polyanhydride
英
美
网络 聚酸酐; 聚酐
双语例句
- One polyanhydride in particular-poly ( fumaric-co-sebacic anhydride)-showed greater adhesive forces than any other material tested.
特别是一种名为「丁烯二酸癸二酸酐」聚酸酐,其黏著力比所有其他测试过的物质都强。 - The properties of important tissue engineering materials when planted into the body, such as polyhydroxyalkylester, polyanhydride, polyamide, were reviewed in detail.
对所使用的组织工程材料,重点讨论了聚羟基烷基酯,聚酸酐,聚酰胺的研究进展与性能。 - Study on Preparation and Drug Controlled Release Behaviour of Poly ( Ethylene Glycol)/ Polyanhydride Block Copolymers
聚乙二醇/聚酸酐共聚物的制备及药物控制释放性能研究 - The Research of Reaction Ways of Polyanhydride
高性能聚酸酐的制备方法研究 - Polyanhydride Tube Bridging for Repairing Peripheral Nerve Defect and the Time Course Its of Degradation
聚酸酐管桥接修复神经缺损和聚酸酐管降解时相研究 - Biodegradation and drug release behavior of a novel polyester/ polyanhydride Blends System
聚酯/聚酸酐共混体系的降解和药物释放行为 - Polyanhydride based drug containing bioadhesive polymers
基于聚酸酐的生物黏附性载药高分子 - The degradation performance and tissue compatibility of polyphosphazene/ polyester or polyanhydride ( PGP/ PLGA or PGP/ PSTP) blend films were investigated in mice.
研究了聚膦腈/聚酯或聚酸酐共混膜(PGP/PLGA或PGP/PSTP)在小鼠体内的降解行为和组织相容性。 - Methods In 96 rats, the sciatic nerve was transected at the mid-thigh level and kept a 10 min defect. A polyanhydride tube bridged both stumps to form a nerve regeneration chamber.
方法96只SD大鼠于坐骨神经股中部切断,缺损间隙10mm,用聚酸酐管套接缺损神经两端形成神经再生室。 - Synthesis and Degradation of Photopolymerisable Crosslinked Polyanhydride
可光聚混合聚酸酐的合成与降解 - In vitro release study showed that polyanhydride erosion is the mechanism of drug controlled release.
体外释放研究表明,聚酸酐的溶蚀是控释的机理。 - Meanwhile, the research shows that PEG blocks existed has great influence on molecular weight, crystallinity and hydrophilicity of polyanhydride. 3.
同时研究发现PEG的引入对聚酸酐的分子量、结晶度及亲水性有较大影响。 - In these materials, polyanhydride was a kind of biodegradable polymer, which attracted the interest of many researchers, because it was biocompatible, surface-eroding behavior and the rate of degradation was adjustable.
聚酸酐作为一类具有良好生物相容性、表面溶蚀特性及降解速度可调的生物降解性高分子材料,倍受人们关注。