生物医用高分子材料

在生物医用高分子材料领域，生物可降解材料越来越引起人们的重视。

In biomedical polymer material field , biodegradable materials increasingly attracted people 's attention .

生物医用高分子材料在人造红血球的应用研究与进展

Research and Progress on the Application of Artificial Red Blood Cells Using Biomedical Polymer Materials

活性/可控聚合方法合成生物医用高分子材料研究进展

Progress of synthesis of biomedical polymer materials via living / controlled polymerization

生物医用高分子材料自增强工艺的研究

Study on the self-reinforce process of biomedical polymer materials

聚酸酐是一类具有表面降解特性的生物医用高分子材料，具有良好生物相容性。

Polyanhydrides are one kind of biomaterial with characteristics of surface degradation and good biocompatibility .

天然生物医用高分子材料的研究进展

Progresses of Biomaterials Prepared from Natural Biomacromolecules

冷等离子体在生物医用高分子材料中的应用

The Application of the Cold Plasma on the Biologi-cal Polymer Materials Used in the Medical Field

生物医用高分子材料是目前研究非常热的一种材料，并随着人类社会而发展。

Biomedical polymer materials are very hot study at the present , and accompany with the development of human society .

综述了实现生物医用高分子材料自增强的各种工艺，并对生物医用高分子材料的发展方向进行了展望。

The self reinforce processes of biomedical polymer materials are summarized . Also , the developing trends of biomedical polymer materials are prospected .

在传统制剂和现代的缓控释及靶向制剂中，生物医用高分子材料因其自身的独特作用，推动了药物制剂的快速发展，并对今后医药事业的发展具有深远的影响。

Application of Chitosan on the Drug Site-specific Release Biomedical polymers promote the development of both traditional pharmaceutics and modern controlled or targeted pharmaceutics .

该材料在生物医学领域，尤其是介入诊疗和医用薄膜产品方面有极大的应用潜力，是一种有着巨大应用前景的生物医用高分子材料。

Therefore , these PU materials have a great application prospect as biomedical polymer materials and will have huge application potentials in the biomedical field , especially in the intervention clinics and medical film products .

三维多孔结构是生物医用高分子复合材料能否发挥效应的一个关键因素。

The three-dimensional porous structure of composite polymers is a key factor in their application .

新型大输液药物包装医用高分子复合膜的研究生物医用高分子纤维材料

Research On A New Type Macromolecule Multi - layer Film For The Intravenous Medical Solution Packaging

本文综述了目前多孔生物医用高分子复合材料的制备技术，并比较了其优缺点。

This paper described the prevailing techniques of porous biomedical materials preparation and compared their merits and demerits .

可生物降解的医用高分子矫形材料聚丙交酯乙交酯（PLGA）和聚乙二醇（PEG）是FDA批准的为数不多的几个可生物降解的注射用人工合成材料，超过一定聚合度的PLGA具有疏水性。

Orthopedic Applications of Biodegradable Polymers Poly ( lactic acid ) - co-poly - ( glycolic acid )( PLGA ) and poly ( ethylene glycol )( PEG ) are the a few materials approved for inject purpose by FDA , which have hydrophobic characters in PLGA with certain molecular weight .

近几年来，由于生物医学工程、材料科学和生物技术的发展，生物医用高分子材料及其制品正以其特有的生物相容性、无毒性等优异性能而获得越来越多的医学临床应用。

In recent years , biomedical polymer materials and products have increasingly found clinical application owing to their excellent performances such as unique biological histocompatibility , and non-toxicity with the development of biomedical engineering , materials science and biotechnology .

临床上广泛使用的人工替代材料，主要有生物医用金属及合金、生物陶瓷、生物医用高分子材料等。

In clinic , a number of different classes of materials , including biomedical metallic and alloy materials , biological ceramics , and biomedical polymer material , have been used to replace the damaged bone .