Bolaamphiphiles based novel liposomes: a possible approach for drug delivery

International journal of biomedical nanoscience and nanotechnology Pub Date : 2010-08-16 DOI:10.1504/IJBNN.2010.034648

Bhuvaneshwar Vaidya, A. Goyal, K. Khatri, N. Mishra, R. Paliwal, Shivani M. Rai, Shailja Tiwari, S. Vyas

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引用次数: 2

Abstract

The present study was designed to develop a novel liposomal system containing dequalinium chloride (DEQ) as a charge-imparting constituent. Liposomes were prepared by cast film method with EPC:chol:DEQ molar ratio of 7:1:2. The novel liposomes were characterised for surface morphology, size and size distribution, entrapment efficiency and in vitro release study. Effect of osmotic shock was performed for establishment of liposomal bilayer stability and results demonstrated that incorporation of dequalinium chloride to the liposomal bilayer hindered the movement of entrapped solute. The hemolysis study was performed for estimation of its toxicological behaviour, if any. Cell-uptake studies showed that developed carrier could be useful for higher penetration in the cells compared to conventional liposomes. This being the first finding of its kind could open up a new era for the use of bolaamphiphiles like DEQ as an integral part of well established carrier like liposomes to provide them additional stability and efficacy.

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基于亲水分子的新型脂质体:一种可能的药物递送方法

本研究旨在开发一种新型的脂质体系统，其中含有氯脱质(DEQ)作为电荷传递成分。采用铸造膜法制备脂质体，EPC:chol:DEQ摩尔比为7:1:2。对新型脂质体进行了表面形貌、大小分布、包封效率和体外释放研究。渗透冲击的作用是为了建立脂质体双分子层的稳定性，结果表明，脱氯在脂质体双分子层的掺入阻碍了被包裹的溶质的运动。溶血研究是为了估计其毒理学行为，如果有的话。细胞摄取研究表明，与传统脂质体相比，成熟的载体可以在细胞中具有更高的穿透性。这是同类研究中的第一个发现，它可以打开一个新时代，使用像DEQ这样的亲水分子作为脂质体等成熟载体的组成部分，为它们提供额外的稳定性和功效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of biomedical nanoscience and nanotechnology

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