Effect of supplemental zinc on the growth and serum zinc concentrations of prepubertal children: a meta-analysis of randomized controlled trials

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Effect of supplemental zinc on the growth and serum zinc concentrations of prepubertal children: a meta-analysis of randomized controlled trials¹^,2^,3

Kenneth H Brown, Janet M Peerson, Juan Rivera and Lindsay H Allen

¹ From the Program in International Nutrition and the Department of Nutrition, University of California, Davis (KHB, JMP, and LHA), and Centro de Nutrición y Salud, Instituto de Salud Pública, Cuernavaca, Morelos, Mexico (JR).

Background: Multiple studies have been carried out to assessthe effect of zinc supplementation on children's growth. Theresults of these studies are inconsistent, and the factors responsiblefor these varied outcomes are unknown.

Objective: Meta-analyses of randomized controlled interventiontrials were therefore completed to assess the effect of zincsupplementation on the physical growth and serum zinc concentrationsof prepubertal children.

Design: A total of 33 acceptable studies with appropriate datawere identified by MEDLINE (National Library of Medicine, Bethesda,MD) searches and other methods. Weighted mean effect sizes (expressedin SD units) were calculated for changes in height, weight,weight-for-height, and serum zinc concentration by using random-effectsmodels; factors associated with effect sizes were explored bymeta-regression techniques.

Results: Zinc supplementation produced highly significant, positiveresponses in height and weight increments, with effect sizesof 0.350 (95% CI: 0.189, 0.511) and 0.309 (0.178, 0.439), respectively.There was no significant effect of zinc on weight-for-heightindexes [weighted mean effect size: –0.018 (–0.132,0.097)]. Zinc supplementation caused a large increase in thechildren's serum zinc concentrations, with an effect size of0.820 (0.499, 1.14). Growth responses were greater in childrenwith low initial weight-for-age z scores and in those aged >6mo with low initial height-for-age z scores.

Conclusions: Interventions to improve children's zinc nutritureshould be considered in populations at risk of zinc deficiency,especially where there are elevated rates of underweight orstunting. The population mean serum zinc concentration is auseful indicator of the successful delivery and absorption ofzinc supplements in children.

Key Words: Zinc • growth • serum zinc • zinc deficiency • nutritional assessment • indicators • children • meta-analysis

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