Abstract
Understanding the structure of an active pharmaceutical ingredient is essential for gaining insights into its physicochemical properties. Sodium valproate, one of the most effective antiepileptic drugs, was first approved for medical use in 1967. However, the structure of its anhydrous form has remained unresolved. This is because it was difficult to grow crystals of sufficient size for single-crystal X-ray diffraction (SCXRD). Although 3D electron diffraction (3D ED) can be used for studying crystals too small for SCXRD, the crystals of anhydrous sodium valproate are extremely sensitive to both humidity and electron beams. They degrade quickly both in air and under electron beam at room temperature. In this study, we developed a glove-box assisted cryo-transfer workflow for preparation of EM grids in protected atmosphere to overcome the current challenges for studying air and beam-sensitive samples using 3D ED. Using this technique, we successfully determined the structure of anhydrous sodium valproate, revealing a feature of Na-valproate polyhedral chains. Our results provide a robust framework for 3D ED analysis of air-sensitive crystals, greatly enhancing its utility across various scientific disciplines.
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