TY - GEN
T1 - Effects of Sensorimotor-Integrated (SMI) Wrist/hand Rehabilitation Assisted by a Hybrid Soft Robot Poststroke
AU - Lin, Legeng
AU - Kuet, Man Ting
AU - Qing, Wanyi
AU - Zhao, Hengtian
AU - Ye, Fuqiang
AU - Huang, Yanhuan
AU - Hu, Xiaoling
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024/8/26
Y1 - 2024/8/26
N2 - Sensorimotor integration (SMI) is essential for the intentional movement of the upper limb (UL). However, this process is often disrupted poststroke, hindering movement recovery. Previously, a wrist/hand exoneuromusculoskeleton (ENMS) driven by electromyography (EMG) was developed. This work integrated focal vibratory stimulation (FVS) with neuromuscular electrical stimulation (NMES) into the ENMS to achieve electro-vibro-feedback (i.e., ENMS-EVF) for SMI rehabilitation and investigated its functional and corticomuscular effects on chronic stroke participants after UL training. Nine participants with chronic stroke were recruited to attend a 20-session UL training assisted by the ENMS-EVF. The rehabilitative outcomes were evaluated before and after the training program using the Fugl-Meyer Assessment (FMA), monofilament test, EMG activation level, and directed corticomuscular coherence (dCMC). The results showed that the SMI rehabilitation training enhanced sensorimotor functions of the UL, as indicated by significant motor function improvement in the FMA (p < 0.05), significant elevation of distal sensitivity in the monofilament test (p < 0.05), significant enhancement of the proximal and distal muscle coordination in the EMG activation level (p < 0.01), and significant augmentation of ascending sensation feedback and reduction of required descending movement commands in the dCMC results (p < 0.05). This study unveils that the SMI rehabilitation assisted by ENMS-EVF is feasible and has neuroplastic effectiveness for benefiting the UL sensorimotor functions poststroke.
AB - Sensorimotor integration (SMI) is essential for the intentional movement of the upper limb (UL). However, this process is often disrupted poststroke, hindering movement recovery. Previously, a wrist/hand exoneuromusculoskeleton (ENMS) driven by electromyography (EMG) was developed. This work integrated focal vibratory stimulation (FVS) with neuromuscular electrical stimulation (NMES) into the ENMS to achieve electro-vibro-feedback (i.e., ENMS-EVF) for SMI rehabilitation and investigated its functional and corticomuscular effects on chronic stroke participants after UL training. Nine participants with chronic stroke were recruited to attend a 20-session UL training assisted by the ENMS-EVF. The rehabilitative outcomes were evaluated before and after the training program using the Fugl-Meyer Assessment (FMA), monofilament test, EMG activation level, and directed corticomuscular coherence (dCMC). The results showed that the SMI rehabilitation training enhanced sensorimotor functions of the UL, as indicated by significant motor function improvement in the FMA (p < 0.05), significant elevation of distal sensitivity in the monofilament test (p < 0.05), significant enhancement of the proximal and distal muscle coordination in the EMG activation level (p < 0.01), and significant augmentation of ascending sensation feedback and reduction of required descending movement commands in the dCMC results (p < 0.05). This study unveils that the SMI rehabilitation assisted by ENMS-EVF is feasible and has neuroplastic effectiveness for benefiting the UL sensorimotor functions poststroke.
UR - https://www.scopus.com/pages/publications/85215084552
U2 - 10.1109/i-CREATe62067.2024.10776482
DO - 10.1109/i-CREATe62067.2024.10776482
M3 - Conference article published in proceeding or book
AN - SCOPUS:85215084552
T3 - 2024 17th International Convention on Rehabilitation Engineering and Assistive Technology, i-CREATe 2024 and World Rehabilitation Robot Convention, WRRC 2024 - Proceedings
BT - 2024 17th International Convention on Rehabilitation Engineering and Assistive Technology, i-CREATe 2024 and World Rehabilitation Robot Convention, WRRC 2024 - Proceedings
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 17th International Convention on Rehabilitation Engineering and Assistive Technology, i-CREATe 2024
Y2 - 23 August 2024 through 26 August 2024
ER -