View clinical trials related to Environmental Exposures.
Filter by:The China-Anhui Birth Cohort Study (C-ABCS) was set up to examine the delayed, cumulative and interactive effects of maternal environmental exposures on birth outcomes and children's development. The C-ABCS recruited pregnant women from six major cities of Anhui province, China, between November 2008 and October 2010. A range of data (including demographic, obstetric, occupational, nutritional and psychosocial factors) were collected by both interviews and laboratory tests. In each trimester, women's blood samples were drawn, and pregnancy complications were abstracted from physician's medical records. By the end of 2011, birth outcomes/birth defects were observed/identified by clinicians within 12 months after the delivery of 11 421 singleton live births of six cities and those outcomes among the remaining 2033 live births are still being observed. In addition, 4668 children from Ma'anshan city will be further followed up during the pre-school period till they reach adolescence to obtain the data on familial environmental exposures as well as children's physical, psychological, behavioural and sexual development. The interview data and information on laboratory examinations are available on request from archives in the Anhui Provincial Key Laboratory of Population Health & Aristogenics.
Metabolic diseases such as obesity and diabetes are modern day epidemics. Early life exposure to an adverse developmental environment, including environmental toxins, are linked to increased susceptibility to obesity, metabolic syndrome and type 2 diabetes. Although the mechanisms underlying the fetal origins of metabolic disease are poorly understood, strong evidence suggests that alterations in the epigenome play a critical role in this process. The central hypothesis of this proposal is that intrauterine exposure to benzo[a]pyrene leads to epigenetic changes which will have functional consequences and may be a marker for, or may contribute to, increased susceptibility to adverse outcomes in childhood including increased adiposity and the subsequent development of obesity, metabolic syndrome or diabetes. The goals of this proposal are to: 1) determine benzo[a]pyrene levels in umbilical cord blood of newborns, 2) determine whether benzo[a]pyrene exposure during pregnancy correlates with early onset of obesity and metabolic disease by examining the children at 12 and 24 months of age, 3) determine whether in utero benzo[a]pyrene exposure programs metabolic disease through alterations in DNA methylation and gene expression, and 4) determine the plasticity of the DNA methylation patterns in the same offspring at 12 months of age. The long-term goal of this project is to define biomarkers that identify neonates at "high-risk" for diminished attainment of full health potential, who can then be targeted for preventative measures.
The goal of the HOME Study is to quantify the impact of low-level fetal and early childhood exposures to environmental toxicants including lead, mercury, and other metals, pesticides, polychlorinated biphenyls (PCBs), persistent organic pollutants (PBDEs/PFCs), phthalates, phenols, environmental tobacco smoke, and alcohol on child development, neurobehavior, health, and growth. The HOME Study will also evaluate meconium as a biomarker for fetal exposure and test the effectiveness of home repairs to control lead hazards and injuries in early childhood.