Environment International (Jan 2024)

Ambient traffic related air pollution in relation to ovarian reserve and oocyte quality in young, healthy oocyte donors

  • Sarah LaPointe,
  • Jaqueline C. Lee,
  • Zsolt P. Nagy,
  • Daniel B. Shapiro,
  • Howard H. Chang,
  • Yifeng Wang,
  • Armistead G. Russell,
  • Heather S. Hipp,
  • Audrey J. Gaskins

Journal volume & issue
Vol. 183
p. 108382

Abstract

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Studies in mice and older, subfertile women have found that air pollution exposure may compromise female reproduction. Our objective was to evaluate the effects of air pollution on ovarian reserve and outcomes of ovarian stimulation among young, healthy females. We included 472 oocyte donors who underwent 781 ovarian stimulation cycles at a fertility clinic in Atlanta, Georgia, USA (2008–2019). Antral follicle count (AFC) was assessed with transvaginal ultrasonography and total and mature oocyte count was assessed following oocyte retrieval. Ovarian sensitivity index (OSI) was calculated as the total number of oocytes divided by total gonadotrophin dose × 1000. Daily ambient exposure to nitric oxide (NOx), carbon monoxide (CO), and particulate matter ≤ 2.5 (PM2.5) was estimated using a fused regional + line-source model for near-surface releases at a 250 m resolution based on residential address. Generalized estimating equations were used to evaluate the associations of an interquartile range (IQR) increase in pollutant exposure with outcomes adjusted for donor characteristics, census-level poverty, and meteorological factors. The median (IQR) age among oocyte donors was 25.0 (5.0) years, and 31% of the donors were racial/ethnic minorities. The median (IQR) exposure to NOx, CO, and PM2.5 in the 3 months prior to stimulation was 37.7 (32.0) ppb, 612 (317) ppb, and 9.8 (2.9) µg/m3, respectively. Ambient air pollution exposure in the 3 months before AFC was not associated with AFC. An IQR increase in PM2.5 in the 3 months before AFC and during stimulation was associated with −7.5% (95% CI −14.1, −0.4) and −6.4% (95% CI −11.0, −1.6) fewer mature oocytes, and a −1.9 (95% CI −3.2, −0.5) and −1.0 (95% CI −1.8, −0.2) lower OSI, respectively. Our results suggest that lowering the current 24-h PM2.5 standard in the US to 25 µg/m3 may still not adequately protect against the reprotoxic effects of short-term PM2.5 exposure.

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