Abstract
Introduction
The development of new bearing surfaces for total joint replacement is constantly evolving. Oxidized zirconium (Oxinium) has been introduced for use in total hip arthroplasty (THA) and total knee arthroplasty (TKA). One of the most common causes of failure of THA is aseptic loosening secondary to polyethylene wear debris. The aetiology of wear is multifactorial and includes adhesive, abrasive, third-body and fatigue wear mechanisms. Oxidized zirconium is a relatively new material that features an oxidized ceramic surface chemically bonded to a hard metallic substrate. This material possesses the reduced polyethylene wear characteristics of a ceramic, without the increased risk of implant fracture While short-term results of oxidized zirconium in THA have been reported, there have been no reports on retrieved highly cross linked PE articulating with Oxinium headsObjectives:
Objectives
The purpose of this study was to compare matched pairs of retrieved highly cross-linked polyethylene (XLPE) acetabular liners with OxZr and CoCr articulation. The liners were examined for evidence of wear damage, including articular surface damage, impingement, screw-hole creep, and rim cracks
Materials and Methods
Four retrieved highly cross-linked polyethylene (XLPE) acetabular liners with 32mm OxZr femoral heads were identified and matched to four retrieved highly cross-linked polyethylene (XLPE) acetabular liners with 32mm CoCr femoral heads by duration of implantation, patient age, and body mass index. Visual damage grading of the articular surface was performed by two independent graders by direct visualization and by light stereomicroscopy. The articular surfaces were subjectively graded for abrasion, burnishing, cracking, delamination, pitting, plastic deformation, third body debris, and scratching using a 0 to 3 scale as described by Hood et al. Liners were divided into quadrants with the elevated rim, when present, to the left and the quadrants labeled in a clockwise fashion beginning in the upper left hand corner. When an elevated rim was not present, liners were divided into quadrants based on the ocation of the etchings. Each quadrant was scored separately.
Results
The retrieved components showed predominantly abrasion and burnishing primarily in zones 1 and 2 representing the supero-anterior and supero- posterior regions in the liner. The mean damage score for the Oxinium group was 17.3 vs 23.3 in the CoCr group. The mean time in vivo for the oxinium group was 7.1 yrs vs 4.5 yrs for the CoCr group. Interestingly, the damage scores in zones 3 and 4 were very similar in both groups representing the infero post and anterior portions on the liner.
Conclusion
The development of new bearing surfaces for total joint replacement is constantly evolving and will continue to do so as polyethylene wear and osteolysis continue to be a major problem in the long-term survival of total hip arthoplasties. CoCr roughens significantly more in situ compared with OxZr components. Despite the small number of retrieved implants in our study, OxZr demonstrated lower damage on XLPE liners when compared to the CoCr group. Longer-term studies will be necessary to establish the overall clinical fatigue performance of highly crosslinked liners with newer bearing surfaces such as OxZr.
