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前外侧韧带重建作为双束前交叉韧带重建的增强手术可恢复旋转稳定性:使用惯性传感器对轴移试验进行定量评估。

Anterolateral ligament reconstruction as an augmented procedure for double-bundle anterior cruciate ligament reconstruction restores rotational stability: Quantitative evaluation of the pivot shift test using an inertial sensor.

作者信息

Yasuma Sanshiro, Nozaki Masahiro, Murase Atsunori, Kobayashi Makoto, Kawanishi Yusuke, Fukushima Hiroaki, Takenaga Tetsuya, Yoshida Masahito, Kuroyanagi Gen, Kawaguchi Yohei, Nagaya Yuko, Murakami Hideki

机构信息

Department of Orthopaedic Surgery, Nagoya City University, Nagoya, Japan.

Department of Orthopaedic Surgery, Nagoya City University, Nagoya, Japan.

出版信息

Knee. 2020 Mar;27(2):397-405. doi: 10.1016/j.knee.2020.02.015. Epub 2020 Mar 13.

DOI:10.1016/j.knee.2020.02.015
PMID:32178972
Abstract

PURPOSE

The purpose of this study was to investigate the biomechanical function of the anterolateral structures (ALS) of the knee regarding rotational stability, and to attempt to verify the effectiveness of anterolateral ligament (ALL) reconstruction concomitant with double-bundle anterior cruciate ligament (ACL) reconstruction by quantifying the pivot shift test (PST) using an inertial sensor.

METHODS

Six knees of the fresh-frozen cadavers were evaluated during the following phases: (1) [Intact]; (2) ACL-deficient [ACL-D]; (3) ACL-reconstructed [ACL-R]; (4) ACL-reconstructed + ALS-deficient [ACL-R + ALS-D]; and (5) combined ACL and ALL reconstructed [ACL-R + ALL-R]. We evaluated knee rotational instability during each phase using the PST. We used an inertial sensor to calculate tibial external rotational angular velocity (ERAV) and tibial acceleration. Data were analyzed using repeated-measures analysis of variance; statistical significance was accepted as P < 0.05.

RESULTS

Relative to [Intact], [ACL-D] caused a significant increase in ERAV and acceleration. However, there was no difference in these parameters between [ACL-R] and [Intact]. [ACL-R + ALS-D] increased ERAV significantly compared with [ACL-R], and there was a significant difference between ERAV during [ACL-R + ALS-D] and [Intact]. However, ERAV was significantly reduced during [ACL-R + ALL-R] compared with [ACL-R + ALS-D], and there was no significant difference in ERAV or acceleration between [ACL-R + ALL-R] and [Intact].

CONCLUSIONS

ALS controlled rotational instability in cooperation with the ACL in a cadaveric model. In cases of combined injury of ACL and ALS, concomitant ACL and ALL reconstruction may restore knee stability comparable with the intact state.

摘要

目的

本研究旨在探讨膝关节前外侧结构(ALS)在旋转稳定性方面的生物力学功能,并试图通过使用惯性传感器对轴移试验(PST)进行量化,来验证前外侧韧带(ALL)重建联合双束前交叉韧带(ACL)重建的有效性。

方法

对六具新鲜冷冻尸体的膝关节在以下阶段进行评估:(1)[完整状态];(2)ACL缺损[ACL-D];(3)ACL重建[ACL-R];(4)ACL重建+ALS缺损[ACL-R+ALS-D];以及(5)ACL和ALL联合重建[ACL-R+ALL-R]。我们使用PST评估每个阶段膝关节的旋转不稳定性。我们使用惯性传感器计算胫骨外旋角速度(ERAV)和胫骨加速度。数据采用重复测量方差分析进行分析;统计学显著性以P<0.05为标准。

结果

相对于[完整状态],[ACL-D]导致ERAV和加速度显著增加。然而,[ACL-R]与[完整状态]之间在这些参数上没有差异。与[ACL-R]相比,[ACL-R+ALS-D]使ERAV显著增加,并且[ACL-R+ALS-D]期间的ERAV与[完整状态]之间存在显著差异。然而,与[ACL-R+ALS-D]相比,[ACL-R+ALL-R]期间的ERAV显著降低,并且[ACL-R+ALL-R]与[完整状态]之间在ERAV或加速度方面没有显著差异。

结论

在尸体模型中,ALS与ACL协同控制旋转不稳定性。在ACL和ALS联合损伤的情况下,ACL和ALL联合重建可能恢复与完整状态相当的膝关节稳定性。

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