RESUMEN
Objective: To prepare carboxymethyl Bletilla striata polysaccharide-chitosan@curcumin (CM-BSP) polyelectrolyte complex films, optimize their preparation technology, and evaluate its quality. Methods: CM-BSP was synthesized, then CM-BSP and CS formed water-insoluble complex by electrostatic bonding, the Cur-loaded polyelectrolyte complex films were prepared by a volatilization of solvent method. The formulation and preparation technology were optimized using an orthogonal design method and the morphology and structure were observed by scanning electron microscopy and fourier transform microscopic infrared spectroscopy. Results: The optimal prescription was of CM-BSP 117 mg, CS 233 mg, glycerol 25%, Cur 20 mg. The mean thickness of Cur-loaded polyelectrolyte complex films was (74.0 ± 2.0) μm, drug loading capacities was 95.41%, and in vitro release rate was 93.78%. Conclusion: The obtained polyelectrolyte complex films displayed an smooth exterior inspection, uniform distribution, good drug loading capacities and in vitro release rate.
RESUMEN
In this work, aqueous solutions of chitosan (Ch) and [poly(acrylamide(AAm)-co-itaconicacid(IA)] have been mixed to yield Ch/poly(AAm-co-IA) Inter-polyelectrolyte complex (IPC) films. The films were characterized by FTIR, X-ray diffraction (XRD) and thermo gravimetric analysis (TGA). There was remarkable increase in the crystalline nature of IPC films. The films were investigated for their water absorption capacity in the physiological fluid (PF) of pH 7.4 at 37 °C. The amount of IA present in the film forming solutions affected the water absorption behavior of the resulting films. The dynamic water uptake data were interpreted by various kinetic models. The effect of pH on the swelling ratio (SR) indicated that the films showed highest swelling in lower as well as higher pH media. The water vapor transmission rates (WVTR) were obtained in the range of 6000-6645 g/m(2)/day.