Drug Solubilization by Means of Partition/Association Equilibrium Using a Modified Nanosized Dendrimeric Biopolymer

The objective of this study is to elucidate the combined effects of a novel type of material being investigated as a new excipient, an octenylsuccinate-modified dendrimer-like biopolymer (OS-DLB) and poloxamer (PLX), on the solubility of poorly water-soluble compounds. Phenytoin (PHT), griseofulvin (GSF), ibuprofen (IBU), and loratadine (LOR) were used as model compounds. Phase solubility measurements were conducted to determine the relative proportions of API, OS-DLB, and PLX that result in the most stable dendrimeric complexes. The solubilizing power of OS-DLB increases with increasing hydrophobicity of the solute. In the presence of PLX, the solubilization effect of OS-DLB is modestly accentuated for the most hydrophobic drugs (IBU and LOR) but has no effect on the least hydrophobic one (PHT). The maximum potentiation effect of PLX on the solubilizing properties of OS-DLB was observed for GSF, the drug of intermediate hydrophobicity. Three different types of solubilization profiles were obtained in the study. All three different profiles can be appropriately described by a single solubilization model, depending on the specific parameter values. The defining parameters of the model reflect the hydrophobicity of the drug on the one hand and, on the other hand, the inherent tendency of the drug (crystal lattice energy) toward crystallization.