Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-26T19:42:34.067Z Has data issue: false hasContentIssue false

Nutrient intakes, vitamin–mineral supplementation, and intelligence in British schoolchildren

Published online by Cambridge University Press:  09 March 2007

Michael Nelson
Affiliation:
Department of Food and Nutritional Sciences, King's College London, Campden Hill Road, London W8 7AH
Donald J. Naismith
Affiliation:
Department of Food and Nutritional Sciences, King's College London, Campden Hill Road, London W8 7AH
Victoria Burley
Affiliation:
Department of Food and Nutritional Sciences, King's College London, Campden Hill Road, London W8 7AH
Sue Gatenby
Affiliation:
Department of Food and Nutritional Sciences, King's College London, Campden Hill Road, London W8 7AH
Nicola Geddes
Affiliation:
Department of Food and Nutritional Sciences, King's College London, Campden Hill Road, London W8 7AH
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Children (227), aged 7–12 years, weighed and recorded all food and drink consumed for seven consecutive days. Each child completed tests of verbal and non-verbal intelligence, and was then randomly allocated to one of two groups after matching for age, sex, IQ and height. In a double-blind trial lasting for 28 d, one group received a vitamin-mineral supplement daily and the other group a placebo. On re-testing, there were no significant differences in performance between the two groups. Furthermore, there were no consistent correlations between test scores and micronutrient intakes based on the weighed records. Thus, we found no evidence that learning ability in a cross-section of British schoolchildren was limited by the quality of their diets.

Type
Nutritional Surveys – Nutritional Status
Copyright
Copyright © The Nutrition Society 1990

References

Addy, D. P. (1986). Happiness is: iron. British Medical Journal 292, 969970.CrossRefGoogle ScholarPubMed
Armstrong, P. L. (1989). Iron deficiency in adolescents. British Medical Journal 298, 499.CrossRefGoogle ScholarPubMed
Barrett, D. E. & Frank, D. A. (1987). The Effects of Undernutrition on Children's Behaviour. London: Gordon and Breach.Google Scholar
Benton, D. (1981). The influence of large doses of vitamin C on psychological functioning. Psychopharmacology 75, 9899.CrossRefGoogle ScholarPubMed
Benton, D. (1988 a). Vitamin/mineral supplementation and non-verbal intelligence. Lancet i, 408409.Google Scholar
Benton, D. (1988 b). Vitamins, minerals and IQ. Lancet i, 745.Google Scholar
Benton, D. & Roberts, G. (1988). Effect of vitamin and mineral supplementation on intelligence of a sample of schoolchildren. Lancet i, 140143.CrossRefGoogle Scholar
Bradbury, M. (1979). The Concept of a Blood Brain Barrier. Chichester: John Wiley.Google Scholar
Department of Health and Social Security (1979). Recommended daily amounts of food energy and nutrients for groups of people in the United Kingdom. Report on Health and Social Subjects no. 15. London: H.M. Stationery Office.Google Scholar
Emery, P. W., Nelson, M., Geissler, C. G., Sanders, T. A. B., Judd, P. A., Thomas, J. E. & Naismith, D. J. (1988). Vitamin/mineral supplementation and non-verbal intelligence. Lancet i, 407.CrossRefGoogle Scholar
Harrell, R. F. (1946). Mental response to added thiamine. Journal of Nutrition 31, 283298.CrossRefGoogle ScholarPubMed
Heim, A. W., Watts, K. P. & Simmonds, V. (1975). AH4. Windsor: NFER-Nelson.Google Scholar
Heim, A. W., Watts, K. P. & Simmonds, V. (1977). AH1 X and Y. Windsor: NFER-Nelson.Google Scholar
Kubala, A. L. & Katz, M. M. (1960). Nutritional factors in psychological test behavior. Journal of Genetic Psychology 96, 343352.CrossRefGoogle ScholarPubMed
Nelson, M. & Naismith, D. J. (1979). The nutritional status of poor children in London. Journal of Human Nutrition 33, 3345.Google Scholar
Passmore, R. & Eastwood, M. A. (1986). Davidson and Passmore Human Nutrition and Dietetics. London: Churchill Livingstone.Google Scholar
Paul, A. A. & Southgate, D. A. T. (1978). McCance and Widdowson's The Composition of Foods. 4th ed. London: H.M. Stationery Office.Google Scholar
Pollitt, E., Soemantri, A. G., Yunis, F. & Scrimshaw, N. S. (1985). Cognitive effects of iron-deficiency anaemia. Lancet i, 158.CrossRefGoogle Scholar
Sattler, J. M. (1982). Assessment of Children's Intelligence and Special Abilities, 2nd ed. Boston, Mass: Allyn and Bacon.Google Scholar
SPSS (1988). Statistical Package for the Social Sciences, Release 3.0. Chicago: SPSS.Google Scholar
Tan, S. P., Wenlock, R. W. & Buss, D. H. (1985). Immigrant foods. Second Supplement to McCance and Widdowson's The Composition of Foods. London: H.M. Stationery Office.Google Scholar
Waber, D. P., Vuori-Christiansen, L., Nelson, O., Clement, J. R., Christiansen, N. E., Mora, J. O., Reed, R. B. & Herrera, M. G. (1981). Nutritional supplementation, maternal education, and cognitive development of infants at risk of malnutrition. American Journal of Clinical Nutrition 34, 797803.CrossRefGoogle ScholarPubMed
Walter, T., Kovalskys, J. & Stekel, A. (1983). Effect of mild iron deficiency on infant mental development scores. Journal of Pediatrics 102, 519522.CrossRefGoogle ScholarPubMed
Wechsler, D. (1976). Wechsler Intelligence Scale for Children - Revised. Windsor: NFER-Nelson.Google Scholar
Wenlock, R. W., Disselduff, M. M., Skinner, R. K. & Knight, I. (1986). The Diets of British Schoolchildren. London: Department of Health and Social Security.Google Scholar
Wiles, S. J., Nettleton, P. A., Black, A. E. & Paul, A. A. (1980). The nutrient composition of some cooked dishes eaten in Britain: a supplementary food composition table. Journal of Human Nutrition 34, 189223.Google Scholar