Reality of dental implant surface modification: a short literature review.

Q3 Medicine
Open Biomedical Engineering Journal Pub Date : 2014-10-31 eCollection Date: 2014-01-01 DOI:10.2174/1874120701408010114
In-Sung Yeo
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引用次数: 66

Abstract

Screw-shaped endosseous implants that have a turned surface of commercially pure titanium have a disadvantage of requiring a long time for osseointegration while those implants have shown long-term clinical success in single and multiple restorations. Titanium implant surfaces have been modified in various ways to improve biocompatibility and accelerate osseointegration, which results in a shorter edentulous period for a patient. This article reviewed some important modified titanium surfaces, exploring the in vitro, in vivo and clinical results that numerous comparison studies reported. Several methods are widely used to modify the topography or chemistry of titanium surface, including blasting, acid etching, anodic oxidation, fluoride treatment, and calcium phosphate coating. Such modified surfaces demonstrate faster and stronger osseointegration than the turned commercially pure titanium surface. However, there have been many studies finding no significant differences in in vivo bone responses among the modified surfaces. Considering those in vivo results, physical properties like roughening by sandblasting and acid etching may be major contributors to favorable bone response in biological environments over chemical properties obtained from various modifications including fluoride treatment and calcium phosphate application. Recently, hydrophilic properties added to the roughened surfaces or some osteogenic peptides coated on the surfaces have shown higher biocompatibility and have induced faster osseointegration, compared to the existing modified surfaces. However, the long-term clinical studies about those innovative surfaces are still lacking.

Abstract Image

种植体表面修饰的现状:一个简短的文献综述。
螺旋形内腔种植体具有商业纯钛的旋转表面,缺点是需要很长时间进行骨整合,而这些种植体在单次和多次修复中显示出长期的临床成功。钛种植体表面已通过各种方式进行修饰,以提高生物相容性和加速骨整合,从而缩短患者的无牙期。本文综述了几种重要的钛表面改性材料,探讨了许多比较研究报道的体外、体内和临床结果。目前,钛表面形貌或化学性质的改性方法有喷砂、酸蚀、阳极氧化、氟化物处理和磷酸钙涂层等。这种改性的表面表现出比商业化纯钛表面更快、更强的骨整合。然而,有许多研究发现,不同的改性表面在体内的骨反应没有显著差异。考虑到这些体内结果,喷砂和酸蚀等物理特性可能是生物环境中骨骼反应良好的主要因素,而不是通过氟化物处理和磷酸钙应用等各种修饰获得的化学特性。近年来,与现有的改性表面相比,在粗糙表面添加亲水特性或在表面涂覆一些成骨肽,显示出更高的生物相容性并诱导更快的骨整合。然而,关于这些创新表面的长期临床研究仍然缺乏。
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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