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(CO2)n+, (H2O)n+, and (H2O)n+ (CO2) gas cluster ion beam secondary ion mass spectrometry: analysis of lipid extracts, cells, and Alzheimer’s model mouse brain tissue

Kelly Dimovska Nilsson, Anthi Karagianni, Ibrahim Kaya, Marcus Henricsson, John S. Fletcher

2021Analytical and Bioanalytical Chemistry23 citationsDOIOpen Access PDF

Abstract

This work assesses the potential of new water cluster-based ion beams for improving the capabilities of secondary ion mass spectrometry (SIMS) for in situ lipidomics. The effect of water clusters was compared to carbon dioxide clusters, along with the effect of using pure water clusters compared to mixed water and carbon dioxide clusters. A signal increase was found when using pure water clusters. However, when analyzing cells, a more substantial signal increase was found in positive ion mode when the water clusters also contained carbon dioxide, suggesting that additional reactions are in play. The effects of using a water primary ion beam on a more complex sample were investigated by analyzing brain tissue from an Alzheimer's disease transgenic mouse model. The results indicate that the ToF-SIMS results are approaching those from MALDI as ToF-SIMS was able to image lyso-phosphocholine (LPC) lipids, a lipid class that for a long time has eluded detection during SIMS analyses. Gangliosides, sulfatides, and cholesterol were also imaged.

Topics & Concepts

ChemistrySecondary ion mass spectrometryIonMass spectrometryMass spectrometry imagingAnalytical Chemistry (journal)LipidomicsCluster (spacecraft)Brain tissueIon beamCarbon dioxideChromatographyBiochemistryOrganic chemistryComputer scienceMedicineAnatomyProgramming languageIon-surface interactions and analysisMass Spectrometry Techniques and ApplicationsNanopore and Nanochannel Transport Studies
(CO2)n+, (H2O)n+, and (H2O)n+ (CO2) gas cluster ion beam secondary ion mass spectrometry: analysis of lipid extracts, cells, and Alzheimer’s model mouse brain tissue | Litcius