Robotic assisted upper limb training post stroke : a randomized control trial using combinatory approach toward reducing workforce demands
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 ther...
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Science::Medicine Engineering::Mechanical engineering Robotic Rehabilitation Assessment 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 Robotic assisted upper limb training post stroke : a randomized control trial using combinatory approach toward reducing workforce demands |
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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); p < 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); p < 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. |
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Interdisciplinary Graduate School (IGS) |
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Interdisciplinary Graduate School (IGS) 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 |
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Article |
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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 |
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Budhota, Aamani |
| title |
Robotic assisted upper limb training post stroke : a randomized control trial using combinatory approach toward reducing workforce demands |
| title_short |
Robotic assisted upper limb training post stroke : a randomized control trial using combinatory approach toward reducing workforce demands |
| title_full |
Robotic assisted upper limb training post stroke : a randomized control trial using combinatory approach toward reducing workforce demands |
| title_fullStr |
Robotic assisted upper limb training post stroke : a randomized control trial using combinatory approach toward reducing workforce demands |
| title_full_unstemmed |
Robotic assisted upper limb training post stroke : a randomized control trial using combinatory approach toward reducing workforce demands |
| title_sort |
robotic assisted upper limb training post stroke : a randomized control trial using combinatory approach toward reducing workforce demands |
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2021 |
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https://hdl.handle.net/10356/152050 |
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1759857750020456448 |
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sg-ntu-dr.10356-1520502023-02-28T19:25:38Z Robotic assisted upper limb training post stroke : a randomized control trial using combinatory approach toward reducing workforce demands 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 (IGS) School of Mechanical and Aerospace Engineering School of Physical and Mathematical Sciences Robotics Research Centre Science::Medicine Engineering::Mechanical engineering Robotic Rehabilitation Assessment 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); p < 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); p < 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. Ministry of Health (MOH) Nanyang Technological University National Medical Research Council (NMRC) Published version This work was supported by the National Medical Research Council (NMRC, NMRCB2b0006c) Singapore and the H-Man project (NMRC/BnB/0006b/2013), Ministry of Health, Singapore; Ageing Research Institute for Society and Education (ARISE), Singapore: M4082063 and Interdisciplinary Graduate School, Nanyang Technological University, Singapore. Grant support duration: 2013–2018. 2021-11-18T01:59:06Z 2021-11-18T01:59:06Z 2021 Journal Article Budhota, A., Chua, K. S. G., Hussain, A., Kager, S., Cherpin, A., Contu, S., Vishwanath, D., Kuah, C. W. K., Ng, C. Y., Yam, L. H. L., Loh, Y. J., Rajeswaran, D. K., Xiang, L., Burdet, E. & Campolo, D. (2021). Robotic assisted upper limb training post stroke : a randomized control trial using combinatory approach toward reducing workforce demands. Frontiers in Neurology, 12, 622014-. https://dx.doi.org/10.3389/fneur.2021.622014 1664-2295 https://hdl.handle.net/10356/152050 10.3389/fneur.2021.622014 34149587 2-s2.0-85108174567 12 622014 en NMRCB2b0006c NMRC/BnB/0006b/2013 M4082063 Frontiers in Neurology © 2021 Budhota, Chua, Hussain, Kager, Cherpin, Contu, Vishwanath, Kuah, Ng, Yam, Loh, Rajeswaran, Xiang, Burdet and Campolo. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. application/pdf |