高分子胶束作为药物递送载体的概况

Q3 Medicine
C. Chauhan, Rutvi Agrawal, Akash Garg
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引用次数: 0

摘要

胶束化是用不同的聚合物形成胶束的过程,主要是pluronic (F127, F123等)。聚合物被用来形成聚合物胶束,为被封装在其中的药物提供物理和化学稳定性。此外,药物被包裹在胶束的核心部分(疏水的内部),另一部分是壳部分(亲水的外部),它为疏水药物提供亲水性。由于胶束的纳米结构、良好的结合性、低毒性、生物相容性、良好的核心结构和高稳定性,疏水药物通过胶束传递是容易和首选的。本文讨论了制备胶束的几种方法,如薄膜水化、溶剂蒸发、透析和直接溶解。胶束配方在制药工业中受到青睐,因为它们提高了BCS II类和IV类药物的溶解度和生物利用度。本文重点介绍了克服药物水溶性和生物利用度差、胶束增溶以及胶束在各种药物传递中的应用等问题的各种策略。它还包括对各种基于聚合物胶束的药物制剂的发展的未来考虑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Snapshot on Polymeric Micelles as a carrier for Drug Delivery
Micellization is the process of formation of micelles using different polymers mainly pluronic (F127, F123, etc.). Polymers are used to formulate polymeric micelles that provide physical and chemical stability of drugs that are encapsulated into them. Moreover, the drugs are encapsulated in the core portion (hydrophobic inner) of micelles and another portion is the shell portion (hydrophilic outer) which provides hydrophilicity to the hydrophobic drug. Delivery of hydrophobic drugs by micelles is easy and preferred due to the nano size structure, well association, low toxicity, biocompatible, well core structure, and a high stability. Several methods of preparation of micelles such as - thin film hydration, solvent evaporation, dialysis, and direct dissolution are discussed here. Micelles formulations in pharmaceutical industries are preferred because they enhance the solubility and bioavailability of drugs of BCS class II and IV. This review focuses on various strategies to overcome the problems related to poor aqueous solubility and bioavailability of drugs, micellar solubilization, and application of micelles for various drug delivery. It also includes future considerations for the development of various polymeric micelles-based drug formulations.
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来源期刊
Current Nanomedicine
Current Nanomedicine Medicine-Medicine (miscellaneous)
CiteScore
2.00
自引率
0.00%
发文量
15
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