Early Detection of Parkinson’s Disease Using Deep NeuroEnhanceNet With Smartphone Walking Recordings

IF 4.8 2区医学 Q2 ENGINEERING, BIOMEDICAL

IEEE Transactions on Neural Systems and Rehabilitation Engineering Pub Date : 2024-09-17 DOI:10.1109/TNSRE.2024.3462392

Tongyue He;Junxin Chen;Xu Xu;Giancarlo Fortino;Wei Wang

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Abstract

With the development of digital medical technology, ubiquitous smartphones are emerging as valuable tools for the detection of complex and elusive diseases. This paper exploits smartphone walking recording for early detection of Parkinson’s disease (PD) and finds that walking recording empowered by deep learning is a valid digital biomarker for early-recognizing PD patients. Specifically, the inertial sensor data is preprocessed, including normalization, scaling, and rotation, and then the processed data is fed into the proposed deep NeuroEnhanceNet. Finally, determine the individual prediction score using the PD-prone strategy and generate the detection results. The proposed deep NeuroEnhanceNet, specifically designed for inertial sensor data, can focus on both the long-term data characteristics within a single channel and the inter-channel correlations. Our method obtains a low false negative rate of 0.053 for the early detection of PD. We further analyze and compare the effectiveness of digital biomarkers captured from the walking and resting processes for early detection of PD. All the code for this work is available at: https://github.com/heyiyia/NeuroEnhanceNet .

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利用智能手机步行记录的深度神经增强网络早期检测帕金森病

随着数字医疗技术的发展，无处不在的智能手机正成为检测复杂而难以捉摸的疾病的重要工具。本文利用智能手机的步行记录对帕金森病（PD）进行早期检测，发现深度学习增强的步行记录是早期识别帕金森病患者的有效数字生物标记。具体来说，先对惯性传感器数据进行预处理，包括归一化、缩放和旋转，然后将处理后的数据输入所提出的深度神经增强网络（NeuroEnhanceNet）。最后，使用 PD-prone 策略确定个人预测得分，并生成检测结果。所提出的深度神经增强网是专为惯性传感器数据设计的，既能关注单通道内的长期数据特征，也能关注通道间的相关性。我们的方法在早期 PD 检测中获得了 0.053 的低假阴性率。我们还进一步分析和比较了从行走和静息过程中捕获的数字生物标记物对早期检测帕金森病的有效性。这项工作的所有代码可在以下网址获取：https://github.com/heyiyia/NeuroEnhanceNet。

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 Neural Systems and Rehabilitation Engineering 医学-工程：生物医学

CiteScore

8.60

自引率

8.20%

发文量

479

审稿时长

6-12 weeks

期刊介绍： Rehabilitative and neural aspects of biomedical engineering, including functional electrical stimulation, acoustic dynamics, human performance measurement and analysis, nerve stimulation, electromyography, motor control and stimulation; and hardware and software applications for rehabilitation engineering and assistive devices.