Artículos de revistas
Supramolecular aggregates of oligosaccharides with co-solvents in ternary systems for the solubilizing approach of triamcinolone
Fecha
2016-10Registro en:
Medeiros, Arthur S. A. de ; Zoppi, Ariana; Barbosa, Euzébio G.; Oliveira, Jonas I. N.; Fernandes Pedrosa, Matheus F.; et al.; Supramolecular aggregates of oligosaccharides with co-solvents in ternary systems for the solubilizing approach of triamcinolone; Elsevier; Carbohydrate Polymers; 151; 10-2016; 1040-1051
0144-8617
CONICET Digital
CONICET
Autor
Medeiros, Arthur S. A. de
Zoppi, Ariana
Barbosa, Euzébio G.
Oliveira, Jonas I. N.
Fernandes Pedrosa, Matheus F.
Longhi, Marcela Raquel
Silva Júnior, Arnóbio A. da
Resumen
A second compound is generally associated with oligosaccharides as a strategy to maximize the solubilizing effect for nonpolar compounds. This study elucidated the role and the mechanism whereby liquid compounds interact in these supramolecular aggregates in the solubilization of triamcinolone. Three different oligosaccharides (beta-cyclodextrin, 2-hydroxipropil-beta-cyclodextrin, and randomly methylated beta-cyclodextrin) and two potent co-solvents (triethanolamine and N-methyl pyrrolidone) were carefully evaluated by using three distinct experimental approaches. Incredibly stable complexes were formed with cyclodextrins (CDs). The structure of the complexes was elucidated by magnetic resonance spectra 2D-ROESY. The interactions of the protons of ring “A” of the drug with H3 and H5 protons of the CD cavity observed in the binary complexes remained in both ternary complexes. Unlike the observed ternary associations with triethanolamine, N-methyl pyrrolidone competed with the triamcinolone CD cavity and considerably decreased the stability of the complex and the solubility of the drug. The molecular dynamics (MD) and quantum mechanics:molecular mechanics (QM:MM) calculations supported that triethanolamine stabilized the drug-CD interactions for the conformer identified in the 2D-ROESY experiments, improving the quality and uniformity of the formed complex. The role played by the co-solvent in the ternary complexes depends on its specific ability to interact with the CD cavity in the presence of the drug, which can be predicted in theoretical studies to select the best candidate.