Effect of elevated accumulation of iron in ferritin on the antioxidants content in soybean sprouts

Cultivation of soybean sprouts in abiotic stress conditions, resulted from the presence of 5–25?mM FeSO₄ in the culture media, causes a strong overexpression of ferritin. Accumulation of ferritin iron in sprouted seeds germinated in the 20?mM solution of FeSO₄ was 67 times higher than in sprouts germinated in distilled water. The cultivation conditions also influence on another antioxidant content—mainly β-carotene content, which increased 28 times (in sprouts cultured in 10?mM FeSO₄ solution) in comparison to the content in dry seeds. Obtained in stress conditions sprouted seeds contain less tocochromanoles than raw seeds. However, their total tocochromanol content was higher than in sprouted seeds cultured in distilled water in every examined concentration of Fe²⁺. A total antioxidant activity is increased only during culturing in 0–10?mM media, and it is positively correlated to the total phenolic compounds content (r?=?0.8498). We concluded that germination in high abiotic stress also causes the increase in different antioxidants content, not only in ferritin, which is directly involved in the process of iron detoxification.     

Iron absorption and haemoglobin status of rats fed a ferrous bisglycinate‐fortified growing‐up milk

BACKGROUND: Infants and toddlers aged 6–24 months constitute one of the groups at highest risk of iron deficiency. A promising alternative for ferrous sulfate (FS) might be ferrous bisglycinate (FeAAC), which is less likely to cause sensory changes in the food vehicle. This work aims to compare the effect of FeAAC with that of FS, when added to a growing‐up milk, on the iron and haemoglobin status in weanling rats using a depletion–repletion model. RESULTS: After the repletion period no significant differences were found in iron absorption, Hb concentration, Hb iron, Hb regeneration efficiency (HRE), mean corpuscular volume (MCV), mean corpuscular Hb (MCH), mean corpuscular Hb concentration (MCHC), serum iron, total iron binding capacity (TIBC), transferrin saturation (TS), and ferritin between the group fed a growing‐up milk fortified with FS and the group fed one fortified with FeAAC. Furthermore, iron absorption, HRE, MCV, MCH, serum iron, and TS were significantly (P < 0.05) higher in groups fed either type of iron‐fortified growing‐up milk compared to the control group (AIN‐93G diet). CONCLUSION: A growing‐up milk supplemented with FeAAC showed an improvement in the iron absorption and haemoglobin status at the same level as those of FS. Copyright © 2009 Society of Chemical Industry     

Preparation,characterization, bioavailability in vitro and in vivo of tea polysaccharides–iron complex

The task of this study was to prepare a complex of tea polysaccharides (TPS) with ferric iron and research its bioavailability in vitro and in vivo. Optimum condition for preparing tea polysaccharides–iron complex (TPIC) was as follows: TPS and FeCl₃ with a weight ratio of 1:2.4, reacted in a water bath at 60 °C for 3 h, generating an iron content for TPIC of 14.60 %. The digestion in vitro experiment showed that availability of TPIC was sufficient. Then, iron bioavailability in vivo of TPIC was evaluated by the rat hemoglobin-repletion bioassay with ferrous sulfate (FeSO₄) as the positive control. Results indicated that at the end of 21 days’ iron regeneration phase, the values of hemoglobin (Hb) concentration, free erythrocyte protoporphyrin (FEP), serum iron (SI) concentration, and mean cell hemoglobin (MCHC) of rats supplemented with FeSO₄ and TPIC increased quickly to those of normal ones. If the bioavailability of FeSO₄ was given 100 % with Hb concentration, SI concentration and MCHC as the evaluation index, respectively, bioavailability of TPIC were in the range of 101.85–116 %. These results demonstrate that TPIC is a good iron supplement source for increasing uptake and bioavailability in the body.     

In vitro iron absorption of α-lactalbumin hydrolysate-iron and β-lactoglobulin hydrolysate-iron complexes

To study the feasibility of promoting iron absorption by peptides derived from α-lactalbumin and β-lactoglobulin, the present work examined the transport of iron across Caco-2 monolayer cell as in vitro model. Caco-2 cells were seeded in bicameral chambers with α-lactalbumin hydrolysate-Fe (α-LAH-Fe) complex and β-lactoglobulin hydrolysate-Fe (β-LGH-Fe) complex, α-LAH and iron mixture, β-LGH and iron mixture, FeSO₄ and ascorbic acid mixture, and FeSO₄. In addition, the cytotoxicity of α-LAH-Fe and β-LGH-Fe complexes were measured by the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. The iron absorption and ferritin content were assessed using the coupled in vitro digestion/Caco-2 cell model. Results support that peptide-iron complexes can promote ferritin formation and it is possible to apply β-LGH-Fe complexes as iron-fortified supplements with high iron absorbability.     

Effectiveness of intermittent iron treatment of two- to six-year-old Jordanian children with iron-deficiency anemia

BACKGROUND: Iron deficiency is a common nutritional problem in young children among vulnerable populations in Jordan. Several studies have shown the effectiveness of intermittent iron supplementation in improving iron status. Such a study has not been carried out in 2- to-6-year-old Jordanian children diagnosed with iron deficiency anemia in a clinical setting. OBJECTIVE: To study the effectiveness of intermittent versus daily iron treatment in a clinical setting in 2- to 6-year-old Jordanian children with iron-deficiency anemia. METHODS: About 4400 children aged 2 to 6 years who visited Prince Hashim Military Hospital in Zarqa, Jordan, from August 2000 to June 2001 were screened for age, general health, and birthweight. About 10% of these children were screened for anemia, using complete blood count (defined as a hemoglobin level < or = 10.5 g/dL, and a mean corpuscular volume < or =75 ft). Anemic children underwent further screening for iron deficiency, defined as serum ferritin level < or =12 microg/L. Children with iron-deficiency anemia, as indicated by hemoglobin < or = 10.5 g/dL, mean corpuscular volume < or =75 fL, and serum ferritin < or =12 microg/L, or as indicated by mean corpuscular volume < or =75 fL and hemoglobin < or = 10.5 g/dL, were enrolled in the study after informed oral consent by their parents. Study children (n=134) were assigned randomly to one of three groups. Subjects in group 1 (n=45), group 2 (n=45), and group 3 (n=44) received iron treatment daily, weekly, and twice weekly, respectively. Out of 134 children recruited for the study, only 63 (39 boys and 24 girls) completed the 3-month treatment period. All of the children received medicinal iron drops at a dosage of 5 mg elemental iron as ferrous sulfate per kilogram of body weight. The parents also received nutritional counseling. RESULTS: At the end of treatment, hemoglobin, serum ferritin, hematocrit, mean corpuscular volume, mean corpuscular hemoglobin, and mean corpuscular hemoglobin concentration increased significantly in all groups with no significant differences between groups. The increases in hemoglobin in groups 1, 2, and 3 were 2.47 +/- 0.17, 2.12 +/- 0.18, and 2.18 +/- 0.18 g/dL, respectively. Measurements of final serum ferritin concentration were available for only 12, 12, and 10 children in groups 1, 2, and 3, respectively. In all children who completed the study, except for one in group 1, hemoglobin, mean corpuscular volume, and serum ferritin reached normal values in response to iron treatment. CONCLUSIONS: Weekly and twice-weekly iron therapy with 5 mg elemental iron as ferrous sulfate per kilogram of body weight accompanied by nutritional counseling was as effective as daily iron therapy in correcting iron-deficiency anemia in 2- to 6-year-old children under the clinical conditions of this study.     

Effect of Squid Ink Melanin‐Fe on Iron Deficiency Anemia Remission

ABSTRACT: The present study was designed to evaluate the effect of a new iron tonic (squid ink melanin‐Fe [SM‐Fe]) on remission of iron deficiency anemia (IDA) using a rat model of IDA. The rat IDA model was established with low‐iron diet feeding and caudal vein blooding. Then different dosages of SM‐Fe were given to the rats once a day by intragastric administration, with FeSO₄ and FeCl₃ as positive control. The content of Hemoglobin (Hb), red blood cell (RBC), hematocrit (HCT), and mean corpuscular volume (MCV) were analyzed in addition to the contents of serum iron (SI) and intracellular free erythrocyte protoporphyrin (FEP). The content of malondialdehyde (MDA) and the activity of superoxide dismutase (SOD) and glutathione peroxidase (GSH‐Px) in serum was also measured. The results showed that anemia caused by iron deficiency was established as a consequence of the low‐iron diets. SM‐Fe showed an effective restoration action by returning Hb, RBC, HCT, MCV, SI, and FEP in IDA animals to normal values. An antioxidant effect was also observed that reduced MDA level, enhanced the activities of SOD and GSH–Px in serum, and protected erythrocytes from the injury of reactive oxygen species as a consequence of SM‐Fe intake. In comparison with FeSO₄ and FeCl₃, higher bioavailability of iron and fewer side effects were also observed. In conclusion, SM‐Fe remitted iron deficiency anemia symptoms significantly, suggesting that SM‐Fe might contribute to improving hemopoietic function in IDA rats and might be exploited as a safe, efficient new iron tonic.     

Effect of extrusion conditions on iron stability and physical and textural properties of corn snacks enriched with soybean ferritin

Soybean sprouts cultured in 20 mm FeSO₄ were introduced into corn snacks (1.75–3.50%) to supplement iron. The effect of extrusion process on the ferritin iron stability and on product quality was studied. Iron stability in these fortified snacks depended mainly on feed moisture levels, with the best results seen when the feed moisture and temperature were 12% and 110 °C, respectively. Lower feed moisture was beneficial to hardness, expansion ratio and bulk density, while lower temperature increased snack hardness and density, while worsening the expansion ratio. The snacks’ water absorption was strongly and directly dependent on the temperature, while their solubility mainly depended inversely on feed moisture. All of the variables tested altered the colour of the snacks. The conditions that were best for producing the ferritin‐fortified snacks – 12% feed moisture, and temperature equal than or less to 140 °C – may yield a product with the desired quality features.     

Effects of iron supplementation versus dietary iron on the nutritional iron status: Systematic review with meta-analysis of randomized controlled trials

ABSTRACT

This meta-analysis compared the effects of dietary intervention versus iron supplementation on biochemical parameters related to the iron nutritional status in humans. The PubMed, CENTRAL, LILACS, SCIELO, OPENGREY.EU and ClinicalTrials.gov databases were searched for randomized clinical trials that assigned individuals to a dietary intervention or to an iron supplementation regimen, for 12 weeks or more. The primary outcome was the hemoglobin concentration, and secondary outcomes were ferritin, RDW, mean corpuscular volume, soluble transferrin receptor, total iron binding capacity, serum iron, and transferrin saturation. From the 6095 records identified, twelve studies were included, six with children, five with adolescents/adults, and one with pregnant women. In the subgroup of studies that included anemic/iron deficient children, supplementation significantly increased the hemoglobin concentration (weighted mean difference (WMD): 3.19 g/L [95% CI: 1.31, 5.07]) and induced a significantly greater reduction of the soluble transferrin receptor (WMD: ?0.46 mg/L [95% CI: ?0.70, ?0, 21]), when compared to dietary intervention. It also induced a greater reduction of the total binding capacity of iron in adolescents/adults (WMD: ?6.96 μmol/L [95% CI: ?12.70, ?1.21]). Supplementation showed a better effect on hemoglobin recovery in anemic/iron deficient children, while no differences were observed between supplementation and dietary intervention in treating adolescents/adults.     

Oxidative stability of oil-in-water emulsions containing iron chelates: Transfer of iron from chelates to milk proteins at interface

Iron supplementation can promote oxidation of food matrices as well as cell lipids. The oxidative stability of oil/water emulsions stabilised by β-lactoglobulin (BLG) or sodium caseinate (SC) was studied in the presence of Fe-bisglycinate, NaFe-EDTA or FeSO₄. Lipid oxidation was evaluated by following the peroxide value (PV) and the thiobarbituric acid reactive substances (TBARS) over 7 days. At pH 6.5, for Fe-bisglycinate iron complement, the oxidation kinetics was more reduced with BLG than with SC. Contrarily to BLG, SC possesses phosphate groups that have more affinity for iron ions than carboxylate residues. Both BLG and SC stabilised emulsions were more oxidised with Fe-bisglycinate or FeSO₄ than with NaFe-EDTA. At pH 3.5, lipid oxidation was higher compared to pH 6.5. These results indicate that the competition for iron complexation between functional groups of protein and salt counter-ions (glycinate, sulphate or EDTA) appear as a key factor in oxidation.     

Sprouted wheat grain with ferritin overexpression as a potential source of iron for cereal product fortification

Grains of winter wheat (Korweta variety) were partially germinated in an abiotic stress condition (0–15 mM FeSO₄ solutions) in order to accumulate iron by ferritin overexpression. The physical, chemical, biochemical properties and technological parameters of the obtained material as well as their resistance to an insect storage pest—granary weevil—were analyzed. Sprouted wheat grains with overexpression of ferritin contain 52 times more iron, more than 50 % in form of ferritin. The contents of reducing sugars, crude protein, fiber and ash as well as amylolytic activity increased significantly in sprouted wheat grain, while starch, fat, wet gluten, falling number and inhibition activity against granary weevil α-amylase decreased. Germinated wheat grain enriched with iron strongly affected granary weevil developmental parameters. Despite the fact that technological parameters of the product were deteriorated, it is worth to consider this material application as an iron supplement for cereal products, when the application of soybean is impossible.     

Evaluation of iron‐fortified Feta cheese for physicochemical and sensory properties

Standardised cow's milk (fat 3 g/100 g) was used to manufacture Feta cheese fortified with 40, 60 and 80 mg of iron/kg cheese using ferrous sulphate (FeSO₄), ferric chloride (FeCl₃), ferric pyrophosphate (Fe₄ (P₂O₇)₃) and microencapsulated ferrous sulphate. Chemical composition and sensory characteristics of fortified cheeses were determined after 60 days of ripening, during which the iron content and thiobarbituric acid (TBA) values were measured. The metallic taste, colour, flavour, overall score and TBA values were statistically (P < 0.05) affected by the source and concentration of iron. The best quality was found in cheeses fortified with 40 mg/kg of microencapsulated ferrous sulphate.     

Effect of Heat Treatment on Meat Enhancement of Dietary Iron Bioavailability of Meat/Ferrous Sulfate and Meat/Hemoglobin Mixtures Fed to Anemic Rats

The effect of autoclaving on meat enhancement of dietary iron bioavailability was studied. Meat was mixed with FeSO₄ or hemoglobin to obtain ratios of iron from meat to iron from FeSO₄ or hemoglobin of 100:0, 75:25, 50:50, 25:75, and 0:100. One-half of each mixture (except meat:FeSO₄ mixture 0:100) was autoclaved for 90 min at 15 psi. The meat mixtures were lyophilized and formulated into diets to provide approximately 35 mg Fe/kg. Hemoglobin regeneration efficiency (HRE) was determined as the percent iron gained as hemoglobin relative to the iron consumed. Heat increased the HREs of meat/hemoglobin mixtures and of hemoglobin. Heat did not affect the HRE of meat or meat/ferrous sulfate mixtures. Meat did not significantly enhance the bioavailability of total dietary iron.     

Effect of tea phenolics on iron uptake from different fortificants by Caco-2 cells

The in vitro effects of tea phenolics on Fe uptake from different fortificants (FeSO₄, FeCl₃, FeEDTA) by Caco-2 cells were compared. Cell cultures were exposed to catechin, tannic acid, green or black tea solutions, added within Fe-containing solution, or used to pre-treat cell cultures before Fe-exposure. Cell ferritin formation was used as a measure of Fe uptake. Reverse phase chromatography was used to identify specific phenolics in tea solutions, and the Fe-binding catechol and galloyl groups were determined spectrophotometrically. The results showed a positive effect of catechin on Fe uptake only from dissociable Fe sources, and a marked inhibitory effect of tannic acid regardless of the Fe source. Tea phenolics exhibit similar inhibitory patterns on Fe uptake from FeCl₃ and FeEDTA solutions; however, the Fe uptake from FeSO₄ solutions was significantly less affected. These data improve the understanding of interactions by which tea phenolics affect Fe uptake at the intestinal level.     

EFFECT OF ACID PRETREATMENT ON THE STABILITY OF CITRIC AND MALIC ACID COMPLEXES WITH VARIOUS IRON SOURCES IN A WHEAT FLAKE CEREAL1

An in vitro incubation at pH 2 of citric and malic acids with each of five iron sources [(hydrogen (HRI) and electrolytically reduced elemental iron (ERI), ferric chloride (FeCl₃), ferrous sulfate (FeSO₄) and ferric orthophosphate (FOP)] at a 10:1 molar ratio (acid:iron) was evaluated for its effect on iron solubiliza-tion in a wheat flake cereal subjected to a sequential gastrointestinal pH treatment from endogenous pH (E) to 2 to 6. Citric acid maintained significantly more complexed and ionic iron (Fe⁺³) in solution than malic acid, with and without incubation, through the final stage of the sequential pH treatment with each of the five iron sources. However, the malate treated samples were affected less than the citrate by acidification from pH E to 2, with less of the soluble complexed iron being insolubilized and significantly more ionic iron (Fe⁺²) being produced. Incubation significantly enhanced the iron solubilizing capacity of citrate at all stages of the sequential pH treatment with HRI and at pH E with ERI, FeCl₃ and FeSO₄, As well, incubation increased the iron solubilization properties of malate at all stages with FeSO₄ and at E and 2 with HRI and ERI. These results indicate that acid incubation to form an organic acid-iron chelate, particularly with elemental iron, has the potential to improve cereal iron fortificant bioavail-ability.     

Feeding differently processed soya bean Part 2. An assessment of haematological responses in the chicken

The use of differently processed soya bean as a major source of dietary protein was evaluated in a haematological study using broiler chickens in which groundnut cake (GNC), raw soya bean (RSB), roasted soya bean (RtSB), cooked soya bean (CSB) and soya bean oil cake (SBC) were fed on equi-protein basis. The results showed that:

• 1 Red blood cell (RBC) count and haemoglobin content of blood significantly (P < 0.05) increased in chicks fed RSB relative to the other soya bean diets. Feeding differently processed soya bean significantly (P < 0.05) influenced mean cell haemoglobin (MCH) and mean corpuscular volume (MCV) while the mean corpuscular haemoglobin concentration (MCHC) was not significantly influenced.
• 2 Both the total white blood cell (WBC) count and the monocytes were significantly (P < 0.05) influenced by the dietary treatments. Chicks fed processed soya bean generally had higher number of monocytes.
• 3 Physical properties determined were specific gravity and erythrocyte sedimentation rate. The latter was significantly (P < 0.05) lower in all the processed soya bean-fed chicks.
• 4 Minerals determined in blood were Na, K, Ca, Mg, Fe, Cu and P. Of all these, chicks fed RSB had significantly (P < 0.01) lower levels of blood Mg and marked decrease in Ca.

     

Bioavailability of Iron Produced by the Corrosion of Steel in Apples

The bioavailability of iron formed by the corrosion of low-carbon steel (99% Fe) in contact with Red Delicious apples was measured in a rat model using a depletion-repletion experiment. The percentage of ingested iron converted to hemoglobin iron (Conversion Efficiency) was 74, 57, and 56%, respectively, for daily doses of 110, 190, and 285 μg of this iron. (Conversion Efficiency for FeSO₄ was 46-50%). When compared with FeSO₄= 100, the relative biological value of this iron was found to range from 93–153. Ingestion of one Red Delicious apple that has been exposed to eight large iron nails for 24 hr could provide 10–15 mg iron having good bioavailability.     

铁蛋白铁释放机理的研究进展

铁蛋白是一种广泛存在于生命体中的铁贮藏蛋白,具有调节机体铁代谢平衡和去除二价铁毒性的双重功能。缺铁严重影响着全球近一半人的健康,研究表明,铁蛋白具有良好的补铁活性而且安全、高效,能够取代具有毒副作用的传统补铁试剂。因此,寻求并开发以铁蛋白为原料的新型补铁功能食品已成为一种趋势。为了更科学地应用于实践和开发,对铁蛋白理化性质及其生物学功能的阐明显得颇为重要。目前,关于铁蛋白铁释放机理的研究分为体外和体内两个方面,体外机理涉及还原剂和螯合剂的共同作用,而体内机理主要涉及降解途径和酶介导的还原释放途径。综述了国内外有关铁蛋白铁释放机理的研究进展,以期为新型补铁功能食品的开发提供理论依据。     

Characterization of Solution Properties of Four Iron Sources in Model Systems by Solubility Studies and IR/VIS Reflectance Spectrophotometry

The hydrolysis of iron and the effect of aging on the resolubilization of iron hydroxides under simulated gastric pH conditions were measured and spectroscopy was evaluated as a predictor of these changes. Model systems of ferrous sulfate (FeZSO₄), ferric sulfate (Fe₂(SO₄)₃), ferric chloride (FeCl₃) and hydrogen-reduced elemental iron (HRFe), with and without ascorbic acid, were analyzed at intervals over 10 wk storage for both soluble iron and iron resolubilized from insoluble iron hydroxide polymers. Irreversible hydrolysis, resulting in polymers with ordered structures, occurred in the FeSO₄ and HRFe systems. Spectra of air-dried precipitates correlated with solution behavior of iron providing a possible predictive technique. Added ascorbic acid increased the levels of soluble iron in all systems.     

Glucosinolates fortification of cruciferous sprouts by sulphur supplementation during cultivation to enhance anti-cancer activity

The cruciferous sprouts, including cabbage (Brassicaoleracea), broccoli (Brassicacapitata) and radish (Raphanussativus), were cultivated with supplementation of sulphur salts. With supplementation of sulphur at 60 kg/ha, a 2–5-fold increases in total glucosinolates contents in the sprouts were observed. The individual glucosinolates whose concentration increased most significantly, included progoitrin, glucoerucin, glucobrassicin, glucohirsutin and 4-methoxybrassicin. The antioxidant properties of these sulphur supplemented sprouts were also higher than that of the normal sprouts due to the increases of phenolic compounds. Consequently, the glucosinolates fortified sprouts had higher anti-proliferative activity against HepG2 human hepatocarcinoma cells than the normal sprouts, as the cell viability decreased by 22–35%. Also in CT26 mouse colorectal cancer cells, the cell viability decrease by 34–59%.     

Systems stunning with CO2 gas on Manchego light lambs: Physiologic responses and stunning effectiveness

Effect of four stunning treatments using different CO₂ concentrations and exposure times (G1: 80%90 s; G2: 90%90 s; G3: 90%60 s; G4: 80%60 s) on hormonal, haematological and biochemical parameters in Manchego breed light lambs and their stunning effectiveness (% animals correctly stunned) was studied. An electrically stunned control treatment (G5) was used. G1 showed the highest plasmatic hormonal, red cell distribution (RDW) and lactate levels. Haemoglobin, mean corpuscular volume (MCV), mean cell haemoglobin (HbCM), glucose, lactate deshydrogenase (LDH), sodium, potassium and creatine kinase (CK) were highest in G5. Stunning effectiveness was maximum (100%) in G3 and G5, only 50% in G1 and G2 and minimum (30%) in G4.