外侧胫骨隧道 ACL 重建中，峰值应力从股骨隧道口转移至胫骨隧道口：三维移植物弯曲角度测量和有限元分析。

Peak stresses shift from femoral tunnel aperture to tibial tunnel aperture in lateral tibial tunnel ACL reconstructions: a 3D graft-bending angle measurement and finite-element analysis.

机构信息

Department of Orthopaedic Surgery and Traumatology, AZ Sint-Lucas Gent, Groenebriel 1, 9000, Ghent, Belgium.

Department of Orthopaedics and Traumatology, University Hospital Ghent, De pintelaan 185, 9000, Ghent, Belgium.

出版信息

Knee Surg Sports Traumatol Arthrosc. 2018 Feb;26(2):508-517. doi: 10.1007/s00167-017-4739-8. Epub 2017 Nov 9.

DOI:10.1007/s00167-017-4739-8

PMID:29124289

Abstract

PURPOSE

To investigate the effect of tibial tunnel orientation on graft-bending angle and stress distribution in the ACL graft.

METHODS

Eight cadaveric knees were scanned in extension, 45°, 90°, and full flexion. 3D reconstructions with anatomically placed anterior cruciate ligament (ACL) grafts were constructed with Mimics 14.12. 3D graft-bending angles were measured for classic medial tibial tunnels (MTT) and lateral tibial tunnels (LTT) with different drill-guide angles (DGA) (45°, 55°, 65°, and 75°). A pivot shift was performed on 1 knee in a finite-element analysis. The peak stresses in the graft were calculated for eight different tibial tunnel orientations.

RESULTS

In a classic anatomical ACL repair, the largest graft-bending angle and peak stresses are seen at the femoral tunnel aperture. The use of a different DGA at the tibial side does not change the graft-bending angle at the femoral side or magnitude of peak stresses significantly. When using LTT, the largest graft-bending angles and peak stresses are seen at the tibial tunnel aperture.

CONCLUSION

In a classic anatomical ACL repair, peak stresses in the ACL graft are found at the femoral tunnel aperture. When an LTT is used, peak stresses are similar compared to classic ACL repairs, but the location of the peak stress will shift from the femoral tunnel aperture towards the tibial tunnel aperture.

CLINICAL RELEVANCE

the risk of graft rupture is similar for both MTTs and LTTs, but the location of graft rupture changes from the femoral tunnel aperture towards the tibial tunnel aperture, respectively.

LEVEL OF EVIDENCE

摘要

目的

研究胫骨隧道方向对 ACL 移植物弯曲角度和应力分布的影响。

方法

在伸展、45°、90°和完全屈曲位对 8 个尸体膝关节进行扫描。使用 Mimics 14.12 构建具有解剖学放置的前交叉韧带（ACL）移植物的 3D 重建。对于经典内侧胫骨隧道（MTT）和外侧胫骨隧道（LTT），测量不同钻头引导角度（DGA）（45°、55°、65°和 75°）的 3D 移植物弯曲角度。在有限元分析中对 1 个膝关节进行了髌股关节脱位。计算了 8 种不同胫骨隧道方向下移植物的峰值应力。

结果

在经典解剖学 ACL 修复中，在股骨隧道开口处观察到最大的移植物弯曲角度和峰值应力。在胫骨侧使用不同的 DGA 不会显著改变股骨侧的移植物弯曲角度或峰值应力的大小。使用 LTT 时，在胫骨隧道开口处观察到最大的移植物弯曲角度和峰值应力。

结论

在经典解剖学 ACL 修复中，ACL 移植物的峰值应力位于股骨隧道开口处。当使用 LTT 时，与经典 ACL 修复相比，峰值应力相似，但峰值应力的位置将从股骨隧道开口转移到胫骨隧道开口。

临床意义

MTTs 和 LTTs 的移植物破裂风险相似，但移植物破裂的位置分别从股骨隧道开口向胫骨隧道开口转移。

证据水平

I。

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外侧胫骨隧道 ACL 重建中，峰值应力从股骨隧道口转移至胫骨隧道口：三维移植物弯曲角度测量和有限元分析。

Peak stresses shift from femoral tunnel aperture to tibial tunnel aperture in lateral tibial tunnel ACL reconstructions: a 3D graft-bending angle measurement and finite-element analysis.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

CLINICAL RELEVANCE

LEVEL OF EVIDENCE

目的

方法

结果

结论

临床意义

证据水平

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