Frontiers in Neurorobotics (Mar 2022)

A Portable Wearable Inertial System for Rehabilitation Monitoring and Evaluation of Patients With Total Knee Replacement

  • Nan Lou,
  • Yanan Diao,
  • Yanan Diao,
  • Yanan Diao,
  • Qiangqiang Chen,
  • Qiangqiang Chen,
  • Yunkun Ning,
  • Yunkun Ning,
  • Gaoqiang Li,
  • Shengyun Liang,
  • Shengyun Liang,
  • Shengyun Liang,
  • Guanglin Li,
  • Guanglin Li,
  • Guoru Zhao,
  • Guoru Zhao

DOI
https://doi.org/10.3389/fnbot.2022.836184
Journal volume & issue
Vol. 16

Abstract

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Knee osteoarthritis is a degenerative disease, which greatly affects the daily life of patients. Total knee replacement (TKR) is the most common method to treat knee joint disorders and relieve knee pain. Postoperative rehabilitation exercise is the key to restore knee joint function. However, there is a lack of a portable equipment for monitoring knee joint activity and a systematic assessment scheme. We have developed a portable rehabilitation monitoring and evaluation system based on the wearable inertial unit to estimate the knee range of motion (ROM). Ten TKR patients and ten healthy adults are recruited for the experiment, then the system performance is verified by professional rehabilitation equipment Baltimore Therapeutic Equipment (BTE) Primus RS. The average absolute difference between the knee ROM and BTE Primus RS of healthy subjects and patients ranges from 0.16° to 4.94°. In addition, the knee ROM of flexion-extension and gait activity between healthy subjects and patients showed significant differences. The proposed system is reliable and effective in monitoring and evaluating the rehabilitation progress of patients. The system proposed in this work is expected to be used for long-term effective supervision of patients in clinical and dwelling environments.

Keywords