ECE2021 Symposia Symposium 5: Human foetal exposure to environmental endocrine disruptors (3 abstracts)
Harvard School of Public Health, United States
Aim
To prospectively investigate the associations of urinary phthalate metabolite concentrations measured during four peri-pubertal windows with semen parameters in Russian men.
Methods
516 boys were enrolled at ages 8 9 years (2003 2005). Urine samples were collected annually and pooled into four pubertal exposure windows based on physician assessed Tanner stages and testicular volume (prepuberty, early puberty, late puberty and sexual maturity). 15 phthalate metabolites were quantified using isotope dilution HPLC-MS/MS at Moscow State University. We calculated molar sums (Σ) of di-2-ethylhexyl phthalate (DEHP), non-DEHP, di-isononyl phthalate (DiNP) and di-isodecyl phthalate (DiDP) metabolites. At sexual maturity (18 19 years), men provided 1 2 semen samples for analysis. We estimated the associations between quintiles of Σphthalate metabolites and semen parameters for each pubertal window by fitting generalized linear mixed models with random intercepts to account for repeated semen samples, adjusting for abstinence time, body mass index, and specific gravity. We also modelled the probability of having a semen sample below any WHO cut-offs measured as < 15 mil/ml for concentration, < 39 mil for count, or < 32% progressive motility.
Results
Higher urinary concentrations of ΣDiNP in the late pubertal samples were associated with poorer semen quality; men with the highest versus lowest quintile of ΣDiNP had 32% lower sperm concentration, 34% lower count and 33% lower progressive motile count. Also, men with the highest versus lowest quintile of ΣDiNP had 15% higher probability of having a semen parameter below WHO cut-offs. ΣDiNP measured in the other three peri-pubertal windows was not associated with semen quality. No associations of ΣDEHP, Σnon-DEHP and ΣDiDP with semen quality parameters were observed.
Conclusions
ΣDiNP metabolites in late puberty was associated with poorer semen quality, highlighting the importance of considering specific windows of exposure when investigating chemical exposures in relation to fertility in men.
Funding
NIEHS R01ES0014370 and P30ES000002.