机器人介导的运动适应过程中手臂肌肉之间的高频肌间相干性

High-Frequency Intermuscular Coherence between Arm Muscles during Robot-Mediated Motor Adaptation.

作者信息

Pizzamiglio Sara, De Lillo Martina, Naeem Usman, Abdalla Hassan, Turner Duncan L

机构信息

Neuroplasticity and Neurorehabilitation Doctoral Training Programme, Neurorehabilitation Unit, School of Health, Sport and Bioscience, University of East LondonLondon, UK; Department of Computer Science, School of Architecture, Computing and Engineering, University of East LondonLondon, UK.

Neuroplasticity and Neurorehabilitation Doctoral Training Programme, Neurorehabilitation Unit, School of Health, Sport and Bioscience, University of East London London, UK.

出版信息

Front Physiol. 2017 Jan 9;7:668. doi: 10.3389/fphys.2016.00668. eCollection 2016.

DOI:10.3389/fphys.2016.00668

PMID:28119620

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5220015/

Abstract

Adaptation of arm reaching in a novel force field involves co-contraction of upper limb muscles, but it is not known how the co-ordination of multiple muscle activation is orchestrated. We have used intermuscular coherence (IMC) to test whether a coherent intermuscular coupling between muscle pairs is responsible for novel patterns of activation during adaptation of reaching in a force field. Subjects ( = 16) performed reaching trials during a null force field, then during a velocity-dependent force field and then again during a null force field. Reaching trajectory error increased during early adaptation to the force-field and subsequently decreased during later adaptation. Co-contraction in the majority of all possible muscle pairs also increased during early adaptation and decreased during later adaptation. In contrast, IMC increased during later adaptation and only in a subset of muscle pairs. IMC consistently occurred in frequencies between ~40-100 Hz and during the period of arm movement, suggesting that a coherent intermuscular coupling between those muscles contributing to adaptation enable a reduction in wasteful co-contraction and energetic cost during reaching.

摘要

在新的力场中手臂伸展的适应性涉及上肢肌肉的共同收缩，但尚不清楚多个肌肉激活的协调是如何编排的。我们使用肌间相干性（IMC）来测试肌肉对之间的相干肌间耦合是否负责在力场中伸展适应性过程中的新激活模式。受试者（n = 16）在零力场中进行伸展试验，然后在速度依赖力场中进行，然后再次在零力场中进行。在早期适应力场期间，伸展轨迹误差增加，随后在后期适应期间减小。在所有可能的肌肉对中的大多数中，共同收缩在早期适应期间也增加，在后期适应期间减少。相比之下，IMC在后期适应期间增加，并且仅在一部分肌肉对中增加。IMC始终出现在约40 - 100 Hz的频率之间以及手臂运动期间，这表明那些有助于适应的肌肉之间的相干肌间耦合能够减少伸展过程中浪费的共同收缩和能量消耗。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/910d/5220015/f64edb41e8bf/fphys-07-00668-g0001.jpg

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机器人介导的运动适应过程中手臂肌肉之间的高频肌间相干性

High-Frequency Intermuscular Coherence between Arm Muscles during Robot-Mediated Motor Adaptation.

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