Tavares, A. A.; TAVARES, ALBANIZA A.; TAVARES, ALBANIZA ALVES.; http://lattes.cnpq.br/8402851333688638; TAVARES, Albaniza Alves.
Abstract:
Chitosan / montmorillonite bionanocomposite films were prepared by the solvent
evaporation method, with the aim of immobilizing the drug ibuprofen (IBU) and delaying
their release when subjected to a medium that simulates the environment of the
gastrointestinal tract. The effects of the presence of montmorillonite, in different mass
proportions (50, 20 and 10%), on the morphological and physical properties of the films
were studied. X - ray diffracttion (XRD), infrared spectroscopy (FTIR), scanning
electron microscopy (SEM), swelling and in vitro controlled release were perfomed.
The results indicated that the methodology adopted allowed to produce dense and
uniform films, and that the incorporation of montmorillonite with different mass
proportions to the system led to the formation of bionanocomposites with orderly
intercalated morphology, disordered tending to exfoliation and partially exfoliated,
resulting in variations in encapsulation efficiency and degree of swelling of films. The
crystallinity of the systems decreased with the incorporation of the drug and when
subjected to the in vitro release test in fluids that simulated the environment of the
gastrointestinal tract at pH 1.2 (stomach), IBU release occurred by erosion of the matrix
and at pH 7.2 (gut) by diffusion. However, in both, the release behavior was of the
Fickian type. Among the systems studied, the QCL10IBU showed a slower release
rate due to a greater accommodation of the IBU molecules in the galleries of
montmorillonite, possibly related to their disordered intercalated morphology tending
to exfoliate, their higher degree of crystallinity and encapsulation efficiency. Therefore,
in this study, the methodology used was adequate for the synthesis of chitosan /
montmorillonite bionanocomposite films with good encapsulation efficiency and with
controlled release characteristics of the drug, indicating that these systems are
promising in the oral IBU administration.