In utilising metal surfaces that are in constant contact with each other, metal-on-metal (MoM) surgical implants present a unique challenge, in the sense that their necessity is accompanied by the potential risk of wear particle generation, metal ion release and subsequent patient toxicity. This is especially true of orthopaedic devices that are faulty and subject to failure, where the metal surfaces undergo atypical degradation and release even more unwanted byproducts, as was highlighted by the recent recall of orthopaedic surgical implants. The aim of this review is to examine the area of metallosis arising from the wear of MoM articulations in orthopaedic devices, including how the surgical procedures and detection methods have advanced to meet growing performance and analytical needs, respectively.
Keywords: AAS; Blood; Chromium; Clinical; Cobalt; Continuum source; FAAS; GFAAS; HR-CS-GFAAS; High resolution; ICP-MS; ICP-MS/MS; ICP-SFMS; Magnetic sector; Metallosis; Orthopaedic; Sector field; Serum; Trace metal; Urine.
Copyright © 2016 The Canadian Society of Clinical Chemists. Published by Elsevier Inc. All rights reserved.