基于可穿戴传感器的步态分析，以区分早期帕金森病与特发性震颤。

Wearable sensor-based gait analysis to discriminate early Parkinson's disease from essential tremor.

机构信息

GYENNO SCIENCE CO., LTD., Shenzhen, 518000, China.

HUST-GYENNO CNS Intelligent Digital Medicine Technology Center, Wuhan, 430074, China.

出版信息

J Neurol. 2023 Apr;270(4):2283-2301. doi: 10.1007/s00415-023-11577-6. Epub 2023 Feb 1.

DOI:10.1007/s00415-023-11577-6

PMID:36725698

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10025195/

Abstract

BACKGROUND

Differentiating early-stage Parkinson's disease (PD) from essential tremor (ET) is challenging since they have some overlapping clinical features. Since early-stage PD may present with slight gait impairment and ET generally does not, gait analysis could be used to differentiate PD from ET using machine learning.

OBJECTIVE

To differentiate early-stage PD from ET via machine learning using gait and postural transition parameters calculated using the raw kinematic signal captured from inertial measurement unit (IMU) sensors.

METHODS

Gait and postural transition parameters were collected from 84 early-stage PD and 80 ET subjects during the Time Up and Go (TUG) test. We randomly split our data into training and test data. Within the training data, we separated the TUG test into four components: standing, straight walk, turning, and sitting to build weighted average ensemble classification models. The four components' weight indices were trained using logistic regression. Several ensemble models' leave-one-out cross-validation (LOOCV) performances were compared. Independent test data were used to evaluate the model with the best LOOCV performance.

RESULTS

The best weighted average ensemble classification model LOOCV results included an accuracy of 84%, Kappa of 0.68, sensitivity of 85.9%, specificity of 82.1%, and AUC of 0.912. Thirty-three gait and postural transition parameters, such as Arm-Symbolic Symmetry Index and 180° Turn-Max Angular Velocity, were included in Feature Group III. The independent test data achieved a 75.8% accuracy.

CONCLUSIONS

Our findings suggest that gait and postural transition parameters obtained from wearable sensors combined with machine learning had the potential to distinguish between early-stage PD and ET.

摘要

背景

早期帕金森病 (PD) 与特发性震颤 (ET) 之间的区分具有挑战性，因为它们具有一些重叠的临床特征。由于早期 PD 可能表现出轻微的步态障碍，而 ET 通常没有，因此可以使用步态分析通过机器学习来区分 PD 和 ET。

目的

使用从惯性测量单元 (IMU) 传感器捕获的原始运动信号计算的步态和姿势转换参数，通过机器学习来区分早期 PD 和 ET。

方法

在时间起立和行走 (TUG) 测试中，从 84 名早期 PD 和 80 名 ET 患者中收集步态和姿势转换参数。我们随机将数据分为训练数据和测试数据。在训练数据中，我们将 TUG 测试分为四个组件：站立、直走、转弯和坐下，以构建加权平均集成分类模型。使用逻辑回归训练四个组件的权重指数。比较了几个集成模型的留一法交叉验证 (LOOCV) 性能。使用具有最佳 LOOCV 性能的模型对独立测试数据进行评估。

结果

最佳加权平均集成分类模型 LOOCV 结果包括准确率为 84%、Kappa 值为 0.68、敏感度为 85.9%、特异性为 82.1%和 AUC 为 0.912。包括臂符号对称指数和 180°转弯-最大角速度在内的 33 个步态和姿势转换参数被纳入特征组 III。独立测试数据的准确率为 75.8%。

结论

我们的研究结果表明，可穿戴传感器获取的步态和姿势转换参数结合机器学习有潜力区分早期 PD 和 ET。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0ebb/10025195/a9951b7dc2e9/415_2023_11577_Fig1_HTML.jpg

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基于可穿戴传感器的步态分析，以区分早期帕金森病与特发性震颤。

Wearable sensor-based gait analysis to discriminate early Parkinson's disease from essential tremor.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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