分子构建块对新型仿生药物递送系统如ufasome和Ufosomes动态性质的影响:结构和表面电荷的修饰

Q3 Medicine
L. Kaur, L. Singh, Gurjeet Singh, Manjeet Kaur, R. Dhawan, Navdeep Kaur, Nitish Khajuria, Sarvpreet Singh
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引用次数: 0

摘要

这篇综述的重点是在不同复杂程度的不同分子构建块的自组装。在这方面,我们介绍了脂肪酸及其衍生物、表面活性剂和胆固醇的自组装的基本概念和最新研究进展。此外,我们还讨论了设计和稳定新型囊泡给药系统的条件,以及构建块的分子结构如何改变通量。此外,本文还简要讨论了脂肪酸和油酸盐的自组装,这是一种新兴的纳米技术,因为它能够改变皮肤的动态特性。这些结构已被证明可以增强药物和其他活性化合物的皮肤渗透性,使它们成为经皮给药的潜在候选者。总之,不同复杂程度的各种分子构建块的自组装在药物输送、化妆品和纳米技术领域具有重要意义。控制和操纵自组装过程的能力为设计新颖有效的药物输送系统提供了广泛的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of Molecular Building Blocks on Dynamic Nature of Novel Biomimetic Drug Delivery Systems as Ufasomes and Ufosomes: Modification in Structure and Surface Charge
This review is focused on the self-assembly of different molecular building blocks at various levels of complexity. In this perspective, we present the basic concept and recent research on the self-assembly of fatty acids and their derivatives, surfactants, and cholesterol. In addition, we discuss the conditions for designing and stabilizing novel vesicular drug delivery systems and how the flux changes due to the molecular structure of building blocks. Furthermore, the article provides a brief discussion on fatty acid and oleate self-assembly, which is becoming an emerging nanotechnology because of its ability to alter the dynamic nature of the skin. These structures have been shown to enhance the skin permeability of drugs and other active compounds, making them potential candidates for transdermal drug delivery. In conclusion, the self-assembly of various molecular building blocks at different levels of complexity has significant implications in the fields of drug delivery, cosmetics, and nanotechnology. The ability to control and manipulate the self-assembly process offers a wide range of possibilities for the design of novel and efficient drug delivery systems.
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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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