Title of article
Biotribology of a vitamin E-stabilized polyethylene for hip arthroplasty – Influence of artificial ageing and third-body particles on wear
Author/Authors
Grupp، نويسنده , , Thomas M. and Holderied، نويسنده , , Melanie and Mulliez، نويسنده , , Marie Anne and Streller، نويسنده , , Rouven and Jنger، نويسنده , , Marcus and Blِmer، نويسنده , , Wilhelm and Utzschneider، نويسنده , , Sandra، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
11
From page
3068
To page
3078
Abstract
The objective of our study was to evaluate the influence of prolonged artificial ageing on oxidation resistance and the subsequent wear behaviour of vitamin E-stabilized, in comparison to standard and highly cross-linked remelted polyethylene (XLPE), and the degradation effect of third-body particles on highly cross-linked remelted polyethylene inlays in total hip arthroplasty. Hip wear simulation was performed with three different polyethylene inlay materials (standard: γ-irradiation 30 kGy, N2; highly cross-linked and remelted: γ-irradiation 75 kGy, EO; highly cross-linked and vitamin E (0.1%) blended: electron beam 80 kGy, EO) machined from GUR 1020 in articulation with ceramic and cobalt–chromium heads. All polyethylene inserts beneath the virgin references were subjected to prolonged artificial ageing (70 °C, pure oxygen at 5 bar) with a duration of 2, 4, 5 or 6 weeks. In conclusion, after 2 weeks of artificial ageing, standard polyethylene shows substantially increased wear due to oxidative degradation, whereas highly cross-linked remelted polyethylene has a higher oxidation resistance. However, after enhanced artificial ageing for 5 weeks, remelted XLPE also starts oxidate, in correlation with increased wear. Vitamin E-stabilized polyethylene is effective in preventing oxidation after irradiation cross-linking even under prolonged artificial ageing for up to 6 weeks, resulting in a constant wear behaviour.
Keywords
Vitamin E stabilization , XLPE remelted , Oxidative Degradation , Third-body contamination , Hip wear simulation
Journal title
Acta Biomaterialia
Serial Year
2014
Journal title
Acta Biomaterialia
Record number
1758211
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