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W2800288191 startingPage "47" @default.
W2800288191 abstract "Bisphenols belong to the endocrine disruptors, affecting reproduction even in extremely low doses. Bisphenol S (BPS) has become widely used as a substitute for the earlier-used bisphenol A; however, its harmlessness is questionable. The aim of this study was to evaluate the effect of BPS on folliculogenesis and oocyte quality after in vivo exposure to low doses of BPS. Four-week-old ICR females ( n = 16 in each experimental group) were exposed to vehicle control (VC), BPS1 (0.001 ng BPS.g/bw/day), BPS2 (0.1 ng.g/bw/day), BPS3 (10 ng.g/bw/day) and BPS4 (100 ng.g/bw/day) for 4 weeks. Ovaries were subjected to stereology and nano liquid chromatography-mass spectrometry (LC/MS). Simultaneously, metaphase II oocytes were obtained after pregnant mare serum gonadotrophin and human chorionic gonadotrophin administration, followed by immunostaining. In particular, mating and two-cell embryo flushing were performed. We observed that BPS decreases the amount of ovarian follicles and BPS2 (0.1 ng.g/bw/day) affects the volume of antral follicles. Accordingly, ovarian proteome is affected after BPS2 treatment. While BPS2 dosing results mainly in cytoskeletal damage in matured oocytes, the effects of BPS3 and BPS4 seem to be due instead to epigenetic alterations in oocytes. Arguably, these changes lead to observed affection of in vivo fertilization rate after BPS3 and BPS4 treatment. BPS significantly affects female reproduction astoundingly in extremely low doses. These findings underline the necessity to assess the risk of ongoing BPS exposure for public health." @default.
W2800288191 created "2018-05-17" @default.
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W2800288191 date "2018-07-01" @default.
W2800288191 modified "2023-10-02" @default.
W2800288191 title "Long-term exposure to very low doses of bisphenol S affects female reproduction" @default.
W2800288191 cites W1511210758 @default.
W2800288191 cites W1577451703 @default.
W2800288191 cites W1945480866 @default.
W2800288191 cites W1969468842 @default.
W2800288191 cites W1978791181 @default.
W2800288191 cites W1981348969 @default.
W2800288191 cites W1984109965 @default.
W2800288191 cites W1990366437 @default.
W2800288191 cites W2006104250 @default.
W2800288191 cites W2008151232 @default.
W2800288191 cites W2009638423 @default.
W2800288191 cites W2009752320 @default.
W2800288191 cites W2020338693 @default.
W2800288191 cites W2023652812 @default.
W2800288191 cites W2023704290 @default.
W2800288191 cites W2024144436 @default.
W2800288191 cites W2025255744 @default.
W2800288191 cites W2038798896 @default.
W2800288191 cites W2040945764 @default.
W2800288191 cites W2041609470 @default.
W2800288191 cites W2044494701 @default.
W2800288191 cites W2045059986 @default.
W2800288191 cites W2046279737 @default.
W2800288191 cites W2048637593 @default.
W2800288191 cites W2050546718 @default.
W2800288191 cites W2054551850 @default.
W2800288191 cites W2083205981 @default.
W2800288191 cites W2084444116 @default.
W2800288191 cites W2085429057 @default.
W2800288191 cites W2086317319 @default.
W2800288191 cites W2088623213 @default.
W2800288191 cites W2092028934 @default.
W2800288191 cites W2093018800 @default.
W2800288191 cites W2095051171 @default.
W2800288191 cites W2097327668 @default.
W2800288191 cites W2100723447 @default.
W2800288191 cites W2108478507 @default.
W2800288191 cites W2115469199 @default.
W2800288191 cites W2121510117 @default.
W2800288191 cites W2128676243 @default.
W2800288191 cites W2130293662 @default.
W2800288191 cites W2134529093 @default.
W2800288191 cites W2135182684 @default.
W2800288191 cites W2137443069 @default.
W2800288191 cites W2139740436 @default.
W2800288191 cites W2140633565 @default.
W2800288191 cites W2153419070 @default.
W2800288191 cites W2162660496 @default.
W2800288191 cites W2246800038 @default.
W2800288191 cites W2293091459 @default.
W2800288191 cites W2294437982 @default.
W2800288191 cites W2323151664 @default.
W2800288191 cites W2323902431 @default.
W2800288191 cites W2332227759 @default.
W2800288191 cites W2401326686 @default.
W2800288191 cites W2465316339 @default.
W2800288191 cites W2509941917 @default.
W2800288191 cites W2512462020 @default.
W2800288191 cites W2587144110 @default.
W2800288191 cites W2592606137 @default.
W2800288191 cites W2597814839 @default.
W2800288191 cites W2598960794 @default.
W2800288191 cites W2605667852 @default.
W2800288191 cites W2655076168 @default.
W2800288191 cites W2725727817 @default.
W2800288191 cites W2774511236 @default.
W2800288191 cites W2779547476 @default.
W2800288191 cites W4234792992 @default.
W2800288191 doi "https://doi.org/10.1530/rep-18-0092" @default.
W2800288191 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29748175" @default.
W2800288191 hasPublicationYear "2018" @default.
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