膝关节主要内中侧韧带的结构特性。

Structural properties of the primary medial knee ligaments.

机构信息

Steadman Philippon Research Institute, 181 West Meadow Drive, Vail, CO 81657, USA.

出版信息

Am J Sports Med. 2010 Aug;38(8):1638-46. doi: 10.1177/0363546510363465.

DOI:10.1177/0363546510363465

PMID:20675650

Abstract

BACKGROUND

The structural properties of the individual components of the superficial medial collateral ligament (MCL), deep MCL, and posterior oblique ligament (POL) have not been studied in isolation. To define the necessary strength requirements for an anatomical medial knee reconstruction, knowledge of these structural properties is necessary.

HYPOTHESIS

The components of the superficial MCL, POL, and deep MCL have significantly different structural properties.

STUDY DESIGN

Controlled laboratory study.

METHODS

This study used 20 fresh-frozen nonpaired cadaveric knee specimens with a mean age of 54 years (range, 27 to 68 years). These knees provided 8 samples for each tested medial knee structure, which was individually isolated and loaded to failure at 20 mm per minute. Specifically tested were the superficial MCL with intact femoral and detached proximal tibial attachments, the superficial MCL with intact femoral and detached distal tibial attachments, the central arm of the POL, and the isolated deep MCL. Load was recorded as a function of displacement. Stiffness of the ligament at failure was calculated from these measurements.

RESULTS

The mean load at failure for the superficial MCL with the intact femoral and distal tibial attachments was 557 N. Mean load at failure was 88 N for the intact femoral and proximal tibial divisions of the superficial MCL, 256 N for the POL, and 101 N for the deep MCL. Stiffness of the ligaments just before failure was 63, 17, 38, and 27 N/mm, in the same order as above.

CONCLUSION

The proximal and distal tibial divisions of the superficial MCL, POL, and deep MCL produced loads of clinical importance.

CLINICAL RELEVANCE

Knowledge of the structural properties of these attachment sites will assist in reconstruction graft choices, fixation method choices, and overall operative treatment of medial knee injury.

摘要

背景

尚未单独研究浅层内侧副韧带（MCL）、深层 MCL 和后斜韧带（POL）的各个组成部分的结构特性。为了定义解剖学内侧膝关节重建的必要强度要求，了解这些结构特性是必要的。

假设

浅层 MCL、POL 和深层 MCL 的组成部分具有明显不同的结构特性。

研究设计

对照实验室研究。

方法

本研究使用了 20 个新鲜冷冻的非配对尸体膝关节标本，平均年龄为 54 岁（范围，27 至 68 岁）。这些膝关节为每个测试的内侧膝关节结构提供了 8 个样本，这些结构分别单独隔离，并以每分钟 20 毫米的速度加载至失效。具体测试的是浅层 MCL 有完整的股骨和分离的近端胫骨附着点、浅层 MCL 有完整的股骨和分离的远端胫骨附着点、POL 的中央臂和单独的深层 MCL。记录负载作为位移的函数。从这些测量中计算出韧带在失效时的刚度。

结果

带有完整股骨和远端胫骨附着点的浅层 MCL 的平均失效载荷为 557 N。带有完整股骨和近端胫骨附着点的浅层 MCL 的平均失效载荷为 88 N，POL 的平均失效载荷为 256 N，深层 MCL 的平均失效载荷为 101 N。在失效前，韧带的刚度分别为 63、17、38 和 27 N/mm，顺序如上。

结论

浅层 MCL、POL 和深层 MCL 的近端和远端胫骨附着点产生了具有临床意义的载荷。

临床相关性

了解这些附着点的结构特性将有助于重建移植物选择、固定方法选择以及内侧膝关节损伤的整体手术治疗。

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膝关节主要内中侧韧带的结构特性。

Structural properties of the primary medial knee ligaments.

机构信息

出版信息

BACKGROUND

HYPOTHESIS

STUDY DESIGN

METHODS

RESULTS

CONCLUSION

CLINICAL RELEVANCE

背景

假设

研究设计

方法

结果

结论

临床相关性

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