1 research outputs found
Gestational Exposure to Ambient Particulate Matter Alters Neonatal Cytokines
The role of maternal exposure to
fine particulate matter
(PM2.5) in the development of the fetal immune system remains
unclear. A total of 482 mother–infant pairs were included in
our longitudinal birth cohort study. Maternal PM2.5 exposure
during the first trimester was assessed, and 27 neonatal cytokines
were detected. This study was designed to evaluate the effects of
maternal PM2.5 exposure on fetal immune system development
and to identify the most heavily weighted component. Negative associations
were observed between maternal PM2.5 exposure and neonatal
IL7 [β = −0.05; 95% confidence interval (CI), (−0.07,
−0.03); p < 0.001], IL12 [β = −0.04;
95% CI, (−0.06, −0.01); p = 0.05],
and IL13 [β = −0.04; 95% CI, (−0.06, −0.02); p = 0.02], while positive associations with neonatal Eotaxin
[β = 0.17; 95% CI, (0.09, 0.25); p < 0.001],
PDGFbb [β = 0.15; 95% CI, (0.07, 0.23); p =
0.01], MIP1b [β = 0.10; 95% CI, (0.05, 0.15); p p < 0.001]. The most heavily weighted component in the
three interleukin models was consistently BC (weighted 0.95 for IL7,
0.85 for IL12, and 0.88 for IL13), NH4+ for
two chemokines (weighted 0.47 for Eotaxin and 0.32 for RANTES), and
SO42– for PDGFbb (0.43) and MIP1b (0.42).
Gestational exposure to PM2.5 could alter neonatal cytokine
levels, and special attention should be paid to certain components