An oral developmental neurotoxicity study of decabromodiphenyl ether (DecaBDE) in rats.

BACKGROUND: Decabromodiphenyl ether (DecaBDE; CASRN 1163-19-5) is a flame retardant used in a variety of manufactured products. A single oral dose of 20.1 mg/kg administered to mice on postnatal day 3 has been reported to alter motor activity at 2, 4, and 6 months of age. METHODS: To further evaluate these results, a developmental neurotoxicity study was conducted in the most commonly used species for studies of this type, the rat, according to international validated testing guidelines and Good Laboratory Practice Standards. DecaBDE was administered orally via gavage in corn oil to dams from gestation day 6 to weaning at doses of 0, 1, 10, 100, or 1,000 mg/kg/day. Standard measures of growth, development, and neurological endpoints were evaluated in the offspring. Motor activity was assessed at 2 months of age. Additional motor activity assessments were conducted at 4 and 6 months of age. Neuropathology and morphometry evaluations of the offspring were performed at weaning and adulthood. RESULTS: No treatment-related neurobehavioral changes were observed in detailed clinical observations, startle response, or learning and memory tests. No test substance-related changes were noted in motor activity assessments performed at 2, 4, or 6 months of age. Finally, no treatment-related neuropathological or morphometric alterations were found. CONCLUSIONS: Under the conditions of this study, the no-observed-adverse-effect level for developmental neurotoxicity of DecaBDE was 1,000 mg/kg/day, the highest dose tested.

Effects of dose, administration route, and/or vehicle on decabromodiphenyl ether concentrations in plasma of maternal, fetal, and neonatal rats and in milk of maternal rats.

The effects of route and vehicle on blood and milk levels of decabromodiphenyl ether (DecaBDE; CASRN 1163-19-5) were investigated in the rat to assist in the design and conduct of a developmental neurotoxicity study. Blood plasma and/or milk concentrations were determined in dams, fetuses, and/or nursing pups after repeated DecaBDE administration by gavage throughout gestation or gestation and lactation using corn oil (CO) or soyaphospholipon/Lutrol F 127-water (SPL) as the vehicle. The impact of vehicle on plasma levels was also investigated in pups derived from naive dams after a single postnatal dose. This study reports for the first time fetal and neonatal plasma concentrations concurrent with those of maternal plasma and/or milk. Higher concentrations of DecaBDE were achieved in plasma and in milk with CO than with SPL. Furthermore, pups derived from dams treated with only SPL were lower in body weight, compared with those from dams treated with either CO, CO and DecaBDE, or SPL and DecaBDE. The study further shows that exposure to DecaBDE is relatively consistent across the dose range of 100 to 1000 mg/(kg · day) when administered in CO.

Absorption of [14C]-tetrabromodiphenyl ether (TeBDE) through human and rat skin in vitro.

The skin is the largest organ in the human body and has the potential to come into contact with a variety of xenobiotics both intentionally (e.g., drugs and cosmetics) or accidentally (e.g., agrochemicals and industrial chemicals). These chemicals may then cross the skin barrier (the stratum corneum) and enter into the systemic circulation where they may produce a desired or an undesired effect, or even no systemic effect at all. Tetrabromodiphenyl ether (TeBDE) is one congener in a mixture of polybrominated diphenyl ethers that makes up a flame-retardant commercial product called pentabromodiphenyl ether (PeBDE). TeBDE was used as a surrogate to assess the potential dermal absorption of this product. The physicochemical properties, including lipophilicity, of TeBDE and PeBDE are similar. Operator exposure of PeBDE product to human skin is possible during production and use. However, during these activities, operators wear protective clothing to protect from or minimize exposure. This study was designed to assess the rate and extent of absorption of [14C]-tetrabromodiphenyl ether ([14C]-TeBDE) through human and rat skin in vitro. [14C]-TeBDE was applied to human and rat split thickness skin membranes in vitro in a single test preparation: [14C]-TeBDE in acetone (ca. 20%, w/v). Dermal delivery and absorbed dose of TeBDE applied to human skin was 3.13% (313 microg equiv/cm(2)) and 1.94% (194 microg equiv/cm(2)) of the applied dose, respectively. Dermal delivery and absorbed dose of TeBDE applied to rat skin was 17.94% (1804 microg equiv/cm(2)) and 14.81% (1489 microg equiv/cm(2)) of the applied dose, respectively. These results confirm that the risk of systemic exposure due to external dermal exposure of the PeBDE product is low in the human. Consequently, based on the toxicological profile of these materials, the potential for undesirable effects is also quite low. The results also confirm that the rat is a conservative model overpredicting human absorption about eight fold.