Spatial Metabolomics by Mass Spectrometry Imaging using Desorption Electrospray Ionization (DESI)

Posters | 2019 | WatersInstrumentation

MS Imaging, LC/TOF, LC/HRMS, LC/MS, LC/MS/MS

Industries

Metabolomics

Manufacturer

Waters

Go to the library View PDF

Summary

Significance of the Topic

Spatial metabolomics mapping with mass spectrometry imaging offers unique insights into tissue-specific biochemical distributions.
DESI provides ambient ionization with minimal preparation, enabling direct analysis of biological sections.

Objectives and Study Overview

This work evaluates DESI-MS imaging on rat brain sections using a Q-ToF platform to visualize a broad range of metabolites and lipids at high spatial resolution and assess spatial correlations.

Methodology and Instrumentation

Tissue preparation: Flash-frozen rat brain, cryosectioned, placed on glass slides, vacuum dried with no further treatment.
Instrument setup: DESI source coupled to Xevo G2-XS Q-ToF; acquisition in negative ion mode over m/z 50–1200; pixel size 40 μm.
Data processing: HDI software for molecular image generation, anatomical co-registration, high-accuracy database searching (HMDB), and spatial correlation analysis using Pearson coefficients.

Main Results and Discussion

Detection and localization of amino acids (taurine, glutamine), fatty acids (arachidonic acid), neurotransmitters (GABA, serotonin), and lipids (phosphatidylcholines, lysophosphatidylcholines).
Distinct spatial distributions aligned with anatomical features such as the corpus callosum.
Spatial correlation analysis identified co-localized and anti-correlated molecules, quantified by Pearson R values.

Benefits and Practical Applications

Minimal sample preparation preserves tissue integrity and accelerates workflow.
High spatial resolution (<50 μm) enables detailed mapping of biochemical environments.
Simultaneous profiling of diverse metabolites and lipids supports comprehensive spatial metabolomics for research and QA/QC in pharmaceutical and clinical laboratories.

Future Trends and Applications

Integration with complementary imaging modalities (e.g., histology, other MS techniques) for multimodal analysis.
Advances in machine learning for automated pattern recognition and biomarker discovery.
Extension to clinical samples for diagnostic imaging and personalized medicine applications.

Conclusion

DESI-MS imaging demonstrates robust capability for spatial metabolomics, offering high-resolution, multiplexed detection of metabolites and lipids directly from tissue sections. The workflow validates its utility for biological research and industrial analytics.

References

Takats Z., et al. Science 306(5695):471-473 (2004).
Wiseman J.M., et al. Angew. Chem. Int. Ed. 45(43):7188-7192 (2006).
Lamont L., et al. Anal. Chem. 90(22):13229-13235 (2018).

Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.

Downloadable PDF for viewing

Similar PDF

SPATIAL MAPPING OF LIPIDS AND NEUROTRANSMITTER IN RAT BRAIN SECTIONS USING DESI ION MOBILITY MASS SPECTROMETRY

2019|Waters|Posters

SPATIAL MAPPING OF LIPIDS AND NEUROTRANSMITTER IN RAT BRAIN SECTIONS USING DESI ION MOBILITY MASS SPECTROMETRY Roy Martin1, Anthony J. Midey1, Hernando J. Olivos1, Emmanuelle Claude2, Bindesh Shrestha1 1 Waters Corporation, Milford, MA, USA and 2 Waters Corporation, Wimslow, United…

Key words

desi, desisections, sectionslipids, lipidsmobility, mobilityimaging, imagingmsi, msitissue, tissueccs, ccscollisional, collisionalbrain, brainion, ionmass, massmetabolite, metaboliteaided, aidedcross

APPLICATION NOTEBOOK - MS IMAGING AND AMBIENT IONIZATION-MS FOR METABOLOMICS AND LIPIDOMICS

2016|Waters|Applications

[ APPLICATION NOTEBOOK ] MS IMAGING AND AMBIENT IONIZATION-MS FOR METABOLOMICS AND LIPIDOMICS 1 This notebook is an excerpt from the larger Waters’ Application Notebook on Metabolomics and Lipidomics #720005245EN TABLE OF CONTENTS 3 Introduction 4 Biomarker Discovery Directly from…

Key words

imaging, imagingtissue, tissuemaldi, maldidesi, desihdi, hdisection, sectionmobility, mobilitydefinition, definitionion, ionhdms, hdmsbiomarker, biomarkerimage, imagedesorption, desorptionxenograph, xenographionization

Utility of Desorption Electrospray Ionization (DESI) for Mass Spectrometry Imaging

2015|Waters|Technical notes

Utility of Desorption Electrospray Ionization (DESI) for Mass Spectrometry Imaging Emmanuelle Claude and Emrys Jones G OA L DESI imaging provides effective and meaningful To describe the DESI imaging technique as applied to mass spectrometry imaging using time-of-flight (TOF) mass…

Key words

imaging, imagingdesi, desitissue, tissuehdi, hdistaining, stainingvariety, varietygrant, grantdesorption, desorptionmsi, msilocalization, localizationmolecules, moleculesspatial, spatialdefinition, definitionioninze, ioninzerastered

QUANTITATIVE IMAGING MASS SPECTROMETRY OF ENDOGENOUS METABOLITES USING IN-LINE INTERNAL STANDARDS AND STABLE ISOTOPE LABELED MIMETIC MODEL

2019|Waters|Posters

QUANTITATIVE IMAGING MASS SPECTROMETRY OF ENDOGENOUS METABOLITES USING IN-LINE INTERNAL STANDARDS AND STABLE ISOTOPE LABELED MIMETIC MODEL Bindesh Shrestha,1 Khaja Muneeruddin,2 Scott A. Shaffer2 1 Waters Corporation, Beverly, MA 1Department of Biochemistry and Molecular Pharmacology, University of Massachusetts Medical School…

Key words

imaging, imagingdesi, desimimetic, mimeticmetabolites, metabolitesinaccessible, inaccessibletissue, tissuepixel, pixelmolecules, moleculesmaldi, maldiendogenous, endogenousexogeneous, exogeneousquantiation, quantiationmass, massfuture, futurequantitative