关于正中神经在腕部、肘部、肩部和颈部运动时滑动情况的定量体内研究。

Quantitative in vivo studies of median nerve sliding in response to wrist, elbow, shoulder and neck movements.

作者信息

Dilley Andrew, Lynn Bruce, Greening Jane, DeLeon Nicola

机构信息

Department of Physiology, University College London, Gower Street, London WC1E 6BT, UK.

出版信息

Clin Biomech (Bristol). 2003 Dec;18(10):899-907. doi: 10.1016/s0268-0033(03)00176-1.

DOI:10.1016/s0268-0033(03)00176-1

PMID:14580833

Abstract

OBJECTIVE

To examine median nerve sliding in response to upper limb movements in vivo. To determine whether the median nerve can be unloaded.

DESIGN

Exploratory study in healthy subjects.Background. Impaired sliding may lead to neuropathic symptoms. In vivo results for neural dynamics in normal subjects are essential to understand changes in upper limb disorders.

METHODS

Ultrasound imaging of the median nerve during 40 degrees wrist extension, 80 degrees shoulder abduction, 90 degrees elbow extension, and 35 degrees contralateral neck side flexion. Frame by frame cross-correlation of image sequences to measure nerve sliding and strain.

RESULTS

Nerve excursion in the forearm and upper arm ranged from 0.3 mm for neck side flexion to 10.4 mm for elbow extension. Additional strain in the forearm for wrist extension was 1.1% (SEM, 0.2%), for shoulder abduction 1.0% (SEM, 0.2%), and for neck side flexion 0.1% (SEM, 0.1%). With the limb flexed, sliding was delayed and sometimes the nerve or the nerve fascicles had a wavy appearance.

CONCLUSION

The median nerve is unloaded when the shoulder is adducted or elbow flexed. When the arm is extended (90 degrees shoulder abduction, 60 degrees wrist extension, and elbow straight) the total additional strain in the forearm will be 2.5-3.0%. Even in this position the strain is likely to be below levels that impair blood flow or conduction. Therefore, the median nerve appears well designed to cope with changes in bed length caused by limb movements.

RELEVANCE

These results will provide baseline data that can be used to examine entrapment neuropathies.

摘要

目的

在体内研究正中神经对上肢运动的滑动情况。确定正中神经是否能够减轻负荷。

设计

对健康受试者进行的探索性研究。背景。滑动受损可能导致神经病变症状。正常受试者神经动力学的体内研究结果对于理解上肢疾病的变化至关重要。

方法

在腕关节伸展40度、肩关节外展80度、肘关节伸展90度和对侧颈部侧屈35度时对正中神经进行超声成像。通过图像序列的逐帧互相关来测量神经滑动和应变。

结果

前臂和上臂的神经移位范围从颈部侧屈时的0.3毫米到肘关节伸展时的10.4毫米。腕关节伸展时前臂的附加应变为1.1%（标准误，0.2%），肩关节外展时为1.0%（标准误，0.2%），颈部侧屈时为0.1%（标准误，0.1%）。肢体屈曲时，滑动延迟，有时神经或神经束呈波浪状外观。

结论

当肩关节内收或肘关节屈曲时，正中神经负荷减轻。当手臂伸展时（肩关节外展90度、腕关节伸展60度且肘关节伸直），前臂的总附加应变为2.5 - 3.0%。即使在这个位置，应变可能也低于损害血流或传导的水平。因此，正中神经似乎设计良好，能够应对肢体运动引起的臂长变化。

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关于正中神经在腕部、肘部、肩部和颈部运动时滑动情况的定量体内研究。

Quantitative in vivo studies of median nerve sliding in response to wrist, elbow, shoulder and neck movements.

作者信息

机构信息

出版信息

OBJECTIVE

DESIGN

METHODS

RESULTS

CONCLUSION

RELEVANCE

目的

设计

方法

结果

结论

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