急性和慢性卒中中的皮质-肌肉连贯性

Corticomuscular coherence in acute and chronic stroke.

作者信息

von Carlowitz-Ghori Katherina, Bayraktaroglu Zubeyir, Hohlefeld Friederike U, Losch Florian, Curio Gabriel, Nikulin Vadim V

机构信息

Neurophysics Group, Department of Neurology, Charité - University Medicine Berlin, Germany; Institute of Science and Ethics, University of Bonn, Germany; Department of Software Engineering and Theoretical Computer Science, Berlin Institute of Technology, Berlin, Germany.

Neurophysics Group, Department of Neurology, Charité - University Medicine Berlin, Germany; Center for Stroke Research Berlin, Charité - University Medicine Berlin, Germany.

出版信息

Clin Neurophysiol. 2014 Jun;125(6):1182-91. doi: 10.1016/j.clinph.2013.11.006. Epub 2013 Nov 16.

DOI:10.1016/j.clinph.2013.11.006

PMID:24315544

Abstract

OBJECTIVE

Motor recovery after stroke is attributed to neuronal plasticity, however not all post-stroke neuronal changes relate to regaining fine motor control. Corticomuscular coherence (CMC) is a measure allowing to trace neuronal reorganizations which are functionally relevant for motor recovery. Contrary to previous studies which were performed only in chronic stage, we measured CMC in patients with stroke at both acute and chronic stroke stages.

METHODS

For the detection of CMC we used multichannel EEG and EMG recordings along with an optimization algorithm for the detection of corticomuscular interactions.

RESULTS

In acute stroke, the CMC amplitude was larger on the unaffected side compared to the affected side and also larger compared to the unaffected side in the chronic period. Additionally, CMC peak frequencies on both sides decreased in the acute compared to the chronic period and to control subjects. In chronic stage, there were no inter-hemispheric or group differences in CMC amplitude or frequency.

CONCLUSIONS

The changes in CMC parameters in acute stroke could result from a temporary decrease in inhibition, which normalizes in the course of recovery. As all patients showed very good motor recovery, the modulation of CMC amplitude and frequency over time might thus reflect the process of motor recovery.

SIGNIFICANCE

We demonstrate for the first time the dynamical changes of corticomuscular interaction both at acute and chronic stage of stroke.

摘要

目的

中风后的运动恢复归因于神经元可塑性，但并非所有中风后的神经元变化都与恢复精细运动控制有关。皮质肌肉连贯性（CMC）是一种能够追踪与运动恢复功能相关的神经元重组的测量方法。与以往仅在慢性期进行的研究不同，我们在中风患者的急性和慢性期均测量了CMC。

方法

为了检测CMC，我们使用了多通道脑电图和肌电图记录以及一种用于检测皮质肌肉相互作用的优化算法。

结果

在急性中风时，未受影响侧的CMC振幅比受影响侧大，且在慢性期也比未受影响侧大。此外，与慢性期及对照组相比，急性时两侧的CMC峰值频率均降低。在慢性期，CMC振幅或频率在半球间或组间无差异。

结论

急性中风时CMC参数的变化可能是由于抑制作用暂时降低，而在恢复过程中恢复正常。由于所有患者均显示出非常良好的运动恢复，因此CMC振幅和频率随时间的调制可能反映了运动恢复过程。

意义

我们首次证明了中风急性和慢性期皮质肌肉相互作用的动态变化。

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急性和慢性卒中中的皮质-肌肉连贯性

Corticomuscular coherence in acute and chronic stroke.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

SIGNIFICANCE

目的

方法

结果

结论

意义

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