The main stage in the linking and activation of the specific receptors by the insulin is the dissociation of this peptide hexamers, normally present in pharmaceutical formulations, in the monomeric active form. Because of this, the use of different cyclodextrins as adjuvants in the formulations containing insulin has been explored and the realized studies have demonstrated that the cyclodextrins can increase the absorption of the insulin mainly by reducing the ability of insulin oligomerization in aqueous media. In this work, complexes of INS:HP-beta-CD and INS:DM-beta-CD have been characterized by the use of isothermal calorimetry titration (ICT) and dynamic scattering of light. By means of ICT, the thermodynamic parameters of interaction between insulin and the cyclodextrins have been determined, and it was observed that the complexation occurs with an increase of entropy for both systems. The experiments of dynamic scattering of light have not showed reduction in the size of insulin particles, which could indicate the dissociation of insulin hexamers after the complexation with cyclodextrins. Then, the INS: HP-beta-CD and INS:DM-beta-CD complexes were encapsulated in PLGA microspheres. These systems were characterized and it was not observed any significant difference in the microspheres diameter, but a considerable increase in the hormone loading after the complexation with HP-beta-CD and DM-beta-CD was shown.
Insulin; Cyclodextrins; Microspheres; Isothermal titration calorimetry; Hydrodynamic diameter
