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- URN to cite this document:
- urn:nbn:de:bvb:355-epub-327467
- DOI to cite this document:
- 10.5283/epub.32746
Sekula, Peggy 
; Goek, Oemer-Necmi ; Quaye, Lydia ; Barrios, Clara ; Levey, Andrew S. ; Römisch-Margl, Werner ; Menni, Cristina ; Yet, Idil ; Gieger, Christian ; Inker, Lesley A. ; Adamski, Jerzy ; Gronwald, Wolfram ; Illig, Thomas ; Dettmer, Katja ; Krumsiek, Jan ; Oefner, Peter J. ; Valdes, Ana M. ; Meisinger, Christa ; Coresh, Josef ; Spector, Tim D. ; Mohney, Robert P. ; Suhre, Karsten ; Kastenmüller, Gabi ; Köttgen, Anna
; Goek, Oemer-Necmi ; Quaye, Lydia ; Barrios, Clara ; Levey, Andrew S. ; Römisch-Margl, Werner ; Menni, Cristina ; Yet, Idil ; Gieger, Christian ; Inker, Lesley A. ; Adamski, Jerzy ; Gronwald, Wolfram ; Illig, Thomas ; Dettmer, Katja ; Krumsiek, Jan ; Oefner, Peter J. ; Valdes, Ana M. ; Meisinger, Christa ; Coresh, Josef ; Spector, Tim D. ; Mohney, Robert P. ; Suhre, Karsten ; Kastenmüller, Gabi ; Köttgen, Anna Alternative links to fulltext:DOI
Abstract
Small molecules are extensively metabolized and cleared by the kidney. Changes in serum metabolite concentrations may result from impaired kidney function and can be used to estimate filtration (e.g., the established marker creatinine) or may precede and potentially contribute to CKD development. Here, we applied a nontargeted metabolomics approach using gas and liquid chromatography coupled to ...
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