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Influence of Biocompatible Coating on Titanium Surface Characteristics

机译:生物相容性涂层对钛表面特性的影响

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摘要

Background: Nowadays investigations in the field of dental implants engineering are focused on bioactivity and osseointegration properties. Objective: In this study, the oxide-covered titanium was functionalized by vitamin D3 molecules via a simple self-assembly method with the aim to design more corrosion-resistant and at the same time more bioactive surface. Methods: Surface properties of the D3-coated titanium were examined by scanning electron microscopy, attenuated total reflectance Fourier transform infrared spectroscopy, and contact angle measurements, while long-term corrosion stability during immersion in an artificial saliva solution was investigated in situ by electrochemical impedance spectroscopy. Results: Results of all techniques confirmed a successful formation of the vitamin D3 layer on the oxide-covered titanium. Besides very good corrosion resistivity (~5 MΩ cm~2), the D3-modified titanium surface induced spontaneous formation of biocompatible bone-like calcium phosphates (CaP). Conclusion: Observed in vitro CaP-forming ability as a result of D3-modified titanium/artificial saliva interactions could serve as a promising predictor of in vivo bioactivity of implant materials.
机译:背景:如今,牙科植入物工程领域的调查集中在生物活性和骨整合性质上。目的:在该研究中,通过简单的自组装方法通过维生素D3分子通过维生素D3分子官能化氧化钛分子,其目的是设计更耐腐蚀,同时更加生物活性表面。方法:通过扫描电子显微镜检查D3涂覆钛的表面性质,减弱总反射率傅里叶变换红外光谱,以及接触角测量,而通过电化学阻抗原位研究了人工唾液溶液中的长期腐蚀稳定性。光谱学。结果:所有技术的结果证实了在氧化物覆盖的钛上成功形成了维生素D3层。除了非常好的腐蚀电阻率(〜5mΩcm〜2)外,D3改性钛表面诱导生物相容性骨样磷酸钙(帽)的自发形成。结论:由于D3改性钛/人工唾液相互作用,观察到体外盖板形成能力可以作为植入物质体内生物活性的有希望的预测因子。

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  • 作者

    Zeljka Petrovic; Jozefina Katic; Ankica Saric; Ines Despotovic; Nives Matijakovic; Damir Kralj; Mirela Leskovac; Marin Petkovic;

  • 作者单位

    Division of Materials Chemistry Rudjer Boskovic Institute Bijenicka cesta 54 Zagreb 10002 Croatia;

    Department of Electrochemistry Faculty of Chemical Engineering and Technology University of Zagreb Zagreb 10000 Croatia;

    Division of Materials Physics Centre of Excellence for Advanced Materials and Sensing Device Rudjer Boskovic Institute Bijenicka cesta 54 Zagreb 10002 Croatia;

    Division of Physical Chemistry Rudjer Boskovic Institute Bijenicka cesta 54 Zagreb 10002 Croatia;

    Division of Materials Chemistry Rudjer Boskovic Institute Bijenicka cesta 54 Zagreb 10002 Croatia;

    Division of Materials Chemistry Rudjer Boskovic Institute Bijenicka cesta 54 Zagreb 10002 Croatia;

    Department of Polymer Engineering and Organic Chemical Technology Faculty of Chemical Engineering and Technology University of Zagreb Zagreb 10000 Croatia;

    Department of Dental Implantology Adentro Dental Studio Zagreb 10000 Croatia;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 计量学;
  • 关键词

    Titanium; vitamin D3; self-assembly; surface coating; calcium phosphates; corrosion properties;

    机译:钛;维生素D3;自组装;表面涂层;磷酸钙;腐蚀性;

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