Intestinal Absorption Site-Guided Development and Evaluation of Oral Disintegrating Controlled Release Tablets of Mirabegron.

The aim was to employ site-dependent absorption of mirabegron (MB) as a guide for fabrication of oral disintegrating controlled release tablet (ODCRT) which undergoes instantaneous release of loading fraction followed by delayed release of the rest of MB. The goal was to release MB in a manner consistent with the chronobiology of overactive bladder (OAB) syndrome. In situ rabbit intestinal permeability of MB was adopted to assess absorption sites. MB was subjected to dry co-grinding with citric acid to develop the fast-dissolving fraction in the mouth. Delayed release fraction was formulated by ethanol-assisted co-processing with increasing proportions of Eudragit polymer (S100) as pH responsive polymer. The developed dry mixtures underwent thermal (DSC) and physical (X-ray diffraction) characterization, in addition to in vitro release behavior. Optimized fast dissolving and delayed release formulations were mixed with tablet excipient before compression in ODCRT which was assessed for release profile using continuous pH variation. MB underwent preferential permeation through ileum and colon. Co-grinding with citric acid provided co-amorphous powder with fast dissolution. Co-amorphization of MB with Eudragit S100 (1:5) showed pH-dependent release to release most of the dose at pH 7.4. The developed ODCRT released 43.5% of MB in the buccal environment and retained MB at acidic pH to start release at pH 7.4. The study successfully fabricated ODCRT guided by site-dependent absorption. The ODCRT instantaneously released loading fraction to support the patient after administration with delayed fraction to sustain the effect.