Abstract
Irradiated, thermally stabilized, highly cross-linked UHMWPE bearings have demonstrated superior wear performance and improved in vitro oxidation resistance compared with terminally gamma-sterilized bearings, yet retrieval analysis reveals unanticipated in vivo oxidation in these materials. There has been little evidence to date that oxidation in these materials is leading to degradation of mechanical properties, but since oxidation has previously been shown to cause chain scission in other materials, there is the potential for oxidation to cause decreased molecular weight and crosslink density. The aim of this study was to determine whether measured in vivo oxidation in highly cross-linked tibial bearings corresponds with a decreasing crosslink density. Retrieval analysis for three tibial bearing materials reveals that crosslink density is decreasing following in vivo duration, and that the change in crosslink density is strongly correlated with oxidation. The results suggest that oxidation in highly cross-linked materials is causing chain scissions that may impact the material properties. If the correlation between oxidation and duration continues, then as longer duration, more oxidized devices are retrieved there is a potential for measurable mechanical property changes.
