Geospatial food access as a driver of environmental oxidant stressors and early obesity

PROJECT SUMMARY/ABSTRACT Racial/ethnic and socioeconomic disparities in obesity begin early in life. Excessive caloric imbalance in pregnancy is a leading suspected contributor to early weight disparities. Yet, prior studies have not accounted for how limited food access may also drive chemical and psychosocial exposures that influence developmental

cardiovascular and metabolic programming to increase early childhood obesity risk. This Mentored Patient- Oriented Research Career Development K23 proposal investigates how geospatial food access and environmental oxidant stressors contribute to childhood obesity, a serious public health challenge and priority

of the National Institute of Environmental Health Sciences. Simultaneously, it will prepare the candidate, Carol Duh-Leong, MD, MPP, to become an independent investigator who will address neighborhood disparities that influence the social and chemical context of early child obesity. This study leverages longitudinal data from the

NYU Children’s Health and Environment Study, a participating birth cohort (50% Hispanic, 8% Asian, 7% Black; 57% Public Insurance) in the NIH ECHO program that follows pregnant people prenatally and their children postnatally through early childhood. The candidate proposes to geocode participant home addresses

and food environment data to longitudinally model joint relationships among geospatial food access, environmental oxidant stressors, and early childhood obesity outcomes. Specific aims are: 1) Examine whether limited geospatial food access increases phthalate and bisphenol exposures in pregnancy; 2) Examine

relationships between limited geospatial food access, psychosocial stressors, and oxidative stress in pregnancy; and 3) Evaluate joint effects of geospatial food access and environmental oxidant stressors across pregnancy and infancy on early childhood obesity outcomes. Closing this gap in knowledge would inform built

environment investments and neighborhood strategies to interrupt environmental oxidant stressors and decrease obesity risk through the life course. Through the execution of these aims, the candidate will pursue the following mentored training goals: 1) Advanced geospatial analysis; 2) Environmental exposure and

biomarker assessment; 3) Longitudinal analysis and environmental mixture modeling. This proposal draws upon world-class clinical, research, and teaching resources available at NYU Grossman School of Medicine for the candidate’s research and training aims. The candidate has assembled an expert mentorship team of

content experts in environmental epidemiology, geospatial analysis, exposure and biomarker assessment, and advanced statistical methods to guide her research and training. This team will provide on-site training tailored to the proposed research aims and will guide the candidate’s transition to independence and her establishment

of a research program that applies an interdisciplinary life course approach towards understanding the social and environmental context of early child obesity.