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帕金森病患者丘脑底核活动动态与肢体运动预测。

Subthalamic nucleus activity dynamics and limb movement prediction in Parkinson's disease.

机构信息

MRC Brain Network Dynamics Unit, University of Oxford, UK.

Nuffield Department of Clinical Neurosciences, University of Oxford, UK.

出版信息

Brain. 2020 Feb 1;143(2):582-596. doi: 10.1093/brain/awz417.

DOI:10.1093/brain/awz417
PMID:32040563
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7009471/
Abstract

Whilst exaggerated bursts of beta frequency band oscillatory synchronization in the subthalamic nucleus have been associated with motor impairment in Parkinson's disease, a plausible mechanism linking the two phenomena has been lacking. Here we test the hypothesis that increased synchronization denoted by beta bursting might compromise information coding capacity in basal ganglia networks. To this end we recorded local field potential activity in the subthalamic nucleus of 18 patients with Parkinson's disease as they executed cued upper and lower limb movements. We used the accuracy of local field potential-based classification of the limb to be moved on each trial as an index of the information held by the system with respect to intended action. Machine learning using the naïve Bayes conditional probability model was used for classification. Local field potential dynamics allowed accurate prediction of intended movements well ahead of their execution, with an area under the receiver operator characteristic curve of 0.80 ± 0.04 before imperative cues when the demanded action was known ahead of time. The presence of bursts of local field potential activity in the alpha, and even more so, in the beta frequency band significantly compromised the prediction of the limb to be moved. We conclude that low frequency bursts, particularly those in the beta band, restrict the capacity of the basal ganglia system to encode physiologically relevant information about intended actions. The current findings are also important as they suggest that local subthalamic activity may potentially be decoded to enable effector selection, in addition to force control in restorative brain-machine interface applications.

摘要

虽然丘脑底核中β频段的过度爆发性振荡同步与帕金森病的运动障碍有关,但连接这两种现象的合理机制一直缺乏。在这里,我们测试了这样一个假设,即β爆发所表示的同步增加可能会影响基底神经节网络的信息编码能力。为此,我们在 18 名帕金森病患者执行提示上肢和下肢运动时记录了他们的丘脑底核局部场电位活动。我们使用基于局部场电位的每次试验中移动肢体的分类准确性作为系统对预期动作所包含信息的指标。使用朴素贝叶斯条件概率模型进行分类的机器学习。局部场电位动力学可以在运动执行之前准确地预测预期的运动,在命令提示之前,当提前知道所需的动作时,接收器操作特征曲线下的面积为 0.80±0.04。局部场电位活动中α波段甚至β波段的爆发显著降低了对要移动肢体的预测能力。我们得出的结论是,低频爆发,特别是β频段的爆发,限制了基底神经节系统编码关于预期动作的生理相关信息的能力。目前的研究结果也很重要,因为它们表明,除了恢复性脑机接口应用中的力控制之外,局部丘脑底核活动可能可以被解码以实现效应器选择。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/da1b/7009471/c6e9fcb2323d/awz417f8.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/da1b/7009471/bf84ee18915d/awz417f2.jpg
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Clin Neurophysiol. 2019 May;130(5):727-738. doi: 10.1016/j.clinph.2019.02.011. Epub 2019 Mar 11.
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Beta bursts during continuous movements accompany the velocity decrement in Parkinson's disease patients.
帕金森病患者与健康成年人的双手协调性和神经肌肉同步性
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