人体颈部肌肉功能的非侵入性分析。

Noninvasive analysis of human neck muscle function.

作者信息

Conley M S, Meyer R A, Bloomberg J J, Feeback D L, Dudley G A

机构信息

Department of Exercise Science, University of Georgia, Athens, USA.

出版信息

Spine (Phila Pa 1976). 1995 Dec 1;20(23):2505-12. doi: 10.1097/00007632-199512000-00009.

DOI:10.1097/00007632-199512000-00009

PMID:8610245

Abstract

STUDY DESIGN

Muscle use evoked by exercise was determined by quantifying shifts in signal relaxation times of T2-weighted magnetic resonance images. Images were collected at rest and after exercise at each of two intensities (moderate and intense) for each of four head movements: 1) extension, 2) flexion, 3) rotation, and 4) lateral flexion.

OBJECTIVE

This study examined the intensity and pattern of neck muscle use evoked by various movements of the head. The results will help elucidate the pathophysiology, and thus methods for treating disorders of the cervical musculoskeletal system.

SUMMARY OF BACKGROUND DATA

Exercise-induced contrast shifts in T2 has been shown to indicate muscle use during the activity. The noninvasive nature of magnetic resonance imaging appears to make it an ideal approach for studying the function of the complex neuromuscular system of the neck.

METHODS

The extent of T2 increase was examined to gauge how intensely nine different neck muscles or muscle pairs were used in seven subjects. The absolute and relative cross-sectional area of muscle showing a shift in signal relaxation was assessed to infer the pattern of use among and within individual neck muscles or muscle pairs.

RESULTS

Signal relaxation increased with exercise intensity for each head movement. The absolute and relative cross-sectional area of muscle showing a shift in signal relaxation also increased with exercise load. Neck muscles or muscle pairs extensively used to perform each head movement were: extension--semispinalis capitis and cervicis and splenius capitis; flexion--sternocleidomastoid and longus capitis and colli; rotation--splenius capitis, levator scapulae, scalenus, semispinalis capitis ipsilateral to the rotation, and sternocleidomastoid contralateral; and lateral flexion--sternocleidomastoid

CONCLUSION

The results of this study, in part, agree with the purported functions of neck muscles derived from anatomic location. This also was true for the few selected muscles that have been examined in human electromyographic studies. Neck muscle function and morphology can be studied at a detailed level using exercise-induced shifts in magnetic resonance images.

摘要

研究设计

通过量化T2加权磁共振图像信号弛豫时间的变化来确定运动诱发的肌肉使用情况。在静息状态下以及在两种强度（中度和高强度）的运动后，针对四种头部运动（1）伸展、（2）屈曲、（3）旋转和（4）侧屈中的每一种，采集图像。

目的

本研究考察了头部各种运动诱发的颈部肌肉使用强度和模式。研究结果将有助于阐明病理生理学，从而为治疗颈肌骨骼系统疾病提供方法。

背景数据总结

运动诱发的T2对比度变化已被证明可指示活动期间的肌肉使用情况。磁共振成像的非侵入性似乎使其成为研究颈部复杂神经肌肉系统功能的理想方法。

方法

检查T2增加的程度，以评估7名受试者中9种不同颈部肌肉或肌肉对的使用强度。评估信号弛豫发生变化的肌肉的绝对和相对横截面积，以推断各个颈部肌肉或肌肉对之间以及内部的使用模式。

结果

每种头部运动的信号弛豫均随运动强度增加。信号弛豫发生变化的肌肉的绝对和相对横截面积也随运动负荷增加。广泛用于执行每种头部运动的颈部肌肉或肌肉对为：伸展——头半棘肌、颈半棘肌和头夹肌；屈曲——胸锁乳突肌、头长肌和颈长肌；旋转——头夹肌、肩胛提肌、斜角肌、与旋转同侧的头半棘肌以及对侧的胸锁乳突肌；侧屈——胸锁乳突肌。

结论

本研究结果部分与源自解剖位置的颈部肌肉的所谓功能相符。对于在人体肌电图研究中检查过的少数选定肌肉也是如此。利用运动诱发的磁共振图像变化，可以在详细水平上研究颈部肌肉功能和形态。

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人体颈部肌肉功能的非侵入性分析。

Noninvasive analysis of human neck muscle function.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVE

SUMMARY OF BACKGROUND DATA

METHODS

RESULTS

CONCLUSION

研究设计

目的

背景数据总结

方法

结果

结论

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