Finite element analyses of femoroacetabular impingement before and after hip arthroscopy.

In this study, three-dimensional finite element models based on the specific anatomy of a patient presenting a femoroacetabular impingement of the "cam" type were developed. The finite element meshes were obtained from arthrographic magnetic resonance images captured before and after hip arthroscopy. All soft tissues were considered linear elastic and isotropic and the bones were assumed as rigid. Physiological loads and rotational motions were applied. Stresses and contact pressures were evaluated in these patient specific models in order to better interpret the mechanism of aggression of the cartilages and of the labrum and to evaluate the effectiveness of the surgery. The results of the analyses are presented and discussed. The values obtained for the stresses and contact pressures in the pathological hip were similar to those reported by other models based on idealised geometries or similar reconstruction methodologies and were larger than the ones obtained in the same hip after the surgical treatment. The surgical treatment effectively reduces the intra-articular pressures and stresses approaching the values of a normal hip. Thus, early surgical treatment may help to prevent, or delay, the joint degeneration.

Finite element simulations of a hip joint with femoroacetabular impingement.

In this study, a three-dimensional finite element (FE) model based on the specific anatomy of a patient presenting a femoroacetabular impingement of the 'cam'-type is developed. The FE meshes of the structures of interest are obtained from arthrographic magnetic resonance images. All soft tissues are considered linear elastic and isotropic, and the bones were assumed rigid. A compression of the femur on the acetabular cavity as well as flexural movements and internal rotations are applied. Stresses and contact pressures are evaluated in this patient-specific model in order to better interpret the mechanism of aggression of the femoral and acetabular cartilages. The corresponding results are presented and discussed. The values obtained for the contact pressures are similar to those reported by other models based on idealised geometries. An FE analysis of a non-cam hip is also performed for comparison with the pathological case.