Optimization and In Vivo Evaluation of an Oral Dual Controlled-Release Tablet Dosage Form of Insulin and Duck Ovomucoid

The objectives of the present study were to (1) optimize the release rate of insulin from compressed microparticulates and (2) compare the in vivo hypoglycemic effect of optimized insulin microparticulates with compressed enzyme inhibitor (duck ovomucoid) and without inhibitor. A 3-factor, 15-run Box Behnken design was used to construct polynomial models correlating the dependent and independent variables. Independent processing variables were rate of addition of the alcoholic Eudragit© L100 dispersion, volume of the antisolvent, and compression pressure. Responses were cumulative percent of insulin released from 1–6 hours. Insulin and ovomucoid release was simultaneously analyzed by high-performance liquid chromatography. They demonstrated variable release rates, which were optimized to the Higuchi's square root of time model to release the insulin and the inhibitor over 6 hours. The relationship between dissolution profiles and process parameters were demonstrated by contour and response surface plots. In vivo hypoglycemic effect was evaluated in rabbits in a 3-way crossover design. Cocompressed microparticulates of insulin and duck ovomucoid displayed a 3.2-fold greater hypoglycemic effect when compared with a similar preparation without ovomucoid. This study demonstrated the potential benefits of dosage forms with dual controlled-release mechanisms for both the protein and enzyme inhibitor.     

Evaluation of dextran-flufenamic acid ester as a polymeric colon-specific prodrug of flufenamic acid,an anti-inflammatory drug,for chronotherapy

Dextran-flufenamic acid ester (Dex-FFA) with varied degree of substitution (DS) was prepared by imidazolide method. Dex-FFA was stable in pH 1.2 or pH 6.8 buffer. The depolymerization degree of Dex-FFA by dextranase decreased as DS increased. Dex-FFA with DS of 13 or 20 released FFA up to 70% or 21% of the dose, respectively, on 24 h-incubation with the 10% cecal contents. FFA was liberated up to 29% of the dose on 24 h-incubation of dextranase pre-treated Dex-FFA with the homogenates of the upper intestine, whereas no FFA was detected devoid of dextranse-pretreatment. Upon oral administration of Dex-FFA (DS 13, 20?mg equivalent of FFA/kg) or FFA (10?mg/kg) to rats, t_max for FFA with Dex-FFA administration delayed approximately 6?h compared with that of free FFA administration, while C_max for FFA was similar. The plasma level for FFA became greater around 6?h after administration of Dex-FFA than free FFA and it was maintained throughout the period of 24 h-experiment. Dex-FFA markedly attenuated gastric ulcerogenicity of FFA. Taken together, Dex-FFA could be useful as a colon-specific prodrug which possesses anti-inflammatory properties and offers opportunities as a chronotherapeutic approach for the treatment of arthritis.