Horizon 2020 (2014 - 2020)

Effects of maternal gestational adiposity on fetal development and perinatal, postnatal and next generation health: ObesityDevelop

Last update: May 18, 2021 Last update: May 18, 2021

Details

Locations:UK
Start Date:Nov 1, 2015
End Date:Oct 31, 2020
Contract value: EUR 1,863,321
Sectors:Health, Research Health, Research
Categories:Grants
Date posted:May 18, 2021

Associated funding

Associated experts

Description

Programme(s): H2020-EU.1.1. - EXCELLENT SCIENCE - European Research Council (ERC)
Topic(s): ERC-ADG-2014 - ERC Advanced Grant
Call for proposal: ERC-2014-ADG
Funding Scheme: ERC-ADG - Advanced Grant

Grant agreement ID: 669545

Objective
Pregnant women who are overweight/obese have increased risks of adverse perinatal outcomes, and of having offspring who are subsequently overweight/obese. A potentially important consequence of this is that it will drive the obesity epidemic across generations. Evidence from animal models supports this, but it has not been explored in humans. Furthermore, we need to know the mechanisms linking maternal adiposity to adverse offspring and next generation outcomes in order to develop preventive interventions.
The fellow will use data from up to 100,000 participants from nine cohorts and two consortia to determine the effects of maternal pregnancy levels of adiposity and associated circulating nutrients on levels of adiposity and cardiometabolic health at three periods of the lifecourse: (i) fetal development, (ii) infancy to adulthood and (iii) in the next generation. His team is world leading in this area, and we will use state-of-the-art methods to advance the field by: (i) assessing a larger number of maternal nutrients than previously; (ii) accurately assessing maternal gestational fat deposition; (iii) determining the effects of maternal exposures on fetal fat and lean mass, and metabolic response; and (iv) measuring outcomes into the next generation. Effects will be replicated in several independent cohorts and triangulated across different state-of-the-art statistical methods: (i) cross-cohort comparisons between European and low and middle income country cohorts, in which confounding structures differ; (ii) comparisons of associations of maternal exposures to equivalent associations of paternal exposures, under the assumption that intrauterine effects are maternal specific; and (iii) Mendelian randomization using genetic variants as unconfounded proxies for maternal exposures.
Candidate's proposed research is important because of how many women start pregnancy overweight/obese. It will provide a step-change in knowledge of how to prevent adverse outcomes across generations.

Want to unlock full information?
Member-only information. Become a member to access projects awards, find the right consortia partners, subcontractors and more.