Hydroxyapatite Consolidated by Zirconia: Applications for Dental Implant

Journal of Composites and Compounds Pub Date : 2020-02-01 DOI:10.29252/jcc.2.1.4

F. Sharifianjazi, A. Pakseresht, Mehdi Shahedi Asl, Amirhossein Esmaeilkhanian, Hiva Nargesi khoramabadi, Ho Won Jang, M. Shokouhimehr

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引用次数: 39

Abstract

Zirconia has garnered significant attention as a new ceramic material for dental implant due to its excellent biocompatibility, strength, and promoting the oral rehabilitation with high aesthetic, biological and mechanical properties. It also expedites the amelioration of bone minerals surface by its bio-integrative ingredients which are naturally close to ceramic intrinsic of bone. Alternatively, hydroxyapatite (HAp) has prevalently been used in dental implant due to its high biocompatibility. However, it generally shows weak strength and mechanical properties. Consequently, incorporating zirconia and HAp produces appropriate composites for dental implant having improved physiochemical properties. This review provides discussions addressing the methodologies and exemplars for the designed composites used in dental implant applications. The representative methods for surface modification of zirconia incorporating HAp (i.e. sol-gel, hot isostatic pressing, plasma spraying, electrophoretic deposition, etc.) is highlighted. The advantages, disadvantages, biocompatibility, strength, and osseointergration and biointegration properties of the presented composites are explored.

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氧化锆固结羟基磷灰石:在种植体中的应用

氧化锆作为一种新型的种植体陶瓷材料，因其具有良好的生物相容性和强度，并能以较高的美学、生物学和力学性能促进口腔康复而备受关注。它还通过其天然接近骨陶瓷本质的生物整合成分加速骨矿物质表面的改善。另外，羟基磷灰石(HAp)由于其高生物相容性已被广泛用于种植体。然而，它通常表现出较弱的强度和力学性能。因此，将氧化锆和羟基磷灰石结合在一起，可以生产出具有更好的物理化学性能的牙种植体复合材料。这篇综述提供了讨论的方法和范例的设计复合材料用于种植牙的应用。重点介绍了含HAp氧化锆表面改性的代表性方法(溶胶-凝胶法、热等静压法、等离子喷涂法、电泳沉积法等)。探讨了所述复合材料的优点、缺点、生物相容性、强度以及骨整合和生物整合性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Composites and Compounds

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