Ceritinib的结晶行为:表征与优化策略

IF 2.8 Q2 ENGINEERING, CHEMICAL
Iva Zokić, Jasna Prlić Kardum
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引用次数: 0

摘要

由于活性药物成分的特定热力学性质,结晶过程经常在制药工业中遇到实施挑战。因此,选择合适的药物结晶方法和体系是至关重要的。Ceritinib是治疗肺癌的有效成分,它是在盐酸Ceritinib溶液冷却结晶过程中pH值发生改变而形成的。通过在不同的溶剂体系中进行加工,产生了几种多晶型化合物。在乙醇-水体系中生成了形式B和C的组合,形成了较小的晶体。丙酮-水体系产生了纯形式A,它具有更大的晶体,更适用于未来的研究。为了进一步提高颗粒性能,采用抗溶剂结晶法,在四氢呋喃中不同温度下对A型塞瑞替尼进行了重结晶。在较高的饱和温度下结晶会导致更大、更致密的晶体,从而增强过滤和干燥。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Crystallization Behavior of Ceritinib: Characterization and Optimization Strategies
Because of the specific thermodynamic properties of active pharmaceutical ingredients, the process of crystallization often meets implementation challenges in the pharmaceutical industry. Therefore, it is essential to select the appropriate method and system for the crystallization of a drug. Ceritinib, an active ingredient in the treatment of lung cancer, was formed as a result of pH modification during the cooling crystallization of ceritinib dihydrochloride solution. By carrying out processes in various solvent systems, several polymorphs were produced. A combination of forms B and C was generated in the ethanol–water system, resulting in smaller crystals. The acetone–water system produced pure form A, which has larger crystals and is more applicable for forthcoming studies. To additionally enhance granulometric properties, ceritinib form A was recrystallized in tetrahydrofuran at different temperatures using antisolvent crystallization. Crystallization at a higher saturation temperature results in larger and more compact crystals, which enhances filtration and drying.
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来源期刊
ChemEngineering
ChemEngineering Engineering-Engineering (all)
CiteScore
4.00
自引率
4.00%
发文量
88
审稿时长
11 weeks
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