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Four-dimensional trapped ion mobility spectrometry lipidomics for high throughput clinical profiling of human blood samples

Medicine and Health

Four-dimensional trapped ion mobility spectrometry lipidomics for high throughput clinical profiling of human blood samples

R. Lerner, D. Baker, et al.

This study by Raissa Lerner and colleagues unveils a cutting-edge 4D TIMS lipidomics platform that revolutionizes clinical lipid profiling. With automated lipid extraction and high-throughput analysis capabilities, this platform promises consistent and reproducible lipid profiling across various blood matrices, paving the way for innovative clinical applications.... show more
Abstract
Lipidomics encompassing automated lipid extraction, a four-dimensional (4D) feature selection strategy for confident lipid annotation as well as reproducible and cross-validated quantification can expedite clinical profiling. Here, we determine 4D descriptors (mass to charge, retention time, collision cross section, and fragmentation spectra) of 200 lipid standards and 493 lipids from reference plasma via trapped ion mobility mass spectrometry to enable the implementation of stringent criteria for lipid annotation. We use 4D lipidomics to confidently annotate 370 lipids in reference plasma samples and 364 lipids in serum samples, and reproducibly quantify 359 lipids using level-3 internal standards. We show the utility of our 4D lipidomics workflow for high-throughput applications by reliable profiling of intra-individual lipidome phenotypes in plasma, serum, whole blood, venous and finger-prick dried blood spots.
Publisher
Nature Communications
Published On
Feb 20, 2023
Authors
Raissa Lerner, Dhanwin Baker, Claudia Schwitter, Sarah Neuhaus, Tony Hauptmann, Julia M. Post, Stefan Kramer, Laura Bindila
DOI
https://doi.org/10.1038/s41467-023-36520-1
Tags
lipidomics
4D TIMS
clinical profiling
high-throughput analysis
lipid extraction
NIST plasma
blood matrices

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