Environ Res

Abstract

Rates of preterm birth and low birthweight continue to rise in the United States and pose a significant public health problem. Although a variety of environmental exposures are known to contribute to these and other adverse birth outcomes, there has been a limited success in developing policies to prevent these outcomes. A better characterization of the complexities between multiple exposures and their biological responses can provide the evidence needed to inform public health policy and strengthen preventative population-level interventions. In order to achieve this, we encourage the establishment of an interdisciplinary data science framework that integrates epidemiology, toxicology and bioinformatics with biomarker-based research to better define how population-level exposures contribute to these adverse birth outcomes. The proposed interdisciplinary research framework would 1) facilitate data-driven analyses using existing data from health registries and environmental monitoring programs; 2) develop novel algorithms with the ability to predict which exposures are driving, in this case, adverse birth outcomes in the context of simultaneous exposures; and 3) refine biomarker-based research, ultimately leading to new policies and interventions to reduce the incidence of adverse birth outcomes.R00 ES027022/ES/NIEHS NIH HHSUnited States/P42 ES004696/ES/NIEHS NIH HHSUnited States/UL1 TR002538/TR/NCATS NIH HHSUnited States/T15 LM007124/LM/NLM NIH HHSUnited States/P30 ES007033/ES/NIEHS NIH HHSUnited States/R01 CA220693/CA/NCI NIH HHSUnited States/U01 DD001226/DD/NCBDD CDC HHSUnited States/K99 ES027022/ES/NIEHS NIH HHSUnited States/P30 ES009089/ES/NIEHS NIH HHSUnited States