Department of Orthopaedic Surgery, University of Pittsburgh Medical Center, Pittsburgh, Pennsylvania, USA.
Am J Sports Med. 2012 Apr;40(4):777-85. doi: 10.1177/0363546511435783. Epub 2012 Feb 10.
Most patients with isolated posterior cruciate ligament (PCL) injuries have minimal symptoms, and nonoperative treatment is recommended. However, over time, these patients can develop significant degenerative changes in their knees. Historically, PCL laxity is graded by nonweightbearing anteroposterior measuring techniques that do not reproduce the true, dynamic weightbearing conditions in the injured knee. The purpose of this study was to determine the patholaxity in patients with isolated PCL deficiency during functional weightbearing activities (running, walking, and stair ascent).
Patients with unilateral, isolated PCL deficiency will demonstrate dynamic anteroposterior and rotational instability in their affected knees during functional activities of level running and stair ascent compared with their unaffected, contralateral knees.
Controlled laboratory study.
Nine asymptomatic patients with isolated grade II PCL injury underwent Dynamic Stereo X-Ray (DSX) of both knees during level running and stair ascent. Three-dimensional reconstructions of the patients' bilateral distal femurs and proximal tibias were created from high-resolution computed tomography (CT) scans. Three-dimensional joint kinematics were determined using a model-based tracking approach to align the radiographic images with CT-derived bone models. The resulting tibiofemoral rotations and translations for the PCL-deficient and PCL-intact knees were then compared.
During level running, the tibia of the PCL-deficient knee was approximately 2 mm posteriorly subluxated and had an anterior velocity relative to the femur approximately 40 mm/s greater than the contralateral, uninjured knee; however, this was only during the swing phase. No significant differences were found during the stance phase of running. During stair ascent, the tibia of the PCL-deficient knee was approximately 4 mm posteriorly subluxated compared with the intact limb during the terminal swing phase and early stance phase. Between foot strike and the time of peak ground-reaction force (GRF), the tibia of the PCL-deficient knee translated anteriorly relative to the femur with velocities 3 to 4 times greater than in the intact limb. Level walking was also evaluated in 3 patients, but no differences were seen, and it was not tested in the remaining 6 patients.
Changes in knee kinematics due to isolated PCL injuries were highly activity dependent. During running, small differences were identified only during the swing phase when the knee was unloaded. However, during stair ascent, significant differences extended from the late swing into early stance phase. During the swing phase of stair ascent, the tibia in the PCL-deficient joint subluxated posteriorly. Then, as load was transferred to the ascending limb, the tibia reduced anteriorly with high velocity relative to the femur. The resulting shear motion may expose the loaded joint to abnormal and potentially damaging forces.
During functional activities, patients with isolated PCL injuries experience significant knee instability that cannot be identified by standard nonweightbearing static laxity measurements. The finding that different activities create different degrees of instability may have important implications for rehabilitation and activity limitations for PCL-deficient individuals.
大多数单纯后交叉韧带(PCL)损伤的患者症状轻微,建议采用非手术治疗。然而,随着时间的推移,这些患者的膝关节可能会发生明显的退行性变化。历史上,PCL 松弛度通过非负重前后测量技术来分级,这些技术无法复制受伤膝关节的真实动态负重状态。本研究旨在确定在功能性负重活动(跑步、行走和上楼梯)中单纯 PCL 缺陷患者的病理性松弛度。
与未受伤的对侧膝关节相比,单侧、单纯 PCL 缺陷的患者在进行水平跑步和上楼梯等功能性活动时,其受伤膝关节会出现前后向和旋转不稳定。
对照实验室研究。
9 名无症状的单侧 II 级 PCL 损伤患者在水平跑步和上楼梯时接受双侧膝关节的动态立体 X 线(DSX)检查。从高分辨率计算机断层扫描(CT)扫描中创建患者双侧远端股骨和近端胫骨的三维重建。使用基于模型的跟踪方法确定三维关节运动学,将射线图像与 CT 衍生的骨骼模型对齐。然后比较 PCL 缺陷和 PCL 完整膝关节的胫骨前后移位和旋转。
在水平跑步时,PCL 缺陷膝关节的胫骨大约向后后脱位 2 毫米,与对侧未受伤的膝关节相比,胫骨相对于股骨的前向速度快约 40 毫米/秒;然而,这仅发生在摆动阶段。在跑步的支撑阶段没有发现显著差异。在上楼梯时,PCL 缺陷膝关节的胫骨在终末摆动期和早期支撑期相对于完整肢体向后脱位约 4 毫米。从足着地到峰值地面反作用力(GRF)的时间,PCL 缺陷膝关节的胫骨相对于股骨向前平移,速度是完整肢体的 3 到 4 倍。还对 3 名患者进行了平地行走评估,但未发现差异,其余 6 名患者未进行测试。
单纯 PCL 损伤引起的膝关节运动学变化高度依赖于活动。在跑步时,仅在膝关节不受重的摆动阶段才能识别出小的差异。然而,在上楼梯时,从晚期摆动到早期支撑阶段,差异显著延伸。在上楼梯的摆动阶段,PCL 缺陷关节的胫骨向后向后脱位。然后,随着负荷转移到上升肢体,胫骨相对于股骨以高速向前减少。由此产生的剪切运动可能会使负重关节承受异常且潜在的破坏性力。
在功能性活动中,单纯 PCL 损伤的患者会出现无法通过标准非负重静态松弛度测量识别的明显膝关节不稳定。不同活动造成不同程度不稳定的发现可能对 PCL 缺陷患者的康复和活动限制有重要意义。
