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多粘菌素与多粘菌素甲磺酸盐与脂质体的相互作用:胶体方面及其对配方的影响。

Interaction of colistin and colistin methanesulfonate with liposomes: colloidal aspects and implications for formulation.

机构信息

Drug Delivery, Disposition and Dynamics, Monash Institute of Pharmaceutical Sciences, Monash University, Parkville, Victoria 3052, Australia.

出版信息

J Pharm Sci. 2012 Sep;101(9):3347-59. doi: 10.1002/jps.23203. Epub 2012 May 23.

DOI:10.1002/jps.23203
PMID:22623044
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3437939/
Abstract

Interaction of colistin and colistin methanesulfonate (CMS) with liposomes has been studied with the view to understanding the limitations to the use of liposomes as a more effective delivery system for pulmonary inhalation of this important class of antibiotic. Thus, in this study, liposomes containing colistin or CMS were prepared and characterized with respect to colloidal behavior and drug encapsulation and release. Association of anionic CMS with liposomes induced negative charge on the particles. However, degradation of the CMS to form cationic colistin over time was directly correlated with charge reversal and particle aggregation. The rate of degradation of CMS was significantly more rapid when associated with the liposome bilayer than when compared with the same concentration in aqueous solution. Colistin liposomes carried positive charge and were stable. Encapsulation efficiency for colistin was approximately 50%, decreasing with increasing concentration of colistin. Colistin was rapidly released from liposomes on dilution. Although the studies indicate limited utility of colistin or CMS liposomes for long duration controlled-release applications, colistin liposomes were highly stable and may present a potential opportunity for coformulation of colistin with a second antibiotic to colocalize the two drugs after pulmonary delivery.

摘要

已研究了黏菌素和黏菌素甲磺酸盐 (CMS) 与脂质体的相互作用,以期了解脂质体作为将此类重要抗生素更有效地递送至肺部吸入的系统的局限性。因此,在这项研究中,制备了含有黏菌素或 CMS 的脂质体,并就胶体行为以及药物包封和释放对其进行了特性描述。带负电荷的 CMS 与脂质体的缔合在颗粒上诱导了负电荷。然而,随着时间的推移 CMS 降解形成阳离子黏菌素与电荷反转和颗粒聚集直接相关。当 CMS 与脂质体双层缔合时,其降解速度明显快于与相同浓度的水溶液相比。黏菌素脂质体带正电荷且稳定。黏菌素的包封效率约为 50%,随着黏菌素浓度的增加而降低。稀释时,黏菌素迅速从脂质体中释放。尽管这些研究表明黏菌素或 CMS 脂质体在长期持续控制释放应用中的实用性有限,但黏菌素脂质体非常稳定,并且可能为黏菌素与第二种抗生素的共配制提供了潜在机会,以便在肺部给药后使两种药物共定位。

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