Isabelle Catelas1, Markus A Wimmer. 1. Department of Mechanical Engineering, University of Ottawa, 161 Louis Pasteur, Ottawa, ON K1N 6N5, Canada. icatelas@hotmail.com
Abstract
BACKGROUND: Despite the renewed interest in metal-on-metal implants in the past two decades, the underlying wear mechanisms and biological effects are still not fully understood. METHODS: This paper first reviews the tribology of metal-on-metal bearings, bringing new insights into the interaction of wear and corrosion, and putting the characteristics and the potential origin of wear particles in perspective with the proposed wear mechanisms. It then summarizes the current knowledge on the biological effects of particles and metal ions in relation to these wear mechanisms. RESULTS: Tribochemical reactions play an important role in the wear of metal-on-metal joints. The generated tribomaterial, which progressively forms by mechanical mixing of the uppermost nanocrystalline zone of the metal surface with proteins from the synovial fluid, governs the wear rate and influences the corrosive behavior of the bearing. Nanometer-sized wear particles may initially originate from the passivation layer covering the implant surface and then detach from this tribolayer. The inflammatory response observed surrounding metal-on-metal implants appears to be lower than that around metal-on-polyethylene implants. However, metallic byproducts, which can complex with proteins, may lead to a T lymphocyte-mediated hypersensitivity response. CONCLUSIONS: The tribolayer appears to have beneficial effects on the wear rate. Much information has been gained on wear particle characteristics, but the exact mechanisms of particle detachment remain to be further elucidated. Excessive wear along with a hypersensitivity response may be at the origin of the early adverse tissue reactions that have been recently reported in some patients with metal-on-metal implants.
BACKGROUND: Despite the renewed interest in metal-on-metal implants in the past two decades, the underlying wear mechanisms and biological effects are still not fully understood. METHODS: This paper first reviews the tribology of metal-on-metal bearings, bringing new insights into the interaction of wear and corrosion, and putting the characteristics and the potential origin of wear particles in perspective with the proposed wear mechanisms. It then summarizes the current knowledge on the biological effects of particles and metal ions in relation to these wear mechanisms. RESULTS: Tribochemical reactions play an important role in the wear of metal-on-metal joints. The generated tribomaterial, which progressively forms by mechanical mixing of the uppermost nanocrystalline zone of the metal surface with proteins from the synovial fluid, governs the wear rate and influences the corrosive behavior of the bearing. Nanometer-sized wear particles may initially originate from the passivation layer covering the implant surface and then detach from this tribolayer. The inflammatory response observed surrounding metal-on-metal implants appears to be lower than that around metal-on-polyethylene implants. However, metallic byproducts, which can complex with proteins, may lead to a T lymphocyte-mediated hypersensitivity response. CONCLUSIONS: The tribolayer appears to have beneficial effects on the wear rate. Much information has been gained on wear particle characteristics, but the exact mechanisms of particle detachment remain to be further elucidated. Excessive wear along with a hypersensitivity response may be at the origin of the early adverse tissue reactions that have been recently reported in some patients with metal-on-metal implants.
Authors: Robert A E Clayton; Ian Beggs; Donald M Salter; M Helen Grant; James T Patton; Daniel E Porter Journal: J Bone Joint Surg Am Date: 2008-09 Impact factor: 5.284
Authors: Nadim James Hallab; Shelley Anderson; Marco Caicedo; Amee Brasher; Katalin Mikecz; Joshua J Jacobs Journal: J Biomed Mater Res A Date: 2005-07-01 Impact factor: 4.396
Authors: Warren Leigh; Paul O'Grady; Emma M Lawson; Noelyn Anne Hung; Jean-Claude Theis; John Matheson Journal: J Arthroplasty Date: 2008-03-07 Impact factor: 4.757
Authors: H Pandit; S Glyn-Jones; P McLardy-Smith; R Gundle; D Whitwell; C L M Gibbons; S Ostlere; N Athanasou; H S Gill; D W Murray Journal: J Bone Joint Surg Br Date: 2008-07
Authors: Cathy Tkaczyk; Olga L Huk; Fackson Mwale; John Antoniou; David J Zukor; Alain Petit; Maryam Tabrizian Journal: J Biomed Mater Res A Date: 2010-07 Impact factor: 4.396
Authors: Christopher Brown; Sophie Williams; Joanne L Tipper; John Fisher; Eileen Ingham Journal: J Mater Sci Mater Med Date: 2006-12-14 Impact factor: 4.727
Authors: J P Kretzer; C Zietz; C Schröder; J Reinders; L Middelborg; A Paulus; R Sonntag; R Bader; S Utzschneider Journal: Orthopade Date: 2012-10 Impact factor: 1.087
Authors: Smitha E Mathew; Yong Xie; Leila Bagheri; Liam E Claton; Lin Chu; Amr Badreldin; Matthew P Abdel; Andre J van Wijnen; Geoffrey F Haft; Todd A Milbrandt; A Noelle Larson Journal: J Pediatr Orthop Date: 2022-03-01 Impact factor: 2.324
Authors: Sergio Gabarre; Antonio Herrera; Jesús Mateo; Elena Ibarz; Antonio Lobo-Escolar; Luis Gracia Journal: Biomed Res Int Date: 2014-08-27 Impact factor: 3.411
Authors: Brian Scharf; Cristina C Clement; Valerio Zolla; Giorgio Perino; Bo Yan; S Gokhan Elci; E Purdue; S Goldring; Frank Macaluso; Neil Cobelli; Richard W Vachet; Laura Santambrogio Journal: Sci Rep Date: 2014-07-17 Impact factor: 4.379