Exploration of the neural correlates of cerebral palsy for sensorimotor BCI control.

Frontiers in neuroengineering Pub Date : 2014-07-09 eCollection Date: 2014-01-01 DOI:10.3389/fneng.2014.00020

Ian Daly, Josef Faller, Reinhold Scherer, Catherine M Sweeney-Reed, Slawomir J Nasuto, Martin Billinger, Gernot R Müller-Putz

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引用次数: 26

Abstract

Cerebral palsy (CP) includes a broad range of disorders, which can result in impairment of posture and movement control. Brain-computer interfaces (BCIs) have been proposed as assistive devices for individuals with CP. Better understanding of the neural processing underlying motor control in affected individuals could lead to more targeted BCI rehabilitation and treatment options. We have explored well-known neural correlates of movement, including event-related desynchronization (ERD), phase synchrony, and a recently-introduced measure of phase dynamics, in participants with CP and healthy control participants. Although present, significantly less ERD and phase locking were found in the group with CP. Additionally, inter-group differences in phase dynamics were also significant. Taken together these findings suggest that users with CP exhibit lower levels of motor cortex activation during motor imagery, as reflected in lower levels of ongoing mu suppression and less functional connectivity. These differences indicate that development of BCIs for individuals with CP may pose additional challenges beyond those faced in providing BCIs to healthy individuals.

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脑瘫与感觉运动脑机接口控制的神经关联探讨。

脑瘫(CP)包括一系列疾病，可导致姿势和运动控制受损。脑机接口(BCI)已被建议作为脑瘫患者的辅助设备。更好地了解受影响个体运动控制的神经处理过程可以带来更有针对性的脑机接口康复和治疗方案。我们在CP患者和健康对照组中探索了众所周知的运动神经相关因素，包括事件相关的去同步(ERD)、相同步和最近引入的相动力学测量。虽然存在，但CP组的ERD和相锁明显减少。此外，组间相动力学差异也很显著。综上所述，这些发现表明，CP使用者在运动想象过程中表现出较低水平的运动皮层激活，这反映在较低水平的持续mu抑制和较低的功能连接上。这些差异表明，为CP患者开发脑机接口可能会带来比为健康个体提供脑机接口更多的挑战。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in neuroengineering

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