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Co-amorphization Story of Furosemide-Amino Acid Systems: Protonation and Aromatic Stacking Insights for Promoting Compatibility and Stability

Maolin Li, Mengwei Wang, Yumin Liu, Ruiling Ouyang, Mingdi Liu, Dandan Han, Junbo Gong

2021Crystal Growth & Design12 citationsDOI

Abstract

Furosemide (FUR) is usually used to treat congestive heart failure and edema. Although bioavailability problems exist due to its poor solubility and unstable gastrointestinal absorption, preparing FUR/amino acid (AA) co-amorphous systems is regarded as a promising way to solve this problem. In this work, the oscillating ball milling method was successfully used to prepare the co-amorphous systems of FUR with l-cysteine, l-phenylalanine (PHE), l-arginine, l-tryptophan (TRP), and l-valine. Protonation of the secondary amino group (N2) in FUR probably results in interactions with the AA carboxyl group, which lead to excellent compatibility between FUR and AAs. The co-amorphous systems formed between FUR and PHE/TRP possess higher physical stability than other FUR/AA co-amorphous systems, which may be attributed to favorable aromatic stacking in FUR/PHE and FUR/TRP systems. Additional experiments were performed to explore the impact of co-former loadings on the stability of co-amorphous systems, which revealed that the co-amorphous systems are most stable when the molar ratios are at 0.527 and 0.423 for FUR in FUR/PHE and FUR/TRP systems, respectively. Finally, powder dissolution tests of the FUR/PHE and FUR/TRP co-amorphous systems were carried out, and the results demonstrated that the selected most stable co-amorphous systems have excellent dissolution advantage with a two-fold improvement of dissolution rate compared to pure FUR.

Topics & Concepts

ProtonationAmorphous solidDissolutionSolubilityChemistryTryptophanAmino acidChemical engineeringCrystallographyOrganic chemistryBiochemistryIonEngineeringDrug Solubulity and Delivery SystemsCoordination Chemistry and OrganometallicsPain Mechanisms and Treatments