Tajik Bashir Edwardsson, Kvist Joanna, Gauffin Håkan, Cristiani Riccardo, Frobell Richard, Nieminen Miika, Casula Victor, Englund Martin
Department of Orthopedics, Biomedical and Clinical Sciences, Linköping University, Linköping, Sweden.
Unit of Physiotherapy, Department of Health, Medicine and Caring Sciences, Linköping University, Sweden; Center for Medical Image Science and Visualization (CMIV), Linköping University, Sweden.
Osteoarthritis Cartilage. 2025 Aug;33(8):1033-1040. doi: 10.1016/j.joca.2025.05.002. Epub 2025 May 16.
To investigate associations between meniscal tear, bone marrow lesions (BMLs), and post-injury knee loading, with cartilage T2 relaxation times on knee magnetic resonance imaging (MRI) in the subacute phase following acute anterior cruciate ligament (ACL) injury.
We studied both knees of 128 patients with ACL injury. The presence of meniscal tears and BMLs was determined on subacute MRI (mean 29 days [SD 13] post injury), and post-injury knee loading was measured using an accelerometer. Manual cartilage segmentation and T2 relaxation time mapping of tibiofemoral cartilage were performed on both knees. We used multiple linear regression models adjusted for age, sex, body mass index, and time from injury to MRI to evaluate the association between exposures and cartilage T2 relaxation times in the ACL-injured knee between individuals. We also performed paired t-tests for comparisons with the individual's non-ACL injured contralateral knee free of the exposure of interest.
There was an association between ipsilateral meniscal tear and prolonged T2 relaxation time in the superficial cartilage of posterior tibia in both compartments (beta-coefficient medial: 2.88, [95% CI 1.16-4.61], beta-coefficient lateral: 1.88, [0.17-3.58]). Findings were confirmed in the paired analyses with contralateral knees (mean T2 difference 1.43, [0.33-2.53] and 2.10 [0.48-3.71] respectively). We found no essential associations for the other cartilage subregions or for BMLs and knee loading.
In the subacute phase after ACL injury, ipsilateral meniscal tear is associated with prolonged cartilage T2 relaxation time in the posterior tibia. This finding highlights the importance of meniscus function in the ACL-injured knee.
探讨急性前交叉韧带(ACL)损伤亚急性期膝关节磁共振成像(MRI)中半月板撕裂、骨髓损伤(BMLs)与伤后膝关节负荷之间的关联,以及它们与软骨T2弛豫时间的关系。
我们研究了128例ACL损伤患者的双侧膝关节。通过亚急性期MRI(平均伤后29天[标准差13天])确定半月板撕裂和BMLs的存在,并使用加速度计测量伤后膝关节负荷。对双侧膝关节进行了胫股软骨的手动分割和T2弛豫时间映射。我们使用了针对年龄、性别、体重指数以及从受伤到MRI检查的时间进行调整的多元线性回归模型,来评估个体间暴露因素与ACL损伤膝关节软骨T2弛豫时间之间的关联。我们还进行了配对t检验,以与个体未受ACL损伤且无相关暴露因素的对侧膝关节进行比较。
同侧半月板撕裂与双侧后胫骨浅层软骨T2弛豫时间延长之间存在关联(内侧β系数:2.88,[95%置信区间1.16 - 4.61],外侧β系数:1.88,[0.17 - 3.58])。在与对侧膝关节的配对分析中得到了证实(平均T2差异分别为1.43,[0.33 - 2.53]和2.10 [0.48 - 3.71])。我们未发现其他软骨亚区域、BMLs和膝关节负荷之间存在显著关联。
在ACL损伤后的亚急性期,同侧半月板撕裂与后胫骨软骨T2弛豫时间延长有关。这一发现凸显了半月板功能在ACL损伤膝关节中的重要性。
