| Popis: |
Poor solubility, erratic bioavailability and delivery challenges associated with gliclazide, which is commonly used in type 2 diabetes mellitus (T2DM) treatment, are overcome by exploring electrospun nanofibers technology. Employing emulsion electrospinning method with polyvinyl alcohol (PVA) alone and in combination with poly(d/l-lactide-co-glycolide) (PLGA), nanofibers were fabricated. Different concentrations of PLGA at 0.05%, 0.10% and 0.15% w/v were added to PVA to achieve a modified drug release profile to meet the typical physiological needs of T2DM, such as a faster drug release at meals followed by prolonged release to maintain constant plasma glucose level, which is highly desirable in T2DM management. Fabricated gliclazide-nanofibers were characterized by various studies, such as solubility, in-vitro drug release, drug release kinetic, scanning electron microscopy (SEM), differential scanning calorimetric (DSC), and Fourier transform infrared (FTIR) spectroscopy. GLZNF2, formulation of Drug:PVA:PLGA 0.1:10:0.05% w/v produced optimized gliclazide nanofibers. The optimized GLZNF2 nanofibers were incorporated into gelatin capsule for oral administration. SEM image of optimized formulation (GLZNF2) shows cylindrical shaped fiber, indicating gliclazide incorporated homogeneously in polymers with average fiber diameter 4.357 ± 0.83 µm. The solubility and dissolution rate of gliclazide nanofibers significantly improved compared to pure gliclazide. The gliclazide nanofibers produce a biphasic drug release profile, initial fast release, followed by prolonged release. Oral fabricated gliclazide fibers have tremendous potential as a drug carrier, and alternative technology for the improvement of solubility, dissolution rate, reduction in the dosing frequency and better blood glucose control could be explored in T2DM management. |
