Similarity of bisphenol A pharmacokinetics in rhesus monkeys and mice: relevance for human exposure.
about
Hormones and endocrine-disrupting chemicals: low-dose effects and nonmonotonic dose responsesThe estrogenic endocrine disrupting chemical bisphenol A (BPA) and obesityDisruption of adult expression of sexually selected traits by developmental exposure to bisphenol A.Preimplantation Exposure to Bisphenol A and Triclosan May Lead to Implantation Failure in HumansDirected Differentiation of Human Embryonic Stem Cells into Prostate Organoids In Vitro and its Perturbation by Low-Dose Bisphenol A ExposureLifetime-dependent effects of bisphenol A on asthma development in an experimental mouse modelExposure to bisphenol-A during pregnancy partially mimics the effects of a high-fat diet altering glucose homeostasis and gene expression in adult male miceBisphenol A exposure alters developmental gene expression in the fetal rhesus macaque uterusConjugated bisphenol A in maternal serum in relation to miscarriage riskBisphenol a: a model endocrine disrupting chemical with a new potential mechanism of actionPrenatal bisphenol a exposure and child behavior in an inner-city cohortEvidence that bisphenol A (BPA) can be accurately measured without contamination in human serum and urine, and that BPA causes numerous hazards from multiple routes of exposureBisphenol A exposure reduces the estradiol response to gonadotropin stimulation during in vitro fertilizationConsortium-based science: the NIEHS's multipronged, collaborative approach to assessing the health effects of bisphenol AChronic Exposure to Bisphenol A Affects Uterine Function During Early Pregnancy in MiceUrinary concentrations of bisphenol A in an urban minority birth cohort in New York City, prenatal through age 7 yearsShort-term treatment with bisphenol-A leads to metabolic abnormalities in adult male miceDifferential effects of bisphenol A and diethylstilbestrol on human, rat and mouse fetal leydig cell functionPerinatal bisphenol A exposure and adult glucose homeostasis: identifying critical windows of exposureMaternal bisphenol a exposure impacts the fetal heart transcriptomePROXIMAL: a method for Prediction of Xenobiotic MetabolismAn old culprit but a new story: bisphenol A and “NextGen” bisphenolsChronic exposure to bisphenol a impairs progesterone receptor-mediated signaling in the uterus during early pregnancyCritical evaluation of key evidence on the human health hazards of exposure to bisphenol A.Early exposure to bisphenol A alters neuron and glia number in the rat prefrontal cortex of adult males, but not females.Sex and dose-dependent effects of developmental exposure to bisphenol A on anxiety and spatial learning in deer mice (Peromyscus maniculatus bairdii) offspringBisphenol-A (BPA), BPA glucuronide, and BPA sulfate in midgestation umbilical cord serum in a northern and central California population.Pharmaco- and toxicokinetics of selected exogenous and endogenous estrogens: a review of the data and identification of knowledge gaps.Bisphenol A in 24 h urine and plasma samples of the German Environmental Specimen Bank from 1995 to 2009: a retrospective exposure evaluation.Bisphenol A (BPA) pharmacokinetics with daily oral bolus or continuous exposure via silastic capsules in pregnant rhesus monkeys: Relevance for human exposures.A round robin approach to the analysis of bisphenol A (BPA) in human blood samples.Should oral gavage be abandoned in toxicity testing of endocrine disruptors?Bisphenol A promotes human prostate stem-progenitor cell self-renewal and increases in vivo carcinogenesis in human prostate epithelium.Urinary tetrabromobenzoic acid (TBBA) as a biomarker of exposure to the flame retardant mixture Firemaster® 550.Adsorption of bisphenol A to a carbon nanotube reduced its endocrine disrupting effect in mice male offspring.Bisphenol A exposure enhances atherosclerosis in WHHL rabbits.Bisphenol A exposure and children's behavior: A systematic review.Estrogenic exposure alters the spermatogonial stem cells in the developing testis, permanently reducing crossover levels in the adultEnvironmental Health Factors and Sexually Dimorphic Differences in Behavioral Disruptions.Bisphenol A increases mammary cancer risk in two distinct mouse models of breast cancer
P2860
Q24613799-B5B46073-F4EF-402C-A530-DA26B657CF34Q24615389-72EFF67E-3FBB-418C-A4DD-1973EC911D61Q24633226-05639CBE-D87C-41A9-920E-64CC734493C7Q26781723-115D3E7B-4749-4884-AE35-CE5AFDE0AACFQ27302326-433838E0-E280-4CC7-9B01-E9D949582734Q27322598-93D895A1-972D-4D1D-A45D-D96686D98075Q27322754-947F5E53-08E4-4964-BFC9-4CC42848BD03Q27332310-907A1791-7563-403A-8599-53CC09FC7E96Q28383927-7108FC69-8A1E-49DE-90E7-DF70F3AA7B45Q28387145-ED9B026E-01E7-4F1E-B6BE-4DAC048E9A7AQ28388474-AE8038D7-F0E7-4115-8718-A52592D4D673Q28390400-9E35CD4A-C02D-4575-98A5-5B19CC53764BQ28391680-AA594A70-A7EB-4954-BE26-FBCFAC4F586BQ28393288-4015FDA4-CE5C-44C8-8272-2CCB0296BFB2Q28394507-03C4C106-67B3-4732-AB13-761166730E59Q28395903-A51EAF70-22B7-488C-8017-8EC9FB884A1FQ28481715-0AF054B3-4CB4-4A7E-B7D2-A736756547A8Q28484400-A92EB775-F8DE-4029-B0BA-AF9F97642DCCQ28487927-BE6A2B26-5C6F-4F70-B108-FA71F861AA07Q28540117-5BE1A1C0-DF96-4276-9116-36AEA73A5ECDQ28603730-7129CE62-F93D-480B-8B4A-ECC4EE70F8C3Q29248135-2F504E12-5014-43E0-8E90-207E5D2499C6Q29248520-3F6A6043-C73C-4C06-B6BE-465BE38F4C19Q30396069-0BE98D4C-3DD2-42E0-A757-8220995CB79DQ30400639-BDA20877-E2A1-4317-803F-EE99F002B0C5Q30531779-51F1E6D6-24DC-41B9-ABB5-9FBF01DA6605Q30562196-8AF255D7-F2BC-46BD-B135-6A9DF5B85BF9Q30841046-686E3C7D-87ED-40E1-9419-30FD65BE4CDDQ33454779-2E69D316-ADC6-403D-8371-00BC71079EC3Q33669062-539B71A6-C733-44BC-9A3F-189B11C34D5BQ33789200-05254131-364C-481C-8851-37FF56D55524Q33801522-960659F3-3E3E-498C-AA95-AB2BA69F8A3AQ34039564-94FBB669-D031-4BEA-9BA9-78A9E7DD9398Q34131576-480E1808-F4E0-4709-8942-52AF84A88AFBQ34358887-9070B4CA-0A25-4B59-986A-7B42E9FF37D5Q34380796-C74623C7-2997-489F-8657-A9B195757FEAQ34517368-99A21BB5-0BF2-46E5-BB23-DE5DA7CDAB36Q35007296-BFE28871-0182-4D10-8AF5-B115BE882F8BQ35101447-9B72A0CB-6FDF-41D8-A37C-855A843A204EQ35174965-B727BF77-9841-4121-9A7E-EC3EB672D67D
P2860
Similarity of bisphenol A pharmacokinetics in rhesus monkeys and mice: relevance for human exposure.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
2010年论文
@zh
2010年论文
@zh-cn
name
Similarity of bisphenol A phar ...... relevance for human exposure.
@ast
Similarity of bisphenol A phar ...... relevance for human exposure.
@en
Similarity of bisphenol A phar ...... relevance for human exposure.
@nl
type
label
Similarity of bisphenol A phar ...... relevance for human exposure.
@ast
Similarity of bisphenol A phar ...... relevance for human exposure.
@en
Similarity of bisphenol A phar ...... relevance for human exposure.
@nl
prefLabel
Similarity of bisphenol A phar ...... relevance for human exposure.
@ast
Similarity of bisphenol A phar ...... relevance for human exposure.
@en
Similarity of bisphenol A phar ...... relevance for human exposure.
@nl
P2093
P2860
P356
P1476
Similarity of bisphenol A phar ...... relevance for human exposure.
@en
P2093
Bertram Drury
Catherine A VandeVoort
Céline M Laffont
Frederick S Vom Saal
George Rottinghaus
Julia A Taylor
Patricia A Hunt
Pierre-Louis Toutain
Wade V Welshons
P2860
P304
P356
10.1289/EHP.1002514
P577
2010-09-20T00:00:00Z
2011-04-01T00:00:00Z