ACL 重建结合外侧单束重建术可恢复完整的膝关节松弛度。

ACL reconstruction combined with lateral monoloop tenodesis can restore intact knee laxity.

机构信息

Antwerp Orthopaedic Centre Monica Hospitals, Antwerp, Belgium.

Galeazzi Orthopaedic Institute, Milan, Italy.

出版信息

Knee Surg Sports Traumatol Arthrosc. 2020 Apr;28(4):1159-1168. doi: 10.1007/s00167-019-05839-y. Epub 2020 Jan 25.

DOI:10.1007/s00167-019-05839-y

PMID:31980844

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7148266/

Abstract

PURPOSE

An anterior cruciate ligament (ACL) injury is often combined with injury to the lateral extra-articular structures, which may cause a combined anterior and rotational laxity. It was hypothesised that addition of a 'monoloop' lateral extra-articular tenodesis (mLET) to an ACL reconstruction would restore anteroposterior, internal rotation and pivot-shift laxities better than isolated ACL reconstruction in combined injuries.

METHOD

Twelve cadaveric knees were tested, using an optical tracking system to record the kinematics through 0°-100° of knee flexion with no load, anterior and posterior translational forces (90 N), internal and external rotational torques (5 Nm), and a combination of an anterior translational (90 N) plus internal rotational load (5 Nm). They were tested intact, after sectioning the ACL, sectioning anterolateral ligament (ALL), iliotibial band (ITB) graft harvest, releasing deep ITB fibres, hamstrings tendon ACL reconstruction, mLET combined with ACL reconstruction, and isolated mLET. Two-way repeated-measures ANOVA compared laxity data across knee states and flexion angles. When differences were found, paired t tests with Bonferroni correction were performed.

RESULTS

In the ACL-deficient knee, cutting the ALL significantly increased anterior laxity only at 20°-30°, and only significantly increased internal rotation at 50°. Additional deep ITB release significantly increased anterior laxity at 40°-90° and caused a large increase of internal rotation at 20°-100°. Isolated ACL reconstruction restored anterior drawer, but significant differences remained in internal rotation at 30°-100°. After adding an mLET there were no remaining differences with anterior translation or internal rotation compared to the intact knee. With the combined injury, isolated mLET allowed abnormal anterior translation and rotation to persist.

CONCLUSIONS

Cutting the deep fibres of the ITB caused large increases in tibial internal rotation laxity across the range of knee flexion, while cutting the ALL alone did not. With ACL deficiency combined with anterolateral deficiency, ACL reconstruction alone was insufficient to restore native knee rotational laxity. However, combining a 'monoloop' lateral extra-articular tenodesis with ACL reconstruction did restore native knee laxity.

摘要

目的

前交叉韧带（ACL）损伤常伴有外侧关节外结构损伤，可能导致前向和旋转松弛。假设在联合损伤中，ACL 重建加“单环”外侧关节外固定术（mLET）比单纯 ACL 重建更能恢复前后向、内旋和枢轴移位松弛。

方法

使用光学跟踪系统测试 12 个尸体膝关节，在无负荷、前向和后向平移力（90N）、内旋和外旋扭矩（5Nm）以及前向平移（90N）加内旋负荷（5Nm）的情况下，记录膝关节从 0°到 100°的运动学。分别测试完整膝关节、ACL 切断、前外侧韧带（ALL）切断、髂胫束（ITB）移植物切除、深层 ITB 纤维松解、腘绳肌腱 ACL 重建、mLET 联合 ACL 重建和单纯 mLET 的膝关节。采用双向重复测量方差分析比较膝关节状态和屈曲角度的松弛数据。当发现差异时，采用配对 t 检验和 Bonferroni 校正进行比较。

结果

在 ACL 缺失的膝关节中，切断 ALL 仅在前 20°-30°时显著增加前向松弛，仅在前 50°时显著增加内旋。进一步松解深层 ITB 纤维在 40°-90°时显著增加前向松弛，并导致内旋在 20°-100°时显著增加。单纯 ACL 重建恢复了前抽屉，但在 30°-100°时仍存在明显的内旋差异。在加入 mLET 后，与完整膝关节相比，前向平移和内旋没有剩余差异。对于联合损伤，单纯 mLET 允许异常的前向平移和旋转持续存在。

结论

切断 ITB 的深层纤维会导致膝关节整个屈曲范围内胫骨内旋松弛度显著增加，而单独切断 ALL 则不会。ACL 缺失合并前外侧结构缺陷时，单纯 ACL 重建不足以恢复正常膝关节旋转松弛度。然而，结合“单环”外侧关节外固定术可恢复正常膝关节松弛度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/02bd/7148266/5691baf058aa/167_2019_5839_Fig1_HTML.jpg

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ACL 重建结合外侧单束重建术可恢复完整的膝关节松弛度。

ACL reconstruction combined with lateral monoloop tenodesis can restore intact knee laxity.

机构信息

出版信息

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METHOD

RESULTS

CONCLUSIONS

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