原位沉淀法：一种制备氧化铁磁性脂质体的新方法。

In situ precipitation: a novel approach for preparation of iron-oxide magnetoliposomes.

作者信息

Xia Shudong, Li Peng, Chen Qiang, Armah Malik, Ying Xiaoying, Wu Jian, Lai Jiangtao

机构信息

Yiwu Affiliated Hospital, College of Medicine, Zhejiang University, Hangzhou, People's Republic of China.

College of Medicine, Zhejiang University, Hangzhou, People's Republic of China.

出版信息

Int J Nanomedicine. 2014 May 23;9:2607-17. doi: 10.2147/IJN.S59859. eCollection 2014.

DOI:10.2147/IJN.S59859

PMID:24920898

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4043714/

Abstract

BACKGROUND

Conventional methods of preparing magnetoliposomes are complicated and inefficient. A novel approach for magnetoliposomes preparation was investigated in the study reported here.

METHODS

FeCl3/FeCl2 solutions were hydrated with lipid films to obtain liposome-encapsulated iron ions by ultrasonic dispersion. Non-encapsulated iron ions were removed by dialysis. NH3·H2O was added to the system to adjust the pH to a critical value. Four different systems were prepared. Each was incubated at a different temperature for a different length of time to facilitate the permeation of NH3·H2O into the inner phase of the liposomes and the in situ formation of magnetic iron-oxide cores in the liposomes. Single-factor analysis and orthogonal-design experiments were applied to determinate the effects of alkalization pH, temperature, duration, and initial Fe concentration on encapsulation efficiency and drug loading.

RESULTS

The magnetoliposomes prepared by in situ precipitation had an average particle size of 168±14 nm, zeta potential of -26.2±1.9 mV and polydispersity index of 0.23±0.06. The iron-oxide cores were confirmed as Fe3O4 by X-ray diffraction and demonstrated a superparamagnetic response. Encapsulation efficiency ranged from 3% to 22%, while drug loading ranged from 0.2 to 1.58 mol Fe/mol lipid. The optimal conditions for in situ precipitation were found to be an alkalization pH of 12, temperature of 60°C, time of 60 minutes, and initial Fe concentration of 100 mM Fe(3+) + 50 mM Fe(2+).

CONCLUSION

In situ precipitation could be a simple and efficient approach for the preparation of iron-oxide magnetoliposomes.

摘要

背景

传统的制备磁脂质体的方法复杂且效率低下。本文报道的研究中探索了一种制备磁脂质体的新方法。

方法

将FeCl3/FeCl2溶液与脂质膜水合，通过超声分散获得包封铁离子的脂质体。通过透析去除未包封的铁离子。向体系中加入NH3·H2O将pH调节至临界值。制备了四种不同的体系。每个体系在不同温度下孵育不同时间，以促进NH3·H2O渗透到脂质体的内相并在脂质体内原位形成磁性氧化铁核。应用单因素分析和正交设计实验来确定碱化pH、温度、时间和初始铁浓度对包封效率和载药量的影响。

结果

通过原位沉淀制备的磁脂质体平均粒径为168±14 nm，ζ电位为-26.2±1.9 mV，多分散指数为0.23±0.06。通过X射线衍射确认氧化铁核为Fe3O4，并表现出超顺磁响应。包封效率范围为3%至22%，而载药量范围为0.2至1.58 mol Fe/mol脂质。发现原位沉淀的最佳条件为碱化pH为12、温度为60°C、时间为60分钟以及初始铁浓度为100 mM Fe(3+) + 50 mM Fe(2+)。

结论

原位沉淀可能是一种制备氧化铁磁脂质体的简单有效方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a4de/4043714/c1f86fb6ee37/ijn-9-2607Fig1.jpg

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原位沉淀法：一种制备氧化铁磁性脂质体的新方法。

In situ precipitation: a novel approach for preparation of iron-oxide magnetoliposomes.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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