丝素蛋白在生物材料方面有非常广阔的应用前景。
Fibroin protein will have a extensively wide USES on biomaterial.
经实验表明,多孔丝素蛋白膜作为一种生物材料,已经具备了人造皮肤在这方面的要求。
It has been made clear by experiments that silk fibroin membrane has met the needs of man made skin as one kind of biomaterial.
同时丝素蛋白膜用氨气等离子体处理后在表面接入氨基,利用1,3丙磺酸内酯与氨基的反应在材料表面接枝磺酸基团。
Meanwhile, functional groups were also introduced by the reaction of 1,3 propane sultone with amine sites on the surface of silk fibroin film which were produced by NH 3 gas plasma.
综述了丝素蛋白质结构和其作为生物材料的最新研究进展。
The recent developments of silk fibroin in configuration and as materials in biomaterials and in biomedicine have been reviewed.
丝素蛋白具有良好的生物相容性,在生物材料上得到了广泛的研究。
Silk fibroin has good biological compatibility and was widely studied as biological material.
丝素蛋白是从蚕丝中提取的天然纤维蛋白,具有良好的物理化学性能和生物相容性,因而应用于生物医学领域中的软组织相容性材料制作有着广阔的前景。
Silk fibroin is a natural protein gotten from silk. Because of its super performance and biocompatibility, it can be used as soft-tissue compatible materials in biomedicine.
丝素蛋白作为一种生物相容性优良的天然高分子材料有着广泛的应用。
Silk fibroin has been widely used in many fields as a natural macromolecular material with excellent biocompatibility.
其中多孔丝素蛋白材料用作软组织修复的研究,是丝素蛋白基生物材料的研究中的一个有特色的领域。
Porous silk fibroin membrane materials have been used as soft tissues, which is a characteristic field in studying on silk fibroin biomaterials.
本文综述了羟基磷灰石与胶原、 聚乳酸、 壳聚糖及丝素蛋白复合材料的性能和国内外相关研究成果,并简述了组织工程材料的发展趋势。
This paper summarized capabilities of HA and different species of its composite. At last, it dealt with a expectation of the development of tissue engineering materials.
本发明属于纺织纤维处理和蛋白质化学技术领域,具体为一种全丝素蛋白复合材料及其制备方法。
The invention pertains to the field of textile fiber processing and chemical technology of protein, in particular to a whole silk fibroin protein composite and a preparation method thereof.
简要介绍了丝素蛋白应用于手术缝合线、隐形眼镜、人工血管、创面覆盖物、硬脑膜修补材料、细胞培养基质方面的研究进展。
The research progress of silk fibroin in suture, contact lenses, manual vein, wound-dressing, dural substitute, cell culture matrix is summarized in this paper.
由于复合材料的基体和纤维相均源自丝素蛋白,生物相容性好,易于细胞黏附,且可生物降解。
Both the substrate and fiber phase of the composite are originated from fibroin protein, with good biocompatibility, are easy adhesive for cells and are biodegradable.
由于复合材料的基体和纤维相均源自丝素蛋白,生物相容性好,易于细胞黏附,且可生物降解。
Both the substrate and fiber phase of the composite are originated from fibroin protein, with good biocompatibility, are easy adhesive for cells and are biodegradable.
应用推荐