View clinical trials related to Hemoglobinopathies.
Filter by:This study will evaluate the change in cardiac iron load over a 53 week period measured by MRI in 2 cohorts of patients
Human participants affected with sickle cell disease or thalassemia will donate bone marrow for use in experimental laboratory models to study potential new treatments. This is an observational study using bone marrow from human participants. The investigators will use sickle cell and thalassemia mouse models to observe and evaluate the possibility of correcting these disorders through genetic alterations or drug treatment.
Hgb C is an hemoglobinopathy quite rare in Israel. The clinical status of patients that are diagnosed as homozygous to this disease is quite benign but not study in large groups. Also the characteristics of carriers and the incidence in northern Israel were a large arab population lives, was not study. The results of this study can be useful for screening purpose in a area were another hemoglobinopathies are frequent.
Patients diagnosed as having hemoglobinopathies are exposed to serious bacterial infections, principally those patients that underwent splenectomy. Since the introduction of anti pneumococcal vaccine the incidence decreased significantly but other bacteria besides encapsulated bacteria takes place as principal cause of invasive infections. The purpose of this study is to analyse in a retrospective study the incidence of those infections in a group of patients suffering from thalassemia and sickle cell anemia treated in our clinic.
This study tests the clinical outcomes of one of two preparative regimens (determined by available donor source) in patients with non-malignant hemoglobinopathies. The researchers hypothesize that these regimens will have a positive effect on post transplant engraftment and the incidence of graft-versus-host-disease. Regimen A2 has replaced Regimen A in this study. Two patients were treated on Regimen A but did not have evidence of initial engraftment thus triggering the stopping rule for that arm of this study.
The purpose of this study is to determine if treatment with reduced-dose busulfex, fludarabine and alemtuzumab (CAMPATH) followed by sten cell infusion will allow for donor stem cells to grow in patients with hemoglobinopathies bone marrow and restore circulating blood counts. In addition the incidence and severity of side effects and of graft vs. host disease (GVHD) will be monitored.
RATIONALE: Although used primarily to treat malignant disorders of the blood, allogeneic stem cell transplantation can also cure a variety of non-cancerous, inherited or acquired disorders of the blood. Unfortunately, the conventional approach to allogeneic stem cell transplantation is a risky procedure. For some non-cancerous conditions, the risks of this procedure outweigh the potential benefits. This protocol is designed to test a new approach to allogeneic stem cell transplantation. It is hoped that this approach will be better suited for patients with non-cancerous blood and bone marrow disorders.
This 12-month study will evaluate the safety and effectiveness of hydroxyurea in treating beta-thalassemia, a type of anemia caused by defective hemoglobin (the oxygen-carrying pigment in blood). Hemoglobin is composed of two protein chains-alpha globin chains and beta globin chains; patients with beta-thalassemia do not make beta globin. Patients often require frequent red blood cell transfusions. This leads to iron overload, which, in turn, requires iron chelation therapy (removal of iron from the blood). Some drugs, including hydroxyurea, can stimulate production of a third type of protein chain called gamma chains. In the womb, the fetus makes this type of protein instead of beta globin. It is not until after birth, when the fetus no longer produces gamma globin that the beta globin deficiency becomes apparent. Gamma chain synthesis improves hemoglobin and red blood cell production, correcting the anemia. This study will determine if and at what dose hydroxyurea treatment reduces patients' need for red blood cell transfusions and whether certain factors might predict which patients are likely benefit from this treatment. Patients 15 years and older with moderately severe beta-thalassemia may be eligible for this study. Participants will take hydroxyurea daily at a dose calculated according to the patient's body size. Blood will be drawn weekly to measure blood cell and platelet counts. The drug dosage may be increased after 12 weeks of treatment and again after 24 weeks if the white cell and platelet counts remain stable. Patients who respond dramatically to treatment may continue to receive hydroxyurea for up to 3 years.
To determine whether hydroxyurea prevents the onset of chronic end organ damage in young children with sickle cell anemia.
To determine whether deferoxamine prevented the complications of transfusional iron overload.