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Metabolic Dynamics and Prediction of Gestational Age and Time to Delivery in Pregnant Women.

Cell (2020-06-27)
Liang Liang, Marie-Louise Hee Rasmussen, Brian Piening, Xiaotao Shen, Songjie Chen, Hannes Röst, John K Snyder, Robert Tibshirani, Line Skotte, Norman Cy Lee, Kévin Contrepois, Bjarke Feenstra, Hanyah Zackriah, Michael Snyder, Mads Melbye
RÉSUMÉ

Metabolism during pregnancy is a dynamic and precisely programmed process, the failure of which can bring devastating consequences to the mother and fetus. To define a high-resolution temporal profile of metabolites during healthy pregnancy, we analyzed the untargeted metabolome of 784 weekly blood samples from 30 pregnant women. Broad changes and a highly choreographed profile were revealed: 4,995 metabolic features (of 9,651 total), 460 annotated compounds (of 687 total), and 34 human metabolic pathways (of 48 total) were significantly changed during pregnancy. Using linear models, we built a metabolic clock with five metabolites that time gestational age in high accordance with ultrasound (R = 0.92). Furthermore, two to three metabolites can identify when labor occurs (time to delivery within two, four, and eight weeks, AUROC ≥ 0.85). Our study represents a weekly characterization of the human pregnancy metabolome, providing a high-resolution landscape for understanding pregnancy with potential clinical utilities.

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Sigma-Aldrich
Estriol 16α-(β-D-glucuronide), ≥97%
Sigma-Aldrich
3α,21-Dihydroxy-5α-pregnan-20-one, ≥95%