Summary of Study ST002937
This data is available at the NIH Common Fund's National Metabolomics Data Repository (NMDR) website, the Metabolomics Workbench, https://www.metabolomicsworkbench.org, where it has been assigned Project ID PR001827. The data can be accessed directly via it's Project DOI: 10.21228/M8JQ6C This work is supported by NIH grant, U2C- DK119886.
See: https://www.metabolomicsworkbench.org/about/howtocite.php
This study contains a large results data set and is not available in the mwTab file. It is only available for download via FTP as data file(s) here.
Study ID | ST002937 |
Study Title | Deep Metabolic Phenotyping of Newborn Cord Blood Reveals Maternal-Fetal Interactions and Disease Risk |
Study Type | Untargeted MS and Targeted MS |
Study Summary | Metabolites are small molecules circulating in the mother, placental, and fetal blood that can have a profound effect on a developing fetus (1, 2). Many metabolites from pregnant mothers cross the placenta to provide energy, structural components, essential nutrients, and signals to the developing fetus (3, 4). Issues with proper transmission of metabolites to the fetus, whether through gestational diabetes, placental insufficiency, or other sources can permanently damage the fetus (5-7). However, quantification of many metabolites entering and exiting the fetus are unknown; associations between microbial metabolites in umbilical cords and disease have not been thoroughly investigated; and there remains a lack of quantifiable metabolic effects of some of the most common medications administered during pregnancy and parturition. Here we identified and quantified many metabolites with a gradient between arterial and venous cord blood; we demonstrated that exogenous metabolites in umbilical cords associate with many health outcomes; and we show that medications can profoundly alter the metabolic milieu of the fetus. We greatly expanded the number of metabolites that demonstrate a gradient between arterial and venous blood, indicating absorption by the fetus, including several essential fatty acids. The microbial metabolites 3-indolepropionic acid, hydroxyhippuric acid and others are associated with many newborn diseases. Lastly, we show that exogenous medications like bupivacaine and betamethasone can have a profound impact on newborn metabolic profile. This study is the most comprehensive study of umbilical cord metabolic and disease associations to date. It reveals important aspects of fetal biology, like the reliance on specific essential fatty acid and taurine. It suggests several interventions in pregnant mothers that may help newborn health, including new fatty acids. This study serves as a valuable reference for investigators wishing to better understand the impact of medications on the developing fetus and neonate. |
Institute | Stanford University |
Department | Department of Genetics |
Laboratory | Snyder Lab |
Last Name | Lancaster |
First Name | Samuel |
Address | 240 Pasteur Dr, BMI bldg 4400, Stanford California, 94305 |
slancast@stanford.edu | |
Phone | (612)-600-4033 |
Submit Date | 2023-08-31 |
Raw Data Available | Yes |
Raw Data File Type(s) | wiff, raw(Thermo) |
Analysis Type Detail | LC-MS |
Release Date | 2023-11-10 |
Release Version | 1 |
Select appropriate tab below to view additional metadata details:
Project:
Project ID: | PR001827 |
Project DOI: | doi: 10.21228/M8JQ6C |
Project Title: | Deep Metabolic Phenotyping of Newborn Cord Blood Reveals Maternal-Fetal Interactions and Disease Risk |
Project Summary: | Metabolites are small molecules circulating in the mother, placental, and fetal blood that can have a profound effect on a developing fetus (1, 2). Many metabolites from pregnant mothers cross the placenta to provide energy, structural components, essential nutrients, and signals to the developing fetus (3, 4). Issues with proper transmission of metabolites to the fetus, whether through gestational diabetes, placental insufficiency, or other sources can permanently damage the fetus (5-7). However, quantification of many metabolites entering and exiting the fetus are unknown; associations between microbial metabolites in umbilical cords and disease have not been thoroughly investigated; and there remains a lack of quantifiable metabolic effects of some of the most common medications administered during pregnancy and parturition. Here we identified and quantified many metabolites with a gradient between arterial and venous cord blood; we demonstrated that exogenous metabolites in umbilical cords associate with many health outcomes; and we show that medications can profoundly alter the metabolic milieu of the fetus. We greatly expanded the number of metabolites that demonstrate a gradient between arterial and venous blood, indicating absorption by the fetus, including several essential fatty acids. The microbial metabolites 3-indolepropionic acid, hydroxyhippuric acid and others are associated with many newborn diseases. Lastly, we show that exogenous medications like bupivacaine and betamethasone can have a profound impact on newborn metabolic profile. This study is the most comprehensive study of umbilical cord metabolic and disease associations to date. It reveals important aspects of fetal biology, like the reliance on specific essential fatty acid and taurine. It suggests several interventions in pregnant mothers that may help newborn health, including new fatty acids. This study serves as a valuable reference for investigators wishing to better understand the impact of medications on the developing fetus and neonate. |
Institute: | Stanford University |
Department: | Department of Genetics |
Laboratory: | Snyder Lab |
Last Name: | Lancaster |
First Name: | Samuel |
Address: | 240 Pasteur Dr, BMI bldg 4400, Stanford California, 94305 |
Email: | slancast@stanford.edu |
Phone: | (612)-600-4033 |