中链脂肪酸脂质体的制备及其性质测定

doi:10.7506/spkx1002-6630-201022036

食品科学 ›› 2010, Vol. 31 ›› Issue (22): 170-175.doi: 10.7506/spkx1002-6630-201022036

中链脂肪酸脂质体的制备及其性质测定

郑会娟，刘成梅* ，刘伟，刘玮琳，杨水兵，阴婷婷，童桂鸿

南昌大学食品科学与技术国家重点实验室

收稿日期:2010-07-09 修回日期:2010-11-01 出版日期:2010-11-25 发布日期:2010-12-29
通讯作者: 刘成梅 E-mail:chengmeiliu@yahoo.com.cn
基金资助:
国家“863”计划专项(2008AA10Z330)；国家重点实验室目标导向项目(SKLF-MB-200808)

Preparation and Characteristic of Medium-chain Fatty Acid Liposome

ZHENG Hui-juan，LIU Cheng-mei*，LIU Wei，LIU Wei-lin，YANG Shui-bing，YIN Ting-ting，TONG Gui-hong

State Key Laboratory of Food Science and Technology, Nanchang University, Nanchang 330047, China

Received:2010-07-09 Revised:2010-11-01 Online:2010-11-25 Published:2010-12-29
Contact: LIU Cheng-mei E-mail:chengmeiliu@yahoo.com.cn

摘要/Abstract

摘要：

以卵磷脂和胆固醇为膜材，中链脂肪酸(MCFAs)为油溶性模型材料，采用薄膜分散- 动态高压微射流法(薄膜分散-DHPM法)及动态高压微射流- 冻融法(DHPM- 冻融法)制备MCFAs 脂质体，以包封率和平均粒径为主要考察指标对两种方法进行比较。结果表明：薄膜分散-DHPM 法最佳制备条件为脂质质量浓度8g/100mL、磷脂与胆固醇质量比5:1、处理压力140MPa、处理次数4 次；DHPM- 冻融法最佳制备条件为冷冻时间0.5h、融化温度40℃、冷冻保护剂为麦芽糖、冷冻保护剂用量3%。最佳条件下，薄膜分散-DHPM 法制备的MCFAs 脂质体平均粒径为87.1nm，分布均匀，包封率可达(66.5 ± 3.1)%；DHPM- 冻融法制备的MCFAs 脂质体粒径较大，平均粒径为110.1nm，包封率较低，为(53.5 ± 4.9)%。通过MCFAs 脂质体泄漏动力学和精密度(日间和日内)实验考察其稳定性。薄膜分散-DHPM 法和DHPM- 冻融法的稳定性都较好，均适合于MCFAs 脂质体的制备。

关键词: 中链脂肪酸, 动态高压微射流, 冻融法, 包封率, 粒径

Abstract:

Film-dispersion-dynamic high-pressure micro-fluidizer (Film dispersion-DHPM) method and DHPM-freezethawing method were used to prepare medium-chain fatty acid (MCFA) liposome with lecithin and cholesterol as the membrane materials, and MCFA as the core material. Encapsulation efficiency (EE) and average particle size of MCFA liposome were chosen to evaluate both preparation methods. The optimal preparation conditions of MCFA liposome using Film dispersion-DHPM method were lipid content of 8% (m/V), lecithin-cholesterol ratio of 5:1 (m/m), treatment pressure of 140 MPa and repeated treatment number of 4. The optimal preparation conditions of MCFA liposome using DHPM-freeze-thawing method were freezing time of 0.5 h, maltose as the cryoprotectant content of 3% (m/V) and thawing temperature of 40 ℃. Under the optimal preparation conditions, the average diameter and EE of MCFA liposome prepared by Film-dispersion-DHPM method were 87.1 nm and (66.5 ± 3.1)%; MCFA liposome prepared by DHPM-freeze-thawing method exhibited a relative higher average diameter and lower EE, which were 110.1 nm and (53.5 ± 4.9)%, respectively. The stability of MCFA liposome was explored by leakage kinetics. Results exhibited that MCFA liposome prepared by Film dispersion-DHPM method and DHPM-freezethawing method had good stability. Therefore, both methods can be used to prepare MCFA liposome.

Key words: MCFA, dynamic high pressure micro-fluidizer (DHPM), freeze-thawing, encapsulation efficiency (EE), particle size

中图分类号:

R944.1

郑会娟，刘成梅*,刘伟，刘玮琳，杨水兵，阴婷婷，童桂鸿. 中链脂肪酸脂质体的制备及其性质测定[J]. 食品科学, 2010, 31(22): 170-175.

ZHENG Hui-juan，LIU Cheng-mei*，LIU Wei，LIU Wei-lin，YANG Shui-bing，YIN Ting-ting，TONG Gui-hong. Preparation and Characteristic of Medium-chain Fatty Acid Liposome[J]. FOOD SCIENCE, 2010, 31(22): 170-175.

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中链脂肪酸脂质体的制备及其性质测定

Preparation and Characteristic of Medium-chain Fatty Acid Liposome

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