A methodology for the qualitative analysis of a mixture of compounds obtained during the synthesis of difluprednate is described herein for the first time. For this scope a multi-technique analytical approach was developed, combining Liquid Chromatography/Mass Spectrometry (LC/MS), Nuclear Magnetic Resonance (NMR) and computational chemistry. Separation of isomers is frequently required for the identification of impurities in active pharmaceutical ingredients (APIs) to assess the impact they may exhibit on public health. During the final step of the difluprednate synthesis apart from the desired product, various by-products may be obtained. Structural analysis of the products using LC/MS and NMR indicated that the steroid difluprednate was obtained along with its acetyl/butyryl regional isomers, whereas the results were further supported by semi-empirical calculations of the MS-derived data. Following the proposed approach, we managed to elucidate the structures of the challenging 11-acetate, 17-butyrate from the 17-acetate, 21-butyrate, 6α,9α-difluoro prednisolone isomers. The approach utilized may be of general applicability for the analysis of impurities in active pharmaceutical ingredients obtained during chemical synthesis.
Keywords: Computational chemistry; Impurity profiling; Isomers; Mass spectrometry; Nuclear magnetic resonance; Steroids.
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