基于机器学习和卡尔曼滤波的帕金森病静止性震颤检测
Resting Tremor Detection in Parkinson's Disease with Machine Learning and Kalman Filtering.
作者信息
Yao Lin, Brown Peter, Shoaran Mahsa
机构信息
School of Electrical and Computer Engineering, Cornell University, Ithaca, NY, USA.
Nuffield Department of Clinical Neurosciences, University of Oxford, Oxford, UK.
出版信息
IEEE Biomed Circuits Syst Conf. 2019 Jun 25;2018. doi: 10.1109/BIOCAS.2018.8584721. Epub 2018 Dec 24.
Abstract
Adaptive deep brain stimulation (aDBS) is an emerging method to alleviate the side effects and improve the efficacy of conventional open-loop stimulation for movement disorders. However, current adaptive DBS techniques are primarily based on single-feature thresholding, precluding an optimized delivery of stimulation for precise control of motor symptoms. Here, we propose to use a machine learning approach for resting-state tremor detection from local field potentials (LFPs) recorded from subthalamic nucleus (STN) in 12 Parkinson's patients. We compare the performance of state-of-the-art classifiers and LFP-based biomarkers for tremor detection, showing that the high-frequency oscillations and Hjorth parameters achieve a high discriminative performance. In addition, using Kalman filtering in the feature space, we show that the tremor detection performance significantly improves (F=32.16, p<0.0001). The proposed method holds great promise for efficient on-demand delivery of stimulation in Parkinson's disease.
摘要
自适应深部脑刺激(aDBS)是一种新兴的方法,用于减轻传统开环刺激治疗运动障碍的副作用并提高其疗效。然而,当前的自适应DBS技术主要基于单特征阈值化,无法实现针对运动症状精确控制的优化刺激传递。在此,我们提出使用机器学习方法从12名帕金森病患者丘脑底核(STN)记录的局部场电位(LFP)中检测静息性震颤。我们比较了用于震颤检测的先进分类器和基于LFP的生物标志物的性能,结果表明高频振荡和 Hjorth参数具有较高的判别性能。此外,在特征空间中使用卡尔曼滤波,我们发现震颤检测性能显著提高(F = 32.16,p < 0.0001)。所提出的方法在帕金森病中按需高效传递刺激方面具有巨大潜力。
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