View clinical trials related to Anemia.
Filter by:This 4-week prospective double blind anaemia management study evaluates the effect of high-dose postoperative intravenous iron vs placebo for patients after colorectal cancer surgery. Patients with preoperative levels of haemoglobin 90-120 g/l will be randomly assigned to receive either 1 g of intravenous iron or equal amount of saline postoperatively. Comparison will be based on the levels of haemoglobin, ferritin and other haematological parameters over time and profile of clinical recovery. The primary end point is that iron isomaltoside given postoperatively is superior to placebo in terms of increase and stability of levels of haemoglobin and other haematological parameters.
The purpose of this study is to determine the efficacy of Ferrous Sulphate (FS) tablets in improving iron stores and functional capacity in HF patients with Iron Deficiency Anemia (IDA).
The purpose of this study was to evaluate the efficacy and safety of eltrombopag in combination with cyclosporine alone as first-line therapy on overall hematologic response
Mechanisms by which to reduce exposure to allogeneic blood are of financial and clinical benefit in the hip fracture population. Tranexamic acid (TXA) is an inexpensive medication with low complication risk. Its use in the hip fracture population is unproven. The purpose of this study is to evaluate the efficacy and safety of topical tranexamic acid in reduction of peri-operative blood loss in hip fracture surgery.
Infants and young children in sub-Saharan Africa have high rates of iron deficiency anemia (IDA), which adversely affects their growth and cognitive development. In-home iron fortification of complementary foods using micronutrient powders (MNPs) reduces risk for IDA by ensuring that the iron needs of infants and young children are met without changing their traditional diet. In order to optimize iron absorption timing of MNP consumption might as well be important. This is because hepcidin, a key regulator of systemic iron balance, shows a circadian increase that may influence morning versus afternoon iron absorption from the MNP. Furthermore, a single dose of iron can increase hepcidin levels and potentially inhibit iron absorption from a second dose, consumed close in time to the first dose. To determine the difference between i) morning versus afternoon iron absorption and ii) consecutive versus alternate day iron absorption, investigators will enrol 20 infants from Kwale County aged 6-14 months and conduct two studies. In study 1, infants will consume 2 test meals consisting of maize porridge containing isotopically labelled Ferrous Sulphate in the morning and afternoon on 2 days. In study 2, infants will consume 3 test meals consisting of maize porridge containing isotopically labelled Ferrous Sulphate on two consecutive days and 1 alternate day. In both studies, fourteen days after the last test meal administration, a whole blood sample will be collected by venipuncture for iron isotopic analysis. Iron and inflammation status parameter will be determined at baseline and endpoint. Hepcidin concentrations will be measured before the morning and afternoon meals (study 1) and after second consecutive meal (study 2). Knowing the effect of time on the expected iron absorption will inform decisions on the ideal timing of MNP to cover the infant's requirement for absorbed iron.
The objective of this study is to evaluate the efficacy and safety of ASP1517 when converted from recombinant human erythropoietin (rHuEPO) or darbepoetin alfa (DA), compared to DA in the treatment of anemia in non-dialysis chronic kidney disease patients. Another uncontrolled cohort will be included to evaluate the efficacy and safety of ASP1517 in patients converted from epoetin beta pegol (CERA). This study will also assess the safety/efficacy of long term treatment of ASP1517 (52 weeks).
The purpose of this study is to compare two red blood cell transfusion strategies (liberal and restrictive) for patients who have had an acute myocardial infarction and are anemic.
Background: People with severe aplastic anemia (SAA) do not make enough red and white blood cells, and/or platelets. Their body's immune system stops the bone marrow from making these cells. The treatment cyclosporine leads to better blood counts. But when this treatment is stopped, the disease may return in 1 in 3 people. The drug sirolimus may help by suppressing the immune system. Objective: To evaluate and compare the usefulness of sirolimus in preventing aplastic anemia from returning after cyclosporine is stopped, compared with stopping cyclosporine alone. Eligibility: People ages 2 and older with SAA who: Have responded to immunosuppressive therapy that includes cyclosporine, and continue to take cyclosporine Are not taking drugs with hematologic effects Design: Participants will be screened with: Medical history Physical exam Blood and urine tests Bone marrow biopsy: The area above the hipbone will be numbed. A thin needle will remove some bone marrow. Participants will be randomly assigned to a group. All will stop cyclosporine. Group 1 will take sirolimus by mouth at the same time each day for 3 months with close monitoring. Group 2 will not receive the study drug but will be monitored closely. Participants will have clinical tests for the first 3 months: Weekly blood test Monthly fasting blood test For group 1, measurements of sirolimus in the blood every 1 2 weeks Participants will have clinic visits at 3 months, 12 months, and annually for 5 years after the study starts. They may have another visit if their SAA returns. These will include: Blood and urine tests Bone marrow biopsy
The purpose of this study is to determine if there is a difference in outcomes between liberal transfusion (transfusing when hemoglobin drops below a set higher value number) and conservative transfusion (transfusing when hemoglobin drops below a set lower value number).
Fractures of the upper end of the femur, called commonly "Hip fractures" are very common, with an incidence of approximately 1.6 million cases per year worldwide. This high incidence is anticipated to grow rapidly in the next decades, driven by population aging. Anemia is very frequent on admission for hip fracture, concerning up to 45% of the patients, with a mean hemoglobin level of 12.5±0.2 g/dl. This high prevalence of anemia together with blood losses, secondary to the fracture itself and surgery are responsible for a high rate of blood transfusion (approximately 40-50% of the patients). However, both anemia and blood transfusion are associated with poor outcome, including increased mortality, length of stay, infection rate etc. In addition, blood is a scarce and expensive resource and its use should be limited as much as possible. There is therefore a need to treat this anemia and/or to prevent the decrease in hemoglobin. For this purpose, intravenous iron has been proposed. Some non-randomized, mainly retrospective, studies have shown that perioperative intravenous iron was able to reduce blood transfusion (i.e. the number of patients transfused and the number of units per patient). Another way to reduce blood transfusion would be to reduce perioperative bleeding. Tranexamic acid has proven to be efficient for this purpose both in trauma patients and in elective surgery patients.The interest for perioperative blood management has recently increased thanks to better recognition of the adverse effects of blood transfusion, better understanding of iron metabolism, new intravenous iron drugs and a renewed interest in former medications (i.e. tranexamic acid). HiFIT study therefore propose a 2X2 factorial design for this study in order to answer questions vis-à-vis the interest of iron and tranexamic acid to reduce blood transfusion in hip fracture patients.