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Dissolution changes in drug-amino acid/biotin co-amorphous systems: Decreased/increased dissolution during storage without recrystallization

Zhiren Zou, Qiang Huang, Xiaobo Li, Xianzhi Liu, Lina Yin, Yunjie Zhao, Guang Liang, Wenqi Wu

2023European Journal of Pharmaceutical Sciences13 citationsDOIOpen Access PDF

Abstract

Co-amorphous systems have been proven to be a promising strategy to address the poor water solubility of poorly water-soluble drugs. Generally, the initial dissolution behaviors after co-amorphous system preparation and the potential recrystallization during storage are used to evaluate the performance of co-amorphous systems. However, this study reveals that decreased dissolution and unexpected increased dissolution were observed during storage though the co-amorphous systems maintained amorphous form. Three drugs (valsartan, tadalafil, mebendazole) and three co-formers (arginine, tryptophan, biotin) were used to prepare co-amorphous systems and the samples were stored for different times. After stored for 80 d, most of the co-amorphous systems maintained amorphous form, however, decreased and increased intrinsic dissolution rates (IDRs) were both observed in these non-recrystallized co-amorphous systems. The moisture changes of the systems during storage and the possible drug-co-former molecular interactions showed no effect on the dissolution changes, while phase separation might play a role in it. In conclusion, more attention should be paid to the dissolution changes of co-amorphous systems during storage. Focusing on the initial dissolution behaviors after sample preparation and the physical recrystallization during storage is not enough for the development of co-amorphous systems in future.

Topics & Concepts

DissolutionAmorphous solidRecrystallization (geology)Chemical engineeringSolubilityMaterials scienceChemistryOrganic chemistryPaleontologyBiologyEngineeringDrug Solubulity and Delivery SystemsPharmacological Effects of Natural CompoundsAdvancements in Transdermal Drug Delivery
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