Biotribology of a vitamin E-stabilized polyethylene for hip arthroplasty – Influence of artificial ageing and third-body particles on wear

Biotribology of a vitamin E-stabilized polyethylene for hip arthroplasty – Influence of artificial ageing and third-body particles on wear

[Display omitted] 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 t...

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Veröffentlicht in:Acta biomaterialia 2014-07, Vol.10 (7), p.3068-3078
Hauptverfasser: Grupp, Thomas M., Holderied, Melanie, Mulliez, Marie Anne, Streller, Rouven, Jäger, Marcus, Blömer, Wilhelm, Utzschneider, Sandra
Format: Artikel
Sprache:eng
Schlagworte:
Arthroplasty, Replacement, Hip
Equipment Failure Analysis
Hip wear simulation
In Vitro Techniques
Materials Testing
Oxidative degradation
Oxidative Stress
Polyethylene - administration & dosage
Polyethylene - chemistry
Third-body contamination
Vitamin E - administration & dosage
Vitamin E - chemistry
Vitamin E stabilization
XLPE remelted
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container_end_page 3078
container_issue 7
container_start_page 3068
container_title Acta biomaterialia
container_volume 10
creator Grupp, Thomas M.
Holderied, Melanie
Mulliez, Marie Anne
Streller, Rouven
Jäger, Marcus
Blömer, Wilhelm
Utzschneider, Sandra
description [Display omitted] 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 30kGy, N2; highly cross-linked and remelted: γ-irradiation 75kGy, EO; highly cross-linked and vitamin E (0.1%) blended: electron beam 80kGy, 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 5bar) with a duration of 2, 4, 5 or 6weeks. In conclusion, after 2weeks 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 5weeks, 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 6weeks, resulting in a constant wear behaviour.
doi_str_mv 10.1016/j.actbio.2014.02.052
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Hip wear simulation was performed with three different polyethylene inlay materials (standard: γ-irradiation 30kGy, N2; highly cross-linked and remelted: γ-irradiation 75kGy, EO; highly cross-linked and vitamin E (0.1%) blended: electron beam 80kGy, 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 5bar) with a duration of 2, 4, 5 or 6weeks. In conclusion, after 2weeks 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 5weeks, 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 6weeks, resulting in a constant wear behaviour.</description><identifier>ISSN: 1742-7061</identifier><identifier>EISSN: 1878-7568</identifier><identifier>DOI: 10.1016/j.actbio.2014.02.052</identifier><identifier>PMID: 24631660</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Arthroplasty, Replacement, Hip ; Equipment Failure Analysis ; Hip wear simulation ; In Vitro Techniques ; Materials Testing ; Oxidative degradation ; Oxidative Stress ; Polyethylene - administration &amp; dosage ; Polyethylene - chemistry ; Third-body contamination ; Vitamin E - administration &amp; dosage ; Vitamin E - chemistry ; Vitamin E stabilization ; XLPE remelted</subject><ispartof>Acta biomaterialia, 2014-07, Vol.10 (7), p.3068-3078</ispartof><rights>2014 Acta Materialia Inc.</rights><rights>Copyright © 2014 Acta Materialia Inc. 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Hip wear simulation was performed with three different polyethylene inlay materials (standard: γ-irradiation 30kGy, N2; highly cross-linked and remelted: γ-irradiation 75kGy, EO; highly cross-linked and vitamin E (0.1%) blended: electron beam 80kGy, 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 5bar) with a duration of 2, 4, 5 or 6weeks. In conclusion, after 2weeks 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 5weeks, remelted XLPE also starts oxidate, in correlation with increased wear. 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source MEDLINE; Access via ScienceDirect (Elsevier)
subjects Arthroplasty, Replacement, Hip
Equipment Failure Analysis
Hip wear simulation
In Vitro Techniques
Materials Testing
Oxidative degradation
Oxidative Stress
Polyethylene - administration & dosage
Polyethylene - chemistry
Third-body contamination
Vitamin E - administration & dosage
Vitamin E - chemistry
Vitamin E stabilization
XLPE remelted
title Biotribology of a vitamin E-stabilized polyethylene for hip arthroplasty – Influence of artificial ageing and third-body particles on wear
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