Budhota Aamani, Chua Karen S G, Hussain Asif, Kager Simone, Cherpin Adèle, Contu Sara, Vishwanath Deshmukh, Kuah Christopher W K, Ng Chwee Yin, Yam Lester H L, Loh Yong Joo, Rajeswaran Deshan Kumar, Xiang Liming, Burdet Etienne, Campolo Domenico
Interdisciplinary Graduate School, Nanyang Technological University, Singapore, Singapore.
Robotic Research Center, Mechanical and Aerospace Engineering, Nanyang Technological University, Singapore, Singapore.
Front Neurol. 2021 Jun 2;12:622014. doi: 10.3389/fneur.2021.622014. eCollection 2021.
Post stroke upper limb rehabilitation is a challenging problem with poor outcomes as 40% of survivors have functionally useless upper limbs. Robot-aided therapy (RAT) is a potential method to alleviate the effort of intensive, task-specific, repetitive upper limb exercises for both patients and therapists. The present study aims to investigate how a time matched combinatory training scheme that incorporates conventional and RAT, using H-Man, compares with conventional training toward reducing workforce demands. In a randomized control trial (NCT02188628, www.clinicaltrials.gov), 44 subacute to chronic stroke survivors with first-ever clinical stroke and predominant arm motor function deficits were recruited and randomized into two groups of 22 subjects: Robotic Therapy (RT) and Conventional Therapy (CT). Both groups received 18 sessions of 90 min; three sessions per week over 6 weeks. In each session, participants of the CT group received 90 min of 1:1 therapist-supervised conventional therapy while participants of the RT group underwent combinatory training which consisted of 60 min of minimally-supervised H-Man therapy followed by 30 min of conventional therapy. The clinical outcomes [Fugl-Meyer (FMA), Action Research Arm Test and, Grip Strength] and the quantitative measures (smoothness, time efficiency, and task error, derived from two robotic assessment tasks) were independently evaluated prior to therapy intervention (week 0), at mid-training (week 3), at the end of training (week 6), and post therapy (week 12 and 24). Significant differences within group were observed at the end of training for all clinical scales compared with baseline [mean and standard deviation of FMA score changes between baseline and week 6; RT: Δ4.41 (3.46) and CT: Δ3.0 (4.0); < 0.01]. FMA gains were retained 18 weeks post-training [week 24; RT: Δ5.38 (4.67) and week 24 CT: Δ4.50 (5.35); < 0.01]. The RT group clinical scores improved similarly when compared to CT group with no significant inter-group at all time points although the conventional therapy time was reduced to one third in RT group. There were no training-related adverse side effects. In conclusion, time matched combinatory training incorporating H-Man RAT produced similar outcomes compared to conventional therapy alone. Hence, this study supports a combinatory approach to improve motor function in post-stroke arm paresis. www.ClinicalTrials.gov, identifier: NCT02188628.
中风后上肢康复是一个具有挑战性的问题,治疗效果不佳,因为40%的幸存者上肢功能丧失。机器人辅助治疗(RAT)是一种潜在的方法,可以减轻患者和治疗师进行密集、特定任务、重复性上肢训练的负担。本研究旨在调查一种时间匹配的组合训练方案,该方案结合了传统训练和使用H-Man的机器人辅助治疗,与传统训练相比,在减少劳动力需求方面的效果如何。在一项随机对照试验(NCT02188628,www.clinicaltrials.gov)中,招募了44名首次发生临床中风且主要存在手臂运动功能缺陷的亚急性至慢性中风幸存者,并将他们随机分为两组,每组22名受试者:机器人治疗(RT)组和传统治疗(CT)组。两组均接受18节90分钟的训练;每周三节,共六周。在每节训练中,CT组的参与者接受90分钟的一对一治疗师监督的传统治疗,而RT组的参与者接受组合训练,包括60分钟的最少监督的H-Man治疗,然后是30分钟的传统治疗。在治疗干预前(第0周)、训练中期(第3周)、训练结束时(第6周)以及治疗后(第12周和第24周),独立评估临床结果[Fugl-Meyer(FMA)、动作研究手臂测试和握力]以及定量指标(从两项机器人评估任务中得出的平滑度、时间效率和任务误差)。与基线相比,在训练结束时,所有临床量表在组内均观察到显著差异[基线至第6周FMA评分变化的平均值和标准差;RT组:Δ4.41(3.46),CT组:Δ3.0(4.0);<0.01]。训练后18周(第24周)FMA得分的提高得以保持[RT组:Δ5.38(4.67),第24周CT组:Δ4.50(5.35);<0.01]。尽管RT组的传统治疗时间减少到了三分之一,但与CT组相比,RT组的临床评分在所有时间点均有类似改善,且组间无显著差异。没有与训练相关的不良副作用。总之,结合H-Man机器人辅助治疗的时间匹配组合训练与单独的传统治疗产生了相似的结果。因此,本研究支持采用组合方法来改善中风后手臂麻痹的运动功能。www.ClinicalTrials.gov,标识符:NCT0
