Abstract Endocrine disruption during pregnancy has gained increasing interest as epidemiological studies report associations of exposures and adverse effects on fetal growth, followed by effects on the growing child and ultimately in the adult. When studying endocrine disruption during pregnancy the placental steroidogenesis is difficult to model, as the human placenta is unique in the pathway of cellular uptake of cholesterol, the high levels of progesterone production, and the expression of aromatase. Models to test for endocrine disruption should respect species differences with preference to human models for human risk assessment. Here, we present existing research of placental steroidogenesis and other placental hormones using human placental models: Placental perfusion, placental explants, microsomes and vesicles, primary cell culture, stem cells, Placenta-on-a-chip, and choriocarcinoma cell cultures: BeWo, HTR8/SVneo, Jar, JEG-3 and ACH-3P. We conclude that there is a lack of research focused on placental steroidogenesis and the effects of EDC. Advantages and limitations of existing models are discussed and future directions suggested.

not-yet-known not-yet-known not-yet-known unknown Abstract This review examines the association between early life exposure to phthalates in human males and Leydig cell endocrine function. A systematic search was performed in PubMed and EMBASE, identifying 17 studies for analysis. Association scores weighted for number of phthalates and subjects were calculated for luteinizing hormone (LH), testosterone, testosterone/LH ratio, and insulin-like factor 3 (INSL3). The scores ranges from full consistency of positive (score = 1), through inconsistent (score = 0), to negative/inverse (score = -1) associations. LH and early life phthalate exposure showed a statistically significant weighted phthalate association score of 0.18. Testosterone showed largely null results, while testosterone/LH ratio showed a negative association, both not statistically significant. A rise in LH, and decrease of testosterone/LH ratio, indicates that early life phthalate exposure results in a demand for a larger LH stimulus to produce the same amount of testosterone, and perhaps a decreased function of the Leydig cells, that manifests with the onset of high testosterone production in puberty and adulthood. A non-statistically significant decrease in INSL3, with a weighted phthalate association score of -0.29 supports this finding. An early life phthalate exposure induced decline in Leydig cell function, could possibly impact the spermatogenesis and adult male fertility.