Nanoindentation Study of Phase-pure Highly Crystalline Hydroxyapatite Coatings Deposited by Microplasma Spraying.

Q3 Medicine Open Biomedical Engineering Journal Pub Date : 2015-02-27 eCollection Date: 2015-01-01 DOI:10.2174/1874120701509010065
Arjun Dey, Anoop Kumar Mukhopadhyay
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引用次数: 3

Abstract

The present contribution has originated from a critical biomedical engineering issue e.g., loosening of metallic prostheses fixed with poly(methyl methylacrylate) (PMMA) bone cement especially in the case of hip joint replacement which ultimately forces the patient to undergo a revision surgery. Subsequently surgeons invented a cementless fixation technology introducing a bioactive hydroxyapatite (HAp) coating to the metallic implant surface. A wide variety of different coating methods have been developed to make the HAp coating on metallic implants more reliable; of which ultimately the plasma spraying method has been commercially accepted. However, the story was not yet finished at all, as many questions were raised regarding coating adherence, stability and bio-functionality in both in vitro and in vivo environments. Moreover, it has been now realized that the conventional high power plasma spraying (i.e. conventional atmospheric plasma spraying, CAPS) coating method creates many disadvantages in terms of phase impurity; reduced porosity limiting osseointegration and residual stresses which ultimately lead to inadequate mechanical properties and delamination of the coating. Further, poor crystallinity of HAp deposited by CAPS accelerates the rate of bioresorption, which may cause poor adhesion due to quick mass loss of HAp coatings. Therefore, in the present work a very recently developed method e.g. low power microplasma spraying method was utilized to coat HAp on SS316L substrates to minimize the aforementioned problems associated with commercial CAPS HAp coatings. Surgical grade SS316L has been chosen as the substrate material because it is more cost effective than Ti6Al4V and CoCrMo alloys.

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微等离子喷涂沉积相纯高结晶羟基磷灰石涂层的纳米压痕研究。
目前的贡献源于一个关键的生物医学工程问题,例如,用聚甲基丙烯酸甲酯(PMMA)骨水泥固定的金属假体松动,特别是在髋关节置换术的情况下,最终迫使患者进行翻修手术。随后,外科医生发明了一种无骨水泥固定技术,将生物活性羟基磷灰石(HAp)涂层引入金属种植体表面。为了使羟基磷灰石在金属植入体上的涂层更加可靠,人们开发了多种不同的涂层方法;其中等离子喷涂法最终被商业所接受。然而,这个故事还没有结束,因为在体外和体内环境中,关于涂层的粘附性,稳定性和生物功能提出了许多问题。此外,人们已经认识到,传统的大功率等离子喷涂(即常规大气等离子喷涂,CAPS)涂层方法在相杂质方面存在许多缺点;孔隙率降低限制了骨整合和残余应力,最终导致涂层机械性能不足和分层。此外,CAPS沉积的HAp结晶度差,加快了生物再吸收的速度,这可能导致HAp涂层的质量损失快,导致附着力差。因此,在目前的工作中,采用了一种最近开发的方法,例如低功率微等离子体喷涂方法,将HAp涂覆在SS316L基板上,以最大限度地减少上述与商用CAPS HAp涂层相关的问题。手术级SS316L被选择作为衬底材料,因为它比Ti6Al4V和CoCrMo合金更具成本效益。
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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来源期刊
Open Biomedical Engineering Journal
Open Biomedical Engineering Journal Medicine-Medicine (miscellaneous)
CiteScore
1.60
自引率
0.00%
发文量
4
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