脑损伤时间与早期偏瘫运动障碍的关系。第二部分：上肢关节异常的扭矩协同作用。

Motor impairments related to brain injury timing in early hemiparesis. Part II: abnormal upper extremity joint torque synergies.

机构信息

1Physical Therapy and Human Movement Sciences, Northwestern University, Chicago, IL, USA.

出版信息

Neurorehabil Neural Repair. 2014 Jan;28(1):24-35. doi: 10.1177/1545968313497829. Epub 2013 Aug 1.

DOI:10.1177/1545968313497829

PMID:23911972

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3974905/

Abstract

BACKGROUND

Extensive neuromotor development occurs early in human life, and the timing of brain injury may affect the resulting motor impairment. In Part I of this series, it was demonstrated that the distribution of weakness in the upper extremity depended on the timing of brain injury in individuals with childhood-onset hemiparesis.

OBJECTIVE

The goal of this study was to characterize how timing of brain injury affects joint torque synergies, or losses of independent joint control.

METHOD

Twenty-four individuals with hemiparesis were divided into 3 groups based on the timing of their injury: before birth (PRE-natal, n = 8), around the time of birth (PERI-natal, n = 8), and after 6 months of age (POST-natal, n = 8). Individuals with hemiparesis and 8 typically developing peers participated in maximal isometric shoulder, elbow, wrist, and finger torque generation tasks while their efforts were recorded by a multiple degree-of-freedom load cell. Motor output in 4 joints of the upper extremity was concurrently measured during 8 primary torque generation tasks to quantify joint torque synergies.

RESULTS

There were a number of significant coupling patterns identified in individuals with hemiparesis that differed from the typically developing group. POST-natal differences were most noted in the coupling of shoulder abductors with elbow, wrist, and finger flexors, while the PRE-natal group demonstrated significant distal joint coupling with elbow flexion.

CONCLUSION

The torque synergies measured provide indirect evidence for the use of bulbospinal pathways in the POST-natal group, while those with earlier injury may use relatively preserved ipsilateral corticospinal motor pathways.

摘要

背景

人类生命早期会经历广泛的神经运动发育，而脑损伤的时间可能会影响导致的运动障碍。在本系列的第一部分中，已经证明在儿童期起病偏瘫患者中，上肢无力的分布取决于脑损伤的时间。

目的

本研究的目的是描述脑损伤时间如何影响关节扭矩协同作用，即独立关节控制的丧失。

方法

根据损伤时间，将 24 名偏瘫患者分为 3 组：产前（PRE-natal，n=8）、围生期（PERI-natal，n=8）和 6 个月后（POST-natal，n=8）。偏瘫患者和 8 名正常发育的同龄人参与了最大等长肩部、肘部、腕部和手指扭矩产生任务，同时他们的用力由多自由度负载单元记录。在 8 项主要扭矩产生任务中同时测量上肢 4 个关节的运动输出，以量化关节扭矩协同作用。

结果

在偏瘫患者中发现了许多与正常发育组不同的显著耦合模式。在 POST-natal 组中，肩外展肌与肘部、腕部和手指屈肌的耦合差异最为明显，而 PRE-natal 组则表现出与肘部屈曲的显著远端关节耦合。

结论

测量的扭矩协同作用提供了间接证据，表明 POST-natal 组中使用了球脊髓通路，而损伤时间较早的患者可能使用相对保留的同侧皮质脊髓运动通路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f638/3974905/4c7260a8d2dc/nihms560676f1.jpg

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