Investigation of Solution Behavior of Antidepressant Imipramine Hydrochloride Drug and Non-Ionic Surfactant Mixture: Experimental and Theoretical Study

In this paper, the interaction of imipramine hydrochloride (IMP, antidepressant drug) and a non-ionic surfactant Triton X-100 (TX-100) mixture in five different ratios through the tensiometric method in different solvents (aqueous/0.050 mol & BULL;kg(-1) aqueous NaCl/0.250 mol & BULL;kg(-1) aqueous urea (U)) were examined thoroughly at a temperature of 298 K. UV-Visible studies in an aqueous system of IMP + TX-100 mixtures were also investigated and discussed in detail. The pure (IMP and TX-100) along with the mixtures' critical micelle concentration (cmc) were assessed by a tensiometric technique. The obtained deviation of the mixtures' cmc values from their ideal values revealed the nonideal behavior of IMP + TX-100 mixtures amongst IMP and TX-100. Compared to aqueous systems, in the presence of aqueous NaCl, several changes in micelles/mixed micelles occurred, and hence a synergism/attractive interaction amongst components was found increased while in the existence of U, the synergism/attractive interaction between them decreased. The evaluated interaction parameter (beta(Rb)) value of mixed micelles showed the attractive or synergism between the IMP and TX-100. Various evaluated thermodynamic parameters in an aqueous system showed that the mixed micellization of the IMP + TX-100 mixture was an entropically spontaneous phenomenon, although the existence of salt in all studied systems can somewhat increase the spontaneity of the micellization process and in the aqueous U system, the spontaneity of the micellization process decreased. In an aqueous system, the interaction between IMP and TX-100 was also confirmed by UV-Visible study.

Automated summary

This study thoroughly examined the interaction of an antidepressant drug and a non-ionic surfactant mixture in different solvents, revealing nonideal behavior and attractive/synergistic interactions between the components. The presence of NaCl in the system increased synergism, while the presence of urea decreased it. Thermodynamic parameters showed that micellization was entropically spontaneous in water systems, with salt increasing spontaneity and urea decreasing it. UV-Visible studies confirmed the interaction between the drug and surfactant in aqueous systems.