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Effects of diet on behaviour and cognition in children

Published online by Cambridge University Press:  09 March 2007

France Bellisle
France Bellisle*
Affiliation:
Hôtel-Dieu, 1 Place du Parvis Notre-Dame, 75181, Paris, France
*
Corresponding author:ILSI Europe, 83 Avenue E, Mounier, Box 6, B-1200 Brussels, fax +32 2 762 00 44, email [email protected]
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Abstract

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Diet can affect cognitive ability and behaviour in children and adolescents. Nutrient composition and meal pattern can exert immediate or long-term, beneficial or adverse effects. Beneficial effects mainly result from the correction of poor nutritional status. For example, thiamin treatment reverses aggressiveness in thiamin-deficient adolescents. Deleterious behavioural effects have been suggested; for example, sucrose and additives were once suspected to induce hyperactivity, but these effects have not been confirmed by rigorous investigations. In spite of potent biological mechanisms that protect brain activity from disruption, some cognitive functions appear sensitive to short-term variations of fuel (glucose) availability in certain brain areas. A glucose load, for example, acutely facilitates mental performance, particularly on demanding, long-duration tasks. The mechanism of this often described effect is not entirely clear. One aspect of diet that has elicited much research in young people is the intake/omission of breakfast. This has obvious relevance to school performance. While effects are inconsistent in well-nourished children, breakfast omission deteriorates mental performance in malnourished children. Even intelligence scores can be improved by micronutrient supplementation in children and adolescents with very poor dietary status. Overall, the literature suggests that good regular dietary habits are the best way to ensure optimal mental and behavioural performance at all times. Then, it remains controversial whether additional benefit can be gained from acute dietary manipulations. In contrast, children and adolescents with poor nutritional status are exposed to alterations of mental and/or behavioural functions that can be corrected, to a certain extent, by dietary measures.

Keywords

NutritionCognitionGlucoseBreakfastMicronutrients
Type
Research Article
Information
British Journal of Nutrition , Volume 92 , Issue S2 , October 2004 , pp. S227 - S232
Copyright
Copyright © The Nutrition Society 2004

References

American Psychiatric Association (1994) Diagnostic and Statistical Manual of Mental Disorders, 4th ed Washington, DC: American Psychiatric Association.Google Scholar
Behar, D, Rapaport, JL, Adams, AA, Berg, CK & Cornblath, M (1984) Sugar challenge testing with children considered behaviourally ‘sugar active’. Nutr Behav 1, 277288.Google Scholar
Benton, D (2001) Micro-nutrient supplementation and the intelligence of children. Neurosci Biobehav Rev 25, 297309.CrossRefGoogle ScholarPubMed
Benton, D & Buts, JP (1990) Vitamins/mineral supplementation and intelligence. Lancet 335, 11581160.CrossRefGoogle Scholar
Benton, D & Owens, DS (1993) Blood glucose and human memory. Psychopharmacology 113, 8388.CrossRefGoogle ScholarPubMed
Benton, D & Roberts, G (1988) Effect of vitamin and mineral supplementation on intelligence in a sample of schoolchildren. Lancet 1, 140143.CrossRefGoogle Scholar
Benton, D, Brett, V & Brain, PF (1987) Glucose improves attention and reaction to frustration in children. Biol Psychol 24, 95100.CrossRefGoogle ScholarPubMed
Benton, D, Griffiths, S & Haller, J (1997) Thiamin supplementation, mood and cognitive functioning. Psychopharmacology 129, 6671.CrossRefGoogle ScholarPubMed
Benton, D, Ruffin, MP, Lassel, T, Nabb, S, Messaoudi, M, Vinoy, S, Desor, D & Lang, V (2003) The delivery rate of dietary carbohydrates affects cognitive performance in both rats and humans. Psychopharmacology 166, 8690.CrossRefGoogle ScholarPubMed
Chandler, AMK, Walker, SP, Connolly, K, Grantham-McGregor, SM (1995) School breakfast improves verbal fluency in under-nourished Jamaican children. J Nutr 125, 894900.Google Scholar
Colgan, M & Colgan, L (1984) Do nutrient supplements and dietary changes affect learning and emotional reactions of children with learning difficulties? A controlled series of 15 cases. Nutr Health 3, 6977.CrossRefGoogle ScholarPubMed
Connors, CK & Blouin, AG (1983) Nutritional effects on behaviour of children. J Psychiatr Res 17, 198201.Google Scholar
Craft, S, Zallen, G & Baker, LD (1992) Glucose and memory in mild senile dementia of the Alzheimer type. J Clin Exp Neuropsychol 14, 253267.CrossRefGoogle ScholarPubMed
Craft, S, Murphy, S & Wenstrom, J (1994) Glucose effects on complex memory and non-memory tasks: the influence of age, sex, and glucoregulatory response. Psychobiology 22, 95105.CrossRefGoogle Scholar
Craft, S, Newcomer, J, Kanne, S, Dagogo-Jack, S, Cryer, P, Sheline, Y, Luby, L, Dagogo-Jack, A & Alderson, A (1996) Memory improvement following induced hyperinsulinemia in Alzheimer's disease. Neurobiol Aging 17, 123136.CrossRefGoogle ScholarPubMed
Crombie, IK, Todman, J, McNeill, G, Florey, C, Menzies, IT & Kennedy, RA (1990) Effect of vitamin and mineral supplementation on verbal and non-verbal reasoning of schoolchildren. Lancet 311, 744747.CrossRefGoogle Scholar
Crook, WG (1974) An alternative method of managing the hyperactive child. Paediatrics 5, 4656.Google Scholar
Deheeger, M, Rolland-Cachera, MF & Fontvieille, AM (1997) Physical activity and body composition in 10 year old French children: linkages with nutritional intake?. Int J Obes Relat Metab Disord 21, 372379.CrossRefGoogle ScholarPubMed
Dickie, NH & Bender, AE (1982) Breakfast and performance in schoolchildren. Br J Nutr 48, 483496.CrossRefGoogle Scholar
Donohoe, RT & Benton, D (1999) Cognitive functioning is susceptible to the level of blood glucose. Psychopharmacology 145, 378385.CrossRefGoogle Scholar
Eysenck, HJ & Schoenthaler, S (1997) Raising IQ level by vitamin and mineral supplementation. In Intelligence, Heredity and Environment, 363392 [Sternberg, RJ, Grigorenko, EL, editors]. Cambridge: Cambridge University Press.Google Scholar
Feingold, FB (1977) Behavioral disturbances linked to the ingestion of food additives. Del Med J 49, 8994.Google Scholar
Ferguson, HB, Stoddart, C & Simeon, PG (1986) Double blind challenge studies of behavioural and cognitive effects of sucrose–aspartame ingestion in normal children. Nutr Rev 44 Suppl., 144150.CrossRefGoogle ScholarPubMed
Foster, JK, Lidder, PG, Sünram, SI (1998) Glucose and memory: fractionation of enhancement effects. Psychopharmacology 137, 259270.CrossRefGoogle ScholarPubMed
Gibson, EL & Green, MW (2002) Nutritional influences on cognitive function: mechanisms of susceptibility. Nutr Res Rev 15, 169206.CrossRefGoogle Scholar
Hoyer, S (1997) Models of Alzheimer's disease: cellular and molecular aspects. J Neural Transm 49, Suppl.1121.Google ScholarPubMed
Kanarek, R (1997) Psychological effects of snacks and altered meal frequency. Br J Nutr 77, Suppl. 1. S105S120.CrossRefGoogle ScholarPubMed
Kanarek, RB & Swinney, D (1990) Effects of food snacks on cognitive performance in male college students. Appetite 14, 1527.CrossRefGoogle ScholarPubMed
Kennedey, DO & Scholey, AB (2000) Glucose administration, heart rate and cognitive performance: effects of increasing mental effort. Psychopharmacology 149, 6371.CrossRefGoogle Scholar
Logue, AW (1991) The Psychology of Eating and Drinking. An Introduction 2nd ed New York, NY WH Freeman.Google Scholar
Mahan, LK, Chase, M, Furukawa, CT, Sulzacher, S, Shapiroo, GG, Pierson, W & Bierman, CW (1988) Sugar ‘allergy’ and children's behaviour. Ann Allergy 61, 453458.Google Scholar
Manning, CA, Honn, VS, Stone, WS, Jane, JS & Gold, PE (1998) Effects of glucose ingestion on cognition in adults with Down's syndrome. Neuropsychology 12, 479484.CrossRefGoogle Scholar
Messier, C & Gagnon, M (1996) Glucose regulation and cognitive functions: relation to Alzheimer's disease and diabetes. Behav Brain Res 75, 111.CrossRefGoogle Scholar
Michaud, C, Musse, N, Nicolas, JP, Méjean, L (1991) Effects of breakfast size on short-term memory, concentration, mood and blood glucose. J Adolesc Health 12, 5357.CrossRefGoogle ScholarPubMed
Nelson, M (1992) Vitamin and mineral supplementation and academic performance in schoolchildren. Proc Nutr Soc 51, 303313.CrossRefGoogle ScholarPubMed
Nelson, M, Naismith, DJ, Burley, V, Gatenby, SJ & Geddes, N (1990) Nutrient intakes, vitamin–mineral supplementation and intelligence in British schoolchildren. Br J Nutr 64, 1322.CrossRefGoogle ScholarPubMed
Pollitt, E (1998) Breakfast, Cognition, and School Learning. Proceedings of a symposium held in Napa, California. August 28–30, 1995. Am J Clin Nutr 67, Suppl..Google Scholar
Pollitt, E, Leibel, RL & Greenfield, D (1981) Brief fasting, stress and cognition in children. Am J Clin Nutr 34, 15261533.CrossRefGoogle ScholarPubMed
Pollitt, E, Lewis, NL, Garza, C & Shulman, RJ (1983) Fasting and cognitive function. J Psychiatr Res 17, 169174.CrossRefGoogle Scholar
Prinz, RJ & Riddle, DB (1986) Association between nutrition and behaviour. Nutr Rev 44, Suppl., 151158.CrossRefGoogle Scholar
Prinz, RJ, Roberts, WA & Hantman, E (1980) Dietary correlates of hyperactive behaviour in children. J Consult Clin Psychol 47, 760769.CrossRefGoogle Scholar
Rapp, DJ (1978) Does diet affect hyperactivity?. J Learn Disabil 11, 383389.CrossRefGoogle ScholarPubMed
Rodriguez, WA, Horne, CA & Padilla, JL (1999) Effects of glucose and fructose on recently reactivated and recently acquired memories. Prog Neuropsychopharmacol Biol Psychiatry 23, 12851317.CrossRefGoogle ScholarPubMed
Rosen, LA, Booth, SR, Bender, ME, McGrath, ML, Sorrel, S & Drabman, R (1988) Effects of sugar (sucrose) on children's behaviour. J Consult Clin Psychol 56, 583589.CrossRefGoogle Scholar
Roshon, MS & Hagen, RL (1989) Sugar consumption, locomotion, task orientation, and learning in preschool children. J Abnorm Child Psychol 17, 349357.CrossRefGoogle ScholarPubMed
Saravis, S, Schachar, R, Zlotkin, S, Leiber, LA & Anderson, GH (1990) Aspartame: effects on learning, behaviour and mood. Paediatrics 86, 7580.CrossRefGoogle Scholar
Schoenthaler, SJ & Bier, ID (1999) Vitamin–mineral intake and intelligence: a macrolevel analysis of randomized controlled trials. J Altern Complement Med 5, 125134.CrossRefGoogle ScholarPubMed
Schoenthaler, SJ, Amos, SP, Doraz, WF, Kelly, MA & Wakefield, J (1991) Controlled trial of vitamin–mineral supplementation on intelligence and brain function. Pers Individ Dif 12, 343350.CrossRefGoogle Scholar
Schoenthaler, SJ, Bier, ID, Young, K, Nichols, D & Jansenns, S (2000) The effect of vitamin–mineral supplementation on the intelligence of American schoolchildren: a randomized, double blind placebo-controlled trial. J Altern Complement Med 6, 3135.Google ScholarPubMed
Simeon, T, Grantham-McGregor, S (1989) Effects of missing breakfast on the cognitive functions of school children with differing nutritional status. Am J Clin Nutr 49, 646653.CrossRefGoogle ScholarPubMed
Swanson, JM & Kinsbourne, M (1980) Food dyes impair performance of hyperactive children on a laboratory learning test. Science 207, 14851487.CrossRefGoogle ScholarPubMed
Weiss, B, Williams, JH & Margen, S (1980) Behavioral responses to artificial food colors. Science 207, 14871489.CrossRefGoogle ScholarPubMed
Wender, EH & Solanto, MV (1991) Effects of sugar on aggressive and inattentive behaviour in children with attention deficit disorder upon identification of targets in a non-search task. Percept Psychophysiol 16, 143149.Google Scholar
Wilens, T, Pelham, W & Stein, M (2003) ADHD treatment with once-daily OROS methylphenidate: interim 12-month results from a long-term open-label study. J Am Acad Child Adolesc Psychiatry 42, 424433.CrossRefGoogle ScholarPubMed
Wolraich, M, Milich, R, Stumbo, P & Schultz, F (1985) Effects of sucrose ingestion on the behaviour of hyperactive boys. J Pediatr 106, 675682.CrossRefGoogle ScholarPubMed
Wolraich, M, Stumbo, P, Milich, R, Chenard, C & Schultz, F (1986) Dietary characteristics of hyperactive and control boys and their behavioural correlates. J Am Diet Assoc 84, 500504.CrossRefGoogle Scholar
Wolraich, ML, Greenhill, LL & Pelham, W (2001) Randomized, controlled trial of oros methylphenidate once a day in children with attention-deficit/hyperactivity disorders. Pediatrics 108, 883892.CrossRefGoogle Scholar
Wyon, DP, Abrahamsson, L, Järtelius, M & Fletcher, RJ (1997) An experimental study of the effects of energy intake at breakfast on the test performance of 10-year-old children in school. Int J Food Sci Nutr 48, 512.CrossRefGoogle ScholarPubMed