Superfund Research Program
This Superfund Research Program (SRP) Progress in Research webinar highlighted promising research from two SRP Centers. Researchers at the Northeastern University SRP Center were studying chlorinated solvents and phthalates, contaminants that could be linked to high preterm birthrates in Puerto Rico. The University of Kentucky SRP Center explored how nutrition and exercise might offer protection from polychlorinated biphenyl (PCB) toxicity and was developing new sustainable remediation approaches using nanotechnology.
August 24, 2015, 1:00 - 3:00 p.m. EDT
An archive of this webinar is available on EPA's CLU-IN Training & Events Webpage.
Puerto Rico Testsite for Exploring Contamination Threats (Northeastern University SRP Center, P42ES017198)
The Northeastern University Superfund Research Center, "Puerto Rico Testsite for Exploring Contamination Threats" (PROTECT), brought together researchers from multiple disciplines to study the transport, exposure, health impact, and remediation of contaminants. Center researchers were focused particularly on chlorinated solvents and phthalates, which are commonly found at Superfund sites, as both suspect and model agents in the high preterm birthrates in Puerto Rico. To understand better the demographic, environmental, and genetic contributors to preterm birth, they were collecting information on exposure and health outcomes in the PROTECT cohort, which includes women from three hospitals in Puerto Rico's north coast with high rates of preterm birth and their affiliated physicians' clinics. They have developed a tool to extract contaminants from urine samples from the cohort and water samples from the field and also are developing solar-powered green remediation tools to remove TCE from groundwater. They were also investigating the transport and exposure pathways of phthalates and trichloroethylene (TCE) in karst groundwater systems.
Nutrition and Superfund Chemical Toxicity (University of Kentucky Superfund Research Program Center, P42ES007380)
Because of their relative chemical stability and ubiquity in the environment, chlorinated organic contaminants, such as PCBs and TCE, pose significant health risks and enduring remediation challenges. The University of Kentucky (UK) SRP Center was investigating nutrition and exercise as protective mechanisms against the toxicity of PCBs. Projects were advancing our understanding of toxicant-induced mechanisms of disease, including atherosclerosis, postnatal complications, and diabetes, and introducing sustainable approaches for PCB and TCE remediation, such as green nanomembrane remediation devices. Use of PCBs as a model contaminant will advance understanding of inflammatory diseases associated with exposure to persistent chlorinated organic pollutants. The UK SRP was working with communities and conducting research at three Kentucky Superfund sites: the Paducah Gaseous Diffusion Plant in Paducah, Red Penn in Louisville, and Dayhoit in Harlan.
- Akram Alshawabkeh, Ph.D., Northeastern University (firstname.lastname@example.org)
- Ingrid Padilla, Ph.D., University of Puerto Rico (email@example.com)
- José Cordero, M.D., University of Georgia (firstname.lastname@example.org)
- Bernhard Hennig, Ph.D., University of Kentucky (email@example.com)
- Michael Petriello, University of Kentucky (firstname.lastname@example.org)
- Angela Gutiérrez, University of Kentucky (email@example.com)