Lead Exposure and Children's Intellectual Performance

doi:10.1093/ije/16.1.57

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Lead Exposure and Children's Intellectual Performance

STUART J POCOCK, DEBORAH ASHBY and MARJORIE A SMITH

Department of Clinical Epidemiology and General Practice, Royal Free Hospital School of Medicine London NW3, UK
Department of Child Psychiatry, Institute of Child Health London WCI, UK

The Institute of Child Health/Southampton study is the largestcross-sectional survey of lead exposure and children's intelligence.402 six year olds in London with tooth lead concentration inthree pre-defined ranges were selected for neuropsychologicaltesting. This paper presents new findings on the relationshipbetween child IQ and tooth lead levels which build on previousfindings1 in four respects: 1) Rather than simply classifyingchildren into high, medium and low lead groups the actual concentrationsof lead in each child's tooth have been used to provide a morepowerful assessment of the association between IQ and body leadburden. 2) The influence of parental and social factors on childIQ is explored in detail in order to see if any residual lead-IQassociation exists after allowance for such confounders. 3)The methods of multiple regression, including an ‘optimal’statistical policy, are more fully described. 4) The possibilityof interactions between lead and confounders is explored. Findingsare that parental IQ is the most important influence on childIQ, though several other factors (eg: family size, social classand quality of marital relationships) were also significantlyrelated. There was no overall evidence that tooth lead concentrationswere related to child IQ once these other factors were takeninto account. However, a significant interaction between toothlead and sex of child indicates that the lead-IQ associationappears much more pronounced in boys. This unexpected findingneeds cautious interpretation and further exploration in otherstudies.

Received 1 February 1986

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research-article

Lead Exposure and Children's Intellectual Performance

				J. C. Kaufman and A. S. Kaufman Time for the Changing of the Guard: A Farewell to Short Forms of Intelligence Tests Journal of Psychoeducational Assessment, September 1, 2001; 19(3): 245 - 267. [Abstract] [PDF]

				I. Trope, D. Lopez-Villegas, K. M. Cecil, and R. E. Lenkinski Exposure to Lead Appears to Selectively Alter Metabolism of Cortical Gray Matter Pediatrics, June 1, 2001; 107(6): 1437 - 1442. [Abstract] [Full Text]

				S. Tong, P. A. Baghurst, M. G. Sawyer, J. Burns, and A. J. McMichael Declining Blood Lead Levels and Changes in Cognitive Function During Childhood: The Port Pirie Cohort Study JAMA, December 9, 1998; 280(22): 1915 - 1919. [Abstract] [Full Text] [PDF]

				D. G Altman and J. N S Matthews Statistics Notes: Interaction 1: heterogeneity of effects BMJ, August 24, 1996; 313(7055): 486 - 486. [Full Text] [PDF]

				R. R. Jones Environmental lead and children's intelligence BMJ, February 11, 1995; 310(6976): 397 - 397. [Full Text]

				D. E. Glotzer, K. A. Freedberg, and H. Bauchner Management of Childhood Lead Poisoning: Clinical Impact and Cost-Effectiveness Med Decis Making, February 1, 1995; 15(1): 13 - 23. [Abstract] [PDF]

				S J Pocock, M Smith, and P Baghurst Environmental lead and children's intelligence: a systematic review of the epidemiological evidence BMJ, November 5, 1994; 309(6963): 1189 - 1197. [Abstract] [Full Text]