Abstract
Objective: The research aims to formulate and develop the controlled release profile of glibenclamide by encapsulating glibenclamide into niosomes followed by incorporation into an aqueous gel base. Materials and methods: Glibenclamide incorporated niosomes were prepared by a modified ether injection technique using Span 20/Span 80 and cholesterol. The prepared niosomes were evaluated for chemical incompatibility by FT-IR, morphology, vesicle dimension, encapsulation efficiency, in-vitro diffusion and drug release kinetics. Niosomal gels were prepared by incorporating the optimized niosomes into a gel base containing Carbopol 934 and evaluated for viscosity, in-vitro diffusion and in-vivo pharmacodynamic activity. Results and discussion: The results indicated that relationship between the amount of Span and niosomal vesicular diameter was inversely proportional. Microscopic images have illustrated the sphere shape vesicles. The cumulative percentage of drug release from niosomal suspension was observed in the order GN-4>GN-2>GN- 6>GN-5>GN-3>GN-1. Glibenclamide gel showed highest percentage drug release when compared to niosomal gel. Invivo study revealed that the glibenclamide incorporated niosomal gel formulation; GNG-1 is more efficient in lowering blood glucose levels in experimental animals. Conclusion: The niosomal gel of glibenclamide had released the drug in well controlled manner which is supported by pharmacodynamic activity with evidence of consistent lowering of blood glucose levels.
Keywords: Blood glucose levels, Carbopol 934, diffusion, flux, glucometer, permeability.