Hostname: page-component-cd9895bd7-dk4vv Total loading time: 0 Render date: 2024-12-23T08:23:49.206Z Has data issue: false hasContentIssue false

Geochemical Risk Factors for Mental Functioning, Based on the Ontario Longitudinal Study of Aging (LSA) VI. The Effects of Iron on the Associations of Aluminum and Fluoride Water Concentrations and of pH with Mental Functioning, Based on Results Obtained from the LSA and from Death Certificates Mentioning Dementia

Published online by Cambridge University Press:  29 November 2010

W.F. Forbes
Affiliation:
University of Waterloo and Statistics Canada
J.F. Gentleman
Affiliation:
University of Waterloo and Statistics Canada
N. Agwani
Affiliation:
University of Waterloo and Statistics Canada
S. Lessard
Affiliation:
University of Waterloo and Statistics Canada
C.A. McAiney
Affiliation:
University of Waterloo and Statistics Canada

Abstract

Previous papers in this series noted a positive association between aluminum water concentrations and a measure of mental impairment, and a negative association between fluoride concentrations and the same measure of mental impairment. The results obtained were qualitatively similar to the corresponding associations obtained from death certificate data that list Alzheimer's disease as the underlying cause of death. In addition, the results were also qualitatively similar to the results obtained in a number of other studies carried out at different times, in different areas and using different outcome measures for the measure of mental impairment. The present study concerns the role of iron concentrations and specifically, whether when taking iron concentrations into account, the previously noted associations involving aluminum are maintained. The results show that this seems to be the case and also suggest that iron can compete with aluminum, and can both increase or decrease the likelihood of showing signs of mental impairment. The results do not indicate consistently that by modifying the methods of water purification, using iron instead of aluminum, the treated water will be less biotoxic, although there could be instances, particularly when the aluminum concentrations are relatively high, when the use of iron compounds is beneficial.

Résumé

Des articles précédents dans la même série ont établi un lien positif entre les concentrations d'aluminium dans l'eau et une mesure de la déficience intellectuelle, ainsi qu'une association négative entre les concentrations de fluorure et la même mesure de la déficience intellectuelle. Les résultats obtenus étaient similaires, qualitativement, aux associations correspondantes établies à partir des données des certificats de décés sur lesquels la maladie d'Alzheimer figurait comme cause antécédente du décés. Les résultats étaient également similaires, du point de vue qualitatif, à ceux obtenus dans le cadre d'un certain nombre d'autres études réalisées à des périodes différentes, des endroits différents et un utilisant différents indicateurs de résultat comme mesure de la déficience intellectuelle. La présente étude examine le rôle de la concentration de fer et, plus précisément, tente de déterminer si les associations mentionnées précédement en regard de l'aluminium persistent lorsqu'on tient compte des concentrations de fer. Les résultats montrent qu'il semble en être ainsi et ils laissent croire également que le fer peut faire concurrence avec l'aluminium et qu'ils peuvent tous deux augmenter ou réduire la vraisemblance de présenter des signes de déficience intellectuelle. Les résultats ne montrent pas, de façon systématique, que léeau traitée sera moins biotoxique si les méthodes de purification étaient modifiées de manière a utiliser du fer plutôt que de l'aluminium; il pourrait toute fois y avoir des cas, en particulier lorsque les concentrations en aluminium sont relativement élevées, où l'utilisation de composés de fer est bénéfique.

Type
Articles
Copyright
Copyright © Canadian Association on Gerontology 1997

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Amirtharajah, A., & O'Melia, C.R. (1990). Coagulation processes: Destabilization, mixing and flocculation. In Pontius, F.W. (Technical Ed.), Water Quality and Treatment. A Handbook of Community Water Supplies (4th ed.). American Water Works Association, Toronto: McGraw-Hill, Inc.Google Scholar
Birchall, J.D. (1991). The role of silicon in aluminium toxicity.In Alzheimer's Disease and the Environment.Proceeding of an extended panel discussion held in Londonon 13–14 June 1991 (pp. 7077). Oxford: Alden Press.Google Scholar
Birchall, J.D. (1992). The interrelationship between silicon and aluminium in the biological effects of aluminium. Aluminium in biology and medicine. In Ciba Foundation Symposium 169 (pp. 5068).Chichester: Wiley.Google Scholar
Dentel, S.K., & Gossett, J.M. (1988). Mechanisms of coagulation with aluminum salts. Journal of American Water Works Association, 80(4), 187198.CrossRefGoogle Scholar
Doe, P.W. (1990). Water treatment plant waste management. In Pontius, F.W. (Technical Ed.), Water Quality and Treatment. A Handbook of Community Water Supplies (4th ed.). American Water Works Association. Toronto: McGraw-Hill, Inc.Google Scholar
Driscoll, C.T., & Schecher, W.D. (1990). The chemistry of aluminum in the environment. Environmental Geochemistry and Health, 12(1/2), 2849.CrossRefGoogle ScholarPubMed
Exley, C., Chappell, J.S., & Birchall, J.D. (1991). A mechanism for acute aluminium toxicity in fish. Journal of Theoretical Biology, 151, 417428.CrossRefGoogle ScholarPubMed
Farrar, G., Altman, P., Welch, S., Wychrij, O., Ghose, B., Lejeune, J., Corbett, J. Prasher, V., & Blair, J.A. (1990). Defective gallium-transferrin binding in Alz-heimer disease and Down syndrome: possible mechanism for accumulation of aluminium in brain. Lancet, 335, 747750.CrossRefGoogle Scholar
Flaten, T.P. (1990). Geographical associations between aluminium in drinking water and death rates with dementia (including Alzheimer's disease), Parkinson's disease and amyotrophic lateral sclerosis in Norway. Environmental Geochemistry and Health, 12(1/2), 152167.CrossRefGoogle ScholarPubMed
Flaten, T.P. & Garruto, R.M. (1992). Polynuclear ions in aluminum toxicity. Journal of Theoretical Biology, 156,129132.CrossRefGoogle ScholarPubMed
Forbes, W.F., & Agwani, N. (1994). Geochemical risk factors for mental functioning, based on the Ontario Longitudinal Study of Aging (LSA) III. The effects of different aluminum-containing compounds. Canadian Journal on Aging, 13(4), 488498.CrossRefGoogle Scholar
Forbes, W.F., Agwani, N., & Lachmaniuk, P. (1995). Geochemical risk factors for mental functioning, based on the Ontario Longitudinal Study of Aging (LSA) IV. The role of silicon-containing compounds. Canadian Journal on Aging, 14(4), 30641.Google Scholar
Forbes, W.F., Hayward, L.M., & Agwani, N. (1992). Geochemical risk factors for mental functioning, based on the Ontario Longitudinal Study of Aging (LSA) I. Results from a preliminary investigation. Canadian Journal on Aging, 11(3), 269280.CrossRefGoogle Scholar
Forbes, W.F., Lessard, S., & Gentleman, J.F. (1995). Geochemical risk factors for mental functioning, based on the Ontario Longitudinal Study of Aging (LSA) V. Comparisons of the results, relevant to aluminum water concentrations, obtained from the LSA and from death certificates mentioning dementia. Canadian Journal on Aging, 14(4), 642656.CrossRefGoogle Scholar
Forbes, W.F., McAiney, C.A., Hayward, L.M., & Agwani, N. (1994). Geochemical risk factors for mental functioning, based on the Ontario Longitudinal Study of Aging (LSA) II. The role of pH. Canadian Journal on Aging, 13(2), 249267.CrossRefGoogle Scholar
Lachmaniuk, P. (1992). Ontario's Drinking Water Surveillance Program.Symposium at the Canadian Association on Gerontology, 21st Annual Meeting,Edmonton, Alberta,October 22–25, Abstract No. 11.Google Scholar
Martin, R.B. (1986). Citrate binding of Al3+ and Fe3+. Journal of Inorganic Biochemistry, 28,181187.CrossRefGoogle ScholarPubMed
Martyn, C.N., Osmond, C., Edwardson, J.A., Barker, D.J.P, Harris, E.C., & Lacey, R.F. (1989). Geographical relation between Alzheimer's disease and aluminium in drinking water. Lancet, 5962, January 14.Google Scholar
Maxwell, C.J. (1995). An Examination of environmental, socioeconomic and behavioural risk factors for Alzheimer's Disease and impaired mental functioning among elderly persons in Ontario. Ph.D. thesis. University of Waterloo.Google Scholar
McLachlan, D.R. C. (1995). Aluminum and the Risk for Alzheimer's Disease. Environmetrics, 6(3), 233275.CrossRefGoogle Scholar
Neri, L.C., & Hewitt, D. (1991). Aluminum, Alzheimer's disease and drinking water. Lancet, 338–390.Google Scholar
Riehl, M.L. (1970). Water Supply and Treatment (10th ed.). Washington, DC: National Lime Association.Google Scholar
Riley, J.C.M, & Carlson, J.C. (1995). Aluminum – Alzheimer's Smoking Gun? Editorial. Canadian Journal on Aging, 14(4), 613621.CrossRefGoogle Scholar