Wear evaluation of cobalt–chromium alloy for use in a metal‐on‐metal hip prosthesis

John, Kenneth R.; Zardiackas, Lyle D.; Poggie, Robert A.

doi:10.1002/jbm.b.10053

Cited by 68 publications

(21 citation statements)

References 26 publications

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“…The number of loading cycles varies typically from 3 up to 10 Mcycles at frequencies of 1 or 1.13 Hz. Table 2 summarizes the key features of published papers on the characterisation of metal on metal CoCrMo artificial hip joints using simulators [12,[46][47][48][49][50][51][52][53][54][55][56][57][58]. Among the authors, only Yan [49] measured the evolution of open circuit potential during a simulator test.…”

Section: Simulatorsmentioning

confidence: 99%

“…With approximately 40 components [63] bovine serum is a very complex liquid with a broad reactivity spectrum. It is seldom used without additions of biocides (such as sodium azide NaN 3 ) and complexing agents (such as EDTA) to avoid metal precipitation [46][47][48]51,[53][54][55][56][57]. Moreover, it can be used at different dilutions in water [51] or Ringer's solutions [52] depending on laboratory.…”

Section: Simulatorsmentioning

confidence: 99%

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Wear of CoCrMo alloys used in metal-on-metal hip joints: A tribocorrosion appraisal

Mischler

Muñoz

2013

Wear

174

116

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a b s t r a c tA good biocompatibility, excellent mechanical properties and high corrosion resistance characterize CoCrMo alloys. Therefore they are widely used for artificial joints in biomedical implants. However, the degradation of the implants during service life leads to the release into the body of toxic ions and wear particles. This continuous degradation is of concern for long-term stability of the implants. Published literature has highlighted the relevance of lubrication as well as metallurgical and contact mechanical factors on the degradation of CoCrMo implant alloys. Recent experimental investigations have proposed tribocorrosion, i.e., the interplay of mechanical wear and corrosion by the body fluids, as one of the crucial degradation mechanism of implants. Tribocorrosion is sub-discipline of tribology and corrosion that recently made significant progresses in mechanistic understanding and modelling. The present work aims at evaluating published results on the degradation of CoCrMo alloys using existing tribocorrosion concepts. Results show that wear accelerated corrosion due to mechanical removal of the passive film during sliding is a major contribution to the overall degradation. Further, a transition from low (10 À 6 N/mm 3 m) to high (10 À 4 N/mm 3 m) wear coefficients was found at a threshold electrode potential close to 0.2 V SHE These findings clearly show that electrochemical phenomena play a key role on the tribological behaviour of biomedical CoCrMo alloy implants.

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Section: Simulatorsmentioning

confidence: 99%

Section: Simulatorsmentioning

confidence: 99%

Wear of CoCrMo alloys used in metal-on-metal hip joints: A tribocorrosion appraisal

Mischler

Muñoz

2013

Wear

174

116

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“…Both in vitro and in vivo studies have suggested that there may be considerable differences in material wear and implant failure rates based on whether implants are manufactured using a wrought, cast or heated-cast process, although the published results are contradictory [47,[57][58][59][60]. However, several authors have reported improved wear characteristics and survival rates of high carbon versus low carbon cobalt-chromium alloys in metal-on-metal hip resurfacing arthroplasties [54,56,61,62]. The commercial introduction of highly cross-linked polyethylene has reduced wear rates, with one in vitro study reporting volumetric wear rates of 3 mm 3 per million cycles compared with 48 mm 3 per million cycles before cross-linking [11].…”

Section: Potential Benefits Of Metal-on-metal Articulationsmentioning

confidence: 93%

“…After an initial run-in period over the first 1-2 years, during which time linear wear rates of 20-25 µm/year have been reported, a low steady-state linear wear rate of 2.5-10 µm/year is usually achieved [25,52,53]. This translates into a 20-180-times lower linear wear rate compared with conventional metal-onpolyethylene bearings [25,54], although because of the considerably smaller mean size of metal wear particles, the number of wear fragments is typically greater [55,56]. Even with modern metal-on-metal bearings, there is considerable heterogeneity in metallurgical properties, with variability in alloy composition and manufacturing techniques.…”

Section: Potential Benefits Of Metal-on-metal Articulationsmentioning

confidence: 94%

State of the art in hard-on-hard bearings: how did we get here and what have we achieved?

Zywiel

Sayeed

Johnson

et al. 2011

Expert Review of Medical Devices

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Total hip arthroplasty has shown excellent results in decreasing pain and improving function in patients with degenerative disease of the hip. Improvements in prosthetic materials, designs and implant fixation have now resulted in wear of the bearing surface being the limitation of this technology, and a number of hard-on-hard couples have been introduced to address this concern. The purpose of this article is to review the origins, development, survival rates and potential advantages and disadvantages of the following hard-on-hard bearings for total hip arthroplasty: metal-on-metal standard total hip arthroplasty; metal-on-metal hip resurfacing arthroplasty, ceramic-on-ceramic total hip arthroplasty; and ceramic-on-metal bearings. Improvements in the manufacturing of metal-on-metal bearings over the past 50 years have resulted in implants that provide low wear rates and allow for the use of large femoral heads. However, concerns remain regarding elevated serum metal ion levels, potential teratogenic effects and potentially devastating adverse local tissue reactions, whose incidence and pathogenesis remains unclear. Modern total hip resurfacing has shown excellent outcomes over 10 years in the hands of experienced surgeons. Current ceramic-on-ceramic bearings have demonstrated excellent survival with exceptionally low wear rates and virtually no local adverse effects. Concerns remain for insertional chipping, in vivo fracture and the variable incidence of squeaking. Contemporary ceramic-on-metal interfaces are in the early stages of clinical use, with little data reported to date. Hard-on-hard bearings for total hip arthroplasty have improved dramatically over the past 50 years. As bearing designs continue to improve with new and modified materials and improved manufacturing techniques, it is likely that the use of hard-on-hard bearings will continue to increase, especially in young and active patients.

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“…The volumetric wear rates of CoCr alloys are affected by the carbide content and the material combinations used, with the wear rate decreasing (pin-on-disc experiments) from a low-carbide head/lowcarbide cup (5.6 ± 2.4 mg) to a low-carbide head/ high-carbide cup (1.4 ± 0.9 mg) to a high-carbide head/ high-carbide cup (1.3 ± 0.6 mg) [34]. The in vivo wear rate of Metasul 1 (Sulzer Medica, Winterthur, Switzerland) bearings (high-carbide head/high-carbide cup) showed a steady-state wear rate of 2 to 5 lm per year [3,30], whereas a higher wear rate of 7.6 lm per year was reported for Sikomet TM (from a low-carbide head/low-carbide cup) bearing couples [29].…”

Section: Introductionmentioning

confidence: 99%

Immunologic Adverse Reaction Associated with Low-carbide Metal-on-metal Bearings in Total Hip Arthroplasty

Aroukatos

Repanti

Repantis

et al. 2010

Clinical Orthopaedics &Amp; Related Research

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Wear evaluation of cobalt–chromium alloy for use in a metal‐on‐metal hip prosthesis

Cited by 68 publications

References 26 publications

Wear of CoCrMo alloys used in metal-on-metal hip joints: A tribocorrosion appraisal

Wear of CoCrMo alloys used in metal-on-metal hip joints: A tribocorrosion appraisal

State of the art in hard-on-hard bearings: how did we get here and what have we achieved?

Immunologic Adverse Reaction Associated with Low-carbide Metal-on-metal Bearings in Total Hip Arthroplasty

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