How reliable are femoropelvic kinematics during deep squats? The influence of subject-specific skeletal modelling on measurement variability.

Gait & posture Pub Date : 2024-07-01 Epub Date: 2024-05-08 DOI:10.1016/j.gaitpost.2024.05.006
Dalia Al Otti, Stijn Ghijselings, Filip Staes, Lennart Scheys
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Abstract

Background: Biplanar radiography displays promising results in the production of subject-specific (S.specific) biomechanical models. However, the focus has predominantly centred on methodological investigations in gait analysis. Exploring the influence of such models on the analysis of high range of motion tasks linked to hip pathologies is warranted. The aim of this study is to investigate the effect of S.Specific modelling techniques on the reliability of deep squats kinematics in comparison to generic modelling.

Methods: 8 able-bodied male participants attended 5 motion capture sessions conducted by 3 observers and performed 5 deep squats in each. Prior to each session a biplanar scan was acquired with the reflective-markers attached. Inverse kinematics of pelvis and thigh segments were calculated based on S.specific and Generic model definition. Agreement between the two models femoropelvic orientation in standing was assessed with Bland-Altman plots and paired t- tests. Inter-trial, inter-session, inter-observer variability and observer/trial difference and ratio were calculated for squat kinematic data derived from the two modelling approaches.

Results: Compared to the Generic model, the S.Specific model produced a calibration trial that is significantly offset into more posterior pelvis tilt (-2.8±2.7), hip extension (-2.2±3.8), hip abduction (-1.2±3.6) and external rotation (-13.8±11.4). The S.specific model produced significantly different squat kinematics in the sagittal plane of the pelvis (entire squat cycle) and hip (between 40 % and 60 % of the squat cycle). Variability analysis indicated that the error magnitude between the two models was comparable (difference<2°). The S.specific model exhibited a lower variability in the observer/trial ratio in the sagittal pelvis and hip, the frontal hip, but showed a higher variability in the transverse hip.

Significance: S.specific modelling appears to introduce a calibration offset that primarily translates into an effect in the sagittal plane kinematics. However, the clinical added value of S.specific modelling in terms of reducing experimental sources of kinematic variability was limited.

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深蹲时的股骨盆运动学有多可靠?受试者特定骨骼模型对测量变异性的影响。
背景:双平面放射摄影在制作特定对象(S.specific)生物力学模型方面取得了可喜的成果。然而,重点主要集中在步态分析的方法研究上。有必要探索此类模型对分析与髋关节病变有关的高运动范围任务的影响。方法:8 名健全男性参与者参加了由 3 名观察者进行的 5 次运动捕捉训练,每次进行 5 个深蹲。在每次训练之前,都要进行一次附有反射标记的双平面扫描。根据S.specific和Generic模型定义计算骨盆和大腿节段的逆运动学。通过布兰德-阿尔特曼图和配对 t 检验来评估两种模型在站立时股骨盆方向的一致性。对两种建模方法得出的下蹲运动学数据计算了试验间、时段间、观察者间的变异性以及观察者/试验间的差异和比率:与通用模型相比,S.specific 模型产生的校准试验明显偏向于更多的骨盆后倾(-2.8±2.7)、髋关节伸展(-2.2±3.8)、髋关节外展(-1.2±3.6)和外旋(-13.8±11.4)。S.specific模型在骨盆矢状面(整个深蹲周期)和髋关节矢状面(深蹲周期的40%到60%之间)产生了明显不同的深蹲运动学。变异性分析表明,两个模型之间的误差幅度相当(差异显著性:0.5%):S.specific建模似乎引入了校准偏移,主要转化为对矢状面运动学的影响。然而,S.specific 建模在减少运动学变异性实验来源方面的临床附加值有限。
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