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Insight into Formation, Synchronized Release and Stability of Co-Amorphous Curcumin-Piperine by Integrating Experimental-Modeling Techniques

分子间力 无定形固体 姜黄素 分子 溶剂化 胡椒碱 氢键 分子动力学 化学 溶解 相互作用能 化学物理 计算化学 结晶学 物理化学 有机化学 生物化学
作者
Jiawei Han,Yang Yang,Yunjuan Hou,Mengyuan Tang,Yunran Zhang,Yijun Zhu,Xiaoqian Liu,Jue Wang,Yuan Gao
出处
期刊:Journal of Pharmaceutical Sciences [Elsevier BV]
卷期号:113 (7): 1874-1884 被引量:10
标识
DOI:10.1016/j.xphs.2024.02.009
摘要

Intermolecular interactions between drug and co-former are crucial in the formation, release and physical stability of co-amorphous system. However, the interactions remain difficult to investigate with only experimental tools. In this study, intermolecular interactions of co-amorphous curcumin-piperine (i.e., CUR-PIP CM) during formation, dissolution and storage were explored by integrating experimental and modeling techniques. The formed CUR-PIP CM exhibited the strong hydrogen bond interaction between the phenolic OH group of CUR and the C=O group of PIP as confirmed by FTIR, ss 13C NMR and molecular dynamics (MD) simulation. In comparison to crystalline CUR, crystalline PIP and their physical mixture, CUR-PIP CM performed significantly increased dissolution accompanied by the synchronized release of CUR and PIP, which arose from the greater interaction energy of H2O-CUR molecules and H2O-PIP molecules than CUR-PIP molecules, breaking the hydrogen bond between CUR and PIP molecules, and then causing a pair-wise solvation of CUR-PIP CM at the molecular level. Furthermore, the stronger intermolecular interaction between CUR and PIP was revealed by higher binding energy of CUR-PIP molecules, which contributed to the excellent physical stability of CUR-PIP CM over amorphous CUR or PIP. The study provides a unique insight into the formation, release and stability of co-amorphous system from MD perspective. Meanwhile, this integrated technique can be used as a practical methodology for the future design of co-amorphous formulations.
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