LONGITUDINAL STUDY OF COBALT LEVELS AFTER METAL-METAL BEARING REVISION TO CONVENTIONAL BEARING HIP REPLACEMENT.

Abstract

Introduction: Metal-on-metal (MM) bearing wear releases soluble metal ions which enter the systemic circulation and insoluble metal particles which collect in the periprosthetic tissues and disseminate through the lymphoreticular system. Disseminated particles also release ions through corrosion. The rate of metal ion level reduction following revision of a MM bearing offers insights into the relative contribution of metal ions from the bearing and from disseminated particles.

Methods: Whole blood concentrations and daily output of metal ions were studied, prospectively over a period of one year, in seven patients whose MM resurfacings were revised to metal–polythylene THRs. None of the patients had other metal devices or compromised renal function.

Results: Preoperative levels in these patients were highly elevated as expected from a failing device. Thereafter there is a trend of reducing metal levels in whole blood and urine in a biphasic manner. Over the first four weeks there is a rapid decline, followed by a period of slow decrease over the next twelve months (figure).

Discussion: The steep reduction of cobalt release immediately following revision supports the reported short half-life of cobalt ions. The later protracted trend can only be accounted for through progressive corrosion from previously worn particles. However this trend is also not sustained indefinitely and tends to approach control levels eventually.

Some authors have suggested that metal wear in patients with well-functioning MM bearings occurs only during the run-in wear phase and that continued corrosion of metal particles released during that period is responsible for metal level elevation later on. However the reducing trend in the later phase following revision in this study suggests that metal ion elevation from corrosion is not sustained indefinitely and therefore cannot by itself account for the persistent elevation of systemic metal levels throughout. Bearing wear continues to occur throughout bearing life.