ABSTRACT
This study demonstrated that an enteric polymer can mitigate the effects of gastric pH on the oral absorption of a poorly water-soluble weak acid drug, dantrolene (DNT). An amorphous solid dispersion (ASD) of DNT with hydroxypropyl methylcellulose (HPMC) acetate succinate (ASD-HPMCAS) was prepared as the enteric released ASD (ER-SF). ASD with HPMC (ASD-HPMC) and DNT sodium salt were also used as immediate-release supersaturable formulations (IR-SFs) with and without water-soluble polymer, respectively. In vivo study with rats and in vitro study with a dissolution/permeation (D/P) system were performed to evaluate oral DNT absorption from each formulation under normal and high gastric pH conditions in rats and humans, respectively. The oral absorption of DNT from both IR-SFs in rats with a high gastric pH was significantly higher than that in rats with a normal gastric pH. In contrast, ASD-HPMCAS attenuated the difference in oral absorption between normal and high gastric pH conditions with significant improvement of DNT absorption. In vivo results implied that an enteric polymer delayed the onset of dissolution until after gastric emptying. ASD-HPMCAS generated supersaturation in the small intestine irrespective of gastric conditions, which was supported bythe in vitrostudy using the D/P system. This study suggested that an enteric polymer is useful to mitigate the inter- and intra-individual differences in oral absorption of poorly water-soluble weak acid drugs.