Department of Orthopaedic Surgery, Korea University School of Medicine, Guro Hospital, Seoul, South Korea.
Arch Orthop Trauma Surg. 2012 Nov;132(11):1631-6. doi: 10.1007/s00402-012-1591-7. Epub 2012 Jul 31.
This cadaveric study assessed the relative role of the lateral collateral ligament (LCL) and popliteofibular ligament (PFL) in limiting tibia external rotation.
Eight paired cadaveric knees were divided into two groups. The specimens were mounted on a rotational wheel and 5 Nm external rotation torque was applied before and after cutting the ligaments at 0°-30°-60°-90° knee flexion. Three cutting steps were applied: (1) PT (popliteus tendon)-, (2) LCL-, (3) PFL in group I, and (1) PT-, (2) PFL-, (3)LCL in group II. Increased external rotation at each step was taken as the ratio of final external rotation at the end of step 3. Repeated measure ANOVA and a Mann-Whitney U test were used for statistical analysis.
At step 2, the ratio of increased external rotation after cutting the LCL (group I) was similar to the ratio after cutting the PFL (group II) at 0° and 30° flexion, but that of group I was lower than group II at 60° and 90° flexion (p = 0.029 and p = 0.029). At step-3, the ratio after cutting the LCL (group II) was less than the ratio after cutting the PFL (group I) at 90° flexion (p = 0.029).
The PFL and LCL play equally important roles in limiting external rotation at the knee extended position (0°, 30°) but the LCL contribution becomes smaller than PFL at the flexed position (60°, 90°).
本尸体研究评估了外侧副韧带(LCL)和腓肠豆腓骨韧带(PFL)在限制胫骨外旋中的相对作用。
将 8 对尸体膝关节分为两组。标本安装在旋转轮上,在 0°-30°-60°-90°膝关节屈曲时,在切断韧带之前和之后施加 5 Nm 的外旋扭矩。进行了三个切割步骤:(1)PT(比目鱼肌肌腱)-、(2)LCL-、(3)PFL 在组 I 中,以及(1)PT-、(2)PFL-、(3)LCL 在组 II 中。在每个步骤中增加的外旋角度被视为步骤 3 结束时最终外旋角度的比值。采用重复测量方差分析和曼-惠特尼 U 检验进行统计学分析。
在步骤 2 中,切断 LCL 后(组 I)的外旋增加率与切断 PFL 后(组 II)在 0°和 30°屈曲时相似,但在 60°和 90°屈曲时,组 I 的外旋增加率低于组 II(p = 0.029 和 p = 0.029)。在步骤 3 中,切断 LCL 后(组 II)的比值小于切断 PFL 后(组 I)的比值在 90°屈曲时(p = 0.029)。
在膝关节伸展位置(0°、30°)时,PFL 和 LCL 在限制外旋方面发挥着同等重要的作用,但在弯曲位置(60°、90°)时,LCL 的作用小于 PFL。
