Abstract

Inorganic fluoride is a geogenic and anthropogenic contaminant widely distributed in the environment and commonly identified in contaminated groundwater. There is limited information on the effect of fluoride exposure on pregnancy. The aim of this study was to evaluate possible placental alterations of fluoride exposure in a rat model simulating preconception and pregnancy exposure conditions in endemic areas. Fluoride exposure was administered orally to foetuses of dams exposed to 2.5 and 5 mg fluoride/kg/d. Foetal weight, height, foetal/placental weight ratio, placental zone thickness, levels of malondialdehyde (MDA) and vascular endothelial growth factor-A (VEGF-A) and vascular density in placental tissue were evaluated. The results showed a nonlinear relationship between these outcomes and the dose of fluoride exposure. In addition, a significant increase in the fluoride concentration in placental tissue was observed. The group that was exposed to 2.5 mg fluoride/kg/d had a greater increase in both MDA levels and VEGF-A levels than the higher dose group. A significant increase in the thickness of the placental zones and a decrease in the vascular density of the labyrinth zone area were also observed in the fluoride-exposed groups. In conclusion, the data obtained demonstrate that fluoride exposure results in morpho-structural alterations in the placenta and that non-monotonic changes in MDA, VEGF-A levels and placental foetal weight ratio were at environmentally relevant concentrations.

Conclusions

In conclusion, the results of this study showed that exposure to environmentally relevant concentrations of fluoride produces significant non-monotonic changes in the foetal-placental weight ratio, affects the thickness of the placental area, increases VEGF-A levels, and causes a decrease in the VDLZa. In addition, we observed an inadequate foetal growth in both doses and only an increase of MDA in the placenta at lower exposure dose. These findings are indicative of alterations in both placental morphology and efficiency, modifications that are related to later developmental defects. This study deepens the knowledge of the effects of fluoride toxicity on the placenta and its impact on foetuses and provides new avenues for the study of the effects of toxicity during gestation.

Full-text article online at https://link.springer.com/article/10.1007/s12011-023-03916-5