Quantitative Serum Nuclear Magnetic Resonance Metabolomics in Large-Scale Epidemiology : a Primer on -Omic Technologies
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2017Author(s)
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10.1093/aje/kwx016Metadata
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Würtz Peter. Kangas Antti J. Soininen Pasi. Lawlor Debbie A. Smith George Davey. Ala-Korpela Mika. (2017). Quantitative Serum Nuclear Magnetic Resonance Metabolomics in Large-Scale Epidemiology : a Primer on -Omic Technologies. AMERICAN JOURNAL OF EPIDEMIOLOGY, 186 (9) , 1084-1096. 10.1093/aje/kwx016.Rights
Abstract
Detailed metabolic profiling in large-scale epidemiologic studies has uncovered novel biomarkers for cardiometabolic diseases and clarified the molecular associations of established risk factors. A quantitative metabolomics platform based on nuclear magnetic resonance spectroscopy has found widespread use, already profiling over 400,000 blood samples. Over 200 metabolic measures are quantified per sample; in addition to many biomarkers routinely used in epidemiology, the method simultaneously provides fine-grained lipoprotein subclass profiling and quantification of circulating fatty acids, amino acids, gluconeogenesis-related metabolites, and many other molecules from multiple metabolic pathways. Here we focus on applications of magnetic resonance metabolomics for quantifying circulating biomarkers in large-scale epidemiology. We highlight the molecular characterization of risk factors, use of Mendelian randomization, and the key issues of study design and analyses of metabolic profiling for epidemiology. We also detail how integration of metabolic profiling data with genetics can enhance drug development. We discuss why quantitative metabolic profiling is becoming widespread in epidemiology and biobanking. Although large-scale applications of metabolic profiling are still novel, it seems likely that comprehensive biomarker data will contribute to etiologic understanding of various diseases and abilities to predict disease risks, with the potential to translate into multiple clinical settings.
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http://dx.doi.org/10.1093/aje/kwx016Publisher
Oxford University Press (OUP)Collections
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