Department of Pharmaceutics, School of Pharmacy, China Pharmaceutical University, Nanjing 211198, People's Republic of China.
Department of Pharmaceutical Engineering, School of Engineering, China Pharmaceutical University, Nanjing 211198, People's Republic of China.
IUCrJ. 2024 Jan 1;11(Pt 1):23-33. doi: 10.1107/S2052252523009582.
Fatty acid-derivative prodrugs have been utilized extensively to improve the physicochemical, biopharmaceutical and pharmacokinetic properties of active pharmaceutical ingredients. However, to our knowledge, the crystallization behavior of prodrugs modified with different fatty acids has not been explored. In the present work, a series of paliperidone aliphatic prodrugs with alkyl chain lengths ranging from C4 to C16 was investigated with respect to crystal structure, crystal morphology and crystallization kinetics. The paliperidone derivatives exhibited isostructural crystal packing, despite the different alkyl chain lengths, and crystallized with the dominant (100) face in both melt and solution. The rate of crystallization for paliperidone derivatives in the melt increases with alkyl chain length owing to greater molecular mobility. In contrast, the longer chains prolong the nucleation induction time and reduce the crystal growth kinetics in solution. The results show a correlation between difficulty of nucleation in solution and the interfacial energy. This work provides insight into the crystallization behavior of paliperidone aliphatic prodrugs and reveals that the role of alkyl chain length in the crystallization behavior has a strong dependence on the crystallization method.
脂肪酸衍生前药已被广泛用于改善活性药物成分的物理化学、生物制药和药代动力学性质。然而,据我们所知,尚未研究过用不同脂肪酸修饰的前药的结晶行为。在本工作中,研究了一系列具有从 C4 到 C16 的烷基链长的帕利哌酮脂肪族前药,涉及晶体结构、晶体形态和结晶动力学。尽管烷基链长度不同,但帕利哌酮衍生物表现出等结构的晶体堆积,并在熔融和溶液中均以主要(100)面结晶。由于分子迁移率增加,熔融中帕利哌酮衍生物的结晶速率随烷基链长度的增加而增加。相比之下,较长的链延长了成核诱导时间,并降低了溶液中的晶体生长动力学。结果表明,溶液中成核的难度与界面能之间存在相关性。这项工作深入了解了帕利哌酮脂肪族前药的结晶行为,并揭示了烷基链长在结晶行为中的作用强烈依赖于结晶方法。