法莫替丁
溶解度
生物利用度
共晶
正交晶系
生物制药
化学
溶解
异烟酰胺
色谱法
材料科学
结晶学
核化学
晶体结构
有机化学
氢键
分子
药理学
医学
生物
遗传学
作者
Akshita Jindal,Mansi Prashar,Janhvi Dureja,Neelima Dhingra,Kunal Chadha,Maninder Karan,Renu Chadha
标识
DOI:10.1016/j.xphs.2022.04.018
摘要
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.
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