共查询到17条相似文献,搜索用时 62 毫秒
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采用开环聚合方法合成了一系列水溶性生物可降解的低聚(丙交酯-co-丙烯酸酯碳酸酯)-b-聚乙二醇-b-低聚(丙交酯-co-丙烯酸酯碳酸酯)(OLAC-PEG-OLAC)三嵌段共聚物,并通过光交联方法方便制备得到具生物活性的新型生物可降解水凝胶.流变测试表明水凝胶储存模量(170~10000 Pa)和凝胶时间(0.8~8min)均可通过调节丙烯酸酯碳酸酯(AC)单元数、聚合物浓度及光引发剂浓度等得到控制.降解实验表明水凝胶的降解速率可通过改变AC和丙交酯(LA)单元数进行调控.含巯基的生物活性分子如RGDC短肽可通过迈克尔加成反应直接链接到OLAC-PEG-OLAC上,由此可方便制备可注射性的具生物活性的生物可降解水凝胶.MG63成骨细胞实验表明RGDC短肽功能化的OLAC-PEG-OLAC水凝胶可很好地促进细胞黏附和生长.该快速光交联生物可降解水凝胶以其优异的凝胶、降解和生物功能化等性能可望为生物组织工程提供理想的三维活性多孔支架. 相似文献
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由于高分子水凝胶独特的柔软性、生物相容性和仿生特性,采用水凝胶修饰电极降低了电极的峰间噪声水平,克服了目前生物传感器在生物兼容性和组织-电极间相互作用方面的局限性。本文结合近年来国内外的最新研究进展,综述了涂渍法、共价键合法、电化学法和层层自组装法等水凝胶修饰电极的几种主要制备方法,较为全面地总结了水凝胶修饰电极在神经元电极、酶修饰电极、氧化还原蛋白修饰电极、pH传感器及其它方面的应用,最后对水凝胶修饰电极研究面临的挑战和未来的发展进行了讨论。 相似文献
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生物材料与细胞相互作用及表面修饰 总被引:10,自引:0,他引:10
生物材料用作人工细胞外基质(ECMs)在组织工程中起重要作用。生物材料表面的拓扑结构、亲水/疏水平衡、自由能、电荷状况、化学基团和生物特异性识别对材料/细胞相互作用有较大影响。生物材料表面与细胞的相互作用主要是细胞膜表面受体与生物材料表面配体间的相互分子识别,因此采用仿生修饰生物材料表面以提高细胞亲和性和特异性识别。本文对生物材料与细胞相互作用及表面修饰的技术方法进行了介绍。 相似文献
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组织工程用可降解生物材料的研究进展 总被引:7,自引:1,他引:7
综述了组织工程的背景及组织工程用可降解生物材料的研究进展,重点介绍了当前的研究热点,并对组织工程用生物材料的发展方向进行了探讨。 相似文献
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组织工程相关生物材料表面工程的研究进展 总被引:9,自引:0,他引:9
生物材料用作人工细胞外基质(ECM ) 在组织工程中占据重要位置。本文在分析细胞2生物材料表面相互作用的基础上, 从生物材料中的水、材料表面的形态、材料表面的特异性识别及生物材料诱发愈合等方面探讨了生物材料的复杂性。生物材料对细胞的影响是一个双向、动态过程, 起着调节细胞增殖和凋亡平衡的作用。基于生物材料对细胞生长的影响, 本文提出了生物材料表面生物仿生化以提高细胞亲和力,糖链团簇、糖脂质及材料表面蛋白质修饰以提高细胞特异性识别, 材料表面的自组装修饰以改善表面形态等观点。 相似文献
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综述了国内外应用生物多糖进行医用高分子材料表面修饰的研究状况,其中重点介绍了葡聚糖、肝素及类肝素类物质、壳聚糖等多糖在高分子材料表面修饰的研究近况.多糖是自然界中含量最为丰富的生物大分子,几乎存在于所有的生命体中,具有很好的生物相容性,而且某些生物多糖还具有特殊的生物活性,因此用生物多糖进行医用高分子材料的表面修饰受到了国内外研究学者的关注.大量研究表明,经过生物多糖表面修饰的高分子材料可获得良好的生物相容性和某些优良的医学应用性能. 相似文献
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Rossana M. S. M. Thiré Taíla O. Meiga Sabrina Dick Leonardo R. Andrade 《Macromolecular Symposia》2007,258(1):38-44
Summary: Chemical modification of polymer surface may potentially be used to create smart materials that can guide cellular adhesion, proliferation and maintenance of specific expression of molecules. The microbial polyester poly (3-hydroxybutyrate) (PHB) has been attracted attention as promising material for applications in tissue engineering. In this work, a wet-chemical method, base ethylenediamine aminolysis, was performed to improve the adhesion of chondrocytes isolated from human articular cartilage to PHB films. The effects of chemical treatment on PHB films was evaluated by following changes in morphology and surface chemical composition using atomic force microscopy (AFM) and X-ray photoelectron spectroscopy (XPS), respectively. While the effect on cells morphology was studied by scanning electron microscopy (SEM). The treatment with ethylenediamine did not change significantly the morphology of the structures of PHB films surface. However, the roughness of the aminolyzed films was slightly higher. The introduction of nitrogen-containing groups was confirmed by XPS. In vitro experiments indicated that the surface modification did not have toxic effects in cells, since they could adhere and proliferate on modified PHB films. It was observed that long-time treatment improved ability of PHB films to support cell growth, which could be accounted to physicochemical and topological effects. 相似文献
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Scaffolds (artificial ECMs) play a pivotal role in the process of regenerating tissues in 3D. Biodegradable synthetic polymers are the most widely used scaffolding materials. However, synthetic polymers usually lack the biological cues found in the natural extracellular matrix. Significant efforts have been made to synthesize biodegradable polymers with functional groups that are used to couple bioactive agents. Presenting bioactive agents on scaffolding surfaces is the most efficient way to elicit desired cell/material interactions. This paper reviews recent advancements in the development of functionalized biodegradable polymer scaffolds for tissue engineering, emphasizing the syntheses of functional biodegradable polymers, and surface modification of polymeric scaffolds.
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Stanislaw Slomkowski 《Macromolecular Symposia》2007,253(1):47-58
Summary: Paper describes basic characteristics of synthesis and properties of aliphatic polyesters used for tissue engineering. Described is also synthesis of polyester containing block copolymers suitable for surface modification. Described are methods used for scaffold fabrication with required porosity. In particular, presented are methods according to which scaffolds are made from prefabricated polyester micro- and nanoparticles. 相似文献