Abstract
Introduction: The purpose of this study was to determine the effects of edge loading on in vivo wear of hip resurfacings from retrievals.
Methods: The wear of retrieved BHR heads and cups was assessed using a Taylor-Hobson Talyrond 290 roundness machine. The maximum deviation of the profile from an ideal circle was taken as the maximum linear wear. Edge loaded devices (Figure 1a) were classified as cups which showed the maximum area of wear crossing over the edge of the cup. For all non-edge loaded pairs (Figure 1b), the wear area on the cup was within the sphere of the cup. In this study 50 pairs (diameter size 38 mm to 54 mm) were analysed.
Results: 28 pairs were classified as edge loaded, and 22 were not. Edge loaded pairs display greater linear wear than non-edge loaded components (Table 1). Edge loaded components showed no correlation between time in vivo and linear wear.
Discussion: Edge loaded pairs have a far greater range of linear wear which may be due to the variation of the angles of the components in vivo. Edge loading may be caused by an open cup, impingement and/or high combined anteversion angle of both the head and cup. The success of a hip resurfacing depends strongly upon articulation occurring within the sphere of the cup, which is reliant upon good component orientation.
Correspondence should be addressed to BHS c/o BOA, at the Royal College of Surgeons, 35–43 Lincoln’s Inn Fields, London, WC2A 3PE, England.
