Active Vibrational Achilles Tendon Sensing for Identifying and Characterizing Inflammatory Symptomatology in Enthesitis Related Arthritis.

IF 4.4 2区医学 Q2 ENGINEERING, BIOMEDICAL

IEEE Transactions on Biomedical Engineering Pub Date : 2024-09-24 DOI:10.1109/TBME.2024.3466831

Quentin Goossens, Miguel Locsin, Lori A Ponder, Michael Chan, Goktug C Ozmen, Sampath Prahalad, Omer T Inan

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Abstract

Objective: This study explores the potential of active vibrational sensing as a digital biomarker to identify and characterize inflammatory symptomatology in the Achilles tendon and its entheses in juvenile idiopathic arthritis (JIA), particularly enthesitis related arthritis (ERA), a subcategory of JIA.

Methods: Active vibrational data were non-invasively recorded using a miniature coin vibration motor and accelerometer. Twenty active vibration recordings from children diagnosed with JIA were used in the analysis. Machine learning algorithms were leveraged to classify the vibrational signatures according to the corresponding subject groups. Subjects were classified into symptomatic ERA (sxERA), asymptomatic ERA (asxERA), and asymptomatic JIA (non-ERA) (asxNERA) groups based on clinical evaluations and ILAR criteria.

Results: Distinct vibrational signatures were observed during tiptoe standing, providing differentiation between subject groups. Feature-based and waveform-based approaches effectively classified the sxERA group against asxNERA and asxERA groups using leave-one-subject-out (LOSO-CV) and 3-fold cross-validation. For the 3-fold crossvalidation, the mean accuracies for distinguishing sxERA from asxNERA were 81% (feature-based) and 81% (waveform-based), while the accuracies for discriminating sxERA against asxERA were 73% (feature-based) and 74% (waveform-based).

Conclusion: Active vibrational sensing demonstrates promise as a tool for identifying Achilles tendon inflammation in JIA, potentially aiding in early diagnosis and disease monitoring.

Significance: Developing active vibrational sensing as a diagnostic modality could address challenges in diagnosing ERA and facilitate timely intervention and personalized care for JIA, potentially enhancing long-term patient outcomes.

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主动振动跟腱传感用于识别和描述与跟腱炎相关的关节炎的炎症症状。

研究目的本研究探讨了主动振动传感作为一种数字生物标记物的潜力，以识别和描述幼年特发性关节炎（JIA），尤其是跟腱炎相关关节炎（ERA）（JIA的一个亚类）的跟腱及其粘连处的炎症症状：方法：使用微型硬币振动电机和加速度计无创记录主动振动数据。分析中使用了确诊为 JIA 儿童的 20 个主动振动记录。利用机器学习算法根据相应的受试者组别对振动特征进行分类。根据临床评估和ILAR标准，受试者被分为有症状ERA（sxERA）、无症状ERA（asxERA）和无症状JIA（非ERA）（asxNERA）组：踮脚站立时可观察到不同的振动特征，从而区分不同的受试者群体。使用 "忽略一个受试者"（LOSO-CV）和 3 倍交叉验证，基于特征和波形的方法有效地将 sxERA 组与 asxNERA 组和 asxERA 组进行了分类。在 3 倍交叉验证中，区分 sxERA 和 asxNERA 的平均准确率分别为 81%（基于特征）和 81%（基于波形），而区分 sxERA 和 asxERA 的准确率分别为 73%（基于特征）和 74%（基于波形）：结论：主动振动传感有望成为一种识别 JIA 跟腱炎症的工具，为早期诊断和疾病监测提供潜在帮助：将主动振动传感开发为一种诊断方式，可以解决ERA诊断中的难题，促进对JIA的及时干预和个性化治疗，从而改善患者的长期预后。

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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来源期刊

IEEE Transactions on Biomedical Engineering 工程技术-工程：生物医学

CiteScore

9.40

自引率

4.30%

发文量

880

审稿时长

2.5 months

期刊介绍： IEEE Transactions on Biomedical Engineering contains basic and applied papers dealing with biomedical engineering. Papers range from engineering development in methods and techniques with biomedical applications to experimental and clinical investigations with engineering contributions.