保健衛生学部 リハビリテーション学科

Norihide Itoh

  (伊藤 慎英)

Profile Information

Affiliation
Faculty of Rehabilitation, School of Health Sciences, , Fujita Health University
Degree
博士(医学)(藤田医科大学)

J-GLOBAL ID
201801002141357434
researchmap Member ID
B000342359

Papers

 23
  • Norihide Itoh, Tatsuyoshi Ikenoue, Yuki Nakagawa, Keima Nagasaka, Tomoko Tateyama, Tomoyuki Sugimoto, Kazuo Nonomura, Tsuneharu Miki
    Geriatrics & gerontology international, 24(11) 1246-1248, Nov, 2024  Lead authorCorresponding author
  • Tomida Ken, Tanino Genichi, Sonoda Shigeru, Sonoda Shigeru, Hirano Satoshi, Itoh Norihide, Saitoh Eiichi, Kagaya Hitoshi, Suzuki Akira, Kawakami Kenji, Miyajima Takumi, Takai Misaki
    Japanese Journal of Comprehensive Rehabilitation Science (Web), 12 19-26, Apr, 2021  Peer-reviewed
  • Imoto D, Itoh N, Kubo S, Yamaguchi M, Shimizu N, Seo K, Sawada K, Ohashi S, Mikami Y, Kubo T
    Journal of physical therapy science, 31(6) 475-481, Jun, 2019  Peer-reviewedCorresponding author
    [Purpose] Stand-and-ride personal mobility devices controlled by movements of the user's center of gravity are used for balance training. We aimed to describe the physical activity required to operate this type of mobility device. [Participants and Methods] Eleven healthy males performed the following tasks: 1) moving their center of gravity forward or backward while standing on the floor (control task) and, 2) moving the mobility device forward or backward by moving their center of gravity (experimental task). [Results] We observed that the displacement of the center of gravity and the center of pressure, as well as angular displacements of the hips and knee joints, and maximum muscle activities of the biceps femoris, the medial head of the gastrocnemius and peroneus longus muscles were lesser during the experimental than during the control task. The distance moved by the device was significantly greater than the displacement of the user's center of gravity during the experimental task. [Conclusion] We observed that moving the device forward or backward required lesser physical activity than that required to shift the user's center of gravity forward or backward while standing on the floor. Additionally, we observed that even a small displacement of the user's center of gravity produced a large displacement of the device. We concluded that during balance training, the greater and more easily perceived movement of the mobility device would provide helpful feedback to the user.
  • Itoh N, Imoto D, Kubo S, Yamaguchi M, Shimizu N, Toyama S, Mikami Y, Kubo T
    Journal of physical therapy science, 30(10) 1262-1266, Oct, 2018  Peer-reviewedLead authorCorresponding author
    [Purpose] The balance exercise assist robot is a training device based on a personal transport assistance robot ridden in the standing position. The personal transport assistance robot uses an inverted pendulum control system and moves in response to movements of the user's center of gravity. The purpose of this study was to describe the characteristics of postural control during the action of stopping the personal transport assistance robot. [Participants and Methods] Eleven healthy male participants were required to maintain a standing position for 30 s; each task was performed 10 times. The measurement conditions were as follows: (1) on the floor; (2) on the robot, touching the handlebars; and (3) on the robot, not touching the handlebars. [Results] During the robotic tasks, the total locus lengths of the center of gravity and total joint momentums of the hip, knee, and ankle joints were larger, and the amount of displacement of the center of pressure was smaller than that during the floor task. Posture control on the robot was performed actively by mechanical interaction of the ankle, knee, and hip joints within a small base of support. [Conclusion] The balance exercise assist robot can be useful for postural control exercises because maintaining a standing position on the personal transport assistance robot required active postural control.

Misc.

 30

Presentations

 144

Research Projects

 4

Other

 2