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用于生物物理监测和深度学习辅助膝关节康复的具有超宽线性范围的可拉伸抗冲击离子电子压力传感器。

Stretchable and anti-impact iontronic pressure sensor with an ultrabroad linear range for biophysical monitoring and deep learning-aided knee rehabilitation.

作者信息

Xu Hongcheng, Gao Libo, Zhao Haitao, Huang Hanlin, Wang Yuejiao, Chen Gang, Qin Yuxin, Zhao Ningjuan, Xu Dandan, Duan Ling, Li Xuan, Li Siyu, Luo Zhongbao, Wang Weidong, Lu Yang

机构信息

School of Mechano-Electronic Engineering, Xidian University, Xi'an, 710071 China.

CityU-Xidian Joint Laboratory of Micro/Nano-Manufacturing, Shenzhen, 518057 China.

出版信息

Microsyst Nanoeng. 2021 Nov 17;7:92. doi: 10.1038/s41378-021-00318-2. eCollection 2021.

DOI:10.1038/s41378-021-00318-2
PMID:34804586
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8599697/
Abstract

Monitoring biophysical signals such as body or organ movements and other physical phenomena is necessary for patient rehabilitation. However, stretchable flexible pressure sensors with high sensitivity and a broad range that can meet these requirements are still lacking. Herein, we successfully monitored various vital biophysical features and implemented in-sensor dynamic deep learning for knee rehabilitation using an ultrabroad linear range and high-sensitivity stretchable iontronic pressure sensor (SIPS). We optimized the topological structure and material composition of the electrode to build a fully stretching on-skin sensor. The high sensitivity (12.43 kPa), ultrabroad linear sensing range (1 MPa), high pressure resolution (6.4 Pa), long-term durability (no decay after 12000 cycles), and excellent stretchability (up to 20%) allow the sensor to maintain operating stability, even in emergency cases with a high sudden impact force (near 1 MPa) applied to the sensor. As a practical demonstration, the SIPS can positively track biophysical signals such as pulse waves, muscle movements, and plantar pressure. Importantly, with the help of a neuro-inspired fully convolutional network algorithm, the SIPS can accurately predict knee joint postures for better rehabilitation after orthopedic surgery. Our SIPS has potential as a promising candidate for wearable electronics and artificial intelligent medical engineering owing to its unique high signal-to-noise ratio and ultrabroad linear range. An ultrabroad-linear range (1 MPa) iontronic pressure sensor with superior sensitivity (12.43 kPa) and stretchability (up to 20%) was proposed for biophysical monitoring and deep learning-based knee-rehabilitation training.

摘要

监测身体或器官运动等生物物理信号以及其他物理现象对于患者康复至关重要。然而,仍缺乏能够满足这些要求的高灵敏度、宽量程的可拉伸柔性压力传感器。在此,我们成功地使用超宽线性范围和高灵敏度的可拉伸离子电子压力传感器(SIPS)监测了各种重要的生物物理特征,并在传感器中实现了用于膝关节康复的动态深度学习。我们优化了电极的拓扑结构和材料成分,以构建一种完全可拉伸的贴肤传感器。该传感器具有高灵敏度(12.43 kPa)、超宽线性传感范围(1 MPa)、高压力分辨率(6.4 Pa)、长期耐用性(12000次循环后无衰减)以及出色的拉伸性(高达20%),即使在传感器受到高达1 MPa的高突然冲击力的紧急情况下也能保持运行稳定性。作为实际演示,SIPS能够积极跟踪脉搏波、肌肉运动和足底压力等生物物理信号。重要的是,借助受神经启发的全卷积网络算法,SIPS能够准确预测膝关节姿势,以实现骨科手术后更好的康复。由于其独特的高信噪比和超宽线性范围,我们的SIPS有望成为可穿戴电子设备和人工智能医疗工程领域颇具潜力的候选产品。本文提出了一种具有卓越灵敏度(12.43 kPa)和拉伸性(高达20%)的超宽线性范围(1 MPa)离子电子压力传感器,用于生物物理监测和基于深度学习的膝关节康复训练。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2d97/8599697/dc2bf0dffaf7/41378_2021_318_Fig6_HTML.jpg
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