course, Nihon Institute of Medical ScienceSpecial Research Fellow, Graduate School of Health Sciences, Fujita Health University
- Degree
- Doctor (Philosophy in Medical Sciences)(Mar, 2021, Fujita Health University)Master (Health Science)(Mar, 2018, Fujita Health University)
- Researcher number
- 40909610
- ORCID ID
https://orcid.org/0000-0001-7053-7063- J-GLOBAL ID
- 202101019032269652
- researchmap Member ID
- R000022155
Research Areas
6Research History
2Major Papers
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Experimental gerontology, 171 112024-112024, Jan, 2023 Peer-reviewedLead authorLast authorCorresponding authorINTRODUCTION: The decline in spatial working memory is one of the earliest signs of normal brain aging. OBJECTIVE: We developed a novel physical exercise method, termed the "shaking exercise," to slow down this process. METHODS: The experimental protocol included administering the shaking exercise for 8-32 weeks in male senescence-accelerated mouse prone 10 (SAMP-10). They were subjected to the T-maze test, followed by immunohistochemical analysis, to assess the influence of the shaking exercise on the M1 muscarinic acetylcholine receptor (CHRM1) and α-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptor (AMPAR) of the dorsal hippocampus and medial prefrontal cortex (dHC-mPFC). RESULTS: The T-maze test demonstrated that the shaking group had less hesitation in the face of selecting direction at week 24. In the immunohistochemical analysis, more CHRM1s were in the CA3 subregion and more AMPARs were in the subiculum. CHRM1s and AMPARs were maintained in the CA1 region and the mPFC. The CHRM1s seem to have a positive effect on the AMPAR in the dentate gyrus (DG) region and the CA3 region. In the CA1 region, CHRM1s were negatively correlated with AMPARs. In addition, high-density neurons were expressed in the shaking group in the upstream DG, the middle part and the distal part of CA3, the distal part of CA1, and the mPFC. CONCLUSIONS: Our results raise the possibility that maintenance of the spatial working memory effect observed with the shaking exercise is driven in part by the uneven affection of CHRM1s and AMPARs in the dHC-mPFC circuit system and significantly maintains the neuronal expression in the dHC-mPFC.
Misc.
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日本老年医学会雑誌, 62(Suppl.) 168-168, May, 2025 Lead authorLast authorCorresponding author
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The 17th International Convention on Rehabilitation Engineering and Assistive Technology (i-CREATe 2024), Aug, 2024 Peer-reviewedLead authorLast authorCorresponding author
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The 17th International Convention on Rehabilitation Engineering and Assistive Technology (i-CREATe 2024), Aug, 2024 Peer-reviewedLead authorLast authorCorresponding author
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Dementia Japan, 38(4), 2024 Lead authorLast authorCorresponding author
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病院設備, 66(5), 2024 Lead authorLast authorCorresponding author
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Bioengineering Symposiums 2023, Sep 8, 2023 Peer-reviewed
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The 16th International Convention on Rehabilitation Engineering and Assistive Technology (i-CREATe 2023), Aug 11, 2023 Peer-reviewedLead authorLast authorCorresponding author
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The 16th International Convention on Rehabilitation Engineering and Assistive Technology (i-CREATe 2023), Aug 11, 2023 Peer-reviewedLead authorLast authorCorresponding author
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The Proceedings of JSME annual Conference on Robotics and Mechatronics (Robomec), 2023 1P1-D26, Jun, 2023 Peer-reviewedSpasticity, one of the sequelae of stroke, inhibits rehabilitation. We have developed a device called "PDFin" to simulate manual therapy to reduce spasticity in hemiplegic stroke patients and have achieved a certain effect. In our previous work, we have developed “PDFin2” with increased torque and rotation speed by replacing the motor and have verified its safety for healthy people. In this study, we applied PDFin2 to three stroke hemiplegic survivors to verify the immediate effect of MAS improvement and hand extension before and after use. The comparison results with manual therapy showed roughly equivalent effects in MAS and a larger amount of improvement in A-ROM in PDFin2.
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関東甲信越ブロック理学療法士学会, 42 P-106, 2023 Lead authorLast authorCorresponding author【目的】 高齢者には身体活動が必要とされるが,転倒リスクを考えると運 動量を増加させることは困難である.限りある運動量の条件下で 高齢者の運動の質を向上させることを目的とし,新規ポリリズム他 動運動負荷装置(PTMD)を開発し,高齢者の身体機能や認知機能 の低下を緩和するより効果的な運動による予防対策を検証する. 【方法】 視覚器にGammaリズムの光刺激を与えまた,身体にTheta周波 強度の振動運動を加える.最終的に脳に認知記憶に効果なGammaTheta神経同調が誘発される.この仮説の基,重心動揺,運動視, 周辺抑制を評価する. 【結果】 運動機能・運動視機能・認知機能に異常のない20~22歳の若年者 10例,60~70歳の高齢者10例を対象として,介入群5名,対照 群5名を群分け.単独実験の結果を以下に示す.①介入群の被験者 10名のうち8名が,足先部の荷重が増加,軌跡長が有意に短縮 した(p<0.05).Theta周波数の振動運動により重心動揺に改善 傾向が認められた.高齢者はサッカード潜時と精度が若年群と比 べ有意に低下していた(p<0.05).また,高齢者にGamma周波数 の光刺激を行なった結果,歩行時の視野が広くなり,運動視機能 は約7%向上した.大脳周辺抑制機能の判別性は5%が改善された. 【考察】 振動運動による重心動揺の改善は,Theta周波数の振動運動により 足先部の荷重が増加し,軌跡長が有意に短縮することで観察され た.また,高齢者の眼球運動において,サッカード潜時と精度が低 下しているが,Gamma周波数の光刺激を行うことで,高齢者の 歩行時の視野が広がり,運動視機能が向上することが示された. 介入群において,大脳周辺抑制機能の判別性が改善されたことが 示されました. 【結論】 これらの結果から,高齢者であっても振動運動や視覚刺激を単独 で行うことで身体,認知,運動視機能は改善することが示唆される. PTMD運動を実施することで振動運動と視覚刺激の相乗効果が 期待できる. 【倫理的配慮,説明と同意】 ①本研究は日本保健医療大学研究倫理・利益相反委員会の承認を 得た(承認番号:P2018-04).②本研究は患者に研究内容について 十分インフォームドコンセントを行い,研究協力者に本研究協力 の同意を得た.③抄録本文の項目中には研究対象にとって不利益 となるような属性(人名,施設名等)を記載しない.
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日本生化学会大会(Web), 2017年度 [1P-1122], Dec, 2017 Lead authorLast authorCorresponding author
Presentations
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The 18th International Convention on Rehabilitation Engineering and Assistive Technology (i-CREATe 2025), Nov 25, 2025
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The 52nd Congress Of The International Neurootological And Equilibriometric Society, Aug 25, 2025
Teaching Experience
15Professional Memberships
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Apr, 2025 - Present
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Sep, 2024 - Present
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Jun, 2024 - Present
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May, 2024 - Present
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Aug, 2021 - Present
Research Projects
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科学研究費助成事業, 日本学術振興会, Apr, 2025 - Mar, 2028
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科学研究費助成事業, 日本学術振興会, Apr, 2022 - Mar, 2025
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研究助成金, 中冨健康科学振興財団, Apr, 2023 - Mar, 2024
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科学研究費助成事業, 日本学術振興会, Aug, 2021 - Mar, 2023