Leland V Miller1, K Michael Hambidge2, Nancy F Krebs2. 1. Section of Nutrition, Department of Pediatrics, University of Colorado Denver School of Medicine, Aurora, CO leland.miller@ucdenver.edu. 2. Section of Nutrition, Department of Pediatrics, University of Colorado Denver School of Medicine, Aurora, CO.
Abstract
BACKGROUND: It is widely understood that the 2 primary factors affecting dietary zinc absorption in adults are the quantities of zinc and phytate in the diet. Although a similar association of absorption to dietary zinc and phytate is presumed to exist in children, to our knowledge, no large-scale examination of the relation of zinc absorption to dietary and growth factors has been conducted. OBJECTIVE: The goal was to apply an adult absorption model and related models to data from zinc absorption studies of infants and children in order to determine the nature of the relation of zinc absorption to dietary zinc and phytate, age, body size, and zinc homeostatic variables. METHODS: Data from 236 children between 8 and 50 mo of age were obtained from stable-isotope studies of zinc absorption. Statistical and mechanistic models were fit to the data using linear and nonlinear regression analysis. RESULTS: The effect of dietary phytate on zinc absorption when controlling for dietary zinc was very small and not statistically discernable (P = 0.29). A 500-mg/d increase in dietary phytate reduced absorbed zinc by <0.04 mg/d. Absorption was observed to vary with age, weight, and height (P < 0.0001) when controlling for dietary zinc. For example, absorption from 6 mg/d of dietary zinc increased by as much as 0.2 mg/d with a 12-mo increase in age. Absorption varied with weight and exchangeable zinc pool size (0.01 < P < 0.05) when controlling for dietary zinc and age. CONCLUSIONS: The absence of a detectable phytate effect on zinc absorption raises caution about use of dietary phytate:zinc molar ratios to predict zinc bioavailability and does not support phytate reduction as a strategy to improve zinc status of young children. The effect of age on zinc absorption and the absence of a phytate effect should facilitate estimations of dietary zinc needs in young children.
BACKGROUND: It is widely understood that the 2 primary factors affecting dietary zinc absorption in adults are the quantities of zinc and phytate in the diet. Although a similar association of absorption to dietary zinc and phytate is presumed to exist in children, to our knowledge, no large-scale examination of the relation of zinc absorption to dietary and growth factors has been conducted. OBJECTIVE: The goal was to apply an adult absorption model and related models to data from zinc absorption studies of infants and children in order to determine the nature of the relation of zinc absorption to dietary zinc and phytate, age, body size, and zinc homeostatic variables. METHODS: Data from 236 children between 8 and 50 mo of age were obtained from stable-isotope studies of zinc absorption. Statistical and mechanistic models were fit to the data using linear and nonlinear regression analysis. RESULTS: The effect of dietary phytate on zinc absorption when controlling for dietary zinc was very small and not statistically discernable (P = 0.29). A 500-mg/d increase in dietary phytate reduced absorbed zinc by <0.04 mg/d. Absorption was observed to vary with age, weight, and height (P < 0.0001) when controlling for dietary zinc. For example, absorption from 6 mg/d of dietary zinc increased by as much as 0.2 mg/d with a 12-mo increase in age. Absorption varied with weight and exchangeable zinc pool size (0.01 < P < 0.05) when controlling for dietary zinc and age. CONCLUSIONS: The absence of a detectable phytate effect on zinc absorption raises caution about use of dietary phytate:zinc molar ratios to predict zinc bioavailability and does not support phytate reduction as a strategy to improve zinc status of young children. The effect of age on zinc absorption and the absence of a phytate effect should facilitate estimations of dietary zinc needs in young children.
Authors: Mark J Manary; Christine Hotz; Nancy F Krebs; Rosalind S Gibson; Jamie E Westcott; Robin L Broadhead; K Michael Hambidge Journal: Am J Clin Nutr Date: 2002-06 Impact factor: 7.045
Authors: Ross N Butler; Margaret Kosek; Nancy F Krebs; Cornelia U Loechl; Alexander Loy; Victor O Owino; Michael B Zimmermann; Douglas J Morrison Journal: J Pediatr Gastroenterol Nutr Date: 2017-01 Impact factor: 2.839
Authors: Roelinda Jongstra; Md Mokbul Hossain; Valeria Galetti; Andrew G Hall; Roberta R Holt; Colin I Cercamondi; Sabina F Rashid; Michael B Zimmermann; Malay K Mridha; Rita Wegmueller Journal: Am J Clin Nutr Date: 2022-03-04 Impact factor: 7.045
Authors: M Brnić; R F Hurrell; L T Songré-Ouattara; B Diawara; A Kalmogho-Zan; C Tapsoba; C Zeder; R Wegmüller Journal: Eur J Clin Nutr Date: 2016-10-19 Impact factor: 4.016
Authors: Sonja Y Hess; Alexander C McLain; Edward A Frongillo; Ashkan Afshin; Nicholas J Kassebaum; Saskia J M Osendarp; Reed Atkin; Rahul Rawat; Kenneth H Brown Journal: Curr Dev Nutr Date: 2021-11-18