Abstract

Floating drug delivery systems (FDDS) are utilized to target drug discharge in the stomach or to the upper parts of intestine. Famotidine has been the most extensively used drug for the management of peptic ulcer for various decades. The current study concerns the development and evaluation of floating tablets of famotidine which, after oral administration, are planned to extend the gastric residence time, enhance drug bioavailability and aim the gastric ulcer. A FDDS was expanded using gas-forming agents, like sodium bicarbonate, citric acid and hydrocolloids, like hydroxypropyl methylcellulose (HPMC) and carbopol 934P. The prepared tablets were evaluated in terms of their pre-compression parameters, physical characteristics, buoyancy, buoyancy lag-time, in vitro release, and swelling index. The formulations were optimized for the different viscosity grades of HPMC, carbopol 934P and its concentrations and combinations. The consequences of the in vitro release studies demonstrated that the optimized formulation (F6) could sustain drug release (98%) for 24 h and remain buoyant for 24 hr. Optimized formulation (F6) showed no considerable change in physical appearance, drug content, total buoyancy time or in vitro dissolution study after storage at 40°C/75% RH for 3 months. Lastly the tablet formulations establish to be economical and may conquer the draw backs associated with the drug during its absorption.
 Keywords: Famotidine, Floating drug delivery system, Hydrocolloids, Gastric residence time.

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