Biological tissue imaging with a position and time sensitive pixelated detector

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DOI http://dx.doi.org/10.1007/s13361-012-0444-5
Reference J.H. Jungmann, D.F. Smith, L. MacAleese, I. Klinkert, J. Visser and R.M.A. Heeren, Biological tissue imaging with a position and time sensitive pixelated detector, J. Am. Soc. Mass Spectrom. 23, (10), 1679-1688 (2012)

We demonstrate the capabilities of a highly parallel, active pixel detector for large-area, mass spectrometric imaging of biological tissue sections. A bare Timepix assembly (512 × 512 pixels) is combined with chevron microchannel plates on an ion microscope matrix-assisted laser desorption time-of-flight mass spectrometer (MALDI TOF-MS). The detector assembly registers position- and time-resolved images of multiple m/z species in every measurement frame. We prove the applicability of the detection system to biomolecular mass spectrometry imaging on biologically relevant samples by mass-resolved images from Timepix measurements of a peptide-grid benchmark sample and mouse testis tissue slices. Mass-spectral and localization information of analytes at physiologic concentrations are measured in MALDI-TOF-MS imaging experiments. We show a high spatial resolution (pixel size down to 740 × 740 nm2 on the sample surface) and a spatial resolving power of 6 μm with a microscope mode laser field of view of 100-335 μm. Automated, large-area imaging is demonstrated and the Timepix’ potential for fast, large-area image acquisition is highlighted.