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A Bayesian benchmark concentration analysis for urinary fluoride and intelligence in adults in Guizhou, China.Abstract
Highlights
- Dose-response relationship between U-F concentration and IQ loss in the population.
- Urinary fluoride can be an effective biomarker for monitoring the public’s IQ loss.
- Three interim targets have been proposed to be established.
Environmental fluoride exposure has been linked to numerous cases of fluorosis worldwide. Previous studies have indicated that long-term exposure to fluoride can result in intellectual damage among children. However, a comprehensive health risk assessment of fluorosis-induced intellectual damage is still pending. In this research, we utilized the Bayesian Benchmark Dose Analysis System (BBMD) to investigate the dose-response relationship between urinary fluoride (U-F) concentration and Raven scores in adults from Nayong, Guizhou, China. Our research findings indecate a dose-response relationship between the concentration of U-F and intelligence scores in adults. As the benchmark response (BMR) increased, both the benchmark concentration (BMCs) and the lower bound of the credible interval (BMCLs) increased. Specifically, BMCs for the association between U-F and IQ score were determined to be 0.18 mg/L (BMCL1 = 0.08 mg/L), 0.91 mg/L (BMCL5 = 0.40 mg/L), 1.83 mg/L (BMCL10 = 0.83 mg/L) when using BMRs of 1 %, 5 %, and 10 %. These results indicate that U-F can serve as an effective biomarker for monitoring the loss of IQ in population. We propose three interim targets for public policy in preventing intellectual harm from fluoride exposure.
Graphical abstract
Original abstract online at https://www.sciencedirect.com/science/article/abs/pii/S0048969724014657
Excerpt:
Conclusions
In conclusion, our findings indicate that intelligence scores decreased as the U-F concentration increased in the endemic fluoride area. The results suggest that U-F [urinary fluoride concentration] can be used as an internal biomarker for monitoring the loss of public IQ caused by fluoride exposure. We propose three interim targets for public policy in preventing cognitive harm from fluoride exposure. When the U-F concentration in the population exceeds 0.83 mg/L, it signifies that long-term exposure has resulted in a 10 %…