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Susipažinkite - E1™ Antioksidantais praturtinanti technologija
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Siekdama harmonizuoti pasaulini savo produkcijos ženklinima kompanija Biomet, E-Poly™HXLPE polietilena pervadina i E1™ Antioxidant Infused Technology..
Ta pati puiki technologija, tik kitu vardu
E1™ išlieka pirmasis polietilenas, kurio gamyboje, pasitelkiant vitamino E laisvuju radikalu stabilizacijos metodus, išsprestos problemos su anksciau taikytu perlydymu bei atkaitinimu1-4 . Todel E1™ privalumai yra šie:
• Ženkliai sumažinti devejimosi rodikliai5
• Didesnis stiprumas lyginant su perlydytais polietilenais5-7
• Tikra apsauga nuo oksidacijos5,8
Vienintelis pasikeitimas - naujas produkto ženklinimas pakuotese ir literaturoje. Siekiant sumažinti painiava apie ši pasikeitima chirurgus ir ligoniniu personala stengsis informuotivietiniai Biomet atstovai.
Ka E1™ Antioxidant Infused Technology reiškia Jums ir kompanijai Biomet:
• E1™, pirmasis Vitaminu E praturtintas polietilenas.
• E1™, pirmasis polietilenas kurio gamyboje naudojamas antioksidantas.
• E1™, numeris #1 polietileno artikuliacijos technologijose.
Šaltiniai
1. Halley, D. et al. Recurrent Dislocation After Total Hip Replacement with a Large Prosthetic Femoral Head. Journal of Bone and Joint Surgery. 86-A(4): 827– 30, 2004.
2. Bhattacharyya, S. et al. Severe In Vivo Oxidation in a Limited Series of Retrieved Highly-Crosslinked UHMWPE Acetabular Components with Residual Free Radicals. Paper
No. 0276. ORS San Francisco, CA. March 2004.
3. Currier, B.H. et al. Crossfi re Retrievals—What Can We Learn? Paper No. 1182. ORS. Washington D.C. March 2005.
4. Ries, Michael D. Effect of Cross-linking on the Microstructure and Mechanical Properties of Ultra-high Molecular Weight Polyethylene. Clinical Orthopaedics and Related
Research. (440):149–156, 2005.
5. Biomet Biomaterials Laboratory ‘The revolutionary second generation vitamin E stabilsed highlycrosslinked UHMWPE’ Jan 2007
6. Wannomnnomae, K. Environmental Stress Cracking of Two-Tocopherol Doped, Irradiated UHMWPEs and Two Contemporary UHMWPEs. Report Provided by the
Orthopaedic Biomechanics and Biomaterials Laboratory at Massachusetts General Hospital. January 12, 2007.
7. Bhambri, S. et al. The effect of aging on mechanical properties of melt-annealed highly crosslinked UHMWPE. Crosslinked and Thermally Treated Ultra-High Molecular
Weight Polyethylene for Joint Replacements. 171–82, 2004.
8. Muratoglu, O. et al. Wear Resistance and Mechanical Properties of Highly Cross-Linked, Ultrahigh-Molecular Weight Polyethylene Doped With Vitamin E. The Journal of
Arthroplasty. 21(4): 580–591, 2006