Available studies (94 found)
| Short citation | Full citation | Bioassay | Epidemiology | Epi. meta-analysis | In vitro | Ecology |
|---|---|---|---|---|---|---|
| Axelsson J et al. 2015 a | Axelsson J et al. Phthalate exposure and reproductive parameters in young men from the general Swedish population. Environment International 85:54-60. HERO DOI | |||||
| Binder et al. 2018 | Binder AM et al. Childhood and adolescent phenol and phthalate exposure and the age of menarche in Latina girls. Environmental Health: A Global Access Science Source 17:32. HERO DOI | |||||
| Braun et al. 2014 | Braun JM et al. Gestational exposure to endocrine-disrupting chemicals and reciprocal social, repetitive, and stereotypic behaviors in 4- and 5-year-old children: the HOME study. Environmental Health Perspectives 122:513-520. HERO | |||||
| Buck Louis et al. 2014 | Buck Louis GM et al. Urinary bisphenol A, phthalates, and couple fecundity: the Longitudinal Investigation of Fertility and the Environment (LIFE) study. Fertility and Sterility 101:1359-1366. HERO | |||||
| Carlsson A et al. 2018 | Carlsson A et al. Bisphenol A, phthalate metabolites and glucose homeostasis in healthy normal-weight children. 7:232-238. HERO DOI | |||||
| Casas M et al. 2016 | Casas M et al. Exposure to bisphenol A and phthalates during pregnancy and ultrasound measures of fetal growth in the INMA-Sabadell cohort. Environmental Health Perspectives 124:521-528. HERO DOI | |||||
| Chang et al. 2015 | Chang WH et al. Phthalates might interfere with testicular function by reducing testosterone and insulin-like factor 3 levels. Human Reproduction 30:2658-2670. HERO DOI | |||||
| Chen et al. 2017 | Chen SY et al. Mono-2-ethylhexyl phthalate associated with insulin resistance and lower testosterone levels in a young population. Environmental Pollution 225:112-117. HERO DOI | |||||
| Chevrier C et al. 2012 | Chevrier C et al. Maternal urinary phthalates and phenols and male genital anomalies. Epidemiology 23:353-356. [Letter]. HERO | |||||
| Dales, Kauri, and Cakmak S 2018 | Dales RE, Kauri LM, and Cakmak S. The associations between phthalate exposure and insulin resistance, β-cell function and blood glucose control in a population-based sample. Science of the Total Environment 612:1287-1292. HERO DOI | |||||
| Den Hond E et al. 2015 | Den Hond E et al. Human exposure to endocrine disrupting chemicals and fertility: A case-control study in male subfertility patients. Environment International 84:154-160. [Review]. HERO | |||||
| Dirinck E et al. 2015 | Dirinck E et al. Urinary phthalate metabolites are associated with insulin resistance in obese subjects. Environmental Research 137:419-423. HERO | |||||
| Engel et al. 2018 | Engel SM et al. Prenatal phthalates, maternal thyroid function, and risk of attention-deficit hyperactivity disorder in the Norwegian mother and child cohort. Environmental Health Perspectives 126:057004. HERO DOI | |||||
| Factor-Litvak P et al. 2014 | Factor-Litvak P et al. Persistent associations between maternal prenatal exposure to phthalates on child IQ at age 7 years. PLoS ONE 9:e114003. HERO DOI | |||||
| Ferguson et al. 2014 | Ferguson KK et al. Prenatal and peripubertal phthalates and bisphenol-A in relation to sex hormones and puberty in boys. Reproductive Toxicology 47:70-76. HERO DOI | |||||
| Ferguson, Mcelrath, and Meeker 2014 | Ferguson KK, Mcelrath TF, and Meeker JD. Environmental phthalate exposure and preterm birth. JAMA Pediatrics 168:61-67. HERO DOI | |||||
| Fisher et al. 2018 | Fisher BG et al. Serum phthalate and triclosan levels have opposing associations with risk factors for gestational diabetes mellitus. Frontiers in Endocrinology 9:99. HERO DOI | |||||
| Gao H et al. 2016 | Gao H et al. Cumulative risk assessment of phthalates associated with birth outcomes in pregnant Chinese women: A prospective cohort study. Environmental Pollution 222:549-556. HERO | |||||
| Gao H et al. 2017 | Gao H et al. Urinary concentrations of phthalate metabolites in early pregnancy associated with clinical pregnancy loss in Chinese women. Scientific Reports 7:6800. HERO DOI | |||||
| Gascon M et al. 2015 | Gascon M et al. Prenatal exposure to phthalates and neuropsychological development during childhood. International Journal of Hygiene and Environmental Health 218:550-558. HERO DOI | |||||
| Han X et al. 2014 | Han X et al. Urinary phthalate metabolites and male reproductive function parameters in Chongqing general population, China. International Journal of Hygiene and Environmental Health 217:271-278. HERO DOI | |||||
| Hart R et al. 2013 | Hart R et al. The influence of antenatal exposure to phthalates on subsequent female reproductive development in adolescence: A pilot study. Reproduction 147:379-390. HERO DOI | |||||
| Hauser R et al. 2006 | Hauser R et al. Altered semen quality in relation to urinary concentrations of phthalate monoester and oxidative metabolites. Epidemiology 17:682-691. HERO DOI | |||||
| Hauser R et al. 2016 | Hauser R et al. Urinary phthalate metabolite concentrations and reproductive outcomes among women undergoing in vitro fertilization: Results from the EARTH study. Environmental Health Perspectives 124:831-839. HERO | |||||
| Herr C et al. 2009 | Herr C et al. Urinary di(2-ethylhexyl)phthalate (DEHP)--metabolites and male human markers of reproductive function. International Journal of Hygiene and Environmental Health 212:648-653. HERO DOI |
Showing studies 1-25 of 94