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Browsing by Subject "Iron fortification"

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    Comparison of bioavailability and transporters gene expression of four iron fortificants added to infant cereals
    (Elsevier, 2022-09-08) Caballero Valcárcel, Ana M.; López Nicolás, Rubén; Frontela Saseta, María del Carmen; González Bermúdez, Carlos A.; Martínez Gracia, Carmen; Santaella-Pascual, Marina; Tecnología de Alimentos, Nutrición y Bromatología
    Iron deficiency is one of the most important nutritional disorders around the world. To reduce this health problem in infants, most countries have developed different iron fortification programs as a long-term strategy. However, it is necessary to select the best iron source to get the highest bioavailability with the lowest impact on the organoleptic properties of the foods. The aim of this research was to assess the in vitro bioavailability and intestinal cellular transport of four iron sources (electrolytic iron: EI, ferrous fumarate: FF, a micronized and dispersible ferric pyrophosphate: MDFP, and ferrous sulphate heptahydrated: FSH) used to fortify infant cereals. Fortified cereals were in vitro digested and soluble fractions were then incubated in Caco-2 cells to study iron retention, transport and uptake. Moreover, mRNA expression of iron transporters and ferritin formation were also measured in cells incubated with the iron standard salts. Iron solubility, uptake percentage, transport and uptake efficiencies by the Caco-2 cells were significantly higher in cereals fortified with FSH than with EI, obtaining intermediate values for the other two iron fortificants. MDFP induced higher expression of iron transporters Zip-14 and HEPH than other iron sources. FSH promoted the highest iron storage protein ferritin, followed by FF and MDFP, while EI presented the lowest in vitro bioavailability due to its low solubility. This work demonstrated that iron absorption, storage, and gene expression of transporters depend on the source of iron. These are important challenges to be taken into consideration when assessing the potential of iron fortificants.
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    Iron bioavailability of four iron sources used to fortify infant cereals, using anemic weaning pigs as a model
    Caballero-Valcarcel, A; Martinez-Gracia, C; Martinez-Miro, S; Madrid-Sanchez, J; Gonzalez-Bermudez, CA; Domenech-Asensi, G; Lopez-Nicolas, R; Santaella-Pascual, Marina; Enfermería
    Purpose Iron (Fe) deficiency anemia in young children is a global health concern which can be reduced by Fe fortification of foods. Cereal is often one of the first foods given to infants, providing adequate quantities of Fe during weaning. In this work, we have compared iron bioavailability and iron status of four iron sources used to fortify infant cereals, employing piglets as an animal model. Method The study was conducted on 36 piglets, 30 of them with induced anemia. From day 28 of life, the weaned piglets were fed with four experimental diets (n=6) each fortified with 120mg Fe/kg by ferrous sulfate heptahydrate (FSH), electrolytic iron (EI), ferrous fumarate (FF), or micronized dispersible ferric pyrophosphate (MDFP) for another 21days. In addition, one group of six anemic piglets fed with the basal diet with no iron added (Control-) and a Control+ group of non-anemic piglets (n=6) were also studied. Blood indicators of iron status were measured after depletion and during the repletion period. The Fe content in organs, hemoglobin regeneration efficiency, and relative bioavailability (RBV) was also determined. Results The Fe salts adequately treated anemia in the piglets, allowing the animals to recover from the anemic state, although EI was less efficient with regard to replenishing Fe stores giving lower concentrations of plasma ferritin and iron in the spleen, liver, lung, and kidney. In addition, the RBV of EI was 88.27% with respect to the reference iron salt (FSH). Conclusions Ferrous fumarate and MDFP were equally as bioavailable as the reference salt, and were used significantly better than EI in piglets. These results contribute to extend the evidence-based results for recommending the most suitable fortificant for infant cereals.
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    Open Access
    Iron bioavailability of four iron sources used to fortify infant cereals, using anemic weaning pigs as a model
    (Springer, 2018-06-11) Caballero, Ana M.; Martínez, Carmen; Martínez-Miró, Silvia; Madrid, Josefa; Gonzalez, Carlos A.; Domenech, Guillermo; López, Rubén; Santaella-Pascual, Marina; Producción Animal
    Purpose Iron (Fe) deficiency anemia in young children is a global health concern which can be reduced by Fe fortification of foods. Cereal is often one of the first foods given to infants, providing adequate quantities of Fe during weaning. In this work, we have compared iron bioavailability and iron status of four iron sources used to fortify infant cereals, employing piglets as an animal model. Method The study was conducted on 36 piglets, 30 of them with induced anemia. From day 28 of life, the weaned piglets were fed with four experimental diets (n = 6) each fortified with 120 mg Fe/kg by ferrous sulfate heptahydrate (FSH), electrolytic iron (EI), ferrous fumarate (FF), or micronized dispersible ferric pyrophosphate (MDFP) for another 21 days. In addition, one group of six anemic piglets fed with the basal diet with no iron added (Control−) and a Control+ group of non-anemic piglets (n = 6) were also studied. Blood indicators of iron status were measured after depletion and during the repletion period. The Fe content in organs, hemoglobin regeneration efficiency, and relative bioavailability (RBV) was also determined. Results The Fe salts adequately treated anemia in the piglets, allowing the animals to recover from the anemic state, although EI was less efficient with regard to replenishing Fe stores giving lower concentrations of plasma ferritin and iron in the spleen, liver, lung, and kidney. In addition, the RBV of EI was 88.27% with respect to the reference iron salt (FSH). Conclusions Ferrous fumarate and MDFP were equally as bioavailable as the reference salt, and were used significantly better than EI in piglets. These results contribute to extend the evidence-based results for recommending the most suitable fortificant for infant cereals.

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