Hydrotrope accumulation around the drug: the driving force for solubilization and minimum hydrotrope concentration for nicotinamide and urea
Abstract
Nicotinamide is an effective non-micellar hydrotrope (solubilizer) for drugs with low aqueous solubility. To clarify the molecular basis of nicotinamide’s hydrotropic effectiveness, we present here a rigorous statistical thermodynamic theory, based on the Kirkwood–Buff theory of solutions, and our recent application of it to hydrotropy. We have shown that (i) nicotinamide self-association reduces solubilization efficiency, contrary to the previous hypothesis which claimed that self-association drives solubilization and (ii) the minimum hydrotrope concentration (MHC), namely, the threshold concentration above which solubility suddenly increases, is caused not by the bulk-phase self-association of nicotinamides as has been postulated previously, but by the enhancement of nicotinamide–nicotinamide interaction around the drug molecules. We have thus established a new view of hydrotropy – it is nicotinamide’s non-stoichiometric accumulation around the drug that is the basis of solubility increase above MHC.