Iso-Structurality Induced Solid Phase Transformations: A Case Study with Lenalidomide
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- 作者:Ramanaiah Chennuru ; Prakash Muthudoss ; Raja Sekhar Voguri ; Srividya Ramakrishnan ; Peddy Vishweshwar ; R. Ravi Chandra Babu ; Sudarshan Mahapatra
- 刊名:Crystal Growth & Design
- 出版年:2017
- 出版时间:February 1, 2017
- 年:2017
- 卷:17
- 期:2
- 页码:612-628
- 全文大小:1341K
- ISSN:1528-7505
文摘
Lenalidomide (LDM) is a thalidomide analogue known for its immunomodulation, antiangiogenic, and antineoplastic properties. However, to date, only two forms of lenalidomide [Form-1 (anhydrous) and Form-2 (hemihydrate)] are reported in the literature. Through a comprehensive polymorph screening herein, we report five forms of lenalidomide [Form-3 (DMF-solvate), Form-4 (anhydrous), Form-5 (DMSO solvate), Form-6 (acetone solvate), and Form-7 (dihydrate)]. Single crystal structures (for all forms) are established to provide potential knowledge about the intermolecular interactions, three-dimensional structures, and the nature of solvent/water within the lattice. Thermodynamic stability investigations revealed unusual solid state phase transformations which are relatively unexplored to date. It is noteworthy that all solvates upon desolvation convert to Form-1 (thermodynamically stable anhydrous form), whereas all hydrates upon dehydration convert to a metastable Form-4 (novel anhydrous form) which, upon further heating, converts to more stable Form-1. Correlation of results from modeling, single crystal analysis, and nonambient studies established “isostructurality” as one of the major factors leading to such bifurcated phase transformations. Mechanisms of desolvation and dehydration in different forms of LDM are explained by utilizing various analytical techniques such as variable temperature Fourier transform infrared spectroscopy, variable temperature powder X-ray diffraction, differential scanning calorimetry, and hot stage microscopy. A thorough understanding of the relationships between structure and thermodynamic properties is deemed a prerequisite which is considered vital in selecting the most suitable form for drug product development.