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Trichloroethylene (TCE) Toxicity Values Update Waste Site Cleanup Advisory Committee Meeting March 27, 2014 C. Mark Smith Ph.D., M.S. Deputy Director Office of Research and Standards MassDEP c.mark.smith@state.ma.us. Trichloroethylene (TCE) Timeline.
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Trichloroethylene (TCE) Toxicity Values UpdateWaste Site Cleanup Advisory Committee MeetingMarch 27, 2014C. Mark Smith Ph.D., M.S.Deputy DirectorOffice of Research and StandardsMassDEPc.mark.smith@state.ma.us
Trichloroethylene (TCE) Timeline • 1989 EPA withdrew TCE toxicity values from IRIS • 2001 EPA released draft TCE Health Assessment • 2002 EPA SAB reviewed the draft Health Assessment • 2006 NAS released report and recommendations • 2009 EPA issued draft Health Assessment for TCE • 2011: EPA released its Final Assessment for TCE on IRIS. http://www.epa.gov/iris/subst/0199.htm; cardiac developmental toxicity a key endpoint • 2012-2013: EPA regions address short-term TCE exposures using differing approaches. No national guidance issued. • 2013-2014: MassDEP develops approach for addressing short-term exposure risk for MCP program
Implications of TCE Development Toxicity • Cardiac developmental effects are of high concern • Serious, potentially fatal • Fetal cardiac development occurs early during pregnancy (1st 8 weeks) with key stages occurring over periods of days • Exposures to women of childbearing age a concern • Short-term exposures a concern • Triggers MCP Imminent Hazard requirements at a low concentration
MCP Imminent Hazard The conditions at the disposal site pose an Imminent Hazard when: 1.”a Hazard Index equal to 1.0 for OHM that have the potential to cause serious effects (including but not limited to lethal, developmental, or neurological effects) following short-term exposures; and 2. a Hazard Index equal to 10 for all other oil or hazardous materials.”
ORS TCE Review Requested • No national guidance from EPA • Inconsistent approaches used by EPA regions and ATSDR • MassDEP very concerned about developmental risks
ORS TCE Review • Focused on developmental effects: • Reviewed weight of the evidence • Considered approaches for addressing short term exposures • Reviewed EPA, NAS and SAB documents • Considered approaches used by EPA regions • Consulted with MassDEP Health Effects Advisory Committee (HEAC) over multiple meetings • Developed recommended triggers for addressing short-term exposures to TCE in indoor air attributable to vapor intrusion
Conclusions ORS TCE Review • Concurred with EPA that the weight of the evidence is sufficient to consider TCE a developmental toxin • Animal bioassays; epidemiology; mechanistic data • Cardiac development toxicity is the most sensitive effect • Cardiac development occurs during the first 8 weeks of pregnancy • Exposures to women of childbearing age a concern
Conclusions ORS TCE Review • EPA quantitative RfC derivation appropriate and protective of all non-cancer endpoints • Choice of critical studies supported • State-of-the-art physiologically based pharmacokinetic (PBPK) modeling used for cross species and exposure route conversions • Current benchmark dose (BMD) and dose response modeling to extrapolate to low dose risk • Pharmacodynamic (PD) uncertainty factor of 10 applied to conservatively derive the RfC
Imminent Hazard Recommendation • ORS toxicologists, with input from the HEAC, concluded that cardiac developmental risk at levels somewhat above the RfC is very low • An Imminent Hazard of 6 µg/m3 recommended for residential and of 24 µg/m3for typical workplace exposure scenarios • EPA RfC adjusted by reducing the PD UF by a factor of 3 • Deemed appropriate because the RfC is based on the most sensitive life-stage and cardiac development is well conserved across species. • Better allows for differentiation of IH vs. protective indoor air levels
More Urgent Concern Level Recommendation • Additional guidance for indoor air concentration well above the IH • Pose a more significant risk to the fetus • Additional urgency to reduce exposures • Residential = 20 µg/m3 • Concentration estimated by EPA modeling that would result in 1% of people (high metabolizers) attaining an internal metabolized TCE dose associated with a 1% excess risk of cardiac defects in the animal model • Close to median air concentration associated with increased risk of cardiac defects in Endicott, NY epidemiology study. • Workplace = 60 µg/m3, adjusted for 8 hour a day exposure
Effects of Toxicity Value Changes on Method 1 and 3 (Residential; Risk Drivers – cancer or noncancer)