Abstract

Ion-pair liquid chromatography with pulsed electrochemical detection (LC-PED) was established for the analysis of impurities in arbekacin (ABK) sulfate. APursuit pentafluorophenylpropyl (PFP) column was used as stationary phase. This novel method showed greater separation and sensitivity ability. In a representative ABK sample, 24 impurity peaks were detected in LC-PED, where of only 9 were monitored by a post-column derivatization method prescribed by the Japanese Pharmacopoeia (JP). For identification of the chemical structures of the impurities detected by LC-PED, LC-Mass Spectrometry (MS) was used. Two challenges had to be overcome in this work. The first was the transfer of the MS incompatible mobile phase to an MS compatibleone while maintaining the elution order of the peaks in the chromatograms. Previously reported approaches such as two-dimensional (2D)LC were hardly applicable in this case due to the lack of ultraviolet (UV) absorbing chromophores in ABK and its impurities. The sodium hydroxide solution was replaced by aqueous ammonia to adjust the pH of the mobile phase used in LC-PED. The other challenge encountered was the ion suppression effect caused by trifluoroacetic acid (TFA) and pentafluoroproponic acid (PFPA) in the mobile phase. Some strategies such as “TFA-fixed” and its modifications were tried, but they were inconvenient and severe contamination of the MS was observed. A cationself-regenerating suppressor (CSRS), which was originally designed for increasing analyte conductivityof ammonia and amines analysis in ion chromatography (IC), was coupled between the LC and Ion Trap-Time of Flight (IT-TOF)-MS and almost all TFA and PFPA in the mobile phase were removed. The limit of detection (LOD) of ABK in this integrated system improved significantly to 20 ng/mL. The chemical structures of the 28 impurities were elucidated and 15 impurities were reported for the first time.

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