Abstract
ABSTRACTObjective: The purpose of this research was to formulate and evaluate floating microsphere of glipizide.Methods: Glipizide microsphere containing ethyl cellulose (EC) and hydroxyl propyl methyl cellulose (HPMC) were prepared by solvent evaporationmethod. Polymer to drug ratio affected characteristics of microspheres. Microspheres were discrete, spherical, and perforated form. The microspheresexhibited good floating property and achieved good gastric retention.Result: In vitro performance was evaluated by the usual pharmacopoeial and other tests such as drug polymer compatibility (Fourier transforminfrared scan), yield (%), micrometric properties such as tapped density (%). Compressibility particle size analysis (by optical microscopy), drugentrapment efficiency, surface topography (scanning electron microscope), and in vitro release study. On the basis of results, increasing the polymerratio increased the particle size (195.6±20.24 to 200.89±16.61), increased tapped density (maximum 0.29.60±0.00037 HGF4, batch), and decreased% compressibility (2.13±0.188). Drug loaded floating microspheres were found to be float more than 12 hrs on simulated gastric fluid (pH-1.2).Maximum drug entrapment was found in batch HGF3 (Drug:HPMC:EC) (1:1:3). Electron microscopy showed its perforated surface with hollowness.After 10 hrs, maximum release was found to be 78.0% (batch-GF1).Conclusion: The release study was performed in simulated gastric fluid with 0.02% tween80. The best release result was obtained at the ratio ofdrug: polymer (1:1).Keywords: Floating microspheres, Glipizide, Gastrorentensive system, In vitro release.
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