电动势特性,体外溶解度,氧化物和氧化氮的潜在生物相容性

IF 0.2 Q4 MEDICINE, GENERAL & INTERNAL
I. A. Khlusov, V. Pichugin, A. A. Pustovalova, M. E. Konischev, A. N. Dzyuman, Matthias Epple, Mathias Ulbricht, E. Cicinskas, V. S. Gulaya, V. V. Vikhareva
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引用次数: 3

摘要

研究了L316钢表面氧化钛和氮化氧涂层与模型生物流体接触前后的状态。在1 mmol氯化钾溶液中,当pH值在5-9单位范围内变化时,2 h内钛薄膜(200-300 nm)的静电电位显著下降(降幅超过10倍),但在pH值为bbb6.5时,所有样品的ζ电位均带负电荷。样品与模拟体液(SBF)长期(5周)接触促进了钢的腐蚀和氧化钛和氮化氧膜的溶解。另一方面,钠离子和氯离子在样品上析出并形成氯化钠晶体。一个积极的事实是,在SBF溶液中长期存在的条件下,所测试的人造表面没有钙化。它可以减少快速血栓形成的危险和材料功能特性的损失。根据体外实验,材料与SBF接触前后的前瞻性生物相容性排列如下:Ti-O-N (1/3) > Ti-O-N (1/1), TiO2 > Steel。这可以解释为:1)氧化钛和氮化氧薄膜的防腐蚀性能;2) Ti-O-N薄膜的表面负电荷储存(1/3);3)钛膜的质量和厚度的增加与固液界面上矿化过程的速度有关。同时,试样润湿性的初始差值(在SBF接触前)趋于相等。在氧化钛和氮化氧薄膜形成过程中,模型生物流体对被测材料的物理化学特性(粗糙度增强、表面负电位的降低或逆转、表面亲水性的急剧增强)的修饰作用应被考虑在内,并预测其作为心血管支架材料的最佳生物学特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Электрокинетические свойства, растворение in vitro, потенциальная биосовместимость оксидных и оксинитридных пленок титана для сердечно-сосудистых стентов
A state of titanium oxide and oxynitride coatings on L316 steel has been studied before and after their contact with model biological fluids. Electrokinetic investigation in 1 mmol potassium chloride showed significant (more than 10 times) fall of magnitude of electrostatic potential of thin (200–300 nm) titanium films at pH changing in the range of 5–9 units during 2 h. Nevertheless, zeta-potential of all samples had negative charge under pH > 6.5. Long-term (5 weeks) contact of samples with simulated body fluid (SBF) promoted steel corrosion and titanium oxide and oxynitride films dissolution. On the other hand, sodium and chloride ions precipitation and sodium chloride crystals formation occurred on the samples. Of positive fact is an absence of calcification of tested artificial surfaces in conditions of long-term being in SBF solution. It is supposed decreasing hazard of fast thrombosis and loss of materials functional properties. According to in vitro experiment conducted, prospective biocompatibility of materials tested before and after their contact with SBF lines up following manner: Ti–O–N (1/3) > Ti–O–N (1/1), TiO2 > Steel. It may be explained by: 1) the corrosion-preventive properties of thin titanium oxide and oxynitride films; 2) a store of surface negative charge for Ti–O–N (1/3) film; 3) minor augmentation of mass and thickness of titanium films connected with speed of mineralization processes on the interface of solution/solid body. At the same time, initial (before SBF contact) differences of samples wettability became equal. Modifying effect of model biological fluids on physicochemical characteristics of materials tested (roughness enhancement, a reduction or reversion of surface negative potential, sharp augmentation of surface hydrofilicity) should took into account under titanium oxide and oxynitride films formation and a forecast of their optimal biological properties as the materials for cardiovascular stents.
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来源期刊
Byulleten Sibirskoy Meditsiny
Byulleten Sibirskoy Meditsiny MEDICINE, GENERAL & INTERNAL-
CiteScore
0.70
自引率
50.00%
发文量
102
审稿时长
8 weeks
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