Enhanced bioactivity of sandblasted and acid-etched titanium surfaces

机译：增强酸蚀刻钛表面的增强生物活性

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Two new modified sandblasted and acid etched (SLA) surface methods had been used on commercially pure Ti (Cp-Ti) surface. Scanning electron microscopy investigation showed that modified SLA surfaces had micro- and nano-structure surface topography. Contact angle test showed that surface hydrophilicity was significantly increased after modified SLA surface modification. Human osteoblast-like MG63 cell attachment test showed that modified SLA surfaces would attach more cells than simple SLA surface. The alkaline phosphatase (ALP) activity assay indicated that ALP activity was enhanced on two modified SLA surfaces relative to SLA and mechanically polished Cp-Ti surface at early stage. Thus, subsequent chemical modification of SLA surface seems to be a promising method to generate better bioactive surface properties.

机译：已经在商业纯的Ti（CP-Ti）表面上使用了两种新的改性喷砂和酸蚀刻（SLA）表面方法。扫描电子显微镜研究表明，改进的SLA表面具有微型和纳米结构表面形貌。接触角试验显示，在改性的SLA表面改性后，表面亲水性显着增加。人骨细胞样MG63电池附着试验显示，改进的SLA表面比简单的SLA表面附着更多的电池。碱性磷酸酶（ALP）活性测定表明ALP活性在相对于SLA的两个改进的SLA表面上提高了ALP活性，并且在早期阶段地机械抛光CP-TI表面。因此，SLA表面的后续化学改性似乎是产生更好的生物活性表面性质的有希望的方法。

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《International Conference on Multi-functional Materials and Structures》|2009年||共4页
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Enwei Zhang; Yanbo Wang; Fei Gao; Shicheng Wei; Yufeng Zheng;
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中图分类 TB34-53;
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Titanium; Surface modification; Sandblasted and acid etched; Alkali and heat treatment; Alkaline phosphatase activity;

机译：钛;表面改性;砂浆和酸蚀刻;碱和热处理;碱性磷酸酶活性;

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机译：增强了喷砂和酸蚀钛表面的生物活性

Enhanced bioactivity of sandblasted and acid-etched titanium surfaces

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