View clinical trials related to Iron Deficiency.
Filter by:The hypothesis to be tested is whether treatment with intravenous iron (ferric carboxymaltose) will improve left-ventricular ejection fraction in patients with heart failure and iron deficiency as determined by cardiac magnetic resonance imaging.
2-3% of the population participates in blood donation programmes. Traditionally, safety issues in transfusion medicine have been concentrating on product and recipient safety. Extensive efforts including strict donor inclusion criteria and testing for important transmissible infections have substantially improved product quality. One of the most common risks of blood donation is iatrogenic iron deficiency. It may affect up to 30% of regular blood donors because each whole blood donation causes a loss of 200 to 250 mg of iron. Although this has been known for at least 50 years, iron deficiency is not routinely assessed or treated in this population. Contributing factors include donation frequency, lower weight and female gender. Women have lower iron reserves and in premenopausal women, the daily required amount of iron is higher than in men. Besides anemia, iron deficiency may lead to fatigue and impaired cognitive and physical performance. Oral iron substitution is often associated with significant gastrointestinal side effects leading to poor compliance. Today, intravenous (iv.) iron preparations are well tolerated and allow the application of a large dose of 1000mg in one visit. Our hypothesis is that in blood donors with iron deficiency intravenous iron is feasible and preferable to oral iron because of its high efficacy and optimal compliance with a similar safety profile that has been extensively studied in other populations than blood donors.
Oral iron supplementation (OIS) is a widely-used strategy to treat iron deficiency anemia. However, absorption of OIS is often low and response is variable. To overcome this, large doses are given but this may reduce compliance due to gastric irritation. Thus, OIS doses should be low, while maximizing absorption. The prevailing serum hepcidin concentration (SHep) is the major determinant of iron absorption and erythrocyte iron utilization. Based on limited data in humans, SHep can be increased by a single OIS dose but the duration of the increase is uncertain: it may be in the range of 24 to 96 hr. Also, there are few data on how the increase in SHep determines the absorption of further doses of oral iron. Is there a threshold SHep at which subsequent iron absorption is sharply reduced? Better understanding of this relationship would be valuable to design more effective and safer OIS regimens. Objectives: 1) Determine the duration and magnitude of the Fe induced Hepcidin rise form a single iron dose while determining its bioavailability and 2) Compare the bioavailability of a single dose to iron supplements consumed one after the other (two dosages).
Complementary feeding diet in developing countries cannot meet iron requirements of infants and young children. Iron supplementation is mostly used to treat iron deficiency whereas iron fortification is cost-effective strategy to control iron deficiency in developing countries. However, a recent study showed that iron fortification imposed negative impact on gut microbiota by increasing colonization of gut pathogen over beneficial bacteria. Gut microbiota plays essential roles in nutrient absorption, vitamin synthesis; intestinal mucosal barrier function and pathogen displacement. Iron is essential for growth and virulence of most gut pathogens and so iron supplementation might have similar negative impact on gut microbiota composition. Therefore, nutrition interventions would not be justified by assessing micronutrient status alone ignoring any possible deterioration of gut microbiota. The investigators hypothesized that optimizing the nutrient intake from locally available foods according to complementary feeding recommendation (CFR) can improve the iron status of these children while maintaining healthy gut microbiota composition. A randomized, placebo-controlled, community-based, intervention trial will be conducted in Ayeyarwady division of Myanmar where childhood undernutrition is prevalent. The aim of this study is to compare the effect of optimized CFR to iron supplementation on iron status and gut microbiota composition of 1-2years old Myanmar children. Cluster randomization will be done at the village level to randomly allocate the villages into CFR or non-CFR villages. Individual randomization will be done to randomly assign each child into iron or placebo syrup so that individual children will receive one of 4 treatment groups (CFR, Fe, CFR + Fe, and Control) for a period of 24 weeks. Based on expected between-groups difference of hemoglobin 5g/L, at 80% power, 5% level of significance, 15% drop-out rate; after taking into account the cluster effect; required sample will be 109 per group (total = 436). A sub-sample of 15 children from each group will be randomly selected for gut microbiota assessment (total = 60). Blood samples for iron status and stool samples for gut microbiota assessment will be collected at baseline and endline. Anthropometric measurements, usual intake of iron and infectious disease morbidity will also be assessed.
The purpose of this study is to determine whether iron therapy given to iron-deficient Ugandan children with moderate-to-severe anemia and clinical malaria is better absorbed and incorporated into red blood cells if it is given concurrently with antimalarial treatment on Day 0 (immediate group) or 4 weeks after antimalarial treatment on Day 28 (delayed group). Use of iron stable isotopes 57Fe and 58Fe will permit measurement of red blood cell iron incorporation on Day 0 and Day 28 in all children. The investigators hypothesize that red cell iron incorporation at the time of initial supplement administration will be greater in children receiving delayed vs. immediate iron (Aim 1), and children in the delayed group will also have greater hematological recovery on Day 56 than children in the immediate group (Aim 2).
Iron deficiency and vitamin D deficiencies are common in menstruating women. The present assay studied the influence of the consumption of a flavoured skimmed milk with iron (iron pyrophosphate) or with iron and vitamin D3 in iron deficient women on: - Iron metabolism - Biomarkers of bone remodelling - Cardiovascular risk indexes
The purpose of this study is to determine if KRX-0502 (ferric citrate) is a safe and effective treatment for the management of serum phosphorus levels and iron deficiency in anemic chronic kidney disease (CKD) stage 3-5 subjects not on dialysis. Total length of treatment is approximately 12 weeks.
The study addresses treatment of iron deficiency, the most common nutritional deficiency that infants and young children encounter. With the knowledge that iron deficiency may irreversibly affect a baby's long-term neurodevelopment and behavior, the investigators are offering free screening blood draws at Children's Hospital Colorado to older babies and toddlers (9-24 months old). If their blood results indicate a serum ferritin of ≤ 15 micrograms/dL without the presence of an elevated C-reactive protein (CRP), they will be invited to continue in the intervention portion of the study, where they will receive iron supplements as well as vitamin E (or placebo) for an eight week treatment period. The rationale for the study is to test whether addition of Vitamin E, an antioxidant and anti-inflammatory agent, improves the treatment response to supplemental iron.
Anemia is one of the most common health problems all over the world with around half of preschool-aged children (<5 years) and one third of women affected. Nutritional iron deficiency is a major reason for anemia in infants, young children and women of reproductive age who have especially high iron requirements that are difficult to meet in regions where the major diet is based on plant foods. So in Ethiopia, where injera is the major staple food. Despite high levels of iron in tef, the most favored cereal for injera, the iron bioavailability is assumed to be very low due to the high levels of phytic acid found in tef. The aim of this study is to determine the iron bioavailability in women from injera prepared in a traditional way and investigate the potential of methods to improve the bioavaiability. Therefore, a 50/50 and a 25/75 blend of FeSO4 and NaFeEDTA for iron fortification will be evaluated. Further the potential positive impact of phytic acid reduction on the iron bioavailability will be investigated. The phytic acid reduction will be achieved in two different ways, by addition of whole grain wheat as source of phytase and addition of a commercially available microbial phytase. The studies will be conducted in healthy women using stable isotope techniques.
The study evaluates the efficacy of providing weekly iron-folate (IFA) supplements or Multiple Micronutrient (MM) supplements before pregnancy in increasing birth weight and duration of gestation as well as maternal and infant iron status.