View clinical trials related to Iron Deficiency Anemia.
Filter by:- The objective of the study is to know if consumption of an iron fortified fruit juice containing micronized iron pyrophosphate, is useful to increase iron status in women predisposed to iron deficiency anemia. - A secondary objective is to know if consumption of this iron fortified fruit juice modifies bone remodelling.
In preterm infants with birth weights less than 1500 grams, does iron supplementation with 2mg/kg/day in addition to routine feeding with routine iron-fortified milk (formula or fortified mother's milk), as compared to routine iron fortified milk, increase hematocrit at 36 weeks adjusted postmenstrual age (or at discharge if sooner)?
Iron deficiency is a common problem in the world and more so in the developing countries with a prevalence of 64 % (using WHO cut-off values of Hb <11.0 g/dl) among children, 9-36 months of age. The Pediatric population is especially vulnerable to iron deficiency anemia due to low intake of iron rich foods, rapid growth with high demand and losses of iron from body especially with the commonly found worm infestations in children. Mild to moderate iron deficiency is widely prevalent in children and can have several implications including failure to thrive, poor scholastic performance, repeated infections etc. Dietary measures along with therapeutic measures are recommended to combat Iron Deficiency Anemia (IDA). However, iron rich foods alone cannot be relied upon as a sole step to counter IDA. The utensil in which the food is cooked plays a major role in determining the final iron content of food. Several studies have documented that most of the foods (90%) contained significantly more iron when cooked in iron utensils depending on the acidity, moisture content, and cooking time of food.The daily dietary intake could vary from 11 to 6 mg of iron if iron utensil was used for cooking [3]. Food cooked in Aluminum (Al) utensils has a higher Al content which can be detrimental to healthy individuals and particularly to patients with chronic renal failure.In healthy persons, diseases of central nervous system, as well as of hematopoeitic system, skeletal system and respiratory system are described due to excess of Aluminium consumption. Aluminium utensils have fast replaced iron cooking pots from Indian kitchens, hence a study to know the effectiveness of iron cooking pot as a measure to combat IDA is necessary. Studies have shown the utility of cooking food in iron utensil in prevention of IDA but the investigators did not come across a study to document the use of this modality in treatment of IDA in children. Since the investigators anticipate that the improvement of iron status will be a gradual process, so the investigators decided to evaluate the utility of cooking food in iron utensils on iron status in children with non-severe IDA (Hb% < cutoff point for age but > 5 gm %. To test the following hypothesis "use of iron utensils for cooking food will result in improvement in iron status in Pediatric patients with nonsevere Iron Deficiency Anemia."
To evaluate the safety and efficacy of ferumoxytol for the episodic treatment of iron deficiency anemia (IDA).
The purpose of the study is to evaluate the efficacy and safety of intravenous (IV) ferumoxytol compared to IV iron sucrose for the treatment of iron deficiency anemia (IDA).
To evaluate the efficacy and safety of intravenous (IV) ferumoxytol compared with placebo for the treatment of iron deficiency anemia (IDA).
The study is designed to determine the effects of an investigational drug Monofer in subjects with non-dialysis dependent chronic kidney disease (NDD-CKD) subjects and with iron deficiency anaemia (IDA).
Anaemia and functional iron deficiency are common conditions in patients with lymphoid malignancies, conditions which reduce significantly the quality of life and increase morbidity and mortality. Traditionally, Erythropoiesis Stimulating Agents (ESAs) have been used, but recently their use has been shown to have a negative impact on overall survival in different oncology populations. Recently published data suggest that intravenous (IV) iron can be effective in anaemia treatment, even without ESAs. This exploratory study is the first clinical project with ferric carboxymaltose (FCM) in patients with lymphoid malignancies: the data generated may be used for further evaluations of the drug in larger populations. In this study, 1,000 mg of IV iron as FCM will be administered on the same day or within 24 hours before or after chemotherapy treatment. The primary objective is to evaluate the efficacy of FCM in the correction of haemoglobin levels in anaemic subjects with lymphoid malignancies, undergoing chemotherapy. Secondary objectives aim to describe the safety and tolerability of FCM, and the effect of FCM treatment on iron status variables in subjects suffering from lymphoid malignancies.
Military personnel face intense physical and cognitive demands. Diminished iron status affects physiologic responses to these challenges. Both cross-sectional and longitudinal studies indicate a significant decrement in iron status in enlisted female military personnel immediately following basic combat training (BCT). Decrements in iron status are associated with diminished cognitive and physical performance, and may affect body composition. The primary objective of this randomized, placebo controlled study is to assess the utility of an iron-containing food product for maintaining iron status during BCT. This study will provide insight into the utility and efficacy of an iron-containing food product for the maintenance of iron status during military training. Furthermore, it will provide novel scientific data regarding the relationship between iron status and physical and cognitive performance in female Soldiers.
Multicentre, randomised, controlled, 2-arm open-label prospective pilot study to evaluate efficacy and safety of ferric carboxymaltose (FCM) in treatment of anaemia in subjects with multiple myeloma (MM) initiating chemotherapy. The subjects will be screened for eligibility within 4 weeks prior to inclusion and randomised to receive intravenous infusions of FCM or standard care (the subjects may be treated according to the local institutional practice if requiring symptomatic management of anaemia). Thereafter the visits are scheduled at Weeks 0, 2, 4, 6 and 8.