View clinical trials related to Iron Deficiency.
Filter by:Iron is a nutritionally essential mineral required for optimal physical and cognitive performance. Endurance exercise often leads to declines in iron status; however, the reason for the decline is not known. The primary objective of the proposed study is to determine the effects of an acute bout of strenuous endurance exercise on iron absorption and status and markers of inflammation in human volunteers. The investigators hypothesize that an acute bout of strenuous endurance exercise, compared to rest, will reduce iron absorption, resulting in diminished iron status, and that reduced iron absorption will be negatively associated with markers of inflammation. A secondary objective is to monitor iron status throughout a season of competition.
This study aimed to determine the effect of an integrated educational session on enhancing compliance behavior among pregnant women with iron deficiency anemia.The anemic pregnant women in the study group received an integrated health education in one session. While pregnant women who were allocated to the control group received the routine antenatal care and follow up.
Preoperative anaemia is common in surgery, with a prevalence between 10 and 50 %, and is an independent risk factor for morbidity and mortality. Anaemia is mostly the result of an inadequate erythropoiesis due to iron deficiency, lack of vitamin B12 or folate, and bone marrow diseases. Among the elderly, renal disease and chronic inflammation account for approximately one-third of all anaemia incidences. The aim of this study is to provide detailed data about the prevalence of preoperative deficiencies in iron, vitamin B12 and/or folate and the presence of underlying renal or chronic diseases in patients undergoing major surgery.
Anemia affects between 20 and 50 % of women in the postpartum period. It is associated with several adverse health consequences, such as impaired physical work capacity, deficits in cognitive function and mood, reduced immune function and reduced duration of breastfeeding. Postpartum anemia has also been shown to be a major risk factor for postpartum depression and to significantly disrupt maternal-infant interactions. Iron deficiency is the principal cause of anemia after delivery. Oral iron supplementation with ferrous sulfate has been considered the standard of care with blood transfusion reserved for more severe or symptomatic cases. In the last decade, two new intravenous iron compounds have been registered for clinical use: ferric carboxymaltose (Iroprem®) and iron isomaltoside (Monofer®). No study to date compared efficacy of iron carboxymaltose to iron isomaltoside for treatment of postpartum anemia. The objective of the study is to compare efficacy of intravenous iron carboxymaltose to intravenous iron isomaltoside and oral iron sulphate for treatment of postpartum anemia.
The study aims at assessing the iron (Fe) bioavailability from a newly developed iron compound - an iron fatty acid complex. The iron from the compound is hypothesized to have a higher absorption rate than commonly available supplements in the market. The study is a cross over, human iron isotope study with three arms where participants consume the experimental dietary products in a randomized fashion. The study duration is of 45 days - from the day of the capsule administration till the last blood sampling point
Hypothesis: Synergistic effect of pre-biotics and iron fortificants will enhance the bioavailability of iron; thereby improving the body iron reserves. A double blind, randomized controlled trail will be conducted on iron deficient female adults (age 18-25 years) in order to determine the synergistic effect of pre-biotics and iron fortificants in anemic human subjects. 75 iron deficient females will be randomly divided into 5 groups (D0, D1, D2, D3 and D4), each having 15 study subjects and will be given varying doses of FeSO4 and NaFeEDTA and Inulin and GOS. Blood samples will be collected from overnight fasted women from each group on monthly basis up to three months. Various biomarkers for iron absorption, LFTs, RFTs, and Immunoglobulins will be estimated.
The ultimate goal of this research is to develop a means to safely administer iron supplements to infants in settings with a high infection burden. The investigators will conduct a randomized clinical trial in 6 month-old Kenyan infants in conjunction with mechanistic microbiota studies using a novel long-term continuous polyfermenter platform inoculated with immobilized fecal microbiota from Kenyan infants. Oral iron supplements are associated with a significant 15% increase in the rate of diarrhea in children in malaria-endemic areas. The most recent studies have shown that prebiotic galacto-oligosaccharides (GOS) can provide partial amelioration of the adverse effects of iron supplementation by enhancing the growth of barrier populations of bifidobacteria and lactobacilli. The investigators hypothesize that the combination of GOS with bovine lactoferrin, adding iron sequestration as well as antimicrobial and immunomodulatory activities, will provide almost complete protection against the adverse effects of added iron on the intestinal microbiota.
To combat iron deficiency in Low and Middle-Income Countries, sustainable food-based solutions have to be implemented to serve populations, not only individuals. One solution is the introduction of iron biofortified staple crops on market level. Before market level introduction, the bioavailability of iron in the new biofortified Orange Fleshed Sweet Potato (OFSP) breed needs to be assessed. In this study the investigator compares the fractional and total iron absorption after extrinsic stable isotope labelling of the new biofortified high iron OFSP variety and a normal market level OFSP variety. The study is conducted in Malawian women of reproductive age with marginal iron status.
The objective of this cluster-randomized efficacy feeding trial was to determine the effects of consuming iron-biofortified beans (Fe-Beans) on iron status in children, compared to control beans (Control-Beans). A cluster-randomized trial of biofortified beans (Phaseolus vulgaris L), bred to enhance iron content, was conducted for 6 months.
The first 1,000 days of life are critical periods for brain development. Proper nutrition lays the foundation for optimal growth, health, and neurodevelopment across the lifespan. Poor nutrition in this vulnerable period has irreversible consequences, including stunting, susceptibility to sickness, reduced school performance and productivity, and impaired intellectual and social development. UNICEF reported in 2018 that among the low cost flat residents in urban areas of the Klang Valley, 15% of children under 5 years old were stunted, 22% underweight, and 23% either overweight or obese. Will a micronutrient supplementation program improve the growth and iron status of children aged 6 months to 5 years staying in Lembah Subang? Children will be randomized into treatment and control groups. Treatment groups will receive dietary micronutrient supplementation packets. Measurements of height and weight and iron status will be taken at baseline and 4 months later.