化学
亲水作用色谱法
色谱法
质谱法
液相色谱-质谱法
逆流色谱法
反相色谱法
极地的
试剂
乙腈
样品制备
高效液相色谱法
分析化学(期刊)
有机化学
物理
天文
作者
Gu Xiao,Lishi Yang,Tao Qiao-feng,Jie Ai,Chenxiao Yan,Jinqi Zheng,Liya Hong
标识
DOI:10.1016/j.chroma.2022.463632
摘要
The separation and characterization of small polar impurities in polar drugs such as calcium gluconate products are always challenging, due to their poor retention on traditional reversed phase (RP) columns. Although ion-pair reversed-phase liquid chromatography (IPRP-LC) and hydrophilic interaction liquid chromatography (HILIC) are commonly used methods for polar compound analysis, both methods have some drawbacks. For example, IPRP-LC is incompatible with mass spectrometry (MS) due to the presence of non-volatile salts in its mobile phase and HILIC has limited sensitivity due to the poor solubility of polar drugs in the organic-rich sample diluents used in HILIC separations. In order to characterize the highly polar impurities in calcium gluconate injections, a heart-cutting two-dimensional liquid chromatography (2D-LC) method coupled with quadrupole time-of-flight mass spectrometry (Q-TOF/MS) was developed in this study. An IPRP-LC method in the first dimension (1D) provided the selectivity for the separation of polar analytes, using a 100% aqueous mobile phase containing phosphate buffer and ion-pair reagent. Heart cuts of target peaks were collected with sample loops and transferred to the second dimension (2D) HILIC column using an organic-rich mobile phase. In order to solve the mobile phase mismatch problem between the two dimensions, a make-up flow module was introduced in the 2D-LC system to dilute the 1D-water-rich fractions with acetonitrile before entering the sample loops. By optimizing the loop size and dilution factor, good retention and peak shape of the highly polar impurities were obtained on the 2D-HILIC column, and the ion suppression effect for MS detection from the ion-pair reagent and non-volatile salt in the 1D-effluent was minimized. A total of five impurities were identified through fragmentation studies by Q-TOF/MS analysis and their fragmentation pathways were proposed. Four of them were further confirmed by reference substances. This study not only provided useful information for quality control of calcium gluconate injections, but also provided an alternative method for polar impurity characterization in pharmaceuticals.
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