外骨骼辅助步态在慢性脑卒中中的应用：肌电和近红外光谱研究肌肉活动模式和前额叶皮层活动。

Exoskeleton-assisted gait in chronic stroke: An EMG and functional near-infrared spectroscopy study of muscle activation patterns and prefrontal cortex activity.

机构信息

Neurology Unit, Fondazione Policlinico Universitario A. Gemelli IRCCS, Largo A. Gemelli, 8, 00168 Rome, Italy.

Villa Beretta Rehabilitation Center, Valduce Hospital, Via N. Sauro 17 23845 Costa Masnaga, Lecco, Italy.

出版信息

Clin Neurophysiol. 2020 Aug;131(8):1775-1781. doi: 10.1016/j.clinph.2020.04.158. Epub 2020 May 18.

DOI:10.1016/j.clinph.2020.04.158

PMID:32506008

Abstract

OBJECTIVES

Gait impairment dramatically affects stroke patients' functional independence. The Ekso™ is a wearable powered exoskeleton able to improve over-ground gait abilities, but the relationship between the cortical gait control mechanisms and lower limbs kinematics is still unclear. Our aims are: to assess whether the Ekso™ induces an attention-demanding process with prefrontal cortex activation during a gait task; to describe the relationship between the gait-induced muscle activation pattern and the prefrontal cortex activity.

METHODS

We enrolled 22 chronic stroke patients and 15 matched controls. We registered prefrontal cortex (PFC) activity with functional Near-Infrared Spectroscopy (fNIRS) and muscle activation with surface-electromyography (sEMG) during an over-ground gait task, performed with and without the Ekso™.

RESULTS

We observed prefrontal cortex activation during normal gait and a higher activation during Ekso-assisted walking among stroke patients. Furthermore, we found that muscle hypo-activation and co-activation of non-paretic limb are associated to a high prefrontal metabolism.

CONCLUSIONS

Among stroke patients, over-ground gait is an attention-demanding task. Prefrontal activity is modulated both by Ekso-assisted tasks and muscle activation patterns of non-paretic lower limb. Further studies are needed to elucidate if other Ekso™ settings induce different cortical and peripheral effects.

SIGNIFICANCE

This is the first study exploring the relationship between central and peripheral mechanisms during an Ekso-assisted gait task.

摘要

目的

步态障碍严重影响脑卒中患者的功能独立性。Ekso™是一种可穿戴式助力外骨骼机器人，能够改善地面行走能力，但皮质步态控制机制与下肢运动学之间的关系尚不清楚。我们的目的是：评估 Ekso™ 在步态任务中是否会引起前额叶皮层激活的注意力需求过程；描述步态诱导的肌肉激活模式与前额叶皮层活动之间的关系。

方法

我们招募了 22 名慢性脑卒中患者和 15 名匹配的对照者。我们使用功能近红外光谱（fNIRS）记录前额叶皮层（PFC）活动，使用表面肌电图（sEMG）记录肌肉激活，在使用和不使用 Ekso™的情况下进行地面行走任务。

结果

我们观察到脑卒中患者在正常行走时以及在 Ekso 辅助行走时前额叶皮层激活。此外，我们发现非瘫痪侧肢体肌肉激活不足和协同激活与前额叶代谢升高有关。

结论

在脑卒中患者中，地面行走是一项需要注意力的任务。前额叶活动既受到 Ekso 辅助任务的调节，也受到非瘫痪侧下肢肌肉激活模式的调节。需要进一步的研究来阐明其他 Ekso™设置是否会引起不同的皮质和外周效应。

意义

这是第一项探索 Ekso 辅助步态任务中中枢和外周机制之间关系的研究。

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外骨骼辅助步态在慢性脑卒中中的应用：肌电和近红外光谱研究肌肉活动模式和前额叶皮层活动。

Exoskeleton-assisted gait in chronic stroke: An EMG and functional near-infrared spectroscopy study of muscle activation patterns and prefrontal cortex activity.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

SIGNIFICANCE

目的

方法

结果

结论

意义

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