Fowler Kennedy Sport Medicine Clinic, Western University, London, Ontario, Canada.
Department of Mechanical and Materials Engineering, Western University, London, Ontario, Canada.
Am J Sports Med. 2020 Nov;48(13):3288-3295. doi: 10.1177/0363546520962071. Epub 2020 Oct 12.
Several techniques for hip capsular reconstruction have been described to address gross instability or microinstability due to capsular deficiency. However, objective biomechanical data to support their use are lacking.
To compare the kinematic effect of 2 capsular reconstruction techniques (iliotibial band [ITB] graft and Achilles tendon graft). Kinematic effect encompassed rotational range of motion (ROM) as well as joint translation in the coronal, sagittal, and axial planes.
Controlled laboratory study.
8 paired, fresh-frozen hemi-pelvises (16 hips) were tested on a custom-designed joint motion simulator in the intact state and after capsulectomy. Pairs were randomly allocated to either ITB or Achilles reconstruction and retested. Testing was performed at 0°, 45°, and 90° of flexion. Internal-external rotation (IR-ER) torques and abduction-adduction torques of 3 N·m were applied to the femur via a load cell at each position, and rotational ROM and joint translation in the coronal, sagittal, and axial planes were recorded.
At 45° and 90°, there was a significant effect of the condition of the hip on the total IR-ER ( = .004, effect size [ES] = 0.305; and < .001, ES = 0.497; respectively). At 45°, mean ± SD total rotation was significantly greater for the capsulectomy (59.7°± 15.9°) state compared with intact (53.3°± 13.2°; = .007). At 90°, reconstruction significantly decreased total rotation to 49.0°± 18.9° compared with a mean total rotation of 52.8°± 18.7° after capsulectomy ( = .02). No difference was seen in the total abduction-adduction of the hip between conditions. Comparisons of the 2 different reconstruction techniques showed no significant differences in total IR-ER or abduction-adduction ROM or joint translation in the coronal, sagittal, or axial planes. For translation, at both 0° and 45° there was a statistically significant effect of the condition on the medial-lateral translation ( = .033; ES = 0.204). Reconstruction, independent of technique, was successful in significantly decreasing ( = .030; = .014) the mean medial-lateral translation at 0° and 45° of hip flexion from 5.2 ± 3.8 mm and 5.6 ± 4.0 mm to 2.8 ± 1.9 mm and 3.9 ± 3.2 mm, respectively.
The integrity of the native hip capsule played a significant role in rotational stability, where capsulectomy significantly increased rotational ROM. Both ITB and Achilles reconstruction techniques restored normal rotational ROM of the hip at 90° of flexion as well as coronal plane stability at 0° and 45° of hip flexion. No differences were seen between ITB and Achilles reconstruction techniques.
Both capsular reconstruction techniques provide comparable joint kinematics, restoring rotation and translation to normal values with the exception of rotational ROM at 45°, which remained significantly greater than the intact state. The most significant results were the rotational stability at 90° of hip flexion and coronal plane stability at 0° and 45° of hip flexion, which were significantly improved compared with the capsulectomy state.
已经描述了几种髋关节囊重建技术,以解决由于囊状缺陷导致的严重不稳定或微不稳定。然而,缺乏支持其使用的客观生物力学数据。
比较两种囊重建技术(髂胫束[ITB]移植物和跟腱移植物)的运动学效果。运动学效果包括旋转活动范围(ROM)以及冠状面、矢状面和轴向的关节平移。
对照实验室研究。
在定制设计的关节运动模拟器上测试 8 对(16 髋)新鲜冷冻的半骨盆,在完整状态和囊切除后进行测试。对每对髋关节进行随机分配,接受 ITB 或跟腱重建,并进行重复测试。测试在 0°、45°和 90°的膝关节屈伸位进行。通过加载细胞在每个位置向股骨施加 3 N·m 的内收-外展扭矩和外展-内收扭矩,并记录冠状面、矢状面和轴向平面的旋转 ROM 和关节平移。
在 45°和 90°时,髋关节的状态对总内收-外展( =.004,效应大小[ES] = 0.305;<.001,ES = 0.497;分别)有显著影响。在 45°时,与完整状态(53.3°± 13.2°)相比,囊切除(59.7°± 15.9°)状态下的总旋转明显更大( =.007)。在 90°时,与囊切除后的平均总旋转(52.8°± 18.7°)相比,重建使总旋转显著减少至 49.0°± 18.9°( =.02)。两种状态下髋关节的总外展-内收无差异。两种不同重建技术的比较显示,总内收-外展或外展-内收 ROM 或冠状面、矢状面和轴向的关节平移无显著差异。对于平移,在 0°和 45°时,条件对内侧-外侧平移有统计学显著影响( =.033;ES = 0.204)。重建,独立于技术,成功地显著降低( =.030; =.014)了从 5.2 ± 3.8 mm 和 5.6 ± 4.0 mm 到 2.8 ± 1.9 mm 和 3.9 ± 3.2 mm 的膝关节屈伸 0°和 45°时的平均内侧-外侧平移,分别。
原生髋关节囊的完整性在旋转稳定性中起着重要作用,其中囊切除术显著增加了旋转 ROM。ITB 和跟腱重建技术在 90°膝关节屈伸时均恢复了髋关节的正常旋转 ROM,以及 0°和 45°膝关节屈伸时的冠状面稳定性。ITB 和跟腱重建技术之间没有差异。
两种囊重建技术均可提供相似的关节运动学,使旋转和平移恢复到正常值,但 45°的旋转 ROM 仍然显著大于完整状态。最重要的结果是 90°膝关节屈伸时的旋转稳定性和 0°和 45°膝关节屈伸时的冠状面稳定性,与囊切除状态相比,这两个方面都有显著改善。
