Hostname: page-component-cd9895bd7-jn8rn Total loading time: 0 Render date: 2024-12-26T16:55:45.410Z Has data issue: false hasContentIssue false
  • English
  • Français

Nutritional deficiencies and later behavioural development

Published online by Cambridge University Press:  28 February 2007

S. M. Grantham-McGregor ,
S. P. Walker  and
S. Chang
S. M. Grantham-McGregor*
Affiliation:
Centre for International Child Health, Institute of Child Health, 30 Guilford St, London WCI IEH, UK
S. P. Walker
Affiliation:
Tropical Metabolism Research Unit, University of the West Indies, Jamaica
S. Chang
Affiliation:
Tropical Metabolism Research Unit, University of the West Indies, Jamaica
*
*Corresponding author: Dr S. M. Grantham-McGregor, fax +44 (0)207 831 0488, email [email protected]
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.

The literature on the long-term effects of nutritional deficiencies in early life is reviewed. The severity and duration of the deficiency, the stage of the children’s development, the biological condition of the children and the socio-cultural context may all modify the effect. There is substantial evidence that reduced breast-feeding, small-for-gestational-age birth weight, Fe and I deficiency, and protein-energy malnutrition (PEM) are associated with long-term deficits in cognition and school achievement. However, all these conditions are associated with poverty and poor health, which may account for the association. It is difficult to establish that the long-term relationship is causal, as it requires a randomized treatment trial with long-term follow-up. Such studies are only available for I deficiency in utero and early childhood PEM. Results from these studies indicate that I deficiency has a long-term effect and PEM probably has a long-term effect.

Keywords

Child developmentNutrient deficiencies
Type
Reproduction and Development Group Symposium on ‘Feeding, nurture and childhood development’
Information
Proceedings of the Nutrition Society , Volume 59 , Issue 1 , February 2000 , pp. 47 - 54
Copyright
Copyright © The Nutrition Society 2000

References

Agarwal, KN, Agarwal, DK & Upadhyay, SK (1995) Impact of chronic undernutrition on higher mental functions in Indian boys aged 10–12 years. Acta Paediatrica 84, 13571361.CrossRefGoogle ScholarPubMed
Cantwell, RJ (1974) The long term neurological sequelae of anemia in infancy. Pediatric Research 342, 68.Google Scholar
Cao, XY, Jiang, X-M, Dou, Z-H, Murdon, AR, Zhang, M-L, O'Donnell, K, Tai, M, Amette, K, DeLong, N & Delong, GR (1994) Timing of vulnerability of the brain to iodine deficiency in endemic cretinism. New England Journal of Medicine 331, 17391744.CrossRefGoogle ScholarPubMed
Chavez, A & Martinez, C (1982) Growing Up In a Developing Community. Guatemala City: Institute of Nutrition in Central America and Panama.Google Scholar
Chavez, A, Martinez, C, Soberanes, B, Dominguez, L & Avila, A (1994) Early Nutrition and Physical and Mental Development in Mexican Rural Adolescent Families. Washington, DC: International Center for Research on Women.Google Scholar
Colombo, M, de la, Parra A & Lopez, I (1992) Intellectual and physical outcome of children undernourished in early life is influenced by later environmental conditions. Developmental Medicine and Child Neurology 34, 611622.CrossRefGoogle ScholarPubMed
Connolly, KJ & Pharoah, POD (1989) Iodine deficiency, maternal thyroxine levels in pregnancy and developmental disorders in the children. In Iodine and the Brain, pp. 317331 [Delong, GR, Robbins, J and Condliffe, PG, editors]. New York: Plenum Press.CrossRefGoogle Scholar
Connolly, KJ, Pharaoh, POD & Hetzel, BS (1979) Fetal iodine deficiency and motor performance during childhood. Lancet ii, 11491151.CrossRefGoogle Scholar
de Andraca, I, Walter, T, Castillo, M, Pino, P, Rivera, P & Cobo, C (1990) Iron deficiency anemia and its effects upon psychological development at preschool age: a longitudinal study. Nestle Foundation Annual Report, pp. 5362.Lausanne: Nestle Foundation.Google Scholar
Drillien, CM (1970) The small-for-date infant: etiology and prognosis. Pediatric Clinics of North America 17, 924.CrossRefGoogle ScholarPubMed
Fergusson, DM, Beautrais, AL & Silva, PA (1982) Breast-feeding and cognitive development in the first seven years of life. Social Science and Medicine 16, 17051708.CrossRefGoogle ScholarPubMed
Fergusson, DM, Horwood, LJ & Shannon, FT (1987) Breastfeeding and subsequent social adjustment in six- to eight-year-old children. Journal of Child Psychology and Psychiatry 28, 379386.CrossRefGoogle ScholarPubMed
Fernald, LC & Grantham, McGregor SM (1998) Stress response in school-age children who have been growth retarded since early childhood. American Journal of Clinical Nutrition 68, 691698.CrossRefGoogle ScholarPubMed
Freeman, HE, Klein, RE, Townsend, JW & Lechtig, A (1980) Nutrition and cognitive development among rural Guatemalan children. American Journal of Public Health 70, 12771285.CrossRefGoogle ScholarPubMed
Gale, CR & Martyn, CN (1996) Breastfeeding, dummy use, and adult intelligence. Lancet 347, 10721075.CrossRefGoogle ScholarPubMed
Galler, JR, Ramsey, F, Solimano, G, Kucharski, LT & Harrison, R (1984) The influence of early malnutrition on subsequent behavioral development. IV. Soft neurologic signs. Pediatric Research 18, 826832.CrossRefGoogle ScholarPubMed
Grantham, McGregor S (1995) A review of studies of the effect of severe malnutrition on mental development. Journal of Nutrition 125, 2233S2238S.CrossRefGoogle Scholar
Grantham-McGregor, SM (1998) Small for gestational age, term babies, in the first six years of life. European Journal of Clinical Nutrition 52, S59S64.Google ScholarPubMed
Grantham-McGregor, SM, Fernald, LC & Sethuraman, K (1999) The effects of health and nutrition on cognitive and behavioural development in children in the first three years of life. Part 1: Low birthweight, breast feeding and protein energy malnutrition. Food and Nutrition Bulletin 20, 5375.CrossRefGoogle Scholar
Grantham, McGregor SM, Lira, PI, Ashworth, A, Morris, SS & Assuncao, AM (1998) The development of low birth weight term infants and the effects of the environment in northeast Brazil. Journal of Pediatrics 132, 661666.CrossRefGoogle Scholar
Grantham, McGregor SM, Powell, CA, Walker, SP & Himes, JH (1991) Nutritional supplementation, psychosocial stimulation, and mental development of stunted children: the Jamaican Study. Lancet 338, 15.CrossRefGoogle Scholar
Grantham, McGregor S, Powell, C, Walker, S, Chang, S & Fletcher, P (1994) The long-term follow-up of severely malnourished children who participated in an intervention program. Child Development 65, 428439.CrossRefGoogle Scholar
Grantham, McGregor SM, Walker, SP, Chang, SM & Powell, CA (1997) Effects of early childhood supplementation with and without stimulation on later development in stunted Jamaican children. American Journal of Clinical Nutrition 66, 247253.CrossRefGoogle Scholar
Greene, LS (1994) A retrospective view of iodine deficiency, brain development and behavior from studies in Ecuador. In The Damaged Brain of Iodine Deficiency, pp. 173186 [Stanbury, JB, editor]. New York: Cognizant Communication.Google Scholar
Hack, M (1998) Effects of intrauterine growth retardation on mental performance and behavior: outcomes during adolescence and adulthood. European Journal of Clinical Nutrition 52, S65S71.Google ScholarPubMed
Hawdon, J, Hey, E, Kolvin, I & Fundudis, T (1990) Born too small – is outcome still affected? Developmental Medicine and Child Neurology 32, 943953.CrossRefGoogle Scholar
Hill, DE (1978) Physical growth and development after intrauterine growth retardation. Journal of Reproductive Medicine 21, 335342.Google ScholarPubMed
Hoefer, C & Hardy, MC (1929) Later development of breast fed and artificially fed infants: comparison of physical and mental growth. Journal of the American Medical Association 92, 615619.CrossRefGoogle Scholar
Horwood, LJ & Fergusson, DM (1998) Breastfeeding and later cognitive and academic outcomes. Pediatrics 101, E9.CrossRefGoogle ScholarPubMed
Husaini, MA, Karyadi, L, Husaini, YK, Sandjaja, , Karyadi, D & Pollitt, E (1991) Developmental effects of short-term supplementary feeding in nutritionally-at-risk Indonesian infants. American Journal of Clinical Nutrition 54, 799804.CrossRefGoogle ScholarPubMed
Illsey, R & Mitchell, RG (1984) Low Birth Weight: A Medical, Psychological and Social Study.Chichester: John Wiley & Sons.Google Scholar
Jacobson, SW & Jacobson, JL (1992) Breastfeeding and intelligence. Lancet 339, 926.CrossRefGoogle Scholar
Joos, SK, Pollitt, E, Mueller, WH & Albright, DL (1983) The Bacon Chow study: maternal nutritional supplementation and infant behavioral development. Child Development 54, 669676.CrossRefGoogle ScholarPubMed
Lagerstrom, M, Bremme, K, Eneroth, P & Magnusson, D (1991) School performance and IQ-test scores at age 13 as related to birth weight and gestational age. Scandinavian Journal of Psychology 32, 316324.CrossRefGoogle ScholarPubMed
Levitsky, DA & Strupp, BJ (1995) Malnutrition and the brain: changing concepts, changing concerns. Journal of Nutrition 125, 2245S2254S.CrossRefGoogle ScholarPubMed
Low, JA, Handley-Derry, MH, Burke, SO, Peters, RD, Pater, EA, Killen, HL & Derrick, EJ (1992) Association of intrauterine fetal growth retardation and learning deficits at age 9 to 11 years. American Journal of Obstetrics and Gynecology 167, 14991505.CrossRefGoogle ScholarPubMed
Lozoff, B (1998) Explanatory mechanisms for poorer development in iron-deficient anemic infants. In Nutrition, Health and Child Development: Research Advances and Policy Recommendations, pp. 162178 [Grantham-McGregor, SM, editor]. Washington, DC: PAHO.Google Scholar
Lozoff, B, Jimenez, E & Wolf, AW (1991) Long-term developmental outcome of infants with iron deficiency. New England Journal of Medicine 325, 687694.CrossRefGoogle ScholarPubMed
Lucas, A, Morley, R, Cole, TJ, Lister, G & Leeson, Payne C (1992) Breast milk and subsequent intelligence quotient in children born preterm. Lancet 339, 261264.CrossRefGoogle ScholarPubMed
McKay, A & McKay, H (1983) Primary school progress after preschool experience: troublesome issues in the conduct of follow up research and findings from the Cali, Columbia, study. In Preventing School Failure: The Relationship Between Preschool and Primary Education, pp. 3641.Ottawa, Ont.: International Development Research Centre.Google Scholar
McKay, H, Sinisterra, L, McKay, A, Gomez, H & Lloreda, P (1978) Improving cognitive ability in chronically deprived children. Science 200, 270278.CrossRefGoogle ScholarPubMed
Malloy, MH & Berendes, H (1998) Does breast-feeding influence intelligence quotients at 9 and 10 years of age? Early Human Development 50, 209217.CrossRefGoogle Scholar
Mervis, CA, Decoufle, P, Murphy, CC & Yeargin-Allsopp, M (1995) Low birthweight and the risk for mental retardation later in childhood. Pediatric Perinatal Epidemiology 9, 455468.CrossRefGoogle ScholarPubMed
Morley, R & Lucas, A (1994) Influence of early diet on outcome in preterm infants. Acta Paediatrica 405, Suppl., 123126.CrossRefGoogle ScholarPubMed
Morris, SS, Grantham-McGregor, SM, Lira, PIC, Assunçâo, AMS & Ashworth, A (1999) Breastfeeding, morbidity, birth weight and infant development. Acta Paediatrica (In the Press).Google Scholar
Niemela, A & Jarvenpaa, AL (1996) Is breastfeeding beneficial and maternal smoking harmful to the cognitive development of children? Acta Paediatrica 85, 12021206.CrossRefGoogle Scholar
Ounsted, M, Moar, VA, Cockburn, J & Redman, CW (1984) Factors associated with the intellectual ability of children born to women with high risk pregnancies. British Medical Journal of Clinical Research and Education 288, 10381041.CrossRefGoogle ScholarPubMed
Palti, H, Meijer, A & Adler, B (1985) Learning achievement and behavior at school of anemic and non-anemic infants. Early Human Development 10, 217223.CrossRefGoogle ScholarPubMed
Palti, H, Pevsner, B & Adler, B (1983) Does anemia in infancy affect achievement on developmental and intelligence tests? Human Biology 55, 183194.Google ScholarPubMed
Paz, I, Gale, R, Laor, A, Danon, YL, Stevenson, DK & Seidman, DS (1995) The cognitive outcome of full-term small for gestational age infants at late adolescence. Obstetrics and Gynecology 85, 452456.Google ScholarPubMed
Perez-Escamilla, R & Pollitt, E (1992) Causes and consequences of intrauterine growth retardation in Latin America. Bulletin of the Pan American Health Organization 26, 128146.Google ScholarPubMed
Pharoah, POD, Buttfield, IH & Hetzel, BS (1971) Neurological damage to the fetus resulting from severe iodine deficiency during pregnancy. Lancet i, 308310.CrossRefGoogle Scholar
Pollitt, E, Gorman, KS, Engle, PL, Martorell, R & Rivera, J (1993) Early supplementary feeding and cognition. Monographs of the Society for Child Development 58.Google ScholarPubMed
Pollitt, E, Watkins, WE & Husaini, MA (1997) Three-month nutritional supplementation in Indonesian infants and toddlers benefits memory function 8 y later. American Journal of Clinical Nutrition 66, 13571363.CrossRefGoogle ScholarPubMed
Pollock, JI (1994) Long-term associations with infant feeding in a clinically advantaged population of babies. Developmental Medicine and Child Neurology 36, 429440.CrossRefGoogle Scholar
Pryor, J, Silva, PA & Brooke, M (1995) Growth, development and behaviour in adolescents born small-for-gestational-age. Journal of Paediatrics and Child Health 31, 403407.CrossRefGoogle ScholarPubMed
Rantakillio, P (1988) The longitudinal study of the Northern Birth cohort of 1966. Paediatric Perinatal Epidemiology 2, 5988.CrossRefGoogle Scholar
Rodgers, B (1978) Feeding in infancy and later ability and attainment: a longitudinal study. Developmental Medicine and Child Neurology 20, 421426.CrossRefGoogle ScholarPubMed
Rogan, WJ & Gladen, BC (1993) Breast-feeding and cognitive development. Early Human Development 31, 181193.CrossRefGoogle ScholarPubMed
Rush, D (1984) The behavioral consequences of protein-energy deprivation and supplementation in early life: an epidemiological perspective. In Human Nutrition. A Comprehensive Treatise, pp. 119154 [Galler, J, editor]. New York and London: Plenum Press.Google Scholar
Simeon, DT & Grantham, McGregor SM (1990) Nutritional deficiencies and children's behaviour and mental development. Nutrition Research Reviews 3, 124.CrossRefGoogle ScholarPubMed
Taylor, B & Wadsworth, J (1984) Breast feeding and child development at five years. Developmental Medicine and Child Neurology 26, 7380.CrossRefGoogle ScholarPubMed
Uauy, R, Birch, E, Birch, D & Peirano, P (1992) Visual and brain function measurements in studies of n-3 fatty acid requirements of infants. Journal of Pediatrics 120, S168S180.CrossRefGoogle ScholarPubMed
Waber, DP, Vuori-Christiansen, L, Ortiz, N, Clement, JR, Christiansen, NE, Mora, JO, Reed, RB & Herrera, MG (1981) Nutritional supplementation, maternal education, and cognitive development of infants at risk of malnutrition. American Journal of Clinical Nutrition 34, 807813.CrossRefGoogle ScholarPubMed
Walter, T, de Andraca, I, Chadud, P & Perales, CG (1989) Iron deficiency anemia: adverse effects on infant psychomotor development. Pediatrics 84, 717.CrossRefGoogle ScholarPubMed
Westwood, M, Kramer, MS, Munz, D, Lovett, JM & Watters, GV (1983) Growth and development of full-term nonasphyxiated small-for-gestational-age newborns: Follow-up through adolescence. Pediatrics 71, 376382.CrossRefGoogle ScholarPubMed
Winick, M, Meyer, KK & Harris, RC (1975) Malnutrition and environmental enrichment by early adoption. Science 190, 11731175.CrossRefGoogle ScholarPubMed