Spatial Segmentation of MALDI FT-ICR MSI Data: A Powerful Tool to Explore the Head and Neck Tumor In Situ Lipidome

Matrix-assisted laser desorption/ionization mass spectrometric imaging (MALDI MSI) is a well-established analytical technique for determining spatial localization of lipids in biological samples. The use of Fourier-transform ion cyclotron resonance (FT-ICR) mass spectrometers for the molecular imagi...

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Veröffentlicht in:	Journal of the American Society for Mass Spectrometry 2015-01, Vol.26 (1), p.36-43
Hauptverfasser:	Krasny, Lukas, Hoffmann, Franziska, Ernst, Günther, Trede, Dennis, Alexandrov, Theodore, Havlicek, Vladimir, Guntinas-Lichius, Orlando, von Eggeling, Ferdinand, Crecelius, Anna C.
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Sprache:	eng
Schlagworte:	Analytical Chemistry Bioinformatics Biological properties Biotechnology Chemistry Chemistry and Materials Science Clustering Cyclotron resonance Datasets Desorption Fourier Analysis Head Head & neck cancer Head and Neck Neoplasms - chemistry Humans Image Processing, Computer-Assisted Image segmentation Imaging Ionization Ions Lasers Lipids Lipids - analysis Lipids - chemistry Mass spectrometers Mass spectrometry Molecular Imaging - methods Organic Chemistry Proteomics Research Article Resolution Spectrometers Spectrometry Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - methods
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description	Matrix-assisted laser desorption/ionization mass spectrometric imaging (MALDI MSI) is a well-established analytical technique for determining spatial localization of lipids in biological samples. The use of Fourier-transform ion cyclotron resonance (FT-ICR) mass spectrometers for the molecular imaging of endogenous compounds is gaining popularity, since the high mass accuracy and high mass resolving power enables accurate determination of exact masses and, consequently, a more confident identification of these molecules. The high mass resolution FT-ICR imaging datasets are typically large in size. In order to analyze them in an appropriate timeframe, the following approach has been employed: the FT-ICR imaging datasets were spatially segmented by clustering all spectra by their similarity. The resulted spatial segmentation maps were compared with the histologic annotation. This approach facilitates interpretation of the full datasets by providing spatial regions of interest. The application of this approach, which has originally been developed for MALDI-TOF MSI datasets, to the lipidomic analysis of head and neck tumor tissue revealed new insights into the metabolic organization of the carcinoma tissue. Graphical Abstract ᅟ
doi_str_mv	10.1007/s13361-014-1018-5
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The use of Fourier-transform ion cyclotron resonance (FT-ICR) mass spectrometers for the molecular imaging of endogenous compounds is gaining popularity, since the high mass accuracy and high mass resolving power enables accurate determination of exact masses and, consequently, a more confident identification of these molecules. The high mass resolution FT-ICR imaging datasets are typically large in size. In order to analyze them in an appropriate timeframe, the following approach has been employed: the FT-ICR imaging datasets were spatially segmented by clustering all spectra by their similarity. The resulted spatial segmentation maps were compared with the histologic annotation. This approach facilitates interpretation of the full datasets by providing spatial regions of interest. The application of this approach, which has originally been developed for MALDI-TOF MSI datasets, to the lipidomic analysis of head and neck tumor tissue revealed new insights into the metabolic organization of the carcinoma tissue. 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Am. Soc. Mass Spectrom</addtitle><addtitle>J Am Soc Mass Spectrom</addtitle><description>Matrix-assisted laser desorption/ionization mass spectrometric imaging (MALDI MSI) is a well-established analytical technique for determining spatial localization of lipids in biological samples. The use of Fourier-transform ion cyclotron resonance (FT-ICR) mass spectrometers for the molecular imaging of endogenous compounds is gaining popularity, since the high mass accuracy and high mass resolving power enables accurate determination of exact masses and, consequently, a more confident identification of these molecules. The high mass resolution FT-ICR imaging datasets are typically large in size. In order to analyze them in an appropriate timeframe, the following approach has been employed: the FT-ICR imaging datasets were spatially segmented by clustering all spectra by their similarity. The resulted spatial segmentation maps were compared with the histologic annotation. This approach facilitates interpretation of the full datasets by providing spatial regions of interest. The application of this approach, which has originally been developed for MALDI-TOF MSI datasets, to the lipidomic analysis of head and neck tumor tissue revealed new insights into the metabolic organization of the carcinoma tissue. 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subjects	Analytical Chemistry Bioinformatics Biological properties Biotechnology Chemistry Chemistry and Materials Science Clustering Cyclotron resonance Datasets Desorption Fourier Analysis Head Head & neck cancer Head and Neck Neoplasms - chemistry Humans Image Processing, Computer-Assisted Image segmentation Imaging Ionization Ions Lasers Lipids Lipids - analysis Lipids - chemistry Mass spectrometers Mass spectrometry Molecular Imaging - methods Organic Chemistry Proteomics Research Article Resolution Spectrometers Spectrometry Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - methods
title	Spatial Segmentation of MALDI FT-ICR MSI Data: A Powerful Tool to Explore the Head and Neck Tumor In Situ Lipidome
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