Abstract
Famotidine (FMT) an anti-ulcer drug, recently being repurposed in COVID-19 treatment, suffers from poor aqueous solubility and restricted bioavailability (<40%). To conquer the limitations endured by this potent anti-ulcer agent, two novel 1:1 cocrystals of FMT, namely Famotidine-Sorbic Acid (FSOR) and Famotidine-Syringic Acid (FSY), were synthesized using the liquid-assisted grinding method and evaluated. Distinct DSC thermograms and PXRD patterns advocate the existence of a new crystalline form. The unique organization of the hydrogen-bonded network, in the prepared cocrystals, is inferred by variation in characteristic vibrational frequencies in FT-IR spectroscopic analysis and supported by crystal structure determination. FSOR cocrystallize in orthorhombic PNCB and FSY in triclinic P 1 crystal system. Further, a significant amplification in the solubility (9 to 5-fold) and dissolution (8 to 5-fold) of FMT in cocrystalline form, with simultaneous augmentation in peak plasma concentration (2 to 1.5-fold higher) and relative bioavailability (approx. 200% to 135%). This is associated with the remarkable increment in their anti-ulcer and anti-oxidant potential. Thus, the study illustrates that cocrystallization as a worthy approach in the efficient delivery of neutral compounds suffering from inadequate solubility crisis.
Published Version
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