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BACKGROUND: Limited data exist on human zinc absorption from wheat biofortified via foliar (FBW) or root (hydroponically fortified wheat, HBW) zinc application. Stable isotope labels added at point of consumption (extrinsic labeling) might not reflect absorption from native zinc obtained by intrinsic labeling. OBJECTIVES: We measured fractional and total zinc absorption (FAZ, TAZ) in FBW and HBW wheat, compared with control wheat (CW) and fortified wheat (FW). The effect of labeling method was assessed in HBW (study 1), and the effect of milling extraction rate (EXR, 80% and 100%) in FBW (studies 2 and 3). METHODS: Generally healthy adults (n = 71, age: 18-45 y, body mass index: 18.5-25 kg/m2) were allocated to 1 of the studies, in which they served as their own controls. In study 1, men and women consumed wheat porridges colabeled intrinsically and extrinsically with 67Zn and 70Zn. In studies 2 and 3, women consumed wheat flatbreads (chapatis) labeled extrinsically. Zinc absorption was measured with the oral to intravenous tracer ratio method with a 4-wk wash-out period between meals. Data were analyzed with linear mixed models. RESULTS: In study 1 there were no differences in zinc absorption from extrinsic versus intrinsic labels in either FW or HBW. Similarly, FAZ and TAZ from FW and HBW did not differ. TAZ was 70-76% higher in FW and HBW compared with CW (P 

Original publication

DOI

10.1093/jn/nxy328

Type

Journal article

Journal

J Nutr

Publication Date

01/05/2019

Volume

149

Pages

840 - 846

Keywords

biofortification, extrinsic tag, foliar zinc, fortification, intrinsic tag, stable isotope technique, wheat, zinc, zinc deficiency, Adolescent, Adult, Biofortification, Biological Availability, Bread, Edible Grain, Female, Flour, Food, Fortified, Humans, Hydroponics, Intestinal Absorption, Male, Middle Aged, Triticum, Young Adult, Zinc, Zinc Isotopes