摩擦电效应
康复
材料科学
握力
肌肉萎缩
计算机科学
生物医学工程
物理医学与康复
萎缩
医学
物理疗法
复合材料
病理
作者
Yijun Hao,Keke Hong,Jiayi Yang,Tianyu Jia,Xiangqian Lu,Zhao Guo,Zhipeng Wang,Zhipeng Wang,Yong Qin,Wei Su,Dong Yang,Hongke Zhang,Chuguo Zhang,Zhong Lin Wang,Zhong Lin Wang,Xiuhan Li
标识
DOI:10.1002/adma.202505613
摘要
Ulnar nerve injuries often lead to muscle atrophy and reduced hand function, necessitating precise monitoring and effective rehabilitation strategies. Current grip strength measurement tools rely on rigid mechanical equipment, which is inconvenient and requires frequent calibration. To address this, a muscle atrophy evaluation and rehabilitation system (MUERS) is presented, featuring a highly sensitive rare earth oxide-enhanced triboelectric sensor (RETS). Utilizing the unique electrochemical properties of rare earth oxides, RETS demonstrates a linear voltage-force response in the range of 8-80 kPa, with a maximum linear error of 1.5%. Integrated with a multi-channel STM32 signal collector, RETS enables real-time grip strength monitoring across all five fingers. Combining sensor output with an SVM algorithm, the system achieves 98.61% accuracy in identifying finger grip strength injuries and classifies damage into three levels with an average accuracy of 96.67%. MUERS evaluates rehabilitation progress by scoring grip strength and providing feedback to clinicians. Over a four-week cycle, it consistently captures improvements in muscle recovery, aiding individualized rehabilitation plans. This system offers fine-grained assessment capabilities for diagnosing and monitoring nerve injury-induced muscle atrophy, paving the way for advanced biomedical sensing and personalized rehabilitation.
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