Li Jing, Li Li-Yang, He Sai-Fei, Li Shan, Dong Chang-Zhi, Zhang Lei
School of Bioscience and Bioengineering, South China University of Technology, Guangzhou 510006, P. R. China.
School of Bioscience and Bioengineering, South China University of Technology, Guangzhou 510006, P. R. China.
J Pharm Sci. 2017 Apr;106(4):1069-1074. doi: 10.1016/j.xphs.2016.12.010. Epub 2016 Dec 20.
Two vortioxetine (VOT) salts with hydrochloride (VOT-HCl and VOT-0.5HCl) were prepared and structurally characterized. VOT-HCl features 1-dimensional P/M helical chains through N-H···Cl hydrogen bond interactions, whereas VOT-0.5HCl possesses a 1-dimensional zigzag structure in which 2 VOT molecules share a single proton through N···H···N interactions. VOT-HCl converts into the monohydrate VOT-HCl·HO after dissolution in water, whereas VOT-0.5HCl remains stable. The N 1s X-ray photoelectron spectroscopy analysis shows a characteristic binding energy peak at approximately 398.0 eV for VOT. The shift to high energy occurs at 400.3 eV for VOT-HCl and VOT-HBr, and at 399.7 eV for VOT-0.5HCl, which supports the salt formation by the degree of proton transfer and is confirmed by single-crystal X-ray analyses. The apparent equilibrium solubilities of VOT in water are significantly improved to 2.90 mg/mL (approximately a 32.0-fold increase over that of the free base) for VOT-HCl and to 0.59 mg/mL (approximately a 5.7-fold increase over that of the free base) for VOT-0.5HCl at 25°C.
制备了两种含盐酸盐的伏硫西汀(VOT)(VOT-HCl和VOT-0.5HCl)并对其结构进行了表征。VOT-HCl通过N-H···Cl氢键相互作用形成一维P/M螺旋链,而VOT-0.5HCl具有一维锯齿结构,其中2个VOT分子通过N···H···N相互作用共享一个质子。VOT-HCl溶解于水后转化为一水合物VOT-HCl·H₂O,而VOT-0.5HCl保持稳定。N 1s X射线光电子能谱分析显示VOT在约398.0 eV处有一个特征结合能峰。VOT-HCl和VOT-HBr在400.3 eV处出现向高能的位移,VOT-0.5HCl在399.7 eV处出现位移,这通过质子转移程度支持了盐的形成,并得到单晶X射线分析的证实。在25°C时,VOT在水中的表观平衡溶解度显著提高,VOT-HCl达到2.90 mg/mL(比游离碱约增加32.0倍),VOT-0.
