CHINA: A bayesian benchmark dose-based assessment of the neuro-safety reference of urinary fluoride

Recent Research
Post Reply
pfpcnews
Posts: 1265
Joined: Mon Apr 03, 2006 5:50 am

CHINA: A bayesian benchmark dose-based assessment of the neuro-safety reference of urinary fluoride

Post by pfpcnews »

Yang S, Zhang M, Gao Y, Feng X, Wang X, Feng J, Li M, Shao X, Yang Y, Gao Y - "A bayesian benchmark dose-based assessment of the neuro-safety reference of urinary fluoride: implications for revising current Chinese standards" Environment International 209:110190 (2026)
https://doi.org/10.1016/j.envint.2026.110190
Abstract

Background

High fluoride exposure has been linked to neurological impairment; however, evidence on the safety threshold for fluoride-induced neurotoxicity remains limited.

Methods

A cross-sectional study was undertaken in a fluorosis-affected area with drinking water in Jishan County, Shanxi Province. Urinary fluoride was used as the biomarker of fluoride exposure and measured using an ion-selective electrode method. Cognitive function was assessed with the Mini-Mental State Examination (MMSE). Multivariable linear regression and binary logistic regression were employed to examine the dose–response relationship between urinary fluoride and cognitive performance. The Bayesian Benchmark Dose (BBMD) system was used to estimate the safety reference for urinary fluoride.

Results

Higher urinary fluoride levels were significantly associated with cognitive impairment. Upon controlling for possible confounders, each 1 mg/L increment in urine fluoride correlated with a 5% elevated risk of cognitive impairment (OR = 1.05, 95% CI: 1.01–1.09). At a benchmark response (BMR) of 5%, the benchmark dose (BMD) was 3.12 mg/L, with a 95% lower bound (BMDL) of 1.18 mg/L.

Conclusion

Elevated urinary fluoride is an independent associated factor for cognitive dysfunction. The neuroprotective safety reference value of 1.0 mg/L for urinary fluoride estimated in this study is lower than the current Chinese reference standard, indicating that more rigorous regulations may be necessary to safeguard the nervous system from excessive fluoride exposure. These findings offer novel scientific information to guide measures for reducing fluoride-induced neurotoxicity.
wendy
Posts: 229
Joined: Mon Apr 03, 2006 5:51 am

Re: CHINA: A bayesian benchmark dose-based assessment of the neuro-safety reference of urinary fluoride

Post by wendy »

PFPC Commentary:

Numerous concerns about this paper.
  • Technical note: There is an internal inconsistency in the reported BMD value. The abstract reports a BMR 5% BMD of 3.12 mg/L with BMDL 1.18 mg/L, whereas the Results text and Table 4 report the model-averaged BMR 5% BMD as 2.44 mg/L with the same BMDL of 1.18 mg/L. The BMDL is consistent; the BMD is not.
While there is little doubt that high fluoride intake is neurotoxic, and that even small amounts of fluoride can affect cognitive function under iodine-deficient conditions, attempting to set a benchmark dose while neglecting iodine/thyroid status - the key confounder/variable - is scientifically indefensible.

According to the Chinese CDC endemic-disease report, the project collected thyroid ultrasound data, blood and urine biological samples, and environmental samples from the same Jishan fluorosis field investigation (Wang, 2023). Yet the published BMD analysis did not address thyroid ultrasound findings, or investigate any iodine-fluoride interaction.

Yuncheng City, like Shanxi Province more broadly, was historically an iodine-deficiency area. Following mandatory salt iodization in the mid-1990s, iodine status in many parts of Shanxi shifted into the more-than-adequate or excessive range.

A Shanxi-wide 2009 survey in areas without high-iodine water supplies found the median urinary iodine of 8-10 year-old children was 244.0 μg/L [more-than-adequate], with 35.5% ≥300 μg/L [excessive]. At county level, 21% of Shanxi counties had median child urinary iodine ≥300 μg/L. The conclusion was that Shanxi residents' iodine nutrition was "more than appropriate" and that salt iodine concentration needed reduction (Wang et al., 2012).

In Shanxi, there are also documented areas with high-iodine water supplies. The 2019 government survey announced 298 administrative villages in 47 townships, towns, sub-districts, and development zones across 12 counties, cities, and districts in the province as water-source high-iodine areas (Shanxi Provincial Health Commission, 2019). In those areas, all children and all pregnant women were found to have excess iodine intake (Wu et al., 2023).

Therefore, the central problem is not whether fluoride can be neurotoxic. The problem is that a neurotoxicity benchmark dose for urinary fluoride was derived without any consideration of the major confounder and effect modifier: iodine status. Iodine can itself produce neurotoxic effects through thyroid disruption, and it may also influence urinary fluoride levels. Leaving it out makes the benchmark-dose estimate scientifically useless.

WS

Shanxi Provincial Health Commission - "Announcement from the Shanxi Provincial Health Commission regarding the scope of areas with high iodine levels in water sources in Shanxi Province" Shanxi Provincial Health Commission, January 8, 2019

Wang YP, Zhang XD, Guo BS, Xie P, Jia QZ, Ren YT - "Analyse of iodine nutritional status of residents in Shanxi province in 2009" Chinese Journal of Endemiology 31(3):305-307 (2012)
https://doi.org/10.3760/cma.j.issn.1000 ... 012.03.019

Wang Lihua - "Field investigation and sampling work in Shanxi for Topic 2, 'Health damage effects of fluoride exposure and early identification of fluorosis,' under the National Key R&D Program project 'Key technologies for early identification and precision diagnosis and treatment of endemic fluorosis'" China CDC Center for Endemic Disease Control, Institute for Endemic Fluorosis Control, Endemic Disease Updates 2023(2):6-7 (2023)
https://www.hrbmu.edu.cn/dbzx/dfbdt/dt2302.pdf

Wu Z, Zhang X, Guo B, Li H, Ji J, Wu M - "Analysis of monitoring results in water-borne high iodine areas in Shanxi Province in 2020" Chinese Journal of Endemiology 42(12):947-950 (2023)
https://pesquisa.bvsalud.org/portal/res ... pr-1023958
"Efforts should be made to increase the popularization of non iodized salt and improve water quality to reduce iodine in areas with high iodine levels, in order to control the harm of high iodine in water sources as soon as possible."
Post Reply