View clinical trials related to Anemia, Iron Deficiency.
Filter by:The aim of this pilot study is to investigate an 4 weeks period of oral iron substitution in the course of Patient Blood Management in preparation for orthopedic surgery.
The goal of this clinical research study is to compare Injectafer® (ferric carboxymaltose) with an iron supplement to learn which may be more effective in improving red blood cell counts in patients who have iron-deficiency anemia (a low red blood cell count) because of a gastrointestinal stromal tumor (GIST) and/or systemic therapy. The safety of ferric carboxymaltose will also be studied. This is an investigational study. Ferric carboxymaltose is FDA approved and commercially available to treat iron deficiency anemia; however, it is considered investigational to use in patients who have cancer-related or systemic therapy-related anemia. Up to 50 participants will take part in this study. All will be enrolled at MD Anderson.
The main purpose is to determine whether Triferic, administered orally with Shohl's solution, is safe and effective for the treatment of iron-refractory iron-deficiency anemia (IRIDA).
Treatment Phase I and II Primary Objective: To evaluate the efficacy and safety of FCM (750 mg dose x 2) for treatment of Restless Legs Syndrome (RLS) in patients with iron-deficiency anemia (IDA). Long-Term Extension Phase III Primary Objective: To evaluate the duration of effect of prior FCM treatment and to determine the effectiveness of further iron repletion with FCM when RLS symptoms worsen or reoccur.
When immediate clamping of the umbilical cord (ICC) occurs at birth, 20 to 30% of the fetal-placental blood volume is left behind in the placenta. Preliminary results from our current study comparing effects of ICC versus placental transfusion from delayed cord clamping (DCC) show that infants who have DCC have higher ferritin levels at 4 months of age and more myelin in important regions of the brain. Our objective for this follow-up study is to see if the effects of placental transfusion persist to three and four years of age. The investigators plan to enroll only children who participated in the previous trial (Infant Brain Study/NCT01620008) at birth for assessments at three and four years of age. Assessments include MRIs and neurodevelopmental testing to examine cognitive, motor, visual, and behavioral outcomes. The proposed research addresses two central questions regarding the potential benefits of DCC on brain myelin development in children who were born healthy at term: 1. Does DCC result in increased brain myelin deposition at three and four years of age? and 2) Are DCC, iron stores, and brain myelin content in infancy associated with improved cognitive, motor, and socio-behavioral outcomes at three and four years of age?
The purpose of this study is to investigate the pharmacokinetics of serum iron after a single oral administration of 160 mg (2 tablets of 80 mg) V0355 in women with iron deficiency anaemia.
Anemia of pregnancy is defined as a hemoglobin concentration of less than 11 g/dL in the first and third trimesters, and less than 10.5 g/dL in the second trimester. The rates of anemia are variable and depend largely on preexisting iron stores and supplementation. Estimates from the World Health Organization report that 35% to 75% of pregnant women in developing countries and 18% of women from industrialized countries are anemic. Maternal anemia is associated with an increased risk of preterm birth, low birthweight, and small for gestational age infants. Many studies have shown improvement in these outcomes with maternal iron supplementation in cases of iron-deficiency anemia. Mounting evidence also indicates that maternal iron deficiency in pregnancy reduces fetal iron stores, perhaps well into the first year of life. Anemia in pregnancy can also impact maternal morbidity and mortality. Viteri reported that anemic pregnant women are at greater risk of death during the perinatal period and that anemia is the major contributory or sole cause of death in 20-40% of the 500,000 maternal deaths per year. The need for iron averages close to 1000mg in a typical singleton gestation. This amount considerably exceeds the iron stores of most women and will result in iron-deficiency anemia unless supplemental iron is taken. One problem with iron supplement use is compliance, secondary to adverse effects such as constipation and nausea. Research on the use of cast iron pots in decreasing the incidence of iron-deficiency anemia in non-pregnant women has been promising. These studies have demonstrated good compliance with no reported adverse effects. The aim of our study is to determine if providing anemic women in the first trimester of pregnancy with a cast iron pot will decrease the incidence of anemia later in pregnancy. Hypothesis: Cooking in cast iron pots will increase hematocrit levels in pregnancy.
Anemia in patients with cancer is a common problem associated with an impaired quality of life. Treatment with erythropoiesis stimulating agents (ESA) allows an increase in hemoglobin levels in 40-70% of patients and decreased transfusion requirements. Absolute or functional iron deficiency is also common with about 30% of cancer patients with all histologies combined iron deficiency and anemia. Several studies have shown the benefits of the combination of intravenous iron to erythropoiesis-stimulating agents in improving hemoglobin. However, none of them, to the investigators knowledge, has not been specifically performed on a population of patients with functional iron deficiency. In addition, in clinical practice, this association is not carried out in particular because there is no dosage or consensus sequence for the administration of iron associated with ESAs.
Pre-treatment of patients with erythropoietin subcutaneously and iron supplement intravenously, in order to create a clinical pathway to minimize transfusion of red blood cells in a selected group of cardiac patients with an increased risk for blood transfusions in our cardiac surgery program.
The purpose of this study is to determine if patients with unexplained iron deficiency have underlying diseases processes such as celiac disease. It is hypothesized that selectively screening patients with unexplained iron deficiency will reveal previously undiagnosed etiologies, including celiac disease and other causes of iron malabsorption along with various sources of occult GI blood loss.