Faculty of Rehabilitation

宮坂 裕之

ミヤサカヒロユキ  (MIYASAKA HIROYUKI)

基本情報

所属
藤田医科大学七栗記念病院 リハビリテーション部

J-GLOBAL ID
201001082548277081
researchmap会員ID
6000025933

外部リンク

研究キーワード

 2

論文

 40
  • Ayaka Yokoi, Hiroyuki Miyasaka, Hiroki Ogawa, Shota Itoh, Hideto Okazaki, Shigeru Sonoda
    Japanese Journal of Comprehensive Rehabilitation Science 15 42-48 2024年10月16日  
  • Kenji Kawakami, Hiroyuki Miyasaka, Yuichi Hioki, Ayako Furumoto, Shigeru Sonoda
    International journal of rehabilitation research. Internationale Zeitschrift fur Rehabilitationsforschung. Revue internationale de recherches de readaptation 2024年4月9日  
    Practicing walking in a safety suspension device allows patients to move freely and without excessive reliance on a therapist, which requires correcting errors and may facilitate motor learning. This opens the possibility that patients with subacute stroke may improve their walking ability more rapidly. Therefore, we tested the hypothesis that overground gait training in a safety suspension device will result in achieving faster supervision-level walking than gait training without the suspension device. Twenty-seven patients with stroke admitted to the rehabilitation ward with functional ambulation categories (FAC) score of 2 at admission were randomly allocated to safety suspension-device group (SS group) or conventional assisted-gait training group (control group). In addition to regular physical therapy, each group underwent additional gait training for 60 min a day, 5 days a week for 4 weeks. We counted the days until reaching a FAC score of 3 and assessed the probability using Cox regression models. The median days required to reach a FAC score of 3 were 7 days for the SS group and 17.5 days for the control group, which was significantly different between the groups (P < 0.05). The SS group had a higher probability of reaching a FAC score of 3 after adjusting for age and admission motor impairment (hazard ratio = 3.61, 95% confidence interval = 1.40-9.33, P < 0.01). The gait training with a safety suspension device accelerates reaching the supervision-level walking during inpatient rehabilitation. We speculate that a safety suspension device facilitated learning by allowing errors to be experienced and correct in a safe environment.
  • Miyasaka H, Kondo I, Yamamura C, Fujita N, Orand A, Sonoda S.
    Top Stroke Rehabil. 27(1) 49-56 2020年1月  査読有り筆頭著者
  • Hiroyuki Miyasaka, Kotaro Takeda, Hitoshi Ohnishi, Abbas Orand, Shigeru Sonoda
    Applied Sciences-Basel 9(18) 3925 2019年9月  査読有り
    Sensory disorder is a factor preventing recovery from motor paralysis after stroke. Although several robot-assisted exercises for the hemiplegic upper limb of stroke patients have been proposed, few studies have examined improvement in function in stroke patients with sensory disorder using robot-assisted training. In this study, the efficacies of robot training for the hemiplegic upper limb of three stroke patients with complete sensory loss were compared with those of 19 patients without complete sensory loss. Robot training to assist reach motion was performed in 10 sessions over a 2-week period for 5 days per week at 1 h per day. Before and after the training, the total Fugl-Meyer Assessment score excluding coordination and tendon reflex (FMA-total) and the FMA shoulder and elbow score excluding tendon reflex (FMA-S/E) were evaluated. Reach and path errors (RE and PE) during the reach motion were also evaluated by the arm-training robot. In most cases, both the FMA-total and the FMA-S/E scores improved. Cases with complete sensory loss showed worse RE and PE scores. Our results suggest that motor paralysis is improved by robot training. However, improvement may be varied according to the presence or absence of somatic sensory feedback.
  • Abbas Orand, Eren Erdal Aksoy, Hiroyuki Miyasaka, Carolynweeks Levy, Xin Zhang, Carlo Menon
    Sensors (Switzerland) 19(16) 2019年8月2日  
    Rehabilitation and mobility training of post-stroke patients is crucial for their functional recovery. While traditional methods can still help patients, new rehabilitation and mobility training methods are necessary to facilitate better recovery at lower costs. In this work, our objective was to design and develop a rehabilitation training system targeting the functional recovery of post-stroke users with high efficiency. To accomplish this goal, we applied a bilateral training method, which proved to be effective in enhancing motor recovery using tactile feedback for the training. One participant with hemiparesis underwent six weeks of training. Two protocols, “contralateral arm matching” and “both arms moving together”, were carried out by the participant. Each of the protocols consisted of “shoulder abduction” and “shoulder flexion” at angles close to 30 and 60 degrees. The participant carried out 15 repetitions at each angle for each task. For example, in the “contralateral arm matching” protocol, the unaffected arm of the participant was set to an angle close to 30 degrees. He was then requested to keep the unaffected arm at the specified angle while trying to match the position with the affected arm. Whenever the two arms matched, a vibration was given on both brachialis muscles. For the “both arms moving together” protocol, the two arms were first set approximately to an angle of either 30 or 60 degrees. The participant was asked to return both arms to a relaxed position before moving both arms back to the remembered specified angle. The arm that was slower in moving to the specified angle received a vibration. We performed clinical assessments before, midway through, and after the training period using a Fugl-Meyer assessment (FMA), aWolf motor function test (WMFT), and a proprioceptive assessment. For the assessments, two ipsilateral and contralateral arm matching tasks, each consisting of three movements (shoulder abduction, shoulder flexion, and elbow flexion), were used. Movements were performed at two angles, 30 and 60 degrees. For both tasks, the same procedure was used. For example, in the case of the ipsilateral arm matching task, an experimenter positioned the a_ected arm of the participant at 30 degrees of shoulder abduction. The participant was requested to keep the arm in that position for ~5 s before returning to a relaxed initial position. Then, after another ~5-s delay, the participant moved the affected arm back to the remembered position. An experimenter measured this shoulder abduction angle manually using a goniometer. The same procedure was repeated for the 60 degree angle and for the other two movements. We applied a low-cost Kinect to extract the participant’s body joint position data. Tactile feedback was given based on the arm position detected by the Kinect sensor. By using a Kinect sensor, we demonstrated the feasibility of the system for the training of a post-stroke user. The proposed system can further be employed for self-training of patients at home. The results of the FMA, WMFT, and goniometer angle measurements showed improvements in several tasks, suggesting a positive e_ect of the training system and its feasibility for further application for stroke survivors’ rehabilitation.

MISC

 54

担当経験のある科目(授業)

 2

所属学協会

 1

共同研究・競争的資金等の研究課題

 16

教育内容・方法の工夫(授業評価等を含む)

 2
  • 件名
    藤田保健衛生大学医療科学部リハビリテーション学科 作業療法教育・管理学概論
    開始年月日
    2011
    概要
    医療保険制度における作業療法部門の管理・運営方法について講義を行う。管理については人・物・文書・リスクについてそれぞれ解説し、運営については医療保険に関わる施設基準と診療報酬制度について解説した。
  • 件名
    三重県中央医療センター 三重中央看護学校
    開始年月日
    2009
    概要
    看護学生に対し、作業療法士という職種の紹介を行った。また、医療、介護領域で必要とされる移乗動作の講義、実技講習を行った。

教育方法・教育実践に関する発表、講演等

 4
  • 件名
    三重県作業療法士会現職者共通研修 「エビデンスと作業療法実践」
    開始年月日
    2009
    概要
    三重県内の作業療法士に対して、エビデンスのある治療方法について解説し、文献の読み方、研究計画の方法、実践にあたり注意すること等について講演を行った。
  • 件名
    第44回日本理学療法士協会全国学術研修大会「メンタルプラクティスの効果を想定した筋電気治療の応用と可能性」
    終了年月日
    2009/10/02
    概要
    筋電位をトリガーとする電気刺激装置とメンタルプラクティスを併用した訓練効果について説明した。
  • 件名
    三重痙縮講演会
    終了年月日
    2013/07/11
    概要
    近年、中枢神経損傷後の痙縮に対して、ボツリヌス療法が用いられている。その痙縮を定量的に評価できる方法について説明した。
  • 件名
    Effect of Treatment and Application of Integrated Volitional control Electrical Stimulation: IVES
    終了年月日
    2014/06/19
    概要
    脳卒中患者に対する電気刺激療法の効果を説明した。また、筋電位をトリガーとする電気刺激装置の臨床応用について当院の実践報告を行った。