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引用本文:李玉琴,马娟.以油酸为油相的空白O/W微乳体系研究[J].中国现代应用药学,2017,34(4):549-552.
LI Yuqin,MA Juan.Oil-in-water Microemulsion with Oleic Acid as the Oil Phase[J].Chin J Mod Appl Pharm(中国现代应用药学),2017,34(4):549-552.
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以油酸为油相的空白O/W微乳体系研究
李玉琴1,2, 马娟3
1.南通大学药学院, 江苏 南通 226001;2.中国医药工业研究总院, 上海 201203;3.复旦大学药学院, 上海 201203
摘要:
目的 研究以油酸为油相的不同组成微乳体系的相行为特点,考察常见乳化剂和助乳化剂增溶特性,获得水增溶及油酸增溶量均较大的O/W微乳体系。方法 采用伪三元相图法,以微乳区域面积(AT)、最大增溶水量(Wm)及对应的乳化剂用量(Sm)为水增溶参数,O/W结构能容纳的最大油酸量(Om)为油酸增溶参数,通过比较筛选出最适乳化剂、助乳化剂及两者质量比,并通过体系电导率随含水量变化及相转变点绘出O/W微乳区域。结果 多元醇为助乳化剂时水增溶量有限且易形成凝胶;吐温类乳化剂中吐温20水增溶量最大,吐温80油酸增溶量最大,其油水增溶量与HLB值并不完全成正比;选用吐温80/无水乙醇为混合乳化剂,随着吐温80比例下降,最大油酸增溶量逐步下降,水增溶量先上升再下降,两者比例在1∶1时,所绘制三元相图的微乳区域面积最大,但形成的O/W微乳区域亦有限。结论 以油酸为油相,可采用质量比1∶1的吐温80/无水乙醇为混合乳化剂,其水增溶和油酸增溶量均较大,可形成一定区域的O/W微乳。
关键词:  油酸  微乳  相行为  电导率
DOI:10.13748/j.cnki.issn1007-7693.2017.04.016
分类号:R944.9
基金项目:南通大学自然科学项目(11Z008)
Oil-in-water Microemulsion with Oleic Acid as the Oil Phase
LI Yuqin1,2, MA Juan3
1.School of Pharmacy, Nantong University, Nantong 226001, China;2.China State Institute of Pharmaceutical Industry, Shanghai 201203, China;3.School of Pharmacy, Fudan University, Shanghai 201203, China
Abstract:
OBJECTIVE To investigate the phase behavior of microemulsion, frequently-used emulsifier and co-emulsifier's solubilization ability with oleic acid as the oil phase and find the best quaternary system for water solubilization and oleic acid solubilization. METHODS Pseudo-ternary phase diagrams were constructed to screen the emulsifier, co-emulsifier and mass ratio for both by water solubilization parameters (AT, Wm, Sm) and oleic acid solubilization parameter (Om). O/W microemulsion area in phase diagram was determined by conductivity and phase inversion point.RESULTS The pseudo-ternary system was apt to form gels and the amount of water solubilization was limited with polyalcohol as co-emulsifier. Tween 20 had the maximum amount of water solubilization, but tween 80 had the best Om; the amount of oil/water solubilization was partly related to the HLB value. When using tween 80/absolute alcohol as mix-emulsifier, Om was in direct to their mass ratio, but water solubilization was not completely; the biggest AT was in 1∶1 mass ratio, but the O/W microemulsion area was limited. CONCLUSION The quarternary system of olelic acid, water and tween 80/ethanol with a mass ratio equal to 1∶1, has a clear O/W structure and proper amount in water and oleic acid solubilization.
Key words:  oleic acid  microemulsion  phase behavior  conductivity
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