View clinical trials related to Anemia, Iron Deficiency.
Filter by:In this study, iron- and zinc-biofortified pearl millet will be fed to young children in Mumbai, Maharashtra, India over a period of nine months to measure growth and immune function in comparison to children receiving non-biofortified pearl millet.
Investigation whether a switch from oral iron to intravenous ferric carboxymaltose can reduce dose requirements of erythropoiesis-stimulating agents (ESA) and improve Hb levels and iron status in adult patients with non-dialysis-dependent CKD who were on a stable ESA/oral iron schedule for 6 months prior to enrolment.
The investigators plan a study to randomize 540 children in Nepal to early (≤30 seconds) or late (≥180 seconds) clamping of the umbilical cord at birth. The children will be followed with blood tests (hemoglobin and ferritin) at 8 and 12 months of age, and their development is evaluated by questionnaire (Ages & Stages Questionnaire ) at 12 months of age, and by testing (Bayley -III) at 18-24 months of age. By implementing the project in a country with a high proportion of anemia at one year of age (about 75%), we can reduce the number of children in the study and still achieve significant results. Iron deficiency is a global health problem and causes anemia and impaired neurodevelopment in children. Anemia is estimated by WHO to occur among 25% of all children before school age, and the corresponding figure in Europe is 3-9 %. By waiting 3 minutes to clamp the cord after birth, a large part of the child's blood volume remaining in the placenta is transfused over to the child's body. Research shows that the neonate's blood volume can increase by about 40% and this blood contains 3 to 4 months' supply of iron. In Sweden, we have shown that late clamping of the umbilical cord could reduce iron deficiency in children at four months of age by 90%. Globally, most countries practice early cord clamping and the child is deprived of the placental blood transfusion. The hypothesis of the study is that by delaying the clamping of the umbilical cord, anemia at 8 and 12 months will be reduced an this in turn will be beneficial for the childrens development. The project will be implemented at Paropakar Maternity and Women 's Hospital, Kathmandu. It hosts approximately 23,000 births annually.
According to a national study in 2002, the prevalence of ID, IDA, and ID+IDA among pregnant women in China was 42.6%, 9.1%, and 61.7% respectively. A similar study in Hebei province at the same time showed that the prevalence of IDA among pregnant and lactating mothers was 46.39% and 47.21% respectively. There was a significant difference between urban and rural areas. Women living in rural areas had higher chances of having IDA (p<0.01). WHO and UNICEF recommend taking iron, folic acid and multiple micronutrients during pregnancy. However, we don't know much about their influence on maternal and infant health and their clinical effectiveness. Health Department of China recommends taking 400ug folic acid before pregnancy and during early pregnancy. But for various reasons, not all expecting mothers take this advice. Besides, we don't have a national level technical standard of how to take nutrition supplements during pregnancy. Therefore, it's crucial for us to study if iron/folic acid or folic acid only can prevent perinatal complications, as well as their influences on infant and toddler health. The purpose of this study is to test whether taking iron/folic acid and folic acid only from early pregnancy until delivery will lower the chances of pregnancy complications, and to see how supplements affect gestation results. As well, it will evaluate a) whether taking iron supplement during pregnancy can prevent IDA during pregnancy; b) whether taking iron supplement can increase mother and fetus iron storage; and c) how mother's iron level affects newborn's iron level. We hope to understand nutrition conditions during pregnancy and investigate the relations between pregnancy diet and complications during pregnancy, weight gain during pregnancy, and newborn birth weight. We will evaluate the influence of taking iron and folic acid during pregnancy on the health of infants and toddlers.
Iron deficiency (ID) with or without anaemia (IDA) is a major public health problem worldwide, especially in women of reproductive age and young children. Iron supplementation is an effective strategy to prevent and treat ID and IDA. There is a lack of data on iron bioavailability from different supplementation regimens and how to optimize bioavailability in a cost-effective and patient-friendly way. The daily supplementation with 1-4 mg Fe/kg body weight for 3 months is reported to be the most effective method to rapidly increase iron stores in subjects with ID and IDA. In IDA patients, medical practitioners often prescribe supplementation regimens with 120 mg iron per day split into 2 doses with 60 mg iron, arguing that the splitting would increase iron bioavailability compared with one single high dose. However, there is no scientific evidence for this assumption; to the contrary, results from a recent study suggest that iron bioavailability from a second supplementation dose of iron after a first supplementation dose of iron is impaired due to increased hepcidin levels. To address this bioavailability issue, the present study will determine iron absorption from 120 mg iron administered for 3 consecutive days and compare it with that from 2 doses of 60 mg iron per day administered for 3 consecutive days. The investigators hypothesize that the iron bioavailability from the single daily dose will be lower than that from the 2 doses. By measuring also hepcidin, this study will provide important insights on the iron bioavailability from a single dose of iron and on the same amount iron split into two doses (b.i.d. administration).
Ferric pyrophosphate (FePP) is a water-insoluble, food grade iron compound used to fortify rice, infant cereals and chocolate-drink powders as it causes no organoleptic changes to the food vehicle. However, it is only of low absorption in man. Therefore, strategies to enhance the bioavailability of FePP, such as adding citrate or decreasing the particle size of FePP need to be investigated. The primary objectives of the present study are: 1) to test whether the presence of citrate in iron fortified rice with FePP results in higher iron bioavailability, and 2) to test whether the presence of citrate in the rice grain during the extrusion and cooking process results in higher iron bioavailability compared with iron-fortified rice where citrate has been added shortly before consumption. As a secondary objective the investigators will compare the absorption from different FePP combinations with a reference meal fortified with ferrous sulphate. The investigator hypothesize that the addition of citrate enhances iron absorption and that the positive effect is greater when the citrate is added during the extrusion. The investigator will conduct an iron absorption study in 20 women, 18 to 45 years old to evaluate the iron bioavailability from extruded rice fortified with 1) regular FePP, 2) regular FePP and citrate (both extruded into the rice kernels), 3) regular FePP and citrate added at the time of consumption, and 4) from normal rice fortified with ferrous sulphate at the time of consumption. Iron absorption will be measured as erythrocyte incorporation of stable iron isotopes at least 14 days after the administration of the isotopically labelled test meals. The iron absorption from the different meals within the same participant will be compared by repeated-measures ANOVA followed by a Bonferroni corrected pairwise comparison. The present study will provide important data where iron bioavailability from rice is accurately and directly measured using stable isotopic labels as absorption tracers. This direct data can be used to base decisions on the level of fortification, can potentially reduce costs and optimize iron delivery to the targeted population in iron fortification programs.
Iron deficiency (ID) with or without anaemia (IDA) is a major public health problem worldwide, especially in women of reproductive age and young children. Iron supplementation is an effective strategy to prevent and treat ID and IDA. There is a lack of data on iron bioavailability from different supplementation regimens and how to optimize bioavailability in a cost-effective and patient-friendly way. The present study will test whether the fractional and total iron absorption from iron supplements (60 mg) administered daily for 14 days differs from that of iron supplements (60 mg) administered every second day for 28 days. The prevailing serum hepcidin concentration (SHep) is the major determinant of iron absorption and erythrocyte iron utilization. Therefore we will monitor SHep during the whole supplementation period. We hypothesize that the fractional and total iron absorption from the daily administration of 60 mg is lower than that from the administration on every second day due to increased SHep levels when supplements are administered daily. The study will provide important insights about the optimization of iron bioavailability from different supplementation regimens including the performance of SHep, a key regulator of human iron metabolism.
The safety, tolerability, pharmacokinetics and pharmacodynamics of Z-213 will be investigated in patients with iron-deficiency anemia after administration of a single dose (100 mg, 500 mg, 800 mg or 1,000 mg iron).
The purpose of this study is to survey iron storage levels and their prognostic consequences in the context of acute inflammation. The impact of iron substitution in inflammatory states is controversial. We hypothesize that iron substitution may influence outcome in patients in inflammatory states.
The objective of this study was to evaluate the efficacy of iron bio-fortified pearl millet in improving iron status in adolescents in India.