In House Development of Contact Microphone Based Wearable Device for Knee Joint Health Assessment Using Vibroarthrography

Journal of Intelligent Systems with Applications Pub Date : 2022-05-02 DOI:10.54856/jiswa.202205209

D. Verma, Mirsaidin Hussain, P. Kumari, S. Kanagaraj

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Abstract

Nowadays, bone joint disorders are very common in humans. The knee joint abnormality often comes with the increasing age of people. Cartilage degradation and rubbing action of the femoral condyle to the tibial condyle generates the knee joint sounds and this stage turns into osteoarthritis. There are pre-existing diagnosis methods available like X-ray, MRI, etc. but they have their limitations. Some treatment methods are invasive and some are semi-invasive. Early diagnosis of osteoarthritis is possible using vibroarthrography which is a purely non-invasive method and sensor signal output can be featured as an informative tool for next-level treatment. In this study, a contact microphone-based wearable device has been fabricated for knee joint health monitoring and joint angle-based sensor voltage output is characterized. The result of fast Fourier transformation from healthy subjects is observed to be from 0 Hz-100 Hz and short-term Fourier transformation is performed for the obtained decibel value from 40-45 dB. The result of a pathological knee is studied in spectral density analysis and observed a continuous emission of joint sound and signal power distribution is observed over the frequency range of 0 Hz - 500 Hz.

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基于接触式麦克风的关节振动成像可穿戴设备的研制

如今，骨关节疾病在人类中很常见。膝关节异常常随着年龄的增长而出现。软骨退化和股骨髁对胫骨髁的摩擦作用产生膝关节声音，这一阶段转变为骨关节炎。现有的诊断方法，如x射线、核磁共振等，都有其局限性。有些治疗方法是侵入性的，有些是半侵入性的。骨关节炎的早期诊断可以使用关节振动成像，这是一种纯粹的非侵入性方法，传感器信号输出可以作为下一级治疗的信息工具。本研究制作了一种基于接触式麦克风的可穿戴式膝关节健康监测装置，并对基于关节角度的传感器电压输出进行了表征。健康受试者的快速傅里叶变换结果在0 Hz-100 Hz之间，对得到的分贝值在40-45 dB之间进行短期傅里叶变换。在频谱密度分析中研究了病理性膝关节的结果，观察到关节声音的连续发射，并在0 Hz - 500 Hz的频率范围内观察到信号功率分布。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Intelligent Systems with Applications

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