BACKGROUND: In-home fortification of complementary foods with micronutrient powders containing low amounts of iron may be potentially safer than powders containing high amounts of iron. However, low iron doses have little nutritional effect, unless iron absorption is high. OBJECTIVE: The objective was to maximize iron absorption from a low-iron micronutrient powder for in-home fortification by testing combinations of iron as NaFeEDTA, ascorbic acid, and a microbial phytase active at gut pH. In addition, a recently proposed enhancer of iron absorption, L-alpha-glycerophosphocholine (GPC), was tested. DESIGN: In 6 separate iron-absorption studies using a crossover design, women (n = 101) consumed whole-maize porridge fortified with 3 mg stable isotope-labeled FeSO4 or NaFeEDTA with different combinations of enhancers added to the meals at the time of consumption. Incorporation of iron isotopes into erythrocytes 14 d later was measured. RESULTS: The addition of phytase when iron was present as either NaFeEDTA or FeSO4, with or without ascorbic acid, significantly increased iron absorption. The combined addition of phytase, ascorbic acid, and NaFeEDTA resulted in an absorption of 7.4%, compared with an absorption of 1.5% from FeSO4 without enhancers in the same meal (P < 0.001). The addition of ascorbic acid did not significantly increase iron absorption from NaFeEDTA, and the addition of calcium did not significantly inhibit iron absorption from NaFeEDTA in the presence of ascorbic acid. The addition of L-alpha-glycerophosphocholine did not significantly increase iron absorption. CONCLUSION: Optimization of the micronutrient powder increased iron absorption from a highly inhibitory meal approximately 5-fold. This approach may allow for effective, untargeted in-home fortification of complementary foods with low amounts of highly bioavailable iron.
RCT Entities:
BACKGROUND: In-home fortification of complementary foods with micronutrient powders containing low amounts of iron may be potentially safer than powders containing high amounts of iron. However, low iron doses have little nutritional effect, unless iron absorption is high. OBJECTIVE: The objective was to maximize iron absorption from a low-iron micronutrient powder for in-home fortification by testing combinations of iron as NaFeEDTA, ascorbic acid, and a microbial phytase active at gut pH. In addition, a recently proposed enhancer of iron absorption, L-alpha-glycerophosphocholine (GPC), was tested. DESIGN: In 6 separate iron-absorption studies using a crossover design, women (n = 101) consumed whole-maize porridge fortified with 3 mg stable isotope-labeled FeSO4 or NaFeEDTA with different combinations of enhancers added to the meals at the time of consumption. Incorporation of iron isotopes into erythrocytes 14 d later was measured. RESULTS: The addition of phytase when iron was present as either NaFeEDTA or FeSO4, with or without ascorbic acid, significantly increased iron absorption. The combined addition of phytase, ascorbic acid, and NaFeEDTA resulted in an absorption of 7.4%, compared with an absorption of 1.5% from FeSO4 without enhancers in the same meal (P < 0.001). The addition of ascorbic acid did not significantly increase iron absorption from NaFeEDTA, and the addition of calcium did not significantly inhibit iron absorption from NaFeEDTA in the presence of ascorbic acid. The addition of L-alpha-glycerophosphocholine did not significantly increase iron absorption. CONCLUSION: Optimization of the micronutrient powder increased iron absorption from a highly inhibitory meal approximately 5-fold. This approach may allow for effective, untargeted in-home fortification of complementary foods with low amounts of highly bioavailable iron.
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: Sean Lynch; Christine M Pfeiffer; Michael K Georgieff; Gary Brittenham; Susan Fairweather-Tait; Richard F Hurrell; Harry J McArdle; Daniel J Raiten Journal: J Nutr Date: 2018-06-01 Impact factor: 4.798
Authors: Tanja Barth-Jaeggi; Diego Moretti; Jane Kvalsvig; Penny A Holding; Jane Njenga; Alice Mwangi; Meera K Chhagan; Christophe Lacroix; Michael B Zimmermann Journal: Matern Child Nutr Date: 2015-12 Impact factor: 3.092
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