[The effect of surface modification strategies on biological activity of titanium implant].

Kaitong Yang, Chenglong Song, Zhihao Ma, Jie Wang
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Abstract

The surface morphology of titanium metal is an important factor affecting its hydrophilicity and biocompatibility, and exploring the surface treatment strategy of titanium metal is an important way to improve its biocompatibility . In this study , titanium (TA4) was firstly treated by large particle sand blasting and acid etching (SLA) technology, and then the obtained SLA-TA4 was treated by single surface treatments such as alkali-heat, ultraviolet light and plasma bombardment. According to the experimental results, alkali-heat treatment is the best treatment method to improve and maintain surface hydrophilicity of titanium. Then, the nanowire network morphology of titanium surface and its biological property, formed by further surface treatments on the basis of alkali-heat treatment, were investigated. Through the cell adhesion experiment of mouse embryonic osteoblast cells (MC3T3-E1), the ability of titanium material to support cell adhesion and cell spreading was investigated after different surface treatments. The mechanism of biological activity difference of titanium surface formed by different surface treatments was investigated according to the contact angle, pit depth and roughness of the titanium sheet surface. The results showed that the SLA-TA4 titanium sheet after a treatment of alkali heat for 10 h and ultraviolet irradiation for 1 h has the best biological activity and stability. From the perspective of improving surface bioactivity of medical devices, this study has important reference value for relevant researches on surface treatment of titanium implantable medical devices.

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[表面改性策略对钛植入物生物活性的影响]。
金属钛的表面形貌是影响其亲水性和生物相容性的重要因素,探索金属钛的表面处理策略是提高其生物相容性的重要途径。本研究首先采用大颗粒喷砂酸蚀(SLA)技术处理钛(TA4),然后对得到的SLA-TA4进行碱热、紫外光和等离子体轰击等单一表面处理。实验结果表明,碱热处理是改善和保持钛表面亲水性的最佳处理方法。然后,研究了在碱热处理基础上进一步表面处理所形成的钛表面纳米线网络形态及其生物特性。通过小鼠胚胎成骨细胞(MC3T3-E1)的细胞粘附实验,研究了不同表面处理后钛材料支持细胞粘附和细胞扩散的能力。根据钛板表面的接触角、凹坑深度和粗糙度,研究了不同表面处理形成的钛表面生物活性差异的机理。结果表明,经过碱热 10 小时和紫外线照射 1 小时处理后的 SLA-TA4 钛板具有最佳的生物活性和稳定性。从提高医疗器械表面生物活性的角度来看,该研究对钛植入医疗器械表面处理的相关研究具有重要的参考价值。
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来源期刊
生物医学工程学杂志
生物医学工程学杂志 Medicine-Medicine (all)
CiteScore
0.80
自引率
0.00%
发文量
4868
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