Institute of Anatomy, Paracelsus Medical University Salzburg & Nuremburg, Salzburg, Austria; La Trobe Sport & Exercise Medicine Research Centre, School of Allied Health, La Trobe University, Bundoora, Victoria, Australia.
Institute of Anatomy, Paracelsus Medical University Salzburg & Nuremburg, Salzburg, Austria.
Clin Biomech (Bristol). 2020 Oct;79:104935. doi: 10.1016/j.clinbiomech.2019.12.017. Epub 2019 Dec 23.
Knee cartilage undergoes pathological changes after anterior cruciate ligament rupture. However, little is known about the development and progression of structural pathology after posterior cruciate ligament (PCL) injury. This study aimed to determine the location-specific longitudinal changes in knee cartilage morphology (thickness) and composition (T2 relaxation-times) after PCL rupture and reconstruction (PCLR) and compare these to uninjured controls.
Fifteen adults (mean age 39 years (standard deviation 10), 12 men) with PCLR for isolated and multiligment injury had MRIs acquired at a minimum 5 years post-PCLR and 1 year later. Location-specific changes in knee cartilage thickness and T2 relaxation-times were determined quantitatively after segmentation, and compared with annualised cartilage changes in 13 active controls (mean age 45 years (standard deviation 4), 6 men).
Following PCLR, the annual loss of cartilage thickness was greatest in the medial femoral condyle (mean -4.0%, 95% confidence interval [95% CI] -6.7, -1.4), medial tibia (mean -3.7%, 95% CI -6.1, -1.3), and patella (mean -3.2%, 95% CI -4.7, -1.6). In the medial femoral condyle and trochlea, the PCLR group lost significantly more cartilage thickness than uninjured controls (mean difference -3.7%, 95% CI -0.9, -6.5; and -1.8%, 95% CI -0.1, -3.6, respectively). Deep and superficial zone T2 relaxation-times were relatively constant over time, without longitudinal differences between PCLR and control knees.
PCL reconstructed knees displayed substantially greater rates of cartilage loss in the medial tibiofemoral and patellofemoral compartments compared to uninjured controls, highlighting that the process of degeneration remains active many years after injury.
前交叉韧带(ACL)断裂后,膝关节软骨会发生病理性变化。但是,对于后交叉韧带(PCL)损伤后的结构病理学发展和进展知之甚少。本研究旨在确定 PCL 断裂和重建(PCLR)后膝关节软骨形态(厚度)和成分(T2 弛豫时间)的特定部位的纵向变化,并将其与未受伤的对照组进行比较。
15 名成年人(平均年龄 39 岁(标准差 10),12 名男性)因孤立性和多韧带损伤接受 PCLR 治疗,在 PCLR 后至少 5 年和 1 年后进行 MRI 检查。通过分割定量确定膝关节软骨厚度和 T2 弛豫时间的特定部位变化,并与 13 名活跃对照者(平均年龄 45 岁(标准差 4),6 名男性)的年度软骨变化进行比较。
PCLR 后,内侧股骨髁(平均-4.0%,95%置信区间[95%CI]-6.7,-1.4)、内侧胫骨(平均-3.7%,95%CI-6.1,-1.3)和髌骨(平均-3.2%,95%CI-4.7,-1.6)的软骨厚度每年损失最大。在股骨内侧髁和滑车中,PCLR 组比未受伤的对照组损失了更多的软骨厚度(平均差异-3.7%,95%CI-0.9,-6.5;和-1.8%,95%CI-0.1,-3.6)。深层和浅层 T2 弛豫时间随时间相对稳定,PCLR 和对照膝关节之间没有纵向差异。
与未受伤的对照组相比,PCLR 膝关节在胫股内侧和髌股内侧关节间隙中显示出更大的软骨丢失率,这突出表明损伤后多年,退行性过程仍然活跃。
