腘绳肌肌腱移植不同前交叉韧带固定技术的生物力学评估

Biomechanical evaluation of different anterior cruciate ligament fixation techniques for hamstring graft.

作者信息

Monaco E, Labianca L, Speranza A, Agrò A M, Camillieri G, D'Arrigo C, Ferretti A

机构信息

Kirk Kilgour Sports Injury Center, Sant'Andrea Hospital, University La Sapienza, Rome, Italy.

出版信息

J Orthop Sci. 2010 Jan;15(1):125-31. doi: 10.1007/s00776-009-1417-9. Epub 2010 Feb 12.

DOI:10.1007/s00776-009-1417-9

PMID:20151262

Abstract

BACKGROUND

A number of anterior cruciate ligament (ACL) fixation techniques are currently in use. Slippage or failure of the graft by excessive loading or aggressive rehabilitation may result in an unstable knee. Load and slippage of the ACL graft varies according to the fixation technique used.

METHODS

Graft slippage, load to failure, and stiffness were evaluated using an animal model. Six soft tissue ACL fixation techniques and bone cement as a fixation device were tested: group A, Endo Button CL-Bio RCI; group B, Swing Bridge-Evolgate; group C, Rigidfix-Intrafix; group D, Bone Mulch-Washer Lock; group E, Transfix-Retroscrew; group F, Transfix-Deltascrew; group G, Kryptonite bone cement. Maximum failure load, stiffness, and slippage at the 1st and 1000th cycles and mode of failure were evaluated.

RESULTS

The maximum failure load was significantly higher in group B (1030 N) and significantly lower in group E (483 N) than in the others. The stiffness of group B (270 N/mm) was significantly higher than the others. As for the mode of failure, group C showed failure in the femoral side in all tests (four device ruptures and two tendon ruptures on the femoral side). All failures of the other groups occurred on the tibial side except one test in group A. All failures in group G were due to slippage of the tendons.

CONCLUSION

Load to failure and stiffness was significantly different between the ACL fixation techniques. All but one of the fixation techniques showed sufficient properties for adequate postoperative rehabilitation. Bone cement used as a fixation device in soft tissue grafts did not seem to provide adequate initial fixation suitable for early rehabilitation after ACL reconstruction.

摘要

背景

目前有多种前交叉韧带（ACL）固定技术在使用。过度负荷或激进的康复训练导致移植物滑动或失效可能会致使膝关节不稳定。ACL移植物的负荷和滑动情况会因所使用的固定技术而有所不同。

方法

使用动物模型评估移植物的滑动、失效负荷和刚度。测试了六种软组织ACL固定技术以及骨水泥作为固定装置：A组，Endo Button CL-Bio RCI；B组，Swing Bridge-Evolgate；C组，Rigidfix-Intrafix；D组，Bone Mulch-Washer Lock；E组，Transfix-Retroscrew；F组，Transfix-Deltascrew；G组，Kryptonite骨水泥。评估了最大失效负荷、刚度、第1次和第1000次循环时的滑动情况以及失效模式。

结果

B组的最大失效负荷（1030 N）显著高于其他组，E组（483 N）显著低于其他组。B组的刚度（270 N/mm）显著高于其他组。至于失效模式，C组在所有测试中均在股骨侧出现失效（股骨侧有四个装置断裂和两个肌腱断裂）。除A组的一项测试外，其他组的所有失效均发生在胫骨侧。G组的所有失效均是由于肌腱滑动。

结论

ACL固定技术之间的失效负荷和刚度存在显著差异。除一种固定技术外，其他所有固定技术均表现出足以进行充分术后康复训练的性能。在软组织移植物中用作固定装置的骨水泥似乎无法提供适合ACL重建术后早期康复的足够初始固定。

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腘绳肌肌腱移植不同前交叉韧带固定技术的生物力学评估

Biomechanical evaluation of different anterior cruciate ligament fixation techniques for hamstring graft.

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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