Active clinical trials for "beta-Thalassemia"

The purpose of this study is to determine the efficacy of antioxidant cocktails on the alleviation of oxidative stress and iron overload in beta-thalassemia/Hb E patients.

The purpose of this study is to evaluate the effects of ACE-536 in patients with beta-thalassemia.

This is a single-site, randomized, placebo-controlled, double blind phase 2b clinical trial. Patients with Thalassemia will participate in this study and will be treated with Denosumab or placebo. The effect of Denosumab on lumbar spine BMD in patients with Thalassemia Major and Osteoporosis will be evaluated as compared with control (placebo) at 12 months.

This is a single-arm, multi-site, single-dose, Phase 3 study in 23 participants less than or equal to (<=) 50 years of age with transfusion-dependent β-thalassemia (TDT), also known as β-thalassemia major, who do not have a β0 mutation at both alleles of the hemoglobin β (HBB) gene. The study will evaluate the efficacy and safety of autologous hematopoietic stem cell transplantation (HSCT) using LentiGlobin BB305 Drug Product.

The purpose of this research study is to study the safety of increasing doses of FBS0701, and to see how quickly the study medication is absorbed and how quickly it disappears from the bloodstream. FBS0701 is a new, oral iron chelator - a medication taken by mouth that increases the body's elimination of iron. Iron chelators are used in patients who develop iron overload from their transfusions. Four increasing doses of FBS0701 will be tested during this study. The study will start with the lowest dose given to 4 patients (3 mg/kg/day. The next group of 4 patients will receive the next high dose (8mg/kg/day only after the results of the first 4 patients are examined and it is determined safe to continue. Participating patients will take the study medication for 7 days and be followed for 28 days after their last dose to determine if they have any reactions to the study medication - therefore a total of 35 days on study. Patients will need to give up to 17 blood samples over the screening period and first 15 days of the study (a total of about 9 tablespoons). Patients will not need to stay overnight in the clinic but will need to visit the clinic 10 times for screening and on-study visits over the 35 days. Patients currently taking an iron chelator will need to stop that treatment for up to 22 days (up to 5 days before they start the study and for 15 days during the study). The results of this study will be helpful in determining the safety of the drug and the best doses of FBS0701 to be used in the next study which will assess the effectiveness of this new iron chelator.

OBJECTIVES: I. Ascertain whether stem cell transplantation (SCT) is an effective method by which missing or dysfunctional enzymes can be replaced in patients with various inborn errors of metabolism. II. Determine whether clinical manifestations of the specific disease may be arrested or reversed by this treatment.

This study will evaluate the safety and effectiveness of 5-azacytidine and phenylbutyrate for treating thalassemia major. Patients with this disease have abnormal production of hemoglobin (the oxygen-carrying protein in red blood cells), which leads to red blood cell destruction. As a result, patients require frequent red cell transfusions over many years. Because of these transfusions, however, excess iron is deposited in various body organs-such as the heart, liver, thyroid gland and, in men, the testes-impairing their function. Fetal hemoglobin-a type of hemoglobin that is produced during fetal and infant life-can substitute for adult hemoglobin and increase the levels of red cells in the body. After infancy, however, this type of hemoglobin is no longer produced in large quantities. 5-azacytidine can increase fetal hemoglobin levels, but this drug can damage DNA, which in turn can increase the risk of cancer. This study will try to lessen the harmful effects of 5-azacytidine by using only one or two doses of it, followed by long-term therapy with phenylbutyrate, a drug that may be as effective as 5-azacytidine with less harmful side effects. Patients 18 years of age and older with severe thalassemia major may be eligible for this study. Before beginning treatment, candidates will have a medical history and physical examination, blood tests, chest X-ray, electrocardiogram (EKG), bone marrow biopsy (removal of a small sample of bone marrow from the hip for microscopic examination) and whole-body magnetic resonance imaging (MRI). For the biopsy, the area of the hip is anesthetized and a special needle is inserted to draw bone marrow from the hipbone. For the MRI scan, a strong magnetic field is used to produce images that will identify sites where the body is making red blood cells. During this procedure, the patient lies on a table in a narrow cylinder containing a magnetic field. Earplugs are placed in the ears to muffle the loud thumping sounds the machine makes when the magnetic fields are being switched. An intravenous (IV) catheter (flexible tube inserted into a vein) is placed in a large vein of the patient's neck, chest or arm for infusion of 5-azacytidine at a constant rate over 4 days. Patients who do not respond to this first dose of 5-azacytidine will be given the drug again after about 50 days. If they do not respond to the second dose, alternate treatments will have to be considered. Patients who respond to 5-azacytidine will begin taking phenylbutyrate on the 14th day after 5-azacytidine was started. They will take about 10 large pills 3 times a day, continuing for as long as the treatment is beneficial. All patients will be hospitalized for at least 6 days starting with the beginning of 5-azacytidine therapy. Those who are well enough may then be discharged and continue treatment as an outpatient. Patients will be monitored with blood tests daily for 2 weeks and then will be seen weekly for about another 5 weeks. Bone marrow biopsies will be repeated 6 days after treatment begins and again at 2 weeks and 7 weeks. MRI will be repeated 7 weeks after treatment begins. After 7 weeks, patients will be seen at 3-month intervals. Bone marrow biopsies will be done every 6 months for the first 3 years after treatment. Patients will have red cell transfusions as needed and chelation therapy to remove excess iron.

This study is looking at the effects of giving early treatment of deferiprone to young children with beta thalassemia who have started receiving regular blood transfusions but have not yet reached the criteria for starting on iron chelation therapy. Half the patients in the study will receive deferiprone, and the other half will receive placebo, for up to 12 months.

This is a Phase 2 open-label, single-arm design study with dose escalation by subject cohort . The study is designed to monitor the PTG-300 safety profile, to obtain preliminary evidence of efficacy of PTG-300 for the treatment in β-thalassemia.

Beta-thalassemias are hereditary blood disorders caused by reduced or absent synthesis of hemoglobin beta chains, with variable outcomes ranging from severe anemia to clinically asymptomatic individuals. Treatment is symptomatic and thalassemia is a major unmet medical need. Survival is increased, even in patients needing transfusions, in comparison with a few years ago, but the quality of life is poor for many patients. In some patients, an anomalous expression of gamma-globin genes has been observed, with a consequent rise in Fetal Hemoglobin levels. The patients displaying a clinical phenotype known as Hereditary Persistence of Fetal Hemoglobin (HPFH) exhibit a positive clinical status. To mimick HPFH, several compounds able to induce expression of fetal hemoglobins (HbF) have been evaluated. Within this framework, sirolimus is particularly interesting as an inducer of HbF. It has been used for many years for different indications and the available preclinical evidence warrant the start of a clinical development plan in thalassemia. The investigators propose a clinical trial in beta-thalassemia patients, designed to evaluate the effect of sirolimus on several parameters related to red blood cell status and to the level of HbF in particular, as a first step for the full clinical development in this new indication.