Inversion of the acetabular labrum causes increased localized contact pressure on the femoral head: a biomechanical study.

Abstract

Although studies suggest that subchondral insufficiency fracture of the femoral head may cause rapidly progressive osteoarthritis of the hip, the mechanism of that relationship remains unclear. Our biomechanical study aimed to provide more data in this area by quantifying pressure distribution on the femoral head for normal and inverted hips and by determining the effects of labral inversion on pressure distribution across the joint, focusing on types of fracture under load. We tested mid-sized fourth-generation composite femurs at 15° of adduction, and applied 1mm/min of axial compressive force to the femoral heads until failure. Additionally, single loads (3000N) were applied using Prescale film to investigate pressure distribution on the femoral head, with or without silicone rubber representing entrapment of an inverted acetabular labrum. In tests with an external load of 3000N, the mean pressure for 10 × 5mm of silicone rubber was 11.09MPa, significantly greater (about 5.7-fold) than 1.94MPa without silicone rubber. Different fracture patterns were observed with and without the 10 × 5mm silicone rubber; when the 10 × 5mm silicone rubber specimens were used, all eight cases showed fractures in the anterior femoral head. When silicone rubber representing an inverted acetabular labrum was placed between a hemispherical metallic platen and a composite bone model, the silicone rubber areas were subjected to extreme concentration of stress. The fractures that developed at the silicone rubber areas clearly represented subchondral fractures of the femoral head, rather than fractures of the femoral neck.