TY - JOUR T1 - Studies on Stercuia Gum Formulations in the Form of Osmotic Core Tablet for Colon-Specific Drug Delivery of Azathioprine JF - PDA Journal of Pharmaceutical Science and Technology JO - PDA J Pharm Sci Technol SP - 172 LP - 184 DO - 10.5731/pdajpst.2013.00913 VL - 67 IS - 2 AU - Bipul Nath AU - Lila Kanta Nath Y1 - 2013/03/01 UR - http://journal.pda.org/content/67/2/172.abstract N2 - The purpose of this research is to evaluate Sterculia urens gum as a carrier for a colon-targeted drug delivery system. Microflora degradation studies of Sterculia gum was conducted in phosphate-buffered saline pH 7.4 containing rat caecal medium under an anaerobic environment. Solubility, swelling index, viscosity, and pH of the polymer solution were determined. Different formulation aspects considered were gum concentration (10–40%) and concentration of citric acid (10–30%) on the swelling index and in-vitro dissolution release. The results of the isothermal stress testing showed that there is no degradation of samples of model drug, azathioprine, the drug polymer mixture, and the core tablet excipients. Differential scanning calorimetry and Fourier transform infrared spectroscopy study proved the compatibility of the drug with Sterculia gum and other tablet excipients. Microflora degradation study revealed that Sterculia gum can be used as tablet excipient for drug release in the colonic region by utilizing the action of enterobacteria. The swelling force of the Sterculia gum could concurrently drive the drug out of the polysaccharide core due to the rupture of the mixed film coating under colonic microflora–activated environment. Sterculia gum gives premature drug release in the upper gastrointestinal tract without enteric coating and may not reach the colonic region. Sterculia gum as a colon-targeting carrier is possible via double-layer coating with chitosan/Eudragit RLPO (ammonio-methacrylate copolymer) mixed blend as well as enteric polymers, which would provide acid as well as intestinal resistance but undergo enzymatic degradation once reaching the colon. LAY ABSTRACT: The aim of the research is to evaluate wheather Sterculia urens, which is a polysaccharide, is suitable as a carrier for colonic delivery of drugs acting locally in the colon. Sterculia gum has been reported to have wide pharmaceutical applications such as tablet binder, disintegrant, gelling agent, and as a controlled release polymer. Sterculia gum falls under the category of a polysaccharide and is yet to be evaluated as a carrier for colonic delivery of drugs. First the susceptibility of the polysaccharide gum in rat caecal microflora was investigated because true polysaccharides are degraded by the action of normal colonic bacteria. Bacterial degradation of the gum in the colonic environment was confirmed by adding a small quantity of the gum in rat caecal content mixed with phosphate-buffered saline pH 7.4 under an anaerobic environment. Solubility, swelling index, viscosity, and pH of the polymer solution were determined. Different formulation aspects considered were gum concentration (10–40%), concentration of citric acid (10–30%) on swelling index, and in vitro dissolution behavior. Isothermal stress testing was done to determine that there was no degradation of the model drug, azathioprine, with Sterculia gum excipient mixtures under stressed conditions. Differential scanning calorimetry and Fourier transform infrared spectroscopy study proved the compatibility of the drug with Sterculia gum and other tablet excipients. Microflora degradation study revealed that Sterculia gum is digested by the colonic microflora and therefore can be used as a tablet excipient for drug release in the colonic region utilizing the microflora degradation mechanism. Sterculia gum gives premature drug release in the upper gastrointestinal tract without enteric coating and may not reach the colonic region. Sterculia gum as colon-targeting carrier is possible via double-layer coating with chitosan/Eudragit RLPO (ammonio-methacrylate copolymer) and Eudragit L100 polymers, which would provide acid as well as intestinal resistance but undergo enzymatic degradation once reaching the colon. ER -