Abstract

Prolonged exposure to higher concentrations of fluoride (> 1.5 mg/L) is associated with dental and skeletal fluorosis. The effects of fluoride on dental and skeletal system have been studied extensively; however, the neurological consequences of fluoride in population-based studies are limited. The study aims to assess the epidemiology of neurological and other manifestations of fluorosis among rural populations living in the Main Ethiopian Rift valley. In this cross-sectional study, we enrolled 316 individuals from 23 rural communities in the Main Ethiopian Rift valley. Fluoride concentration was measured in drinking water samples collected from 23 community wells. Association between fluoride concentrations and clinical features of fluorosis was assessed using student t test, chi square, multivariable regression using adjusted odds ratio (OR). The mean fluoride concentration in the drinking water was 6.8 ± 4.3 mg/L (range: 0.3–15.5 mg/L). At least one clinical sign of skeletal fluorosis was observed in 54.4% (n = 175) of the study participants. Headache and joint pain reported by 67.1% and 56.3% of the participants as the most common neurological manifestation, and skeletal fluorosis symptom, respectively. The mean fluoride level was higher for those individuals who reported paresthesia compared to those with no-paresthesia. Loss of appetite, constipation, and fatigue were reported by 48.0%, 45.6%, and 56.6% of the participants, respectively. Signs of crippling fluorosis were observed in small proportion (1.6%) of the participants. Individuals who reported headache are most likely exposed to higher fluoride concentrations in drinking water compared to those reported no-headache (p < 0.001). The study demonstrates high prevalence of neuro-medical manifestations of fluorosis in population living in the Main Ethiopian Rift valley. Fluoride concentration in drinking water and joint pain were independent predictors of fluorosis.

Data availability

All data sets on which the conclusions of the manuscript rely are available as spread sheets documents and available from the corresponding author on reasonable request from the journal editors.

Abbreviations

F : Fluoride
Mg/L: Milligram per liter
WHO: World Health Organization

References

  1. Abbas, M., Siddiqi, M. H., Khan, K., Zahra, K., & Naqvi, A. (2017). Hematological evaluation of sodium fluoride toxicity in oryctolagus cunniculus. Toxicology Reports, 4, 450–454.

    CAS  Article  Google Scholar

  2. Addison, M. J., Rivett, M. O., Robinson, H., Fraser, A., Miller, A. M., Phiri, P., et al. (2020). Fluoride occurrence in the lower East African Rift System, Southern Malawi. Science of the Total Environment, 712, 136260.

    CAS  Article  Google Scholar

  3. Alemu, Z. A., Mengesha, S. D., Alemayehu, T. A., Serte, M. G., Kidane, A. W., & Teklu, K. T. (2015). Retrospective study of fluoride distribution in ethiopian drinking water sources. Asian Journal of Applied Science, 4(2), 2305–2915.

    Google Scholar

  4. Anna, S., & Otakar, S. (2020). Mechanisms of Fluoride Toxicity: From Enzymes to Underlying Integrative Networks. Applied Science, 10, 7100.

    Article  Google Scholar

  5. Assefa, G., Shifera, G., Melaku, Z., & Tekle-Haimanot, R. (2004). Clinical and radiological prevalence of skeletal fluorosis among retired employees of Wonji-Shoa Sugar Estate in Ethiopia. East African Medical Journal, 81(12), 638–640.

    CAS  Google Scholar

  6. Bhatnagar, M., Sukhwal, P., Suhalka, P., Jain, A., Joshi, C., & Sharma, D. (2011). Effects of fluoride in drinking water on nadphdiaphorase neurons in the forebrain of mice: A possible mechanism of fluoride neurotoxicity. Fluoride, 44(4), 195–209.

    CAS  Google Scholar

  7. Bruce. S. (2007). Fluoride poisoning: Is fluoride in your drinking water—and from other sources—making you sick?. Dunedin, New Zealand: Fluoride Fatigue. ISBN 978–0–473–12991–0.

  8. Choi, A. L., Sun, G., Zhang, Y., & Grandjean, P. (2012). Developmental fluoride neurotoxicity: A systematic review and meta-analysis. Environtal Health Perspective, 120(10), 1362–1368.

    CAS  Article  Google Scholar

  9. Dec, K., ?ukomska, A., Maciejewska, D., Jakubczyk, K., Baranowska-Bosiacka, I., Chlubek, D., et al. (2017). The influence of fluorine on the disturbances of homeostasis in the central nervous system. Biological Trace Element Research, 177(2), 224–234.

    CAS  Article  Google Scholar

  10. Demelash, H., Beyene, A., Abebe, Z., & Melese, A. (2019). Fluoride concentration in ground water and prevalence of dental fluorosis in Ethiopian Rift Valley: Systematic review and meta-analysis. BMC Public Health, 19(1), 1–9.

    Article  Google Scholar

  11. Edmunds, W. M., & Smedley, P. L. (2005). Fluoride in natural waters. In O. Selinus (Ed.), Essentials of Medical Geology (pp. 301–329). Elsevier Academic Press.

  12. Eren, E., Özturk, M., & Mumcu, E. F. (2005). Fluorosis and its hematological effects. Toxicology of Indian Health., 21(9), 255–258.

    CAS  Article  Google Scholar

  13. Feenstra, L., & Van, Erkel J. (2007). Arsenic in groundwater: Overview and evaluation of removal methods. International Groundwater Resources Assessment Centre, 1–23.

  14. Grandjean, P. (2019). Developmental fluoride neurotoxicity: An updated review. Environmental Health: A Global Access Science Source, 18(1), 1–17.

    Article  Google Scholar

  15. Grandjean, P., & Landrigan, P. J. (2014). Neurobehavioural effects of developmental toxicity. Lancet Neurology, 13(3), 330–338.

    CAS  Article  Google Scholar

  16. Herschy, R. W. (2012). Water quality for drinking: WHO guidelines. Encyclopedia of Earth Science, 876–83.

  17. Hewavithana, P. B., Jayawardhane, W. M., Gamage, R., & Goonaratna, C. (2018). Skeletal fluorosis in Vavuniya District: An observational study. Ceylon Medical Journal, 63(3), 120.

    Article  Google Scholar

  18. Kebede, A., Retta, N., Abuye, C., Whiting, S. J., Kassaw, M., Zeru, T., et al. (2016). Dietary fluoride intake and associated skeletal and dental fluorosis in school age children in rural Ethiopian Rift Valley. International Journal of Environmental Research and Public Health, 13(8), 1–10.

    Article  Google Scholar

  19. Li, M., Gao, Y., Cui, J., Li, Y., Li, B., Liu, Y., et al. (2016). Cognitive impairment and risk factors in elderly people living in fluorosis areas in China. Biological Trace Element Research, 172(1), 53–60.

    CAS  Article  Google Scholar

  20. Martínez-Mier, E. A. (2012). Fluoride: Its metabolism, toxicity, and role in dental health. Journal of Evidence-Based Complementary and Alternative Medicine, 17(1), 28–32.

    Article  Google Scholar

  21. Rango, T. R., Jeuland, M., Tekle-Haimanot, R., Shankar, A., Alemayehu, B., Assefa, G., et al. (2020). Bone quality in fluoride-exposed populations: A novel application of the ultrasonic method. Bone Reports, 12, 100235.

    Article  Google Scholar

  22. Rango, T. R., Paul, C. J., Jeuland, M. A., & Tekle-Haimanot, R. (2019). Biomonitoring of metals and trace elements in urine of central Ethiopian populations. International Journal of Hygiene and Environmental Health, 222(3), 410–418.

    Article  Google Scholar

  23. Rango, T. R., Vengosh, A., Dwyer, G., & Bianchini, G. (2013). Mobilization of arsenic and other naturally occurring contaminants in groundwater of the Main Ethiopian Rift aquifers. Water Resource., 47(15), 5801–5818.

    CAS  Google Scholar

  24. Rango, T. R., Vengosh, A., Jeuland, M., Whitford, G. M., & Tekle-Haimanot, R. (2017). Biomarkers of chronic fluoride exposure in groundwater in a highly exposed population. Science of the Total Environment, 596–597, 1–11.

    Article  Google Scholar

  25. Redda, T. H., et al. (1990). Neurological complications of endemic skeletal fluorosis, with special emphasis on radiculo-myelopathy. Paraplegia, 28(4), 244–251.

    Google Scholar

  26. Redda, T. H. (2005). Study of fluoride and fluorosis in Ethiopia with recommendations on appropriate defluoridation technologies. Consultancy Report, UNICEF—Ethiopia. Faculty of Medicine, Addis Ababa University.

  27. Redda, T. H., Fekadu, A., & Bushra, B. (1987a). Endemic fluorosis in the Ethiopian Rift Valley. Tropical and Geographical Medicine, 39(3), 209–217.

    Google Scholar

  28. Redda, T. H., Fekadu, A., & Bushra, B. (1987b). Endemic fluorosis in the Ethiopian Rift Valley. Tropical and Geographical Medicine, 39(209), 217.

    Google Scholar

  29. Redda, T. H., & Haile, G. (2014). Chronic alcohol consumption and the development of skeletal fluorosis in a fluoride endemic area of the Ethiopian Rift Valley. Journal of Water Resource and Protection, 6(02), 149–155.

    Article  Google Scholar

  30. Redda, T. H., Ngoungou, E. B., & Kibru, D. (2017). Epidemiology of neurological disorders in sub-saharan Africa. Neuroepidemiology Tropical Health, 129–141.

  31. Reddy, R. D. (2009). Neurology of endemic skeletal fluorosis. Neurology India, 57(1), 7–12.

    Article  Google Scholar

  32. Sara, D., Assefa, K., Seifum K. F. Van S. (2017). The right to smile: Fluoride and fluorosis in central rift valley (Ethiopia). Ground Water Magazine, 3.

  33. Tamer, M. N., Kale Köro?lu, B., Arslan, C., Akdo?an, M., Köro?lu, M., Çam, H., et al. (2007). Osteosclerosis due to endemic fluorosis. Science of the Total Environment, 373(1), 43–48.

    CAS  Article  Google Scholar

  34. Tang, Q. Q., Du, J., Ma, H. H., Jiang, S. J., & Zhou, X. J. (2008). Fluoride and children’s intelligence: A meta-analysis. Biological Trace Elements Research, 126(1–3), 115–120.

    CAS  Article  Google Scholar

  35. Wei, W., Pang, S., & Sun, D. (2019). The pathogenesis of endemic fluorosis: Research progress in the last 5 years. Journal of Cellular and Molecular Medicine, 23(4), 2333–2342. https://doi.org/10.1111/jcmm.14185.

  36. WHO (World Health Organization). (2006). In J. B. K. Fawell, J. Chilton, E. Dahi, L. Fewtrell, & Y. Magara (Eds.), Fluoride in drinking water. London: IWA Publishing.

    Google Scholar

  37. Yang, C., Wang, Y., & Xu, H. (2017). Treatment and prevention of skeletal fluorosis. Biomedical and Environmental Sciences, 30(2), 147–149.

    Google Scholar

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Acknowledgements

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.

Funding

This is part of an ongoing cohort study in the Ethiopia Rift Valley with the goal of understanding the health impacts of fluoride in teeth, cartilage, joint, and bone mineralized tissues and associated neurologic complications of fluoride related health problems in children and adults. We are grateful for the funding from the NIEHS’s career development grant (K99/R00 ES023472).

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Contributions

BAA and TR: Design of study concept, conducted the field work, analytical data analysis and interpretation, wrote the manuscript, and contributed immensely on manuscript review. RT and YMY: Design of study concept, field work assistance, critical revision of the manuscript for important intellectual content.

Corresponding author

Correspondence to Biniyam A. Ayele.

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All subjects provided written consent, and parents/guardians gave permission for children to participate in addition to children giving their own assent.

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All authors agreed on the decision to publish this manuscript. Participants consent for publication is not applicable.

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Ayele, B.A., Godebo, T.R., Tekle-Haimanot, R. et al. Neuro-medical manifestations of fluorosis in populations living in the Main Ethiopian Rift Valley. Environ Geochem Health (2021). https://doi.org/10.1007/s10653-021-01016-8

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Keywords

  • Fluoride
  • Drinking water
  • Skeletal fluorosis
  • Neurologic complications
  • Main ethiopian rift valley

*Original abstract online at https://link.springer.com/article/10.1007%2Fs10653-021-01016-8