Abstract

The total hip arthroplasty procedure has improved substantially over the past two decades, including the design, materials used, and the fixation. Minimizing bearing surface wear has become a determinant of long-term implant survival. Approaches to minimize bearing surface wear have included improvement in polyethylene as well as the introduction of hard-on-hard bearing couples. Presently, the most commonly used hard bearing surfaces include metal-on-metal (MOM) and ceramic-on-ceramic (COC) couples. Both have excellent tribological properties, but they also have limitations. Second-generation MOM articulations have lower wear rates compared with metal-on-ultra-high-molecular-weight polyethylene (UHMWPE)1-3. However, despite lower volumetric wear, the wear particles are very small and their presence locally and systemically is concerning4-11. COC articulations have better wear properties than MOM and UHMWPE couples12-17, but issues such as squeaking18,19 and implant fracture remain problematic16,20,21. In the hope of overcoming the adverse issues of MOM and COC bearing couples, an innovative ceramic-on-metal (COM) articulation, utilizing a ceramic head and metal liner, has been recently introduced. Proposed advantages of COM couples include reduced wear, with resultant lower serum metal ion levels compared with MOM12,17,22-24, although COM and COC couples have similar wear rates12,24,25. Adverse soft-tissue reactions are a well-known complication of MOM hip resurfacing arthroplasty7,26-28 as well as contemporary MOM total hip arthroplasty29,30. Such soft-tissue reactions have not been reported with COM bearings; however, these devices have had limited use and only short-term follow-up. We report the case of a patient who experienced early failure of a COM total hip arthroplasty. The patient was informed that data concerning her case would be …

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