Determination of Aggregation Numbers of Bile Salt Micelles with the Depression of the Solution Freezing Point

Journal of Applied Solution Chemistry and Modeling Pub Date : 2013-11-25 DOI:10.6000/1929-5030.2013.02.04.6

Mihalj PoÅ¡a, Kosta PopoviÄ

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引用次数: 7

Abstract

The special geometry of the steroid skeleton causes formation of bile acid anion micelles with small aggregation numbers, in contrast to aliphatic amphiphiles. Relative to the tendency to reduce membrane toxicity, pharmacological investigations of bile acids are mainly concerned with their oxo derivatives. Since micelles of these bile acids have been insufficiently studied, the objective of this work is the determination of aggregation numbers of corresponding micelle monomers. The aggregation numbers were determined using the freezing point depression of the solutions by applying the appropriate equations of Debye-HA¼ckel, Guggenheim and Gibbs-Duhems, and using pNa data measured with a Na-selective electrode. Depending on the structure of the bile acid anion, the values obtained for the aggregation numbers were in the range from 2.09 to 3.44. The increase in number of oxo groups in the molecule is accompanied by a decrease in hydrophobicity of the convex side of the steroid skeleton of the bile acid anion, resulting in a lower aggregation number.

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降低溶液凝固点对胆汁盐胶束聚集数的测定

类固醇骨架的特殊几何形状导致形成聚集数量小的胆汁酸阴离子胶束，与脂肪族两亲体相反。相对于降低膜毒性的趋势，胆汁酸的药理学研究主要涉及其氧基衍生物。由于对这些胆汁酸胶束的研究还不够充分，本研究的目的是确定相应胶束单体的聚集数。通过适当的Debye-HA¼kel, Guggenheim和gibbs - duhem方程，并使用na选择电极测量的pNa数据，利用溶液的凝固点下降来确定聚集数。根据胆汁酸阴离子的结构，聚合数的取值范围为2.09 ~ 3.44。分子中氧基数量的增加伴随着胆汁酸阴离子类固醇骨架凸侧疏水性的降低，导致聚集数降低。

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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Journal of Applied Solution Chemistry and Modeling

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