Design of mesalamine loaded micro-particles: Preparation, in vitro and in-vivo characterization

Abstract

The goal of this study was to develop mesalamine (MS) microparticles that could be ingested by the colon without first passing via the stomach and small intestines. Without resorting to the time-consuming and laborious double emulsion solvent diffusion method, microparticles were successfully fabricated using the Box-Behnken Design method. Microparticle production was optimized, and the effects of many parameters were analyzed (X1: Eudragit S100, X2: Span 80 and X3: agitation speed). Using the Box-Behnken design (BBD), we compared the chosen optimized microparticles to the pure drug solution utilizing in vivo pharmacokinetic study for particle size (Y1), entrapment efficiency (Y2), and drug-release (Y3). It was simple to create spherical, free-flowing, smooth-surfaced microparticles with a zeta potential of −36.52 mV and a size distribution of 264.35 ± 6.28–652.34 ± 6.49 nm. Coefficients of 264.35 ± 6.28–652.34 ± 6.49%, 42.31 ± 2.43–89.74 ± 2.17%, and 52.31 ± 0.43–93.51 ± 0.33% from a quadratic model best fit the observed values of dependent variables. Formulation F4 was selected as the best option because it prevented the drug from being released in the upper GIT before it was ready and instead released it only in the colon, where the pH is optimal. The formulation had a particle size of 266.597 μm, an entrapment efficiency of 93.735%, a cumulative drug release of 95.578 percent, and a desirability factor of 0.998. In comparison to drug solution pharmacokinetics, microparticle pharmacokinetics showed a 6.35-fold decrease in Cmax and MS with an appropriately increased half-life of 8.13 h. (13.67 and 3.46). This enhanced bioavailability of MS released from microparticles is probably due to an increase in the half-life, mean residence time (MRT), and area under the concentration–time curve (AUC0-24) of MS. Over a long length of time with no increase in plasma MS level, it became clear that the novel method of MS-loaded microparticles would provide successful therapy for ulcerative colitis. A pharmacodynamic study found that mesalamine-loaded microparticles dramatically decreased colon edema, necrosis, and bleeding compared to free drug solution. Results from this study suggest that mesalamine-loaded microparticles may be an effective pharmaceutical delivery strategy for the management of ulcerative colitis.