Effect of Spironolactone on the Micellar Properties of Non-Ionic Surfactant: Assessment by Conductivity and Surface Tension Methods

M. Jain, S. Chatterjee, Manoj Jangde, Deepak Sina
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Abstract

An interaction of spironolactone (SPI) with octyl phenol ethoxylate (Triton-X-100 or TX-100) has been investigated by using conductometric and tensiometric measurement. The value of critical micellar concentration (CMC), degree of ionization (a) and thermodynamic parameters like standard enthalpy of micellization (?H°m), standard entropy of micellization (?S°m) and standard Gibb’s free energy (?G°m) were determined by conductivity data. The negative value of ?G°m shows spontaneity in the solubilization of drug. Various interfacial parameters such as maximum surface excess concentration (Gmax) and minimum area per molecule (Amin) was determined by surface tension measurement. All these parameters have been discussed in terms of drug-surfactant interactions. Based on the result it was found that variation in the presence of spironolactone in micellar properties of TX-100 increases with increase in concentration of drug. This study will help the pharmaceutical industries in the discovery of new drug and enhancement of their bioavailability.
螺内酯对非离子表面活性剂胶束性质的影响:电导率法和表面张力法评价
用电导法和张力法研究了螺内酯(SPI)与辛烷基酚聚氧乙酸酯(Triton-X-100或TX-100)的相互作用。通过电导率数据测定了临界胶束浓度(CMC)、电离度(a)以及胶束标准焓(H°m)、胶束标准熵(S°m)和标准吉布自由能(G°m)等热力学参数。G°m为负值时,表明药物的溶解具有自发性。通过表面张力测量确定了各种界面参数,如最大表面过量浓度(Gmax)和每分子最小面积(Amin)。从药物-表面活性剂相互作用的角度讨论了所有这些参数。结果发现,随着药物浓度的增加,螺内酯的存在对TX-100胶束性质的影响也随之增加。该研究将有助于制药行业发现新药并提高其生物利用度。
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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