View clinical trials related to Beta-Thalassemia.
Filter by:Hypercoagulable state is well recognized in patients with β-thalassemia. Evidences of hypercoagulability include abnormal expression of phosphatidylserine on red blood cell (rbc) surface and consequent increased platelet activation and thrombin generation. In addition, a reduction of anticoagulants i.e. proteins C and S and antithrombin (AT) was demonstrated. However, coagulable state in patients with β-thalassemia following stem cell transplantation (SCT) has not been characterized.
This purpose of this study is to understand the differences between people who have a good response to deferasirox (exjade) compared to people who have a poor response to this medication when used for transfusion-dependent iron overload. The hypothesis is that patients with poor responses have physiologic barriers to deferasirox that may include absorption, pharmacokinetics of drug metabolism, hepatic clearance and/or genetic factors.
Changes in chelation treatment and transfusion practices, during the past two decades, have dramatically improved the prognosis of thalassemia major patients.Deferiprone (DFP) has been compared with deferoxamine (DFO), using different schedules of treatment, in the majority of the 13 clinical trials published between 1990 and 2008.No statistically significant difference was shown between these two interventions during, at most, 18 months of treatment.Three randomised trials that compared sequential DFP-DFO treatment versus DFO alone reported controversial results but this could be due to small sample sizes and short treatment duration. In fact, no trial with treatment duration longer than 18 months15, which reported on mortality, adverse events, serum ferritin concentrations, as well as costs has so far been published. This long-term sequential DFP-DFO treatment versus DFP alone treatment trial was conducted to assess the impacts of these chelation treatments on serum ferritin concentrations, mortality, adverse events, and costs in thalassemia major patients.
Thalassemia intermedia (TI) is an inherited blood disorder that can cause anemia due to low levels of hemoglobin. Decitabine is a medication that may be effective at increasing hemoglobin levels. This study will evaluate the safety and effectiveness of decitabine at increasing hemoglobin levels in people with TI.
Betathalassemia major is a disease of the blood and bone marrow. You were born with it and it has made you unable to make normal hemoglobin and red cells. You have been receiving red blood cell transfusions all your life. These transfusions do not cure your disease. The problem with transfusions is that they contain a lot of iron. With time iron builds up in your body and will eventually hurt some of your organs . Because of this buildup of iron , you are taking medicine that helps your body get rid of the extra iron. Today, the only other treatment is bone marrow or stem cell transplant. It can only be done when a matched donor is available. This is most often a brother, sister, or parent. Bone marrow transplant may cure betathalassemia major. If you have a transplant and it is successful, you will no longer have the disease. Without a matched sibling or parent, the standard treatment is to keep having transfusions. In the near future, we will be testing a new treatment for making normal hemoglobin and normal red blood cells. We have recreated the healthy hemoglobin gene in a test tube. We are able to use it and put it back into cells. This is called gene therapy. We have been able to put this gene into the stem cells of mice with thalassemia. These mice were cured. We now plan to take that gene and put it into stem cells from people who have betathalassemia major. We will then inject those stem cells back into that person's blood. In general, we can obtain more stem cells from the blood of a person than from the bone marrow . In order to do so, we must give that person a blood growth factor. The growth factor stimulates the bone marrow to make more stem cells. That growth factor is called granulocyte colony stimulating factor (GCSF), or Filgrastim. The purpose of this trial is to find out if the drug GCSF has any side effects on you, and if you will make more stem cells in response to it. This trial is not a gene therapy trial. This trial will not help your thalassemia.
This study will evaluate the safety and efficacy of deferasirox in transfusion dependent Myelodysplastic Syndrome, Beta-thalassaemia major patients with chronic iron overload
The primary purpose of this study is to evaluate the effect of deferasirox on renal hemodynamics by determining glomerular filtration rate (GFR), renal plasma flow (RPF) and filtration fraction (FF).
The purpose of this study is to collect peripheral blood and bone marrow aspirate samples from thalassemia patients in Tehran, in a collaborative effort to develop an erythroid lineage specific chimerism assay applicable to patients with thalassemia. Development of such an assay would be useful both for identification of the exact mutation causing the disease, as well as for providing a direct method to measure and monitor the kinetics of donor erythropoiesis in this patient population following transplant.
B Thalassemia patients developed short stature and low weight in spite no evident endocrine abnormalities. One hypothesis is that they developed some degree of malnutrition,then the purpose of this study is to assess the nutritional status before nutritional intervention and after one year. Siblings of the patients will serve as a control group. BMI, lipid and endocrine profile and leptin levels will be analysed in the study group only.
The purpose of this trial is to evaluate changes in cardiac iron as measured by MRI T2* in beta-thalassemia patients with deferasirox treatment.