Elemental Iron Research Articles

An Integrated Approach to Elucidate the Interplay between Iron Uptake Dynamics and Magnetosome Formation at the Single-Cell Level in Magnetospirillum gryphiswaldense.

Iron is a crucial element integral to various fundamental biological molecular mechanisms, including magnetosome biogenesis in magnetotactic bacteria (MTB). Magnetosomes are formed through the internalization and biomineralization of iron into magnetite crystals. However, the interconnected mechanisms by which MTB uptake and regulate intracellular iron for magnetosome biomineralization remain poorly understood, particularly at the single-cell level. To gain insights we employed a holistic multiscale approach, i.e., from elemental iron species to bacterial populations, to elucidate the interplay between iron uptake dynamics and magnetosome formation in Magnetospirillum gryphiswaldense MSR-1 under near-native conditions. We combined a correlative microscopy approach integrating light and X-ray tomography with analytical techniques, such as flow cytometry and inductively coupled plasma spectroscopy, to evaluate the effects of iron and oxygen availability on cellular growth, magnetosome biogenesis, and intracellular iron pool in MSR-1. Our results revealed that increased iron availability under microaerobic conditions significantly promoted the formation of longer magnetosome chains and increased intracellular iron uptake, with a saturation point at 300 μM iron citrate. Beyond this threshold, additional iron did not further extend the magnetosome chain length or increase total intracellular iron levels. Moreover, our work reveals (i) a direct correlation between the labile Fe2+ pool size and magnetosome content, with higher intracellular iron concentrations correlating with increased magnetosome production, and (ii) the existence of an intracellular iron pool, distinct from magnetite, persisting during all stages of biomineralization. This study offers insights into iron dynamics in magnetosome biomineralization at a single-cell level, potentially enhancing the industrial biomanufacturing of magnetosomes.

Eight weeks of oral iron supplementation improves postural control in young women with iron deficiency anemia.

This study aimed to explore the effect of 8-week oral supplementation on postural control in young women with iron deficiency anemia (IDA). This study involved 15 women with IDA who received 160 mg of elemental iron daily in the form of dried ferrous sulfate capsules (80 mg twice daily) taken in two divided doses for 8 weeks. The mean velocity of oscillations of the center of pressure (CoPv) was recorded to evaluate postural control pre- and post-supplementation. In addition, simple reaction time (SRT) and weight discrimination tests were performed to assess attentional capacity and proprioceptive acuity, respectively. This study revealed significant increases (P < 0.001, mean difference = 1.83, 95% CI: -17.25; -9.42) in proprioceptive acuity values, as well as decreases in CoPv [firm (EO (P < 0.01, mean difference = 0.52, 95% CI: 0.69; 2.92), EC (P < 0.05, mean difference = 0.75, 95% CI: 0.24; 3.45)) and foam (EO (P < 0.001, mean difference = 0.64, 95% CI: 1.71; 4.44) ; EC (P < 0.001, mean difference = 1.04, 95% CI: 3.51; 7.97))] and SRT (P < 0.001, mean difference = 59.31, 95% CI: 103.02; 168.71) values post-supplementation compared to pre-supplementation. This study showed significant improvements in postural control in young women with IDA after 8 weeks of oral iron supplementation. These improvements were probably related to the enhanced bioavailability of iron, which may have influenced neural processes inducing improvements in attention capacity and proprioceptive acuity.

Spin waves and orbital contribution to ferromagnetism in a topological metal

Honeycomb and kagome lattices can host propagating excitations with non-trivial topology as defined by their evolution along closed paths in momentum space. Excitations on such lattices can also be momentum-independent, and the associated flat bands are of interest due to strong interactions between heavy quasiparticles. Here, we report the discovery — using circularly polarized X-rays for the unambiguous isolation of magnetic signals — of a nearly flat spin-wave band and large (compared to elemental iron) orbital moment in the metallic ferromagnet Fe3Sn2 with compact AB-stacked kagome bilayers. As a function of out-of-plane momentum, the nearly flat optical mode and the global rotation symmetry-restoring acoustic mode are out of phase, consistent with a bilayer exchange coupling that is larger than the already large in-plane couplings. The defining units of this topological metal are therefore triangular lattices of octahedral iron clusters rather than weakly coupled kagome planes. The spin waves are strongly damped when compared to elemental iron, opening the topic of topological boson–fermion interactions for deeper exploration within this material platform.

Treatment of iron deficiency and iron deficiency anaemia in menstruating women

Iron deficiency and anaemia affect premenopausal women’s quality of life. Daily oral iron supplements are standard treatment, causing gastrointestinal side effects, which could be overcome by an alternate-day dosing regimen. In this review, we compare dosing strengths and frequencies in trials: Twice-daily doses of 160 mg of elemental iron increases the ferritin- but not the haemoglobin level significantly and is poorly tolerated compared to 60-80 mg elemental iron taken daily or every other day, in mild to moderate anemia, although evidence for severe anaemia is limited.

The response of Intravenous Iron sucrose in children with Iron Deficiency Anaemia unresponsive to Oral Iron Therapy.

Objective: To evaluates the efficacy and safety of intravenous iron sucrose in paediatric patients with IDA who have not responded to or tolerated oral iron therapy.Methodology: This observational study was conducted at Department of Paediatrics, Pakistan aeronautical complex (PAC) Hospital Kamra, from October 2023 to April 2024. Iron sucrose (Venofer®) was administered at a dose of 0.35 ml/kg, providing 100 to 200 mg of elemental iron per dose, on alternate days for three doses. Haemoglobin (Hb) and serum ferritin levels were measured 4 weeks post-treatment to evaluate response.Results: Among the participants, 70 (70%) were male and 30 (30%) were female, with a mean age of 34.23 ±19.54 months. Results showed a significant increase in mean Hb from 7.92 ± 0.74 g/dl before treatment to 10.46 ± 0.94 g/dl after treatment (p = 0.001)Conclusion: Clinicians should consider intravenous iron therapy to enhance patient outcomes, improve quality of life, and potentially reduce healthcare costs. Keywords: Iron Deficiency Anaemia (IDA), Anaemia, Haemoglobin (Hb), Oral Iron, Intravenous Iron.

Peer review of the pesticide risk assessment of the active substance elemental iron.

The conclusions of the European Food Safety Authority (EFSA) following the peer review of the initial risk assessments carried out by the competent authority of the rapporteur Member State Austria for the pesticide active substance elemental iron and the considerations as regards the inclusion of the substance in Annex IV of Regulation (EC) No 396/2005 are reported. The context of the peer review was that required by Regulation (EC) No 1107/2009 of the European Parliament and of the Council. The conclusions were reached on the basis of the evaluation of the representative uses of elemental iron in field and greenhouses (permanent and non-permanent structures) via granule application by spreading on all edible and non-edible crops, ornamental plants and amenity grassland to control molluscs. The reliable endpoints, appropriate for use in regulatory risk assessment, are presented. Missing information identified as being required by the regulatory framework is listed.

Intravenous versus oral iron for anaemia among pregnant women in Nigeria (IVON): an open-label, randomised controlled trial

Oral iron for anaemia in pregnancy is often not well tolerated, with poor adherence. Iron administered intravenously might address these tolerance and adherence issues. We investigated the effectiveness and safety of intravenous ferric carboxymaltose versus oral ferrous sulphate on anaemia and iron deficiency among pregnant women in Nigeria. We did a multicentre, open-label, parallel, randomised controlled trial of pregnant women (aged 15-49 years) with haemoglobin (Hb) concentrations of less than 10 g/dL at 20-32 weeks' gestation from 11 primary, secondary, or tertiary health facilities in Nigeria (five in Lagos and six in Kano). Exclusion criteria included vaginal bleeding, blood transfusion or major surgery within the past 3 months, symptomatic anaemia, anaemia known to be unrelated to iron deficiency, clinically confirmed malabsorption syndrome, previous hypersensitivity to any form of iron, pre-existing maternal depression or other major psychiatric illness, immune-related diseases, such as systemic lupus erythematosus or rheumatoid arthritis, or severe allergic reactions. Participants were randomly assigned (1:1) by nurses and doctors using a web-based randomisation service to either receive a single dose of intravenous ferric carboxymaltose (20 mg/kg to a maximum of 1000 mg) or oral ferrous sulphate (200 mg; 65 mg elemental iron) three times daily until 6 weeks postpartum. The study was primarily unmasked. Primary outcomes were maternal anaemia (Hb <11 g/dL) at 36 weeks' gestation and preterm birth at before 37 weeks' gestation, with analysis by intention to treat in participants with available data. This study was registered at the ISRCTN registry on Dec 10, 2020 (ISRCTN63484804) and on ClinicalTrials.gov (NCT04976179) on April 7, 2021. Between Aug 10, 2021, and Dec 15, 2022, 13 724 pregnant women were screened for eligibility. 12 668 were excluded due to ineligibility for inclusion, and 1056 provided consent to participate and were randomly assigned to either the intravenous or oral administration groups. 527 were assigned to the intravenous ferric carboxymaltose group and 529 were assigned to the oral ferrous sulphate group. 518 in the intravenous group were assessed at 36 weeks' gestational age and after 518 deliveries, and 511 completed the 6 weeks postpartum visit. 513 in the oral ferrous sulphate group were assessed at 36 weeks' gestational age and after 512 deliveries, and 501 completed the 6 weeks postpartum visit. No significant difference was found in anaemia at 36 weeks (299 [58%] of 517 in the intravenous group vs 305 [61%] of 503 in the oral group; risk ratio 0·95, 95% CI 0·85-1·06; p=0·36), nor in preterm birth (73 [14%] of 518 vs 77 [15%] of 513; 0·94, 0·70-1·26; p=0·66). There were no significant differences in adverse events. The most common adverse events were diarrhoea (in six participants) and vomiting (in three participants) in the oral group and fatigue (in two participants) and headache (in two participants) in the intravenous group. Although the effect on overall anaemia did not differ, intravenous iron reduced the prevalence of iron deficiency to a greater extent than oral iron and was considered to be safe. We recommend that intravenous iron be considered for anaemic pregnant women in Nigeria and similar settings. Bill & Melinda Gates Foundation.

Pil-Pintar Intervention Reduce Anemia among Young Teen Girls: A Pilot Study

Background: Iron deficiency anemia and low adherence to take iron tablets are prevalent issues among teenage school girls in Indonesia. To address this concern and encourage regular iron supplementation, the public health office of Sukoharjo Central Java Indonesia introduced a pil-pintar program, colloquially known as the “smart pill.” Aims: This study aimed to measure the increase in hemoglobin (Hb) levels and its correlation with nutrient intake related to Hb synthesis following the pil-pintar intervention. Methods: A quasi-experimental design with a one-group pre-posttest approach was performed involving 49 school teenage girls aged 12-15 years in a public school in Sukoharjo, Indonesia. Each student was given an iron sugar coat tablet containing 182 mg of ferrous-fumarate (equivalent to 60 mg elemental iron) and 0.400 mg of folic acid per tablet, called pil-pintar, once a week for 12 weeks. Results: A decrease in anemia prevalence by 24.4% and a notable increase in Hb levels by 1.0 mg/dL (p = 0.001) were observed in the 12 weeks of intervention. However, the study found no association between the nutrient intakes related to Hb production and the resulting Hb levels. Conclusion: The pil-pintar program effectively improved the hemoglobin levels of anemic teenage girls in the Sukoharjo district, Indonesia.

Intra/extracellular electron transfer and metagenomic analysis elucidated the roles of magnetic iron powder (Fe3O4) on mixotrophic denitrification system

Elemental iron provides a viable strategy to improve the denitrification efficiency by expediting electron transport. However, the roles of magnetic iron powder (Fe3O4) on mixotrophic denitrification remains unknown. In this study, the intra/extracellular electron transfer (IET/EET) and microbial metabolism mechanisms were explored in a Fe3O4-mediated sulfide-autotrophic and heterotrophic denitrification system. The results showed that Fe3O4 promoted the formation of dense clump structure with filamentous cross-linking in activated sludge. Fe3O4 could increase the coenzyme Q activity in IET and the content of free riboflavin and cytochrome c in EET. Metagenomic analysis indicated that denitrification, sulfide oxidation and sulfate reduction were the main pathways of nitrogen and sulfur metabolism, and the enriched denitrifying bacteria (Halomonas and Hypobacterium) and sulfur-oxidizing bacteria (Marinicella) could stably support nitrate removal. This study expands our understanding of the IET/EET during Fe3O4-mediated mixotrophic denitrification process, providing a novel insight for nitrogen removal from marine recirculating aquaculture wastewater.

Iron supplementation post-blood donation in Vietnam: Impact on hemoglobin, red cell indices, and iron reserves

Background. Regular blood donation plays a pivotal role in mitigating the formation of free radicals by regulating iron accumulation. However, frequent blood donation can lead to chronic iron deficiency. In this study, we aimed to evaluate the effectiveness of daily iron supplementation as an intervention to expedite hemoglobin (Hb) recovery among frequent blood donors at a hospital in Vietnam. Methodology. Conducted longitudinally within the Hematology Department of a Hanoi hospital from February to July 2023, our study involved 104 eligible participants. They received a daily iron supplement comprising 100 mg of elemental iron, 0.75 mg of folic acid, and 5 mg of zinc sulfate for a minimum of 8 weeks. Blood samples were collected at three key time points: before blood donation during recruitment, immediately after donation, and at least 8 weeks post-donation. Results. Our findings revealed moderate, statistically significant positive correlations between elemental iron administration and changes in platelet count (PLT), hematocrit (HCT), and mean corpuscular hemoglobin (MCH) (r = 0.753, p &lt;0.001; r = 0.887, p &lt;0.001; and r = 0.703, p &lt;0.001, respectively). Additionally, weak but significant correlations were observed between elemental iron administration and red blood cell count (RBC), mean corpuscular volume (MCV), mean corpuscular hemoglobin concentration (MCHC), red cell distribution width coefficient of variation (RDWC), and red cell distribution width standard deviation (RDWS) (r = 0.260, p = 0.002; r = 0.302, p = 0.005; r = 0.160, p = 0.010; r = 0.120, p = 0.020; and r = 0.400, p &lt;0.001, respectively). Conclusion. Over an eight-week duration, the regimen of daily iron supplementation yielded significant improvements in both red cell variables, red cell indices, and iron study variables, demonstrating its potential clinical impact.

Efficacy of different doses of daily prophylactic iron supplementation in pregnant women: A systematic review and meta-analysis

IntroductionSeveral randomized controlled trials (RCT) have been conducted in the past to determine the optimum dose of iron supplementation during pregnancy, but there is a lack of consensus among different guidelines regarding the appropriate dosage of iron for prophylaxis during pregnancy. MethodsRelevant electronic databases were searched to identify publications describing RCTs comparing different daily dosages of iron supplementation during pregnancy. Meta-analysis for various efficacy and safety outcomes such as changes in blood hemoglobin, serum ferritin, serum iron, and serum transferrin saturation, as well as the frequency of adverse effects, was performed using random and fixed effect models suitably depending on the degree of heterogeneity. Two groups were compared: those receiving 60 mg elemental iron or less and those receiving more than 60 mg elemental iron per day. Additionally, the efficacy of those receiving 30 mg elemental iron per day and those receiving 60 mg elemental iron per day were also compared. ResultsA to total of 15 RCTs comprising 2726 participants were included in the meta-analysis. Change in blood hemoglobin levels was comparable between the ≤60 mg/day and >60 mg/day group (pooled estimate for mean difference, 0.01 [-0.11, 0.09], p=0.86, I2=96%), but serum ferritin, iron level, and serum transferrin saturation change were higher in the >60 mg group (p<0.0001, 0.008, and 0.02, respectively). Change in blood hemoglobin level was better in the 60 mg/day group compared to the 30 mg/day group (pooled estimate for mean difference, -0.11 [-0.21, 0.00], p=0.04, I2=90%), as well as changes in serum ferritin and serum transferrin saturations (p=0.004 and 0.0004, respectively). ConclusionDaily supplementation of 60 mg elemental iron is more efficacious than daily supplementation of 30 mg elemental iron for the prophylaxis of anemia in pregnant women (certainty of evidence-moderate), and daily supplementation of ≤60 mg elemental iron is equally efficacious compared to daily supplementation of >60 mg elemental iron for the prophylaxis of anemia in pregnant women (certainty of evidence-moderate). PROESPERO registration NoCRD42023455485

Iron Supply of Multivitamins-Multiminerals Commercialized Online by Amazon in Western and Southern Europe: A Labeling Analysis.

Background. In high-income countries, shopping for non-prescription multivitamin-multimineral supplements has tremendously increased. Objective and Methods. The purpose of this labeling analysis is to inform on the daily elemental iron (with or without vitamin C) supply provided by multivitamin-multimineral supplements sold online by Amazon in Western and Southern Europe (amazon.es®, amazon.de®, amazon.it®, and amazon.fr®). Results. We identified 298 iron-containing multivitamin-multimineral preparations sold by Amazon marketplaces: 153 preparations sourced from amazon.de®, 68 from amazon.fr®, 54 from amazon.it®, and 23 from amazon.es®. The daily iron dose provided by these preparations was 14 [5-14] mg (median and interquartile range), with no differences among the marketplaces. Approximately 90% (n = 265) of the preparations contained ferrous iron. Moreover, 85% (n = 253) of the preparations were fortified with vitamin C in a dose of 80 [40-100] mg daily. Conclusions. The median supply of iron (about 14 mg) and vitamin C (80 mg) in iron-containing multivitamin-multimineral preparations offered on Amazon platforms in Western and Southern Europe falls below that currently recommended for iron deficiency in review articles, namely 100 mg of iron and 500 mg of vitamin C per day. The iron supply of iron-containing multivitamin-multimineral preparations falls also below the dose of 30-60 mg advocated to prevent iron deficiency in menstruating women.

Iron regulatory protein two facilitates ferritinophagy and DNA damage/repair through guiding ATG9A trafficking

Trace elemental iron is an essential nutrient that participates in diverse metabolic processes. Dysregulation of cellular iron homeostasis, both iron deficiency and iron overload, is detrimental and tightly associated with diseases pathogenesis. IRPs-IREs system locates at the center for iron homeostasis regulation. Additionally, ferritinophagy, the autophagy-dependent ferritin catabolism for iron recycle, is emerging as a novel mechanism for iron homeostasis regulation. It is still unclear whether IRPs-IREs system and ferritinophagy are synergistic or redundant in determining iron homeostasis. Here we report that IRP2, but not IRP1, is indispensable for ferritinophagy in response to iron depletion. Mechanistically, IRP2 ablation results in compromised AMPK activation and defective ATG9A endosomal trafficking, leading to the decreased engulfment of NCOA4-ferritin complex by endosomes and the subsequent dysregulated endosomal microferritinophagy. Moreover, this defective endosomal microferritinophagy exacerbates DNA damage and reduces colony formation in IRP2 depleted cells. Collectively, this study expands the physiological function of IRP2 in endosomal microferritinophagy and highlights a potential crosstalk between IRPs-IREs and ferritinophagy in manipulating iron homeostasis.

An Electrolytic Elemental Iron Powder Effectively Regenerates Hemoglobin in Anemic Rats and Is Relatively Well Absorbed When Compared to Ferrous Sulfate Monohydrate.

Elemental iron powders are used as food fortificants to reduce the incidence of iron deficiency anemia. However, many commercially available iron powders are relatively untested in vivo. The purpose of this study was to determine the hemoglobin regeneration efficiency (HRE) and relative iron bioavailability (RBV) of an electrolytic elemental iron powder (EIP), by treating anemic rats with 14 d iron repletion diets fortified with four different concentrations (12, 24, 36, or 48 mg iron/kg diet) of EIP and bakery-grade ferrous sulfate monohydrate (FS; FeSO4•H2O), or no added iron (control); n = 9-12/group. The HRE of FS was significantly higher (p ≤ 0.05) than EIP at each concentration of dietary iron tested. For EIP, the HREs (ratios) of diets containing 12, 24, 36, and 48 mg iron/kg were 0.356, 0.205, 0.197, and 0.163, respectively. For both EIP and FS, HRE was inversely associated with increasing dietary iron. The RBVs (%) of iron from EIP in diets at 12, 24, 36, and 48 mg iron/kg as compared to FS were 64.5, 59.1, 50.6, and 54.3%, respectively. Overall, findings show that at the concentrations of iron tested, EIP has RBVs greater than 50% and is an effective fortification agent to replenish hemoglobin and correct iron deficiency anemia.

Nano-scale characterization of iron-carbohydrate complexes by cryogenic scanning transmission electron microscopy: Building the bridge to biorelevant characterization

Iron deficiency and iron deficiency anemia pose significant health challenges worldwide. Iron carbohydrate nanoparticles administered intravenously are a mainstay of treatment to deliver elemental iron safely and effectively. However, despite decades of clinical use, a complete understanding of their physical structure and the significance for their behavior, particularly at the nano-bio interface, is still lacking, underscoring the need to employ more sophisticated characterization methods. Our study used cryogenic Scanning Transmission Electron Microscopy (cryo-STEM) to examine iron carbohydrate nanoparticle morphology. This method builds upon previous research, where direct visualization of the iron cores in these complexes was achieved using cryogenic Transmission Electron Microscopy (cryo-TEM). Our study confirms that the average size of the iron cores within these nanoparticles is approximately 2 nm across all iron-based products studied. Furthermore, our investigation revealed the existence of discernible cluster-like morphologies, not only for ferumoxytol, as previously reported, but also within all the examined iron-carbohydrate products. The application of cryo-STEM for the analyses of product morphologies provides high-contrast and high-resolution images of the nanoparticles, and facilitates the characterization at liquid nitrogen temperature, thereby preserving the structural integrity of these complex samples. The findings from this study offer valuable insights into the physical structure of iron-carbohydrate nanoparticles, a crucial step towards unraveling the intricate relationship between the structure and function of this widely used drug class in treating iron deficiency. Additionally, we developed and utilized the self-supervised machine learning workflow for the image analysis of iron-carbohydrate complexes, which might be further expanded into a useful characterization tool for comparability studies.

Intravenous ferric carboxymaltose versus oral ferrous sulphate for the treatment of moderate to severe postpartum anaemia in Nigerian women (IVON-PP): protocol for an open-label randomised controlled type 1 hybrid effectiveness-implementation trial

IntroductionPostpartum anaemia is often caused by iron deficiency with onset during the antepartum period and can be exacerbated by excessive blood loss at birth. Its prevalence is estimated as 50–80%...

Treatment of anaemia in pregnancy with oral iron, folic acid or iron, folic acid and vitamin B12 supplementation: A hospital-based open randomized study

: National iron plus initiative recommended that anaemic pregnant women should be treated with 200 mg of elemental iron and 1 mg folic acid. An increase in vitamin B12 deficiency has been reported in last two decades. An open randomised study was taken up in urban antenatal clinics to assess the impact of addition of vitamin B12 to the iron and folic acid supplementation.: Anaemic pregnant women willing to participate in the study were randomised into Group 1 (240 iron mg and 5 mg folic acid) or Group 2 (240 mg iron, 1.5 mg of folic acid and 15 µg vitamin B12); the impact of supplementation on Hb, ferritin, folic acid and vitamin B12 was assessed.: In both groups mean Hb improved by 1g/dL at 8 weeks and by 1.5g/dL by 38 weeks of pregnancy; at 38 weeks only 30% were anaemic. Mean ferritin and folic acid levels improved in both groups. There was a fall in the mean vitamin B12 levels in the group which received 5 mg of folic acid.: With assured supply and supportive supervision, the supplementation achieved substantial reduction in anaemia in both groups. Supplementation with folic acid 5 mg should not be done because it causes a fall in vitamin B12 levels. The reason why addition of vitamin B12 to iron folic acid supplementation did not result in improvement in mean Hb, or vitamin B12 levels has to be investigated.

Surface modification for steel rods based on atmospheric-pressure nitrogen plasma treatment at room temperature

A surface modification process for steel rods based on atmospheric-pressure nitrogen plasma (APP) at room temperature was developed. Steel rods were irradiated with APP generated by dielectric-barrier discharge in a nitrogen atmosphere. Elemental analysis using an electron-probe microanalyzer revealed strong nitrogen signals at the top surface, which suggests the formation of a modified layer due to the generation of excited nitrogen sources by APP. However, no noticeable nitrogen diffusion into the steel was observed. This is because the excited nitrogen sources reacted with elemental iron emitted by APP and nitrides were deposited on the surface of the steel. The proposed APP treatment is a promising approach for modifying the surface of steel rods without heat treatment.

Overview Of Family Informative And Emotional Support About FE Supplementation To Anemia In Adolescent Girls At Stikes Rajekwesi Bojonegoro

Background: Adolescent girls are one group that is prone to suffering from anemia, This is because young women lose iron (Fe) during menstruation so they need more iron (Fe) intake. TTD is given to rheumatism and WUS through supplementation containing at least 60 mg of elemental iron and 400 mcg of folic acid. Objective research is to discribe the informational dan emotional family support to fe suplementation Method: This research uses descriptive research where researchers search description of the object under study. the number of samples was 45 respondents Adolecent girls in High school of science Rajekwesi Bojonegoro, Data collection used a questionnaire instrument and displayed in percentages Result: Research is known that of the 45 respondents, the majority of respondents, namely 22 (48.89%) did not receive enough family informative support is known that of the 45 respondents, the majority of respondents, namely 20 (44.43%) did receive enough family emotional support. Conclusion : Most families provide insufficient informational support to adolescents regarding Fe supplementation in preventing anemia in adolescents, whereas Most families provide sufficient emotional support for Fe supplementation in adolescents at Rajekwesi Bojonegoro High School of Science

Assessing the Protein Quality, In Vitro Intestinal Iron Absorption and Human Faecal Microbiota Impacts of Plant-Based Mince.

The nutritional quality of plant-based meat analogues compared to traditional meat products has been questioned in recent commentary, particularly in relation to protein quality and micronutrient bioavailability. However, the attributes of specific products within this category are unclear. We therefore undertook a comprehensive assessment of the compositional and functional attributes of v2food® (Sydney, Australia) plant-based mince, including an assessment of the effects of reformulation, including the addition of amino acids, ascorbic acid, and different forms of elemental iron. The protein digestibility and protein quality of v2food® plant-based mince were comparable to beef mince in the standardized INFOGEST system, and favourable effects on microbiota composition and short-chain fatty acid (SCFA) production were demonstrated in an in vitro digestion system. The use of ferrous sulphate as an iron source improved in vitro intestinal iron absorption by ~50% in comparison to other forms of iron (p < 0.05), although levels were ~3-fold lower than beef mince, even in the presence of ascorbic acid. In conclusion, the current study identified some favourable nutritional attributes of plant-based v2food® mince, specifically microbiota and SCFA changes, as well as other areas where further reformulation could be considered to further enhance the bioavailability of key nutrients. Further studies to assess the effect of plant-based meat analogues on health measures in vivo will be important to improve knowledge in this area.