Detection of freezing of gait episodes in patients with parkinson's disease using electroencephalography and motion sensors: A protocol and its feasibility results

IF 0.4 4区医学 Q4 NEUROSCIENCES

Neurological Sciences and Neurophysiology Pub Date : 2022-10-01 DOI:10.4103/nsn.nsn_104_22

U. Eliiyi, T. Kahraman, A. Genç, P. Keskinoğlu, Ahmet Özkurt, B. Dönmez

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引用次数: 0

Abstract

Objective: Freezing of gait (FOG) is an important concern for both patients with Parkinson's disease (pwPD) and physicians. In this study, we aimed to introduce a study protocol and our initial data. The data were subsequently used in machine learning models to detect FOG episodes using brain activity signals and motion data in the laboratory setting using complex FOG-evoking activities in a sample of pwPD with and without FOG compared with age-matched healthy controls. Subjects and Methods: An experimental task to evoke a FOG episode was designed. This experimental task was tested on two pwPD with FOG in “on” and “off” periods and one healthy control. Brain activity signals and motion data were collected simultaneously using electroencephalography (EEG) and inertial measurement units (IMUs). Results: The whole procedure took about 2 h, during which around 30 min were spent on walking tasks, involving 35 complete tours in the designed 8-m hallway by pwPD. Both EEG and IMUs sensor data could be collected, accompanied by FOG episode data marked by the neurologist. The video recordings of the patient's walking tasks were checked and reanalyzed by the neurologist sometime after the data experiment for marking the beginnings and ends of the observed FOG episodes more precisely. In the end, 24 stops were marked as FOG, which corresponded to 11% of the sensor data collected during the walking tasks. Conclusion: The designed FOG-evoking task protocol could be performed without any adverse effects, and it created enough FOG episodes for analysis. EEG and motion sensor data could be successfully collected without any significant artifacts.

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利用脑电图和运动传感器检测帕金森病患者步态冻结：一种方案及其可行性结果

目的：步态冻结（FOG）是帕金森病（pwPD）患者和医生关注的一个重要问题。在本研究中，我们旨在介绍一个研究方案和我们的初步数据。随后，在机器学习模型中使用这些数据，在实验室环境中使用大脑活动信号和运动数据来检测FOG发作，与年龄匹配的健康对照组相比，在有和没有FOG的pwPD样本中使用复杂的FOG唤起活动。受试者和方法：设计了一项唤起FOG发作的实验任务。这项实验任务在两个有FOG的pwPD上进行了测试，分别处于“开启”和“关闭”阶段，以及一个健康对照组。使用脑电图（EEG）和惯性测量单元（IMU）同时收集大脑活动信号和运动数据。结果：整个过程耗时约2小时，其中约30分钟用于步行任务，涉及pwPD在设计的8米走廊中进行的35次完整参观。脑电图和IMU传感器数据都可以被收集，同时伴有神经学家标记的FOG发作数据。神经科医生在数据实验后的某个时候检查并重新分析了患者行走任务的视频记录，以更准确地标记观察到的FOG发作的开始和结束。最终，24个站点被标记为FOG，相当于步行任务期间收集的传感器数据的11%。结论：所设计的FOG唤起任务方案可以在没有任何不良反应的情况下执行，并且它产生了足够的FOG发作供分析。可以在没有任何显著伪影的情况下成功地收集EEG和运动传感器数据。

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

Neurological Sciences and Neurophysiology Neuroscience-Neurology

CiteScore

0.70

自引率

25.00%

发文量

审稿时长

26 weeks

期刊介绍： Neurological Sciences and Neurophysiology is the double blind peer-reviewed, open access, international publication organ of Turkish Society of Clinical Neurophysiology EEG-EMG. The journal is a quarterly publication, published in March, June, September and December and the publication language of the journal is English.