Effect of femtosecond laser ablate ultra-fine microgrooves on surface properties of dental zirconia materials.

Qirong Li, Yongyue Wang, C. Li
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引用次数: 6

Abstract

OBJECTIVES Zirconia is an important dental implant material, yet it surfaces milling method is still under investigation. To explore the feasibility of laser etching in processing fine micro grooves on the surface of zirconia and to observe fine micro groove structure' influence on mouse embryonic osteoblasts, the survey was conducted. METHODS 31 zirconia discs were made and polished to mirror surface. Then, they were divided into 3 groups: the mirror group, the femtosecond laser ablated microgroove group and the air blasted + acid etched group. Then, the surface properties of zirconia discs were analyzed by Scanning Electron Microscope/Energy Dispersive Spectrometer (SEM/EDS), X-Ray Diffraction (XRD), Atomic Force Microscope (AFM), water contact angle test and micro-Vickers hardness test. The biocompatibility of each machined zirconia was tested by cell proliferation test and SEM analyze of cell morphology. Then, the effect of these surface treatment to MC-3T3-E1's osteogenic differentiation was evaluated by Q-PCR test. RESULTS SEM image showed that the femtosecond laser is a reliable method for forming regular-arranged microgrooves with pitch width of around 5 μm. EDS and XRD indicated that there were stable and purified tetragonal crystal system on the laser-roughened surface. AFM suggested that laser machining generated rougher surface (Ra) (271.7 ± 67.2 nm) than other groups. Furthermore, the contact angle showed laser ablated grooves induced anisotropic wetting. The micro-Vickers hardness test ascertained that laser-ablation strengthened zirconia surface. In vitro experiment showed that MC-3T3-E1 grown along the long axis of microgrooves on the first day. Besides, Real time PCR implied that osteogenesis-related gene expression OPN and ALP was much higher than the rest groups. SIGNIFICANCE Femtosecond laser is able to machine zirconia with ultra-fine microgrooves (around 2.5 μm). These structures promoted MC-3T3-E1 cell to line along the microstructure and differentiate into osteogenic cells. Thus, femtosecond laser might be a potential processing options for zirconia micro-texturing.
飞秒激光烧蚀超细微槽对牙科氧化锆材料表面性能的影响。
目的硅胶是一种重要的口腔种植材料,但其表面铣削方法仍在研究中。为探讨激光刻蚀氧化锆表面微细凹槽的可行性,观察微细凹槽结构对小鼠胚胎成骨细胞的影响,进行了实验研究。方法制作31个氧化锆圆盘并抛光至镜面。然后,将其分为3组:镜面组、飞秒激光烧蚀微槽组和空气喷砂+酸蚀组。然后,通过扫描电子显微镜/能谱仪(SEM/EDS)、X射线衍射仪(XRD)、原子力显微镜(AFM)、水接触角测试和显微维氏硬度测试对氧化锆圆盘的表面性能进行了分析。通过细胞增殖试验和细胞形态的SEM分析测试了每种加工氧化锆的生物相容性。然后,通过Q-PCR检测这些表面处理对MC-3T3-E1的成骨分化的影响。结果飞秒激光是形成间距宽度约为5μm的规则排列微槽的可靠方法。EDS和XRD分析表明,激光粗化表面存在稳定、纯净的四方晶系。AFM表明,与其他组相比,激光加工产生了更粗糙的表面(Ra)(271.7±67.2nm)。此外,接触角表明激光烧蚀凹槽诱导了各向异性润湿。显微维氏硬度测试表明,激光烧蚀强化了氧化锆表面。体外实验表明,MC-3T3-E1在第1天沿微槽长轴生长。此外,实时PCR显示成骨相关基因OPN和ALP的表达明显高于其他组。重要的是,飞秒激光能够加工具有超细微槽(约2.5μm)的氧化锆。这些结构促进MC-3T3-E1细胞沿着微观结构排列并分化为成骨细胞。因此,飞秒激光可能是氧化锆微纹理的潜在加工选择。
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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