Conclusion The polymeric micelles have broad application as drug delivery carriers.
结论聚合物胶束作为药物传递系统具有广阔的应用前景。
My dissertation focuses on the structure controlling of polymeric micelles and their behavior in solution and polymer matrix.
本论文的主要工作是聚合物胶束的结构控制及其在溶液或者在聚合物基体中的行为研究。
Results Polymeric micelles can increase the solubility of poorly soluble drugs and can also be used as a carrier for gene therapy.
结果聚合物胶束可以增溶药物、作为药物和基因治疗的载体。
Recently, the research for polymeric micelles has been focused on the combination of the above properties to construct multifunctional polymeric micelles.
聚合物胶束的最新研究主要集中在使其功能更加完善方面,即多功能聚合物胶束的研究。
Experimenting with polymers of different lengths, she found a combination that formed stable, "pom-pom" -shaped nanoparticles known as polymeric micelles, with TNP-470 at the core.
试点与聚合物的不同长度,她发现一个组合,形成稳定,“聚甲醛-聚甲醛”形纳米粒子称为高分子胶束,与,TNP- 470处于核心地位。
Here we introduce the strategy of choosing polymers and the technology of preparing micelles. Moreover, we bring up a new design strategy of polymeric micelles, named as binary-drug loaded micelles.
本文介绍了聚合物胶束的材料选择依据,以及制备技术,并提出了一种新的胶束设计策略——双药载药胶束。
This paper has reviewed the structure and properties of the amphiphilic copolymer, the formation and morphologies of the polymeric micelles, and the advance of which as drug delivery in recent years.
本文综述了形成聚合物胶束的两亲性共聚物的组成、聚合物胶束的形成、形态以及近些年来作为药物载体的研究进展。
Polymeric micelles used as anticancer drug carriers show a few advantages in the improvement of drug-targeted release and chemotherapeutic efficacy, and the reduction of toxic effects of doxorubicin.
聚合胶束作为抗癌药的载体具有靶向作用,可减少毒副作用,提高抗癌药物的化疗指数。
The addition of a cosurfactant can improve solubilization in polymeric reversed micelles.
助表面活性剂的加入可以促进聚合物反胶团的增溶作用。
The addition of a cosurfactant can improve solubilization in polymeric reversed micelles.
助表面活性剂的加入可以促进聚合物反胶团的增溶作用。
应用推荐