Faculty of Rehabilitation

清野 溪

kiyono kei

基本情報

所属
藤田医科大学 保健衛生学部 リハビリテーション学科 講師
学位
MBA(Indiana University)

J-GLOBAL ID
201801005314109260
researchmap会員ID
7000023654

論文

 3
  • Kei Kiyono, Shigeo Tanabe, Satoshi Hirano, Takuma Ii, Yuki Nakagawa, Koki Tan, Eiichi Saitoh, Yohei Otaka
    Journal of Clinical Medicine 13(21) 6616-6616 2024年11月4日  
    Background/Objectives: Clinical trials have investigated the efficacy of rehabilitation robotics for various pathological conditions, but the overall impact on rehabilitation practice remains unclear. We comprehensively examined and analyzed systematic reviews (SRs) of randomized controlled trials (RCTs) investigating rehabilitative interventions with robotic devices. Methods: Four databases were searched using term combinations of keywords related to robotic devices, rehabilitation, and SRs. The SR meta-analyses were categorized into “convincing”, “highly suggestive”, “suggestive”, “weak”, or “non-significant” depending on evidence strength and validity. Results: Overall, 62 SRs of 341 RCTs involving 14,522 participants were identified. Stroke was most frequently reported (40 SRs), followed by spinal cord injury (eight SRs), multiple sclerosis (four SRs), cerebral palsy (four SRs), Parkinson’s disease (three SRs), and neurological disease (any disease causing limited upper- and lower-limb functioning; three SRs). Furthermore, 38, 21, and 3 SRs focused on lower-limb devices, upper-limb devices, and both upper- and lower-limb devices, respectively. Quantitative synthesis of robotic intervention effects was performed by 51 of 62 SRs. Robot-assisted training was effective for various outcome measures per disease. Meta-analyses offering suggestive evidence were limited to studies on stroke. Upper-limb devices were effective for motor control and activities of daily living, and lower-limb devices for walking independence in stroke. Conclusions: Robotic devices are useful for improving impairments and disabilities in several diseases. Further high-quality SRs including RCTs with large sample sizes and meta-analyses of these RCTs, particularly on non-stroke-related diseases, are required. Further research should also ascertain which type of robotic device is the most effective for improving each specific impairment or disability.
  • 清野 溪, 大高 洋平, 田辺 茂雄, 平野 哲, 立本 将士, 熊澤 暢宏, 金田 嘉清, 才藤 栄一
    The Japanese Journal of Rehabilitation Medicine 57(特別号) 2-1 2020年7月  
  • Tsuyoshi Tatemoto, Eiichi Saitoh, Shigeo Tanabe, Soichiro Koyama, Nobuhiro Kumazawa, Shotaro Furuzawa, Tomoya Kato, Hiroshi Yoshimuta, Katsuhiko Torii, Kei Kiyono, Yohei Otaka, Yoshikiyo Kanada
    Technology and health care : official journal of the European Society for Engineering and Medicine 28(2) 175-183 2020年  査読有り
    BACKGROUND: Falls during transfer to and from a wheelchair are associated with numerous problems. Factors responsible for difficulty in transferring include horizontal/vertical gaps between surfaces; obstacles, such as armrests; and complicated brake/footrests configurations before transferring. Moreover, controlling a wheelchair sufficiently close to the transfer surface within the confined home space is difficult. OBJECTIVE: We described the design of the novel Lateral Transfer Assist Robot (LTAR) for solving problems during transfer. Furthermore, the effectiveness and usability of the robot were preliminary examined in healthy adults. METHOD: The transfer problems and basic designs were organized. The effectiveness of the prototype was measured by three-dimensional motion analysis and questionnaire. RESULTS: The prototype LTAR was developed. With just a push on a button, the footplate lowers to the floor and the seat and armrest lowers to the height of the seating surface to fill the gap between the surfaces. Using these features, users can transfer by simply shifting their buttocks sideways. Additionally, LTAR has omnidirectional wheels that help move it within a narrow space. The LTAR was confirmed to reduce the physical and subjective burden, except for maneuverability. CONCLUSION: The LTAR was found to be effective for home use and reducing burden of transfer.

MISC

 4
  • Koyama Soichiro, Tanabe Shigeo, Saitoh Eiichi, Otaka Yohei, Ohta Hirofumi, Tatemoto Tsuyoshi, Kumazawa Nobuhiro, Katoh Ai, Sugiyama Yuki, Kiyono Kei, Kanada Yoshikiyo
    Fujita Medical Journal 6(3) 81-86 2020年  
    <p>Objectives: The ability to transfer between surfaces is essential for wheelchair users' independence. We hypothesized that transfer of hemiparetic stroke patients would be improved by using surfaces at the same height with no gap or obstacle between them.</p><p>Methods: A cross-sectional study was conducted to compare the difficulty of two transfer methods as a pilot study. Thirteen hemiparetic stroke patients were transferred from a platform table to a chair (wheelchair or flat chair) and from the chair to the table using the regular and lateral transfer methods. Functional Independence Measure (FIM) transfer score in both transfer methods and Stroke Impairment Assessment Set (SIAS) score were measured.</p><p>Results: The FIM transfer score significantly increased in the lateral transfer condition compared with the regular transfer condition, indicating that the former method reduced the transfer difficulty, regardless of the SIAS scores.</p><p>Conclusions: The transfer difficulty of patients with hemiparetic stroke decreases when using the lateral transfer method. The lateral transfer method is easy, potentially helping prevent care-related injuries among caregivers.</p>
  • Tanabe Shigeo, Saitoh Eiichi, Koyama Soichiro, Kiyono Kei, Tatemoto Tsuyoshi, Kumazawa Nobuhiro, Kagaya Hitoshi, Otaka Yohei, Mukaino Masahiko, Tsuzuki Akira, Ota Hirofumi, Hirano Satoshi, Kanada Yoshikiyo
    Fujita Medical Journal 5(2) 31-35 2019年  
    <p>We initiated the Robotic Smart Home (RSH) project to develop a comfortable, safe home environment for all people, including the elderly and individuals with disabilities. An important consideration when introducing robots into a home environment is the confined living space, the so-called space problem. The RSH project plans to simultaneously develop robots and an architectural design for living spaces to create an optimal home environment that will help elderly people live independently at home for longer periods. The RSH accommodates the following three robotics and assistive systems: mobility and transfer assist system, operational assist system, and information assist system. The mobility and transfer assist system includes three types of devices (lifting type, lateral-transfer type, and suspension type), which can be available to users as appropriate according to the severity of their disability. The operational assist system combines a hand robot with an environmental control system for the convenience of users. An information assist system connects the RSH with remote locations for communication. Inside the RSH, a home automation and monitoring system connected to the Internet of Things provides residents with comfort and security. As part of this project, two RSH centers have been established for effective facility adoption.</p>
  • 立本 将士, 才藤 栄一, 田辺 茂雄, 小山 総市朗, 太田 皓文, 清野 溪, 熊澤 暢宏, 加藤 正樹, 加藤 愛, 杉山 有紀, 大高 洋平, 金田 嘉清
    The Japanese Journal of Rehabilitation Medicine 55(秋季特別号) S446-S446 2018年10月  
  • 清野溪, 才藤栄一, 田辺茂雄, 立本将士, 小山総市朗, 太田皓文, 熊澤暢宏, 大高洋平, 加賀谷斉, 金田嘉清
    日本義肢装具学会誌 34 2018年