The Administrative Core promotes intellectual activities, organization of venues for planning future research through seminars and retreats, and oversight of research and spending. This Core also provides the tools to work with institutions inside and outside of Harvard School of Public Health to leverage the potential of the Superfund Basic Research Program to translate the findings of our research and to promote research on mixtures, gene-environment interactions, and the movement of metals in the environment.
The specific aims of the Administrative Core are to:
Aim 1. Research. To monitor research progress, coordinate Internal Advisory Committee (Governance Committee) meetings, and foster collaborative research both within the SBRP Program and among other Harvard affiliated institutions and collaborative institutions, such as MIT Aim 2. Communication. To foster communication between the Harvard SBRP and SBRP programs within EPA Region 1 (Dartmouth, Brown, Boston University) and agencies such as EPA, ATSDR and the Pediatric Environmental Health Subspecialty Units (PEHSUs), and to maintain close communication with the National Institute of Environmental Health Sciences Aim 3. To provide necessary resources and fiscal oversight Aim 4. To promote rapid dissemination of significant research findings Aim 5. Compliance. To ensure compliance with NIH requirements for data and resource-sharing and the human and animal institutional review board requirements
Core A, under Dr. Wright, will provide scientific leadership, insuring coordination and integration among projects and cores. Core A will provide administrative leadership directing the administration of research funds and maintaining compliance with all relevant federal regulations.
|Rosa-Parra, Jose A; Tamayo-Ortiz, Marcela; Lamadrid-Figueroa, Hector et al. (2018) Diurnal Cortisol Concentrations and Growth Indexes of 12- to 48-Month-Old Children From Mexico City. J Clin Endocrinol Metab 103:3386-3393|
|Lee, Jane J; Valeri, Linda; Kapur, Kush et al. (2018) Growth parameters at birth mediate the relationship between prenatal manganese exposure and cognitive test scores among a cohort of 2- to 3-year-old Bangladeshi children. Int J Epidemiol 47:1169-1179|
|Sun, Ryan; Carroll, Raymond J; Christiani, David C et al. (2018) Testing for gene-environment interaction under exposure misspecification. Biometrics 74:653-662|
|Sun, Ryan; Wang, Zhaoxi; Claus Henn, Birgit et al. (2018) Identification of novel loci associated with infant cognitive ability. Mol Psychiatry :|
|Woo, May K; Young, Elisabeth S; Mostofa, Md Golam et al. (2018) Lead in Air in Bangladesh: Exposure in a Rural Community with Elevated Blood Lead Concentrations among Young Children. Int J Environ Res Public Health 15:|
|von Stackelberg, Katherine; Li, Miling; Sunderland, Elsie (2017) Results of a national survey of high-frequency fish consumers in the United States. Environ Res 158:126-136|
|Valeri, Linda; Mazumdar, Maitreyi M; Bobb, Jennifer F et al. (2017) The Joint Effect of Prenatal Exposure to Metal Mixtures on Neurodevelopmental Outcomes at 20-40 Months of Age: Evidence from Rural Bangladesh. Environ Health Perspect 125:067015|
|Claus Henn, Birgit; Bellinger, David C; Hopkins, Marianne R et al. (2017) Maternal and Cord Blood Manganese Concentrations and Early Childhood Neurodevelopment among Residents near a Mining-Impacted Superfund Site. Environ Health Perspect 125:067020|
|Tamayo Y Ortiz, Marcela; Téllez-Rojo, Martha María; Trejo-Valdivia, Belem et al. (2017) Maternal stress modifies the effect of exposure to lead during pregnancy and 24-month old children's neurodevelopment. Environ Int 98:191-197|
|Lee, Jane J; Kapur, Kush; Rodrigues, Ema G et al. (2017) Anthropometric measures at birth and early childhood are associated with neurodevelopmental outcomes among Bangladeshi children aged 2-3years. Sci Total Environ 607-608:475-482|
Showing the most recent 10 out of 96 publications