Characterization and Dissolution Study of Oxodipine from Solid Binary Systems

Abstract

Thennomicroscopy and differential scanning calorimetry were employed to characterize solid binary systems prepared with oxodipine and PEG 6000, 2-hydroxypropyl-β-cyclodextrin or mannitol. DSC curves did not allow to diferentiate physical mixtures from solid dispersions. Thennomicroscopy revealed the interactions that can be produced between drug and each carrier, due to heat contribution, when the physical mixtures were observed; also this thermal technique permited us to ascertain the composition of particles that constitute the solid dispersions. Dissolution studies showed that the amelioration obtained in oxodipine dissolution from physical mixtures was due to the dessagregant action of the carriers, which obtained an increase of the drug surface in contact with the dissolution medium. The proportions and carrier nature influence the oxodipine dissolution, fundamentally from solid dispersions, where the interaction drug/carrier is stronger than in physical mixtures.