Disposition and excretion of intravenous 2,3,7,8-tetrabromodibenzo-p-dioxin (TBDD) in rats.

Polybrominated dibenzodioxins and dibenzofurans are of toxicologic interest due to potential occupational and environmental exposure and because of their structural similarity to the highly toxic chlorinated analogues. The excretion and terminal tissue distribution of [3H]TBDD was studied in male F344 rats for 56 days following single iv doses of .001 or 0.1 mumol/kg. The major tissue depots of radioactivity were liver, adipose tissue, and skin, and tissue distribution was dose-dependent. At 56 days, liver concentrations in the high dose group were disproportionately increased compared to those of the low dose group. Liver:adipose tissue concentration ratios were 0.2 and 2.6 at the low and high doses, respectively. Elimination of radioactivity in the feces, the major route of excretion, and urine was also nonlinear with respect to dose. By Day 56, feces accounted for approximately 50% of the administered dose at the low dose versus 70% at the high dose. Based on fecal excretion, the apparent terminal whole body half-life was estimated to be 18 days for both dose groups. The time-dependent pattern of tissue disposition was characterized at the low dose over a 56-day period. Blood levels of radioactivity declined rapidly with 2% remaining in the blood by 24 hr. Radioactivity levels in the liver peaked by 7 hr and then gradually declined concomitant with a slow accumulation in adipose tissue. The terminal excretion half-life of radioactivity in adipose tissue was estimated to be 60 days. Liver:adipose tissue concentration ratios declined with time. Thus, the overall disposition of TBDD appears similar to that observed for the chlorinated analogue, 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). The results of these studies are consistent with the hypothesis that TBDD, like TCDD, induces a binding species in the liver which accounts for higher liver:adipose tissue concentration ratios at the high dose. The dose-dependent tissue disposition and excretion kinetics of these compounds suggest important considerations for extrapolations from high to low doses.