Department of Orthopaedic Surgery, Tokyo Medical and Dental University Hospital of Medicine, 1-5-45 Yushima, Bunkyo-ku, Tokyo 113-8519, Japan.
Am J Sports Med. 2012 Mar;40(3):615-23. doi: 10.1177/0363546511426696. Epub 2011 Nov 22.
One of the main differences affecting outcome between single-bundle and double-bundle anterior cruciate ligament (ACL) reconstructions may be graft fixation angles and initial force settings; however, there has been little research to investigate these effects in either technique.
Anteroposterior and rotational knee laxities will be less in double-bundle ACL reconstructions than single-bundle reconstructions, and different graft fixation angles affect knee kinematics and pivot-shift phenomenon in double-bundle ACL reconstructions.
Controlled laboratory study.
Eleven patients who underwent double-bundle ACL reconstruction were included in this study. The anteromedial bundle (AMB) and the posterolateral bundle (PLB) were provisionally fixed to a graft tensioning system during surgery. The graft fixation settings were as follows: (1) AMB only at 20° (A20), (2) PLB only at 20° (P20), (3) AMB at 20° and PLB at 0° (A20P0), (4) AMB at 20° and PLB at 20° (A20P20), and (5) AMB at 20° and PLB at 45° (A20P45). All the grafts were tensioned at a constant stress level. Anterior tibial translation (ATT), internal rotation (IR), and external rotation (ER) at 30° and 90° of knee flexion applied with manual maximum load were measured before graft insertion and in each setting using a navigation system. A pivot-shift test was also evaluated manually with modified International Knee Documentation Committee criteria in each setting.
A20 was less constrained than A20P20 and A20P45 in ATT at 30° and less constrained than A20P45 in IR at 30°. P20 was less constrained than any other settings in ATT at 30° and less constrained than A20P45 in IR at 30°. A20P0 was less constrained than A20P45 in IR at 30° and in ER at 30°. Grade 1 pivot-shift phenomenon persisted in 8 cases in P20, in 4 cases in A20, and in 3 cases in A20P0, whereas no case showed a positive pivot-shift result in A20P20 and A20P45.
In this in vivo laboratory model, double-bundle ACL reconstruction with fixation of AMB at 20° and PLB at 20° or 45° restored better stability than single AMB or single PLB reconstruction in which the graft was of smaller size.
In double-bundle ACL reconstruction, fixation of the PLB at 0° might be looser and function worse compared with that of PLB at 20° or 45° when the AMB is fixed at 20°, with the individual variability that should lead to caution until it can be better assessed by surgeons.
影响单束和双束前交叉韧带(ACL)重建术后结果的主要差异之一可能是移植物固定角度和初始力设置;然而,在这两种技术中,几乎没有研究来调查这些影响。
与单束 ACL 重建相比,双束 ACL 重建的前后和旋转膝关节松弛度更小,不同的移植物固定角度会影响双束 ACL 重建中的膝关节运动学和枢轴移位现象。
对照实验室研究。
本研究纳入 11 例接受双束 ACL 重建的患者。在手术中,前内侧束(AMB)和后外侧束(PLB)暂时固定在移植物张力系统上。移植物固定设置如下:(1)AMB 仅在 20°(A20),(2)PLB 仅在 20°(P20),(3)AMB 在 20°,PLB 在 0°(A20P0),(4)AMB 在 20°,PLB 在 20°(A20P20),和(5)AMB 在 20°,PLB 在 45°(A20P45)。所有移植物均在恒定应力水平下拉紧。在导航系统中,测量术前和每个设置下膝关节 30°和 90°屈伸时的胫骨前移位(ATT)、内旋(IR)和外旋(ER)。在每个设置下,也使用改良的国际膝关节文献委员会标准手动评估枢轴移位试验。
A20 在 30°时的 ATT 比 A20P20 和 A20P45 受限制小,在 30°时的 IR 比 A20P45 受限制小。P20 在 30°时的 ATT 比其他任何设置都受限制小,在 30°时的 IR 比 A20P45 受限制小。A20P0 在 30°时的 IR 和 30°时的 ER 比 A20P45 受限制小。在 P20 中有 8 例持续存在 1 级枢轴移位现象,在 A20 中有 4 例,在 A20P0 中有 3 例,而在 A20P20 和 A20P45 中没有出现阳性枢轴移位结果。
在这个体内实验室模型中,与单束 AMB 或单束 PLB 重建相比,AMB 固定在 20°,PLB 固定在 20°或 45°的双束 ACL 重建恢复了更好的稳定性,而移植物的尺寸较小。
在双束 ACL 重建中,当 AMB 固定在 20°时,PLB 固定在 0°可能比固定在 20°或 45°时更松,功能更差,个体差异较大,这可能会导致谨慎,直到外科医生能够更好地评估。
