人类滑车的力学特性。

Mechanical properties of human pulleys.

作者信息

Lin G T, Cooney W P, Amadio P C, An K N

机构信息

Biomechanics Laboratory, Mayo Clinic, Rochester, Minnesota 55905.

出版信息

J Hand Surg Br. 1990 Nov;15(4):429-34. doi: 10.1016/0266-7681(90)90085-i.

DOI:10.1016/0266-7681(90)90085-i

PMID:2269832

Abstract

In order to determine the mechanical properties of the fibro-osseous pulleys in the hand, the diaphyseal annular pulleys, the volar plate annular pulleys and the cruciate or condensable portions were tested. A custom-made loading device provided proper fit of the soft tissues for a uniform distribution of the pulley load during testing. The A2 pulley was found to be the strongest of the pulleys; the A1 and A4 were the next strongest. The A3 pulley was nearly equal in mean breaking strength to the other annular pulleys, but in absolute breaking load was considerably weaker because of its shortness. The A4 was the least compliant of the pulleys. We concluded that the fibro-osseous A2 and A4 were mechanically stronger and stiffer pulleys than the A1, A3, A5 (volar plate) pulleys. In testing one type of pulley reconstruction, we found that the "belt loop" technique of Karev nearly matched the annular pulleys in strength and energy absorption.

摘要

为了确定手部纤维骨性滑车、骨干环形滑车、掌板环形滑车以及十字形或可压缩部分的力学性能，对其进行了测试。一种定制的加载装置能使软组织适配良好，以便在测试过程中使滑车负荷均匀分布。结果发现，A2滑车是所有滑车中最强的；A1和A4次之。A3滑车的平均断裂强度与其他环形滑车相近，但由于其较短，绝对断裂负荷要弱得多。A4滑车是所有滑车中顺应性最小的。我们得出结论，纤维骨性的A2和A4滑车在力学上比A1、A3、A5（掌板）滑车更强且更硬。在测试一种滑车重建类型时，我们发现卡列夫的“带袢”技术在强度和能量吸收方面几乎与环形滑车相当。

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人类滑车的力学特性。

Mechanical properties of human pulleys.

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