步态可变性结构与 ACL 重建后更差的软骨组成有关。
Gait Variability Structure Linked to Worse Cartilage Composition Post-ACL Reconstruction.
机构信息
Department of Exercise and Sport Science, University of North Carolina at Chapel Hill, Chapel Hill, NC.
Department of Physical Medicine and Rehabilitation, University of Colorado Anschutz Medical Campus, Aurora, CO.
出版信息
Med Sci Sports Exerc. 2023 Aug 1;55(8):1499-1506. doi: 10.1249/MSS.0000000000003174. Epub 2023 Mar 21.
INTRODUCTION
Aberrant gait variability has been observed after anterior cruciate ligament reconstruction (ACLR), yet it remains unknown if gait variability is associated with early changes in cartilage composition linked to osteoarthritis development. Our purpose was to determine the association between femoral articular cartilage T1ρ magnetic resonance imaging relaxation times and gait variability.
METHODS
T1ρ magnetic resonance imaging and gait kinematics were collected in 22 ACLR participants (13 women; 21 ± 4 yr old; 7.52 ± 1.43 months post-ACLR). Femoral articular cartilage from the ACLR and uninjured limbs were segmented into anterior, central, and posterior regions from the weight-bearing portions of the medial and lateral condyles. Mean T1ρ relaxation times were extracted from each region and interlimb ratios (ILR) were calculated (i.e., ACLR/uninjured limb). Greater T1ρ ILR values were interpreted as less proteoglycan density (worse cartilage composition) in the injured limb compared with the uninjured limb. Knee kinematics were collected at a self-selected comfortable walking speed on a treadmill with an eight-camera three-dimensional motion capture system. Frontal and sagittal plane kinematics were extracted, and sample entropy was used to calculate kinematic variability structure (KV structure ). Pearson's product-moment correlations were conducted to determine the associations between T1ρ and KV structure variables.
RESULTS
Lesser frontal plane KV structure was associated with greater mean T1ρ ILR in the anterior lateral ( r = - 0.44, P = 0.04) and anterior medial condyles ( r = - 0.47, P = 0 .03). Lesser sagittal plane KV structure was associated with greater mean T1ρ ILR in the anterior lateral condyle ( r = - 0.47, P = 0.03).
CONCLUSIONS
The association between less KV structure and worse femoral articular cartilage proteoglycan density suggests a link between less variable knee kinematics and deleterious changes joint tissue changes. The findings suggest that less knee kinematic variability structure is a mechanism linking aberrant gait to early osteoarthritis development.
简介
前交叉韧带重建(ACLR)后观察到异常步态可变性,但尚不清楚步态可变性是否与与骨关节炎发展相关的早期软骨成分变化有关。我们的目的是确定股骨关节软骨 T1ρ磁共振成像弛豫时间与步态可变性之间的关联。
方法
在 22 名 ACLR 参与者(13 名女性;21 ± 4 岁;ACL 后 7.52 ± 1.43 个月)中收集 T1ρ磁共振成像和步态运动学。从内侧和外侧髁的负重部分将 ACLR 和未受伤肢体的股骨关节软骨分割成前、中和后区域。从每个区域提取平均 T1ρ弛豫时间,并计算肢体间比值(ILR)(即 ACLR/未受伤肢体)。受伤肢体的 T1ρ ILR 值越大,表明与未受伤肢体相比,软骨中蛋白聚糖密度越低(软骨成分越差)。在跑步机上以自我选择的舒适步行速度使用八相机三维运动捕捉系统收集膝关节运动学。提取额状面和矢状面运动学,并使用样本熵计算运动学可变性结构(KV 结构)。进行皮尔逊积矩相关分析以确定 T1ρ与 KV 结构变量之间的关联。
结果
较小的额状面 KV 结构与前外侧(r = -0.44,P = 0.04)和前内侧髁(r = -0.47,P = 0.03)的平均 T1ρ ILR 较大相关。较小的矢状面 KV 结构与前外侧髁的平均 T1ρ ILR 较大相关(r = -0.47,P = 0.03)。
结论
较小的 KV 结构与较差的股骨关节软骨蛋白聚糖密度之间的关联表明膝关节运动学变异性较小与关节组织变化的有害变化之间存在联系。研究结果表明,膝关节运动学可变性结构较小是异常步态与早期骨关节炎发展相关的机制。
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