View clinical trials related to Anemia.
Filter by:Multiple births in the United States are rapidly increasing in large part due to assisted reproductive technologies. Recent data indicate that multiple births now comprise 3-4.5% of all births in the United States. Pregnant women are at risk for iron (Fe) deficiency anemia yet there are virtually no data on Fe status in women carrying multiples and current recommendations do not necessitate Fe screening among this high risk group. Maternal anemia is known to increase the risk of adverse birth outcomes including preterm birth and low birth weight. Moreover, the developing brain is increasingly recognized to be susceptible to Fe insufficiency in utero and growing data support that suboptimal Fe stores at birth are associated with long-term irreversible cognitive deficits in the offspring. To address these gaps in knowledge the investigators will monitor weight gain, hematological measures, Fe status indicators and serum hepcidin across pregnancy in approximately 120 women carrying twins and triplets. Determinants of maternal anemia will be identified. Neonatal hematological measures will be assessed in cord blood from each neonate at birth for assessment of hematological measures, Fe status and hepcidin. Determinants of neonatal anemia will be identified. Inflammatory markers will be measured in all blood samples and related to outcomes. Stable iron isotopes will be given to a subset of women to assess maternal Fe absorption and fetal Fe uptake.
The purpose of this study is to determine whether Levamisole plus prednisone can further improve the efficacy,extend the remission duration and reduce the dosage of prednisone for newly diagnosed warm antibody autoimmune hemolytic anemia.
Sickle cell disease (SCD) is an inherited blood disorder that causes the red blood cells to change their shape from a round shape to a half-moon/crescent or sickled shape. Sickle-shaped cells can cause problems by getting stuck in blood vessels, blocking blood flow, and can cause inflammation and injury to important body parts. There are no specific treatments that improve this condition and promote blood flow hindered by sickle cell blockages. Another big challenge in managing sickle cell disease is that there are no good measures to determine changes and improvements in blood flow. Contrast-enhanced ultrasound is a technique currently used to detect blood flow in the heart, muscles, and other organs. It is extremely sensitive and can detect blood flow in the smallest of blood vessels. It would be very useful in helping healthcare providers know whether treatment strategies are improving blood flow during sickle cell blockages. The hypothesis is that contrast-enhanced ultrasound will be a feasible tool for determining changes in blood flow of subjects with sickle cell disease.
Background: - Moderate aplastic anemia is a blood disease which may require frequent blood and platelet transfusions. Sometimes patients with this disease can be treated with immunosuppressive drugs. Not all patients respond and not all patients are suitable for this treatment. - Thrombopoietin (TPO) is a protein made by the body. The bone marrow needs TPO to produce platelets. TPO may also be able to stimulate bone marrow stem cells to produce red cells and white cells. However, TPO cannot be given by mouth. This has led researchers to develop the drug eltrombopag, which acts in the same way and can be given by mouth. Eltrombopag has been shown to safely increase platelet numbers in healthy volunteers and in patients with other chronic blood diseases, including severe aplastic anemia. Researchers are interested in looking at whether eltrombopag can be given to people with moderate aplastic anemia and significantly low blood cell counts. Objectives: - To evaluate the safety and effectiveness of eltrombopag in people with moderate aplastic anemia or patients with bone marrow failure and unilineage cytopenia who need treatment for significantly low blood cell counts. Eligibility: - People at least 2 years of age who have moderate aplastic anemia or bone marrow failure and unilineage cytopenia,and significantly low blood cell counts. Design: - Patients will be screened with a physical examination, medical history, blood tests, a bone marrow biopsy, and an eye exam. - Patients will receive eltrombopag by mouth once a day. - Patients will have weekly blood tests to monitor the effectiveness of the treatment and adjust the dose in response to possible side effects. - Patients may continue to take eltrombopag if their platelet count or hemoglobin increases, their requirement for platelet or blood transfusion decreases after 16 to 20 weeks of treatment, and there have been no serious side effects. Access to the drug will continue until the study is closed. Patients will be asked to return for a follow-up visit 6 months after the last dose of medication.
Background: Bone marrow transplantation (BMT), which involves transplanting a donor's marrow stem cells, is capable of curing some congenital anemias. BMT usually involves high-intensity treatment with chemotherapy and radiation to kill abnormal cells, which affects all systems of the body. People with anemias often have damage to other organs such as the kidneys, which can be further damaged by the chemotherapy. Only approximately 20 percent of patients have a full-matched donor, making treatment for many people with anemias unavailable. However, 90 percent of patients may have a half-matched donor, but using a half-matched donor increases the toxicity of BMT. Objectives: To determine if a research BMT with half-matched donor cells, low-intensity radiation, immunosuppressant drugs, and no chemotherapy will be effective in patients with sickle cell disease and Beta-thalassemia. To determine the effectiveness of cyclophosphamide, an immunosuppressant drug, in preventing rejection of the donor cells. Eligibility: Recipients are individuals at least 18 years of age who have been diagnosed with sickle cell disease and Beta-thalassemia, and who have a family member who is a haploidentical (i.e., half match) tissue match. Donors are healthy individuals between the ages of 2 and 80 who are found to be suitable donors. Design: Donors will undergo apheresis, which involves withdrawing blood from one arm vein, passing it through a machine that removes bone marrow stem cells, and returning the remaining blood through the vein in the other arm. Donors will receive a drug that causes the stem cells to be released into the bloodstream prior to the apheresis procedure. Recipients will undergo routine physical and laboratory examinations, including bone marrow sampling at the beginning of the study. After transplantation, physical and laboratory examinations will occur on a weekly or twice weekly basis at the outpatient clinic. Recipients will be examined every 6 months starting 100 days posttransplant for 5 years. Recipients will receive low-dose radiation in two treatments 1 and 2 days before the transplant. They will also be given immunosuppressant therapy with alemtuzumab and sirolimus. Another immunosuppressant drug, cyclophosphamide, will be given in the future as needed to subsets of the recipients to prevent rejection of donor cells. Recipients will receive the donor stem cells through a previously inserted central line. The process takes up to 8 hours. Recipients will receive blood transfusions as necessary to prevent anemia and bleeding during the posttransplant period. They may also receive intravenous antibiotics to prevent infection.
This randomized phase III trial studies lenalidomide to see how well it works with or without epoetin alfa in treating patients with myelodysplastic syndrome and anemia. Lenalidomide may stop the growth of myelodysplastic syndrome by blocking blood flow to the cells. Colony stimulating factors, such as epoetin alfa, may increase the number of immune cells found in bone marrow or peripheral blood. It is not yet known whether lenalidomide is more effective with or without epoetin alfa in treating patients with myelodysplastic syndrome and anemia.
Anti-thymocyte globulin (ATG) has been used in severe aplastic anemia as a part of the conditioning regimen. Among the many kinds of ATG preparations, thymoglobulin had been found to be more effective in preventing GVHD and rejection of organ transplants. As the fludarabine based conditioning regimens without total body irradiation have been reported to be promising for BMT/PBSCT from alternative donors in SAA, thymoglobulin was added to fludarabine and cyclophosphamide conditioning to reduce GVHD and to allow good engraftment in UBMT/UPBSCT.
This is a pilot study designed to assess the safety of placing an infant on the mother's abdomen at the time of delivery, prior to clamping the umbilical cord and the effect of placing the infant on the mother's abdomen on the infant's iron stores. It is possible that placing the infant on the mother's abdomen (above the placenta) may lower the infant's iron stores during early infancy.
RATIONALE: Epoetin alfa and epoetin beta may cause the body to make more red blood cells. Red blood cells contain iron that is needed to carry oxygen to the tissues. It is not yet known whether epoetin alfa or epoetin beta are more effective when given with or without iron infusion in treating anemia in patients with cancer. PURPOSE: This randomized phase III trial is studying epoetin alfa or epoetin beta to compare how well they work with or without iron infusion in treating anemia in patients with cancer.
The purpose of this study is - To evaluate the efficacy of association of Erythropoetin (Neorecormon) and ATRA in patients with low risk myelodysplastic syndromes - To evaluate the tolerance of this treatment