Endocrine-disrupting chemicals currently represent one of the major concerns and this study was aimed to investigate the effects of different doses of cadmium, widespread toxic metal, on the levels of thyroid hormones and to calculate Benchmark doses for these effects. Furthermore, the effects of co-exposure to cadmium and polychlorinated biphenyls on thyroid function were investigated. Six orally-treated groups of rats were receiving 0.3, 0.6, 1.25, 2.5, 5 and 10mgCd/kgb.w./day, five groups were orally treated with 0.5, 1, 2, 4 and 8mgPCBs/kgb.w./day, while nine groups of rats were orally-treated with different dose combinations of Cd and PCBs (0.6, 1.25 and 2.5mgCd/kgb.w. and 2, 4 and 8mgPCBs/kgb.w./day), during 28 days. Thyroid hormones were adversely affected by cadmium, with most prominent effect observed on triiodothyroxine levels indicating Cd interference with thyroid function at extrathyroidal level. Calculated Benchmark doses for Cd effects on thyroid hormones indicate triiodothyroxine as the most sensitive one that can be used as a basis for risk assessment. This study also implicates possible synergistic effects of Cd and PCBs on thyroid function as a consequence of their interference at different levels of thyroid homeostasis.
Keywords: 5′-monodeiodinases; 5′D-I; ANOVA; BMD; BMR; CED; CEDL(05); CES; Cadmium; Cd; Co-exposure; ECLIA; EDCs; FT3; FT4; Fisher's least significant difference; LSD; PCBs; Polychlorinated biphenyls; RTW; Rats; T3; T4; TEF; TSH; Thyroid-disrupting chemicals; benchmark dose; benchmark response; cadmium; critical effect dose; critical effect size; electrochemiluminescent immunoassay; endocrine-disrupting chemicals; free thyroxine; free triiodothyroxine; lower confidence levels; one-way analysis; polychlorinated biphenyls; relative thyroid gland weight; thyroid stimulating hormone; thyroxine; toxicity equivalent factor; triiodothyroxine.
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