@article{bruce_kibbe_hector_muddiman_2024, title={Absolute Quantification of Glutathione Using Top-Hat Optics for IR-MALDESI Mass Spectrometry Imaging}, volume={59}, ISSN={["1096-9888"]}, DOI={10.1002/jms.5091}, abstractNote={ABSTRACT Infrared matrix‐assisted laser desorption electrospray ionization (IR‐MALDESI) uses an infrared laser to desorb neutral biomolecules with postionization via ESI at atmospheric pressure. The Gaussian profile of the laser with conventional optics results in the heating of adjacent nonablated tissue due to the energy profile being circular. A diffractive optical element (DOE) was incorporated into the optical train to correct for this disadvantage. The DOE produces a top‐hat beam profile and square ablation spots, which have uniform energy distributions. Although beneficial to mass spectrometry imaging (MSI), it is unknown how the DOE affects the ability to perform quantitative MSI (qMSI). In this work, we evaluate the performance of the DOE optical train against our conventional optics to define the potential advantages of the top‐hat beam profile. Absolute quantification of glutathione (GSH) was achieved by normalizing the analyte of interest to homoglutathione (hGSH), spotting a dilution series of stable isotope labeled glutathione (SIL‐GSH), and analyzing by IR‐MALDESI MSI with either the conventional optical train or with the DOE incorporated. Statistical comparison indicates that there was no significant difference between the quantification of GSH by the two optical trains as evidenced by similar calibration curves. Results support that both optical trains can be used for qMSI without a change in the ability to carry out absolute quantification but providing the benefits of the top‐hat optical train (i.e., flat energy profile and square ablation spots)—for future qMSI studies.}, number={10}, journal={JOURNAL OF MASS SPECTROMETRY}, author={Bruce, Emily R. and Kibbe, Russell R. and Hector, Emily C. and Muddiman, David C.}, year={2024}, month={Oct} }