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首页> 外文期刊>Journal of Pharmaceutical and Biomedical Analysis: An International Journal on All Drug-Related Topics in Pharmaceutical, Biomedical and Clinical Analysis >Structural characterization of the oxidative degradation products of an antifungal agent SCH 56592 by LC-NMR and LC-MS.
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Structural characterization of the oxidative degradation products of an antifungal agent SCH 56592 by LC-NMR and LC-MS.

机译:通过LC-NMR和LC-MS对抗真菌剂SCH 56592的氧化降解产物进行结构表征。

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摘要

LC-NMR and LC-MS were used to characterize the structures of four major degradation products of SCH 56592, an antifungal drug candidate in clinical trials. These compounds were formed under stress conditions in which the bulk drug substance was heated in air at 150 degrees C for 12 days, and were separated from SCH 56592 as a mixture using a semi-preparative HPLC method. The data from LC-NMR, LC-ESI-MS (electrospray ionization mass spectrometry) and LC-ESI-MS/MS indicate that the oxidation occurred at the piperazine ring in the center of the drug molecule. The structures of the degradation products were determined from the 1H NMR spectra obtained via LC-NMR, which were supported by LC-ESI-MS and LC-ESI-MS/MS analyses. A novel degradation pathway of SCH 56592 was proposed based on these characterized structures.
机译:LC-NMR和LC-MS用于表征SCH 56592的四种主要降解产物的结构,SCH 56592是临床试验中的一种抗真菌药物。这些化合物是在压力条件下形成的,其中将原料药在空气中于150摄氏度下加热12天,然后使用半制备型HPLC方法将其与SCH 56592混合分离。 LC-NMR,LC-ESI-MS(电喷雾电离质谱)和LC-ESI-MS / MS的数据表明,氧化发生在药物分子中心的哌嗪环上。降解产物的结构由通过LC-NMR获得的1H NMR光谱确定,并由LC-ESI-MS和LC-ESI-MS / MS分析支持。基于这些特征结构,提出了SCH 56592的新型降解途径。

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