School of Traditional Chinese Pharmacy, China Pharmaceutical University, Nanjing, 211198, PR China; School of Pharmacy, Changzhou University, Changzhou, 213164, PR China.
School of Traditional Chinese Pharmacy, China Pharmaceutical University, Nanjing, 211198, PR China.
J Pharm Sci. 2023 Jan;112(1):182-194. doi: 10.1016/j.xphs.2022.07.014. Epub 2022 Jul 25.
In the previous study, the development of amorphous curcumin (CUR) aimed to enhance the solubility/dissolution of CUR by disrupting its crystal lattice, but it unexpectedly showed a decreased dissolution than its crystalline counterpart on account of gel formation in its dissolution process. Whether such gelation could be eliminated by co-amorphous strategy was answered in this study. Herein, CUR by co-amorphization with chlorogenic acid (CHA) was successfully prepared using quench cooling. The formed co-amorphous material (namely CUR-CHA CM) eliminated the gelation and hence performed superior dissolution performance than crystalline/amorphous CUR. Meanwhile, it exhibited higher physical stability than amorphous CUR during dissolution as well as under long-term/accelerated conditions. To further study the such enhancement mechanism, the internal molecular interactions were investigated for CUR-CHA CM in the solid state as well as in aqueous solution. FTIR and solid-state C NMR spectra confirmed that intermolecular hydrogen bonds formed between CUR and CHA after co-amorphization. Furthermore, the nucleation of CUR was significantly inhibited by CHA in an aqueous solution, thus maintaining the supersaturated dissolution for a long time. The present study offers a feasible strategy to eliminate gelation and enhance stability of amorphous solids by co-amorphization and crystallization inhibition.
在之前的研究中,开发无定形姜黄素 (CUR) 的目的是通过破坏其晶格来提高 CUR 的溶解度/溶解率,但出乎意料的是,由于其溶解过程中的凝胶形成,其溶解率反而低于其晶型对照物。这种凝胶化是否可以通过共无定形策略消除,在本研究中得到了回答。在此,使用淬火冷却成功地将 CUR 与绿原酸 (CHA) 共无定形化。所形成的共无定形材料(即 CUR-CHA CM)消除了凝胶化,从而表现出优于晶型/无定形 CUR 的溶解性能。同时,它在溶解过程中以及在长期/加速条件下表现出比无定形 CUR 更高的物理稳定性。为了进一步研究这种增强机制,研究了 CUR-CHA CM 在固态和水溶液中的内部分子相互作用。FTIR 和固态 C NMR 光谱证实,共无定形化后 CUR 和 CHA 之间形成了分子间氢键。此外,CHA 在水溶液中显著抑制了 CUR 的成核,从而长时间保持过饱和溶解。本研究提供了一种通过共无定形化和抑制结晶来消除凝胶化和提高无定形固体稳定性的可行策略。
