Curriculum Vitaes
Profile Information
- Affiliation
- Fujita Health University
- Degree
- PhD(Mar, 2022, Fujita Health University)
- Researcher number
- 40805305
- J-GLOBAL ID
- 201701002360258274
- researchmap Member ID
- B000274367
Research Areas
2Education
3-
Apr, 2017 - Present
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Apr, 2016 - Mar, 2017
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Apr, 2009 - Mar, 2016
Committee Memberships
1-
Apr, 2021 - Present
Papers
9-
Japanese journal of Electrophysical Agents, 32 61-68, Aug, 2025 Peer-reviewedLead author
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Fujita medical journal, 9(4) 288-294, Nov, 2023 Peer-reviewedLead author
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Fujita Medical Journal, 8(3) 83-87, Aug, 2022 Peer-reviewedLead authorObjectives: Objective structured clinical examinations (OSCEs) are used to assess clinical competence in medical education. Evaluations using video-recorded OSCEs are effective in reducing costs in terms of time and human resources. To improve inter-rater reliability, these evaluations undergo moderation in the form of a discussion between the raters to obtain consistency in grading according to the rubric criteria. We examined the effect of moderation related to the rubric criteria on the inter-rater reliability of a video-recorded OSCE with real patients. Methods: Forty OSCE videos in which students performed range-of-motion tests at shoulder abduction on real patients were assessed by two raters. The two raters scored videos 1 to 10 without moderation and videos 11 to 40 with moderation each time. The inter-rater reliability of the OSCE was calculated using the weighted kappa coefficient. Results: The mean scores of the weighted kappa coefficients were 0.49 for videos 1 to 10, 0.57 for videos 11 to 20, 0.66 for videos 21 to 30, and 0.82 for videos 31 to 40. Conclusions: An assessment of video-recorded OSCEs was conducted with real patients in a real clinical setting. Repeated moderation improved the inter-rater reliability. This study suggests the effectiveness of moderation in OSCEs with real patients.
Misc.
20-
Japanese Journal of Electrophysical Agents, advpub, 2024We have developed a small magnetic stimulator employing a rotating permanent field, called a spinning permanent magnet (SPM). The SPM device is designed for peripheral wear on the arm or leg and delivers subsensory stimulation (below the threshold of conscious perception). Established research demonstrates that peripheral magnetic stimulation above the motor threshold can modulate corticospinal excitability through ascending inputs. However, the effects of subsensory threshold peripheral magnetic stimulation remain unclear. In this study, we investigate the modulatory impact of SPM stimulation on the extensor carpi radialis (ECR) muscle of the right forearm in 10 healthy adults. Participants received two conditions: real stimulation with the SPM device and sham stimulation emulating the device’s application. Motor-evoked potentials, indicative of corticospinal excitability, were recorded in the right ECR following stimulation. Although no significant differences were observed between the two conditions and before and after stimulation, the small sample size in this study makes it difficult to draw definitive conclusions. Further research is needed. While low-intensity magnetic stimulation and static magnetic fields have shown promise in pain management, blood circulation, and autonomic nervous system modulation, further research should explore the effects of SPM on anatomical structures beyond central neuromodulation.
Books and Other Publications
1Presentations
9-
13th International Society of Physical and Rehabilitation Medicine World Congress, Jun 9, 2019
Research Projects
4-
科学研究費助成事業 若手研究, 日本学術振興会, Apr, 2023 - Mar, 2026
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2022年度助成研究, 一般社団法人 日本物理療法学会, Aug, 2022 - Jul, 2023
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Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (C), Japan Society for the Promotion of Science, Apr, 2020 - Mar, 2023
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The Aichi Society for Physical Therapy, Jun, 2020 - Jun, 2021