在尺侧副韧带完整、拉伸及切除的情况下，屈肌-旋前肌加载对肘关节外翻稳定性的影响。

Effects of flexor-pronator muscle loading on valgus stability of the elbow with an intact, stretched, and resected medial ulnar collateral ligament.

作者信息

Udall John H, Fitzpatrick Michael J, McGarry Michelle H, Leba Thu-Ba, Lee Thay Q

机构信息

Orthopaedic Biomechanics Laboratory, Long Beach VA Healthcare System, Mission Regional Medical Center, University of California, Irvine, CA 90822, USA.

出版信息

J Shoulder Elbow Surg. 2009 Sep-Oct;18(5):773-8. doi: 10.1016/j.jse.2009.03.008. Epub 2009 May 31.

DOI:10.1016/j.jse.2009.03.008

PMID:19487136

Abstract

BACKGROUND

The medial ulnar collateral ligament (MUCL) is an important passive stabilizer to the valgus stresses that athletes experience during overhead throwing motion. However, the role of the flexor-pronator muscles as active stabilizers to valgus stress is not well defined in the literature. The objectives of this study were to quantify the relative contribution of the individual flexor-pronator muscles to valgus stability of the elbow and how this relationship was affected by ligament status.

METHODS

A custom elbow testing system and Microscribe 3DLX were used for biomechanical testing. Flexor-pronator muscles were loaded to simulate contraction, and the valgus angle of the elbow was measured in eight cadaveric specimens at 30 degrees , 60 degrees , and 90 degrees of elbow flexion with 3 different valgus torques applied to the forearm. Loads based on muscle cross-sectional area were applied to the flexor carpi ulnaris (FCU), flexor digitorum superficialis (FDS), and pronator teres (PT). The effect of each muscle was evaluated by unloading the individual muscle while the other 2 remained loaded, resulting in 5 loading conditions: no muscles loaded, all muscles loaded, unloaded FCU, unloaded FDS, and unloaded PT. Valgus angle was measured for 3 MUCL ligament conditions: intact, stretched, and cut.

RESULTS

The effect of muscle loading on valgus angle was similar for each ligament condition. Loading the flexor-pronator muscles significantly decreased valgus angle of the elbow in all testing conditions (P < .01). Unloading the FDS significantly increased valgus angle compared to all muscles loaded in all testing conditions (P < .016). Unloading the FCU and PT significantly increased valgus angle in less than half of the testing conditions.

CONCLUSION

The FDS, PT, and FCU are all active stabilizers of the elbow to valgus stress. The FDS is the biggest contributor amongst the flexor-pronator muscles.

摘要

背景

内侧尺侧副韧带（MUCL）是运动员在过顶投掷动作中所承受外翻应力的重要被动稳定器。然而，文献中对于屈肌 - 旋前肌作为外翻应力主动稳定器的作用尚无明确界定。本研究的目的是量化各屈肌 - 旋前肌对肘关节外翻稳定性的相对贡献，以及这种关系如何受韧带状态的影响。

方法

使用定制的肘关节测试系统和Microscribe 3DLX进行生物力学测试。加载屈肌 - 旋前肌以模拟收缩，并在八个尸体标本中，于肘关节屈曲30度、60度和90度时，对前臂施加3种不同的外翻扭矩，测量肘关节的外翻角度。根据肌肉横截面积对尺侧腕屈肌（FCU）、指浅屈肌（FDS）和旋前圆肌（PT）施加负荷。通过卸载单个肌肉而使其他两块肌肉保持加载状态来评估每块肌肉的作用，从而产生5种负荷条件：无肌肉加载、所有肌肉加载、卸载FCU、卸载FDS和卸载PT。针对3种MUCL韧带状态（完整、拉伸和切断）测量外翻角度。

结果

每种韧带状态下，肌肉负荷对外翻角度的影响相似。在所有测试条件下，加载屈肌 - 旋前肌均显著降低了肘关节的外翻角度（P <.01）。与所有肌肉加载的情况相比，在所有测试条件下卸载FDS均显著增加了外翻角度（P <.016）。在不到一半的测试条件下，卸载FCU和PT显著增加了外翻角度。

结论

FDS、PT和FCU均为肘关节外翻应力的主动稳定器。FDS是屈肌 - 旋前肌中贡献最大的。

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在尺侧副韧带完整、拉伸及切除的情况下，屈肌-旋前肌加载对肘关节外翻稳定性的影响。

Effects of flexor-pronator muscle loading on valgus stability of the elbow with an intact, stretched, and resected medial ulnar collateral ligament.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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