Research Studies
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Biomarkers of chronic fluoride exposure in groundwater in a highly exposed population.Abstract
Highlights
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- Relationships between F in water, fingernails, and urine; and enamel fluorosis (EF) were established.
- Fingernail F was assessed as a biomarker for EF in a high-F region for the first time.
- F biomarker levels were more related to children’s EF than adults, indicating their greater F– exposure during early childhood.
- Children’s EF may be useful as a biomarker for other health effects that depend on early-life F exposure.
This study examined the relation between fluoride (F–) concentrations in fingernail clippings and urine and the prevalence and severity of enamel fluorosis (EF) among Ethiopian Rift Valley populations exposed to high levels of F– in drinking water. The utility of fingernail clippings as a biomarker for F– exposure and EF was also assessed for the first time in a high-F– region. The study recorded the EF status of 386 individuals (10 to 50 years old), who consume naturally contaminated groundwater with widely varying F– concentration (0.6–15 mg/L). The mean F– concentrations among residents of communities with primary reliance on groundwater were 5.1 mg/kg (range: 0.5–34 mg/kg) in fingernails and 8.9 mg/L (range: 0.44–34 mg/L) in urine. We show strong positive correlations between F– in drinking water and 12-hour urinary excretion (r = 0.74, p < 0.001, n = 287), fingernail F– content (r = 0.6, p < 0.001, n = 258), and mean individual measures of EF severity as measured using the Thylstrup and Fejerskov (TF) Index (r = 0.42, p < 0.001, n = 316). The data indicate that both fingernail and urine measures are good biomarkers for F– exposure and EF outcomes, the latter being slightly more sensitive. Cases of moderate/severe EF were significantly more common among younger subjects (10 to 15 years old) than older subjects (mostly > 25 years old) (p < 0.001), consistent with their greater exposure to F– during early childhood, which is the only period of life the enamel is at risk of fluorosis. In this younger population, EF may be useful as a biomarker for identifying individuals with other potential health effects that depend on a specific age window of susceptibility. The finding of exceptionally high F– concentrations in water, fingernail clippings and urine in this region should motivate further investigations of other potential health consequences such as bone disease and abnormalities in the function of the neurological and endocrine systems.
Graphical abstract
Acknowledgments
This is part of an ongoing cohort study in the Ethiopia Rift Valley with a long-term goal of understanding the health impacts of F? in teeth, cartilage, joint, and bone and other poorly explored F? related health problems in children and adults. We are immensely grateful for the funding from the NIEHS’s career development grant (K99ES023472). We acknowledge Dr. Joel Meyer at Nicholas School of the Environment, Duke University and Dr. Michelle Mendez at the University of North Carolina for reviewing and providing valuable comments that improved the manuscript. We thank all the children and parents who participated in this study, and the local water bureaus for their help in recruiting them as well as guiding us during the field work. The content expressed in this paper is the responsibility of the authors and does not necessarily reflect the official views of the NIH.
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**Full-text article online at https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5528157/
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