Identification, Isolation, and Characterization of a Novel Degradation Impurity of Busulfan Using Preparative Chromatography, NMR, and LC-MS.

Rajender Reddy Yerla, Surendra Babu Manubolu Surya
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Abstract

Background: Busulfan is the most effective medication for treating chronic myelogenous or granulocytic leukemia because it has cytotoxic properties that harm or kill hematopoietic cells. It cannot absorb light in the Ultraviolet range due to its structure. Because of this, it is very challenging to quantify using traditional HPLC coupled with UV/Photodiode Array detectors. So, using sodium diethyldithiocarbamate, a derivatization method was developed to quantify related impurities. A significant unknown impurity was identified in derivatized samples of busulfan and a noticeably high percentage level was discovered during routine drug testing.

Objective: We aimed to isolate, and characterize the unknown impurity observed in the samples and to identify its root cause.

Methods: Preparative HPLC was used to isolate the unidentified, derivatized impurity, and 1H NMR, 13C NMR, and MS were used to decipher its structural components.

Results: The spectral characterization data analysis showed that the unknown impurity was related to busulfan. Additionally, it was noted that the impurity developed as a result of the residual buffer used to prepare the derivatizing reagent.

Conclusion: The isolated impurity was found to be same as comparable to that found in busulfan drug substances, according to the results of the characterization tools. An alternative method of reagent preparation was optimized and deemed satisfactory because the buffer used in reagent preparation is the only factor contributing to the formation of impurities.

Highlights: Using cutting-edge analytical characterization tools, it was possible to explain the structural characteristics of an unknown impurity and discover that it was a novel impurity, which undoubtedly contributes to the comprehension of drug substance reaction properties.

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利用制备色谱法、核磁共振和液相色谱-质谱法鉴定、分离和分析布舒凡的一种新型降解杂质。
背景:硫胺丁烷是治疗慢性骨髓性或粒细胞性白血病的最有效药物,因为它具有伤害或杀死造血细胞的细胞毒性。由于其结构原因,它不能吸收紫外线范围内的光线。因此,使用传统的 HPLC 和 UV/PDA 检测器对其进行定量非常具有挑战性。因此,我们使用二乙基二硫代氨基甲酸钠,开发了一种衍生化方法来定量检测相关杂质。在常规药物检测过程中发现,衍生化后的丁硫醇样品中存在一种重要的未知杂质,其百分比水平明显偏高:目标:分离和鉴定样品中的未知杂质,并确定其根本原因:方法:使用制备型高效液相色谱法分离出不明衍生杂质,并使用 1H NMR、13C NMR 和 MS 分析其结构成分:光谱特性数据分析显示,未知杂质与布舒凡有关。此外,还注意到该杂质是由于制备衍生试剂时使用的残留缓冲液而产生的:结论:根据表征工具的结果,分离出的杂质与布舒凡药物中的杂质相当。由于试剂制备中使用的缓冲液是导致杂质形成的唯一因素,因此优化了试剂制备的替代方法,并认为该方法令人满意:亮点:利用最先进的分析表征工具,解释了一种未知杂质的结构特征,并发现它是一种新型杂质,这无疑有助于理解药物的反应特性。
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