Maternal and Cord Blood Metabolite Associations with Gestational Weight Gain and Pregnancy Health Outcomes.
Jane ShearerMatthias S KleinHans J VogelShuhiba MohammadShannon A BainbridgeKristi B AdamoPublished in: Journal of proteome research (2021)
Pre-pregnancy obesity and excessive gestational weight gain (GWG) are risk factors for future maternal and childhood obesity. Maternal obesity is potentially communicated to the fetus in part by the metabolome, altering the child's metabolic program in early development. Fasting maternal blood samples from 37 singleton pregnancies at 25-28 weeks of gestation were obtained from mothers with pre-pregnancy body mass indexes (BMIs) between 18 and 40 kg/m2. Various health measures including GWG, diet, and physical activity were also assessed. At term (37-42 weeks), a venous umbilical cord sample was obtained. Serum metabolomic profiles were measured using nuclear magnetic resonance spectroscopy as well as a gut and metabolic hormone panel. Maternal and cord serum metabolites were tested for associations with pre-pregnancy BMI, GWG, health outcomes, and gut and metabolic hormones. While cord blood metabolites showed no significant correlation to maternal obesity status or other measured health outcomes, maternal serum metabolites showed distinct profiles for lean, overweight, and obese women. Additionally, four serum metabolites, namely, glutamate, lysine, pyruvate, and valine, allowed prediction of excessive GWG when pre-pregnancy BMI was controlled. Metabolic biomarkers predictive of GWG are reported and, if validated, could aid in the guidance of prenatal weight management plans as the majority of pregnancy weight gain occurs in the third trimester.
Keyphrases
- weight gain
- birth weight
- pregnancy outcomes
- body mass index
- preterm birth
- gestational age
- cord blood
- pregnant women
- weight loss
- physical activity
- ms ms
- healthcare
- insulin resistance
- preterm infants
- mental health
- public health
- type diabetes
- mesenchymal stem cells
- metabolic syndrome
- health insurance
- blood pressure
- climate change
- current status
- skeletal muscle