Development of a wearable ultrasound–FES integrated rehabilitation and motor-functional reconstruction system for post-stroke patients

• Published in: Biomedical signal processing and control Vol. 100; p. 106846
• Main Authors: Cao, Yudong, Lu, Yun, Wang, Wenpan, Xu, Peng, Yang, Xiaoli, Zhang, Shiwu, Wu, Ming, Gong, Xinglong, Sun, Shuaishuai
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.02.2025
• Subjects: FES; Motor-functional reconstruction; Rehabilitation; Wearable ultrasound system; Wearable ultrasound system; Motor-functional reconstruction; Rehabilitation; FES
• ISSN: 1746-8094
• DOI: 10.1016/j.bspc.2024.106846

Post-stroke patients experience a significant decrease of self-care capabilities in their daily lives because of motor dysfunction. The combination of intention recognition and functional electrical stimulation (FES) is used frequently to assist in improving the self-care capabilities for post-stroke patients. However, the electrical noise from the environment and the weak bio-signal from post-stroke patients lead to low-accurate intention recognition for post-stroke patients. To overcome the issue, this paper introduces a wearable rehabilitation and motor-functional reconstruction system for post-stroke rehabilitation with a new intention recognition system. This system consists of an FES unit and a wearable musculoskeletal ultrasound system. The integration of the wearable ultrasound system allows for high-accuracy continuous intention recognition whilst the FES unit is in operation. This key feature significantly enhances the system’s robustness in FES control, augments the signal-to-noise ratio and offers precise assistance in the reconstruction of motor function, thereby improving the effectiveness of post-stroke rehabilitation. In this study, the feasibility and efficiency of the proposed system were investigated. In the clinical trial, eight post-stroke subjects were recruited. In the experiment of motor-functional reconstruction, the proposed system demonstrated enhancements of approximately 23 % and 76 % in wrist raising angle and velocity, respectively. These results demonstrated that the proposed wearable system is effective for active rehabilitation and potential candidate to reconstruct the motor function of post-stroke patients.