Inkjet-printed micro-calibration standards for ultraquantitative Raman spectral cytometry

Herein we report the development of a cytometric analysis platform for measuring the contents of individual cells in absolute (picogram) scales; this study represents the first report of Raman-based quantitation of the absolute mass - or the total amount - of multiple endogenous biomolecules within...

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Veröffentlicht in:	Analyst (London) 2019-06, Vol.144 (12), p.379-3799
Hauptverfasser:	LaLone, Vernon, Fawaz, Maria V, Morales-Mercado, Jomar, Mourão, Márcio A, Snyder, Catherine S, Kim, Sang Yeop, Lieberman, Andrew P, Tuteja, Anish, Mehta, Geeta, Standiford, Theodore J, Raghavendran, Krishnan, Shedden, Kerby, Schwendeman, Anna, Stringer, Kathleen A, Rosania, Gus R
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Sprache:	eng
Schlagworte:	Biomedical materials Biomolecules Calibration Cytometry Diagnostic software Diagnostic systems Inkjet printing Lipids Pharmacology
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creator	LaLone, Vernon Fawaz, Maria V Morales-Mercado, Jomar Mourão, Márcio A Snyder, Catherine S Kim, Sang Yeop Lieberman, Andrew P Tuteja, Anish Mehta, Geeta Standiford, Theodore J Raghavendran, Krishnan Shedden, Kerby Schwendeman, Anna Stringer, Kathleen A Rosania, Gus R
description	Herein we report the development of a cytometric analysis platform for measuring the contents of individual cells in absolute (picogram) scales; this study represents the first report of Raman-based quantitation of the absolute mass - or the total amount - of multiple endogenous biomolecules within single-cells. To enable ultraquantitative calibration, we engineered single-cell-sized micro-calibration standards of known composition by inkjet-printer deposition of biomolecular components in microarrays across the surface of silicon chips. We demonstrate clinical feasibility by characterizing the compositional phenotype of human skin fibroblast and porcine alveolar macrophage cell populations in the respective contexts of Niemann-Pick disease and drug-induced phospholipidosis: two types of lipid storage disorders. We envision this microanalytical platform as the foundation for many future biomedical applications, ranging from diagnostic assays to pathological analysis to advanced pharmaco/toxicokinetic research studies. Picogram-scale biomolecule standards enable calibration.
doi_str_mv	10.1039/c9an00500e
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source	Royal Society of Chemistry Journals Archive (1841-2007); Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Biomedical materials Biomolecules Calibration Cytometry Diagnostic software Diagnostic systems Inkjet printing Lipids Pharmacology
title	Inkjet-printed micro-calibration standards for ultraquantitative Raman spectral cytometry
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