A Wearable Isokinetic Training Robot for Enhanced Bedside Knee Rehabilitation

Yanggang Feng; Xingyu Hu; Yuebing Li; Ke Ma; Jiaxin Ren; Zhihao Zhou; Fuzhen Yuan; Yan Huang; Liu Wang; Qining Wang; Wuxiang Zhang; Xilun Ding

doi:10.1109/TRO.2025.3552332

A Wearable Isokinetic Training Robot for Enhanced Bedside Knee Rehabilitation

Yanggang Feng^*, Xingyu Hu, Yuebing Li, Ke Ma, Jiaxin Ren, Zhihao Zhou, Fuzhen Yuan, Yan Huang, Liu Wang^*, Qining Wang^*, Wuxiang Zhang^*, Xilun Ding^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Knee pain is prevalent in over 20% of the population, limiting the mobility of those affected. In turn, isokinetic dynamometers and robots have been used to facilitate rehabilitation for those still capable of ambulation. However, there are at most only a few wearable robots capable of delivering isokinetic training for bedridden patients. Here, we developed a wearable robot that provides bedside isokinetic training by utilizing a variable stiffness actuator and dynamic energy regeneration. The efficacy of this device was validated in a study involving six subjects with debilitating knee injuries. During two courses of rehabilitation over a total of three weeks, the average peak torque, average torque, and average work produced by their affected knees increased significantly by 81.0%, 101.4%, and 117.6%, respectively. Furthermore, the device's energy regeneration features were found capable of extending its operating time to 198 days under normal usage, representing a 57.8% increase over the same device without regeneration. These results suggest potential methodologies for delivering isokinetic joint rehabilitation to bedridden patients in areas with limited infrastructure.

Original language	English
Pages (from-to)	2460-2476
Number of pages	17
Journal	IEEE Transactions on Robotics
Volume	41
DOIs	https://doi.org/10.1109/TRO.2025.3552332
Publication status	Published - 2025
Externally published	Yes

Keywords

Bedside rehabilitation
energy regeneration
isokinetic training
resistance training
variable stiffness joint

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10.1109/TRO.2025.3552332

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title = "A Wearable Isokinetic Training Robot for Enhanced Bedside Knee Rehabilitation",

abstract = "Knee pain is prevalent in over 20% of the population, limiting the mobility of those affected. In turn, isokinetic dynamometers and robots have been used to facilitate rehabilitation for those still capable of ambulation. However, there are at most only a few wearable robots capable of delivering isokinetic training for bedridden patients. Here, we developed a wearable robot that provides bedside isokinetic training by utilizing a variable stiffness actuator and dynamic energy regeneration. The efficacy of this device was validated in a study involving six subjects with debilitating knee injuries. During two courses of rehabilitation over a total of three weeks, the average peak torque, average torque, and average work produced by their affected knees increased significantly by 81.0%, 101.4%, and 117.6%, respectively. Furthermore, the device's energy regeneration features were found capable of extending its operating time to 198 days under normal usage, representing a 57.8% increase over the same device without regeneration. These results suggest potential methodologies for delivering isokinetic joint rehabilitation to bedridden patients in areas with limited infrastructure.",

keywords = "Bedside rehabilitation, energy regeneration, isokinetic training, resistance training, variable stiffness joint",

author = "Yanggang Feng and Xingyu Hu and Yuebing Li and Ke Ma and Jiaxin Ren and Zhihao Zhou and Fuzhen Yuan and Yan Huang and Liu Wang and Qining Wang and Wuxiang Zhang and Xilun Ding",

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year = "2025",

doi = "10.1109/TRO.2025.3552332",

language = "English",

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AU - Feng, Yanggang

AU - Hu, Xingyu

AU - Li, Yuebing

AU - Ma, Ke

AU - Ren, Jiaxin

AU - Zhou, Zhihao

AU - Yuan, Fuzhen

AU - Huang, Yan

AU - Wang, Liu

AU - Wang, Qining

AU - Zhang, Wuxiang

AU - Ding, Xilun

PY - 2025

Y1 - 2025

N2 - Knee pain is prevalent in over 20% of the population, limiting the mobility of those affected. In turn, isokinetic dynamometers and robots have been used to facilitate rehabilitation for those still capable of ambulation. However, there are at most only a few wearable robots capable of delivering isokinetic training for bedridden patients. Here, we developed a wearable robot that provides bedside isokinetic training by utilizing a variable stiffness actuator and dynamic energy regeneration. The efficacy of this device was validated in a study involving six subjects with debilitating knee injuries. During two courses of rehabilitation over a total of three weeks, the average peak torque, average torque, and average work produced by their affected knees increased significantly by 81.0%, 101.4%, and 117.6%, respectively. Furthermore, the device's energy regeneration features were found capable of extending its operating time to 198 days under normal usage, representing a 57.8% increase over the same device without regeneration. These results suggest potential methodologies for delivering isokinetic joint rehabilitation to bedridden patients in areas with limited infrastructure.

AB - Knee pain is prevalent in over 20% of the population, limiting the mobility of those affected. In turn, isokinetic dynamometers and robots have been used to facilitate rehabilitation for those still capable of ambulation. However, there are at most only a few wearable robots capable of delivering isokinetic training for bedridden patients. Here, we developed a wearable robot that provides bedside isokinetic training by utilizing a variable stiffness actuator and dynamic energy regeneration. The efficacy of this device was validated in a study involving six subjects with debilitating knee injuries. During two courses of rehabilitation over a total of three weeks, the average peak torque, average torque, and average work produced by their affected knees increased significantly by 81.0%, 101.4%, and 117.6%, respectively. Furthermore, the device's energy regeneration features were found capable of extending its operating time to 198 days under normal usage, representing a 57.8% increase over the same device without regeneration. These results suggest potential methodologies for delivering isokinetic joint rehabilitation to bedridden patients in areas with limited infrastructure.

KW - Bedside rehabilitation

KW - energy regeneration

KW - isokinetic training

KW - resistance training

KW - variable stiffness joint

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SP - 2460

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JO - IEEE Transactions on Robotics

JF - IEEE Transactions on Robotics

ER -

A Wearable Isokinetic Training Robot for Enhanced Bedside Knee Rehabilitation

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Keywords

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