TY - JOUR
T1 - Redistribution of vitamin A after iron supplementation in Indonesion infants
AU - Wieringa, F.T.
AU - Dijkhuizen, M.A.
AU - West, C.E.
AU - Thurnham, D.I.
AU - Muhilal, null
AU - van der Meer, J.W.M.
PY - 2003
Y1 - 2003
N2 - Background: Deficiencies of iron and vitamin A are prevalent worldwide. Single-micronutrient supplementation is widely used to combat these deficiencies. However, micronutrient deficiencies often occur concurrently, and there are many interactions between micronutrients. Objective: This study investigated interactions among 3 important micronutrients-iron, vitamin A, and zinc-when they are given as supplements. Design: In a randomized, double-blind, placebo-controlled supplementation trial, 387 Indonesian infants aged 4 mo were supplemented 5 d/wk for 6 mo with 10 mg Fe, 10 mg Zn, 2.4 mg beta-carotene, 10 mg each of Fe and Zn, 10 mg Zn + 2.4 mg beta-carotene, or placebo. Complete data on micronutrient status, including hemoglobin, ferritin, retinol, zinc, and the modified relative dose response (a measure of liver retinol stores), were available from 256 infants at the end of the study. Results: Iron-supplemented infants had significantly lower plasma retinol concentrations and a significantly higher prevalence of vitamin A deficiency, as defined by a plasma retinol concentration <0.70 μmol/L, than did the nonsupplemented infants. In contrast, the modified relative dose response of the iron-supplemented infants indicated greater liver stores of vitamin A. Iron supplementation improved iron status, and zinc supplementation improved zinc status, but β-carotene supplementation did not significantly improve vitamin A status. Conclusions: In this study, iron supplementation in infants with marginal vitamin A status led to lower plasma vitamin A concentrations and simultaneously to greater vitamin A liver stores. This implies a redistribution of retinol after iron supplementation, which might induce vitamin A deficiency. Therefore, iron supplementation in infants should be accompanied by measures to improve vitamin A status.
AB - Background: Deficiencies of iron and vitamin A are prevalent worldwide. Single-micronutrient supplementation is widely used to combat these deficiencies. However, micronutrient deficiencies often occur concurrently, and there are many interactions between micronutrients. Objective: This study investigated interactions among 3 important micronutrients-iron, vitamin A, and zinc-when they are given as supplements. Design: In a randomized, double-blind, placebo-controlled supplementation trial, 387 Indonesian infants aged 4 mo were supplemented 5 d/wk for 6 mo with 10 mg Fe, 10 mg Zn, 2.4 mg beta-carotene, 10 mg each of Fe and Zn, 10 mg Zn + 2.4 mg beta-carotene, or placebo. Complete data on micronutrient status, including hemoglobin, ferritin, retinol, zinc, and the modified relative dose response (a measure of liver retinol stores), were available from 256 infants at the end of the study. Results: Iron-supplemented infants had significantly lower plasma retinol concentrations and a significantly higher prevalence of vitamin A deficiency, as defined by a plasma retinol concentration <0.70 μmol/L, than did the nonsupplemented infants. In contrast, the modified relative dose response of the iron-supplemented infants indicated greater liver stores of vitamin A. Iron supplementation improved iron status, and zinc supplementation improved zinc status, but β-carotene supplementation did not significantly improve vitamin A status. Conclusions: In this study, iron supplementation in infants with marginal vitamin A status led to lower plasma vitamin A concentrations and simultaneously to greater vitamin A liver stores. This implies a redistribution of retinol after iron supplementation, which might induce vitamin A deficiency. Therefore, iron supplementation in infants should be accompanied by measures to improve vitamin A status.
KW - a status
KW - zinc supplementation
KW - pregnant-women
KW - children
KW - deficiency
KW - retinol
KW - plasma
KW - liver
KW - rats
U2 - 10.1093/ajcn/77.3.651
DO - 10.1093/ajcn/77.3.651
M3 - Article
SN - 0002-9165
VL - 77
SP - 651
EP - 657
JO - American Journal of Clinical Nutrition
JF - American Journal of Clinical Nutrition
ER -