Influence of segmental and selected ion monitoring on quantitation of multi-component using high-pressure liquid chromatography-quadrupole mass spectrometry: Simultaneous detection of 16 saponins in rat plasma as a case

Quadrupole (Q) mass spectrometers are the most popular analytical tools due to their reliability, effectiveness, and low cost. However, they are not suitable for quantitative analysis of multi-component since the sensitivity will get worse rapidly with the increasing number of m/z detected. The present work, for the first time, attempted to analyze of 16 saponins simultaneously using an approach of segmental and selected ion monitoring (SSIM) based on LC-Q/MS, and systematically investigated the influence of different SSIM modes on signal level/noise level (S/N), lower limits of quantification (LLOQ), upper limits of quantification (ULOQs), etc. Our results showed that a proper SSIM mode could not only provide much higher sensitivity for all the targeting analytes, but also dramatically broadened their dynamic ranges. The developed methodology could effectively break the application bottleneck on the quantitative analysis of multi-component with LC-Q/MS, and would be applied widely in related fields for multi-component analysis, such as environmental monitoring, metabonomics, Chinese herbal medicine research.