Dibromoethane CASRN 106-93-4 | IRIS

IRIS

1,2-Dibromoethane

CASRN 106-93-4 | DTXSID3020415

Toxicological Review (PDF) (240 pp, 3.73 M)
IRIS Summary (PDF) (34 pp, 241 K)

Noncancer Assessment

Reference Dose for Oral Exposure (RfD) (PDF) (34 pp, 241 K) Last Updated: 07/29/2004

System	RfD (mg/kg-day)	Basis	PoD	Composite UF	Confidence
Endocrine, Reproductive, Hepatic	9 x 10 ^-3	Testicular atrophy, liver peliosis, and adrenal cortical degeneration	LOAEL : 27 mg/kg-day	3000	Low/Medium

Reference Concentration for Inhalation Exposure (RfC) (PDF) (34 pp, 241 K) Last Updated: 07/29/2004

System	RfC (mg/m³)	Basis	PoD	Composite UF	Confidence
Respiratory	9 x 10 ^-3	Nasal inflammation	BMCL ₁₀ (HEC): 2.8 mg/m³	300	Medium

Cancer Assessment

Weight of Evidence for Cancer (PDF) (34 pp, 241 K) Last Updated: 07/29/2004

WOE Characterization	Framework for WOE Characterization
Likely to be carcinogenic to humans	Revised Draft Guidelines for Carcinogen Risk Assessment (U.S. EPA, 1999)

Basis:

Under the Draft Revised Guidelines for Carcinogen Risk Assessment (U.S. EPA, 1999), 2-dibromoethane is considered "likely to be carcinogenic to humans" based on strong evidence of carcinogenicity in animals and inconclusive evidence of carcinogenicity in an exposed human population.
This may be a synopsis of the full weight-of-evidence narrative.

Quantitative Estimate of Carcinogenic Risk from Oral Exposure (PDF) (34 pp, 241 K)

Oral Slope Factor: 2 per mg/kg-day (95% upper bound)
Drinking Water Unit Risk: 6 x 10^-5 per µg/L x 10 (95% upper bound)
Extrapolation Method: Multistage model with Poly-3 adjusted incidence data linear extrapolation from lower 95% confidence limit on dose associated with extra risk (adjusted for background) at point of departure at lower end of data range.
Tumor site(s): Gastrointestinal, Endocrine, Other
Tumor type(s): Forestomach tumors, hemangiosarcomas, thyroid follicular cell adenomas or carcinomas (NCI, 1978)

Oral Slope Factor: 1 mg/kg-day (central tendency estimate)
Extrapolation Method: Multistage model with Poly-3 adjusted incidence data central tendency estimate
Tumor site(s): Gastrointestinal, Endocrine, Other
Tumor type(s): Forestomach tumors, hemangiosarcomas, thyroid follicular cell adenomas or carcinomas (NCI, 1978)

Quantitative Estimate of Carcinogenic Risk from Inhalation Exposure (PDF) (34 pp, 241 K)

Inhalation Unit Risk: 6 x 10^-4 per µg/m³ (95% upper bound)
Extrapolation Method: Multistage-Weibull model linear extrapolation from lower 95% confidence limit on dose associated with extra risk (adjusted for background) at point of departure at lower end of data range.
Tumor site(s): Reproductive, Respiratory, Other
Tumor type(s): Nasal cavity (includes adenoma, adenocarcinoma, papillary adenoma, squamous cell carcinoma, and or/papilloma), hemangiosarcomas, mesotheliomas (NTP, 1982)

Inhalation Unit Risk: 3 x 10^-4 per µg/m³ (central tendency estimate)
Extrapolation Method: Multistage model with Poly-3 adjusted incidence data central tendency estimate
Tumor site(s): Reproductive, Respiratory, Other
Tumor type(s): Nasal cavity (includes adenoma, adenocarcinoma, papillary adenoma, squamous cell carcinoma, and or/papilloma), hemangiosarcomas, mesotheliomas (NTP, 1982)

Additional EPA toxicity information may be available by visiting the following sites:

Human Health Benchmarks for Pesticides (HHBP). This database provides human health benchmarks for pesticides that may be present in drinking water.
Office of Pesticide Programs Pesticide Chemical Search. This database provides links to health effects information and registration status for pesticides.
Chemistry Dashboard. This database provides information on chemical structures, experimental and predicted physicochemical, and toxicity data.

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