What question did this study set out to answer?

The central aim is to develop a rapid and accurate method for determining human milk oligosaccharide isomer ratios.

March 13, 2026Open Access

High‐Resolution Ion Mobility Approach for Rapid Determination of Multiple Human Milk Oligosaccharide Isomer Ratios

Key Points

The central aim is to develop a rapid and accurate method for determining human milk oligosaccharide isomer ratios.
Integrated flow injection analysis (FIA) with high-resolution ion mobility ranges
Utilization of multiple stitched high-resolution ion mobility ranges
Seven-level regression for calibration
Successfully determined multiple HMO isomer ratios with good performance
Identified distinct HMO compositional profiles in different breast milk samples
Found variations reflecting secretor versus nonsecretor phenotypes

Abstract

ABSTRACT This study presents a high‐throughput ion mobility approach that integrates flow injection analysis (FIA) with multiple stitched high‐resolution ion mobility ranges to enable comprehensive analysis of human milk oligosaccharide (HMO) isomer mixtures in a single acquisition. The developed FIA‐SIM 2 ‐stitching‐MS approach provides rapid, reproducible, and accurate determination of multiple HMO isomer ratios ( R iso ) with good performance in both positive and negative ion modes. Reliable R iso values were obtained using seven‐level regression‐based calibration. Application of the method to two individual breast milk samples revealed distinct HMO compositional profiles, likely reflecting phenotypic differences, i.e., secretor versus nonsecretor. Our validated analytical method demonstrates strong potential for future applications in oligosaccharide characterization and food product quality control.

High‐Resolution Ion Mobility Approach for Rapid Determination of Multiple Human Milk Oligosaccharide Isomer Ratios

Key Points

Abstract

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