Abstract
Hip osteoarthritis may be caused by increased or abnormal intra-articular forces, which are known to be related to structural articular cartilage damage. Femoral torsional deformities have previously been correlated with hip pain and labral damage, and they may contribute to the onset of hip osteoarthritis by exacerbating the effects of existing pathoanatomies, such as cam and pincer morphologies. A comprehensive understanding of the influence of femoral morphotypes on hip joint loading requires subject-specific morphometric and biomechanical data on the movement characteristics of individuals exhibiting varying degrees of femoral torsion. The aim of this study was to evaluate hip kinematics and kinetics as well as muscle and joint loads during gait in a group of adult subjects presenting a heterogeneous range of femoral torsion by means of personalized musculoskeletal models. Thirty-seven healthy volunteers underwent a 3D gait analysis at a self-selected walking speed. Femoral torsion was evaluated with low-dosage biplanar radiography. The collected motion capture data were used as input for an inverse dynamics analysis. Personalized musculoskeletal models were created by including femoral geometries that matched each subject’s radiographically measured femoral torsion. Correlations between femoral torsion and hip kinematics and kinetics, hip contact forces (HCFs), and muscle forces were analyzed. Within the investigated cohort, higher femoral antetorsion led to significantly higher anteromedial HCFs during gait (medial during loaded stance phase and anterior during swing phase). Most of the loads during gait are transmitted through the anterior/superolateral quadrant of the acetabulum. Correlations with hip kinematics and muscle forces were also observed. Femoral antetorsion, through altered kinematic strategies and different muscle activations and forces, may therefore lead to altered joint mechanics and pose a risk for articular damage. The method proposed in this study, which accounts for both morphological and kinematic characteristics, might help in identifying in a clinical setting patients who, as a consequence of altered femoral torsional alignment, present more severe functional impairments and altered joint mechanics and are therefore at a higher risk for cartilage damage and early onset of hip osteoarthritis.
Highlights
Increased or abnormal intra-articular forces can lead to structural damages to the articular cartilage, loss of joint integrity, and tissue degeneration and to hip osteoarthritis (OA) (Solomon, 1976; Klaue et al, 1991; Tanzer and Noiseux, 2004; Ganz et al, 2008; Felson, 2013)
This study investigated the effect of femoral torsion on hip kinematics, kinetics, muscle forces, and contact forces during gait in a group of asymptomatic adults presenting a heterogeneous range of femoral torsion
hip contact forces (HCFs) predicted through musculoskeletal models were compared against the predictions obtained with a generic model, and the changes in muscle lever arms associated with different degrees of femoral torsion were qualitatively analyzed
Summary
Increased or abnormal intra-articular forces can lead to structural damages to the articular cartilage, loss of joint integrity, and tissue degeneration and to hip osteoarthritis (OA) (Solomon, 1976; Klaue et al, 1991; Tanzer and Noiseux, 2004; Ganz et al, 2008; Felson, 2013). The altered stresses in localized areas of the cartilage are often determined by a combination of overall excessive loading, due for instance to obesity or intense physical activities, as well as by morphological abnormalities in the hip joint structures (Felson, 2013). Femoral torsion can considerably affect impingementfree hip range of motion, aggravating or compensating excessive cartilage loading caused by concomitant cam/pincer deformities (Schmaranzer et al, 2019). Femoral torsional and coronal deformities have previously been correlated with hip pain and labral damage (Tönnis and Heinecke, 1999). The presence of structural hip abnormalities is often observed in patients presenting labral tears (Wenger et al, 2004). Abnormal values of femoral torsion could represent a risk factor for hip dislocation (Upadhyay et al, 1985; Novais et al, 2019)
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