View clinical trials related to Thalassemia.
Filter by:This proof-of-mechanism study is being performed to investigate the safety, tolerability, efficacy, pharmacokinetics, and pharmacodynamics of multiple oral doses of bitopertin in adults with NTD beta-thalassemia. This study consists of two parts: Part 1 - The main study - 16 weeks in total: Participants will undergo a 6-week dose-escalation period followed by 10 weeks of treatment at the attained target dose. Part 2 - Open Label Extension (OLE) - up to an additional 12 months. Participants will be given the option to enroll into the OLE once the 16-week treatment of Part 1 has been completed. Participants who decide not to enroll in the OLE, at the end of Part 1 will enter a 6-week follow-up period.
Blood stem cells can produce red blood cells (which carry oxygen), white blood cells of the immune system (which fight infections) and platelets (which help the blood clot). Patients with sickle cell disease produce abnormal red blood cells. A blood stem cell transplant from a donor is a treatment option for patients with severe sickle cell disease. The donor can be healthy or have the sickle cell trait. The blood stem cell transplant will be given to the patient as an intravenous infusion (IV). The donor blood stem cells will then make normal red blood cells - as well as other types of blood cells - in the patient. When blood cells from two people co-exist in the patient, this is called mixed chimerism. Most children are successfully treated with blood stem cells from a sibling (brother/sister) who completely shares their tissue type (full-matched donor). However, transplant is not an option for patients who (1) have serious medical problems, and/or (2) do not have a full-matched donor. Most patients will have a relative who shares half of their tissue type (e.g. parent, child, and brother/sister) and can be a donor (half-matched or haploidentical donor). Adult patients with severe sickle cell disease were successfully treated with a half-matched transplant in a clinical study. Researchers would like to make half-matched transplant an option for more patients by (1) improving transplant success and (2) reducing transplanted-related complications. This research transplant is being tested in this Pilot study for the first time. It is different from a standard transplant because: 1. Half-matched related donors will be used, and 2. A new combination of drugs (chemotherapy) that does not completely wipe out the bone marrow cells (non-myeloablative treatment) will be used to prepare the patient for transplant, and 3. Most of the donor CD4+ T cells (a type of immune cells) will be removed (depleted) before giving the blood stem cell transplant to the patient to improve transplant outcomes. It is hoped that the research transplant: 1. Will reverse sickle cell disease and improve patient quality of life, 2. Will reduce side effects and help the patient recover faster from the transplant, 3. Help the patient keep the transplant longer and 4. Reduce serious transplant-related complications.
In order to study the transplantation effect of hematopoetic stem cells from beta-thalassemia induced pluripotent stem cells. We applied clinical grade source of autologous hematopoietic stem cell for the treatment of beta-thalassemia patients, detecting the homing of hematopoietic stem cell transplantation, the differentiation of hematopoietic stem cells in vivo and the hemoglobin beta-chain (HBB) protein expression in the body of recovery, etc., as well as to make a research on the efficacy and safety of hematopoietic stem cells from beta-thalassemia induced pluripotent stem cells.
This is a single-arm, multi-site, single-dose, Phase 3 study in approximately 18 participants less than or equal to (<=) 50 years of age with transfusion-dependent β-thalassemia (TDT), who have a β0/β0, β0/IVS-I-110, or IVS-I-110/IVS-I-110 genotype. The study will evaluate the efficacy and safety of autologous hematopoietic stem cell transplantation (HSCT) using LentiGlobin BB305 Drug Product.
This is an exploratory experiment, aims to explore the effective and safety of thalidomide in the treatment of TI to improve the hemoglobin level, improve the quality of life, reduce blood transfusion, so as to avoid the adverse reactions caused by transfusion,60~100 patients will be enrolled.
Objectives Primary objectives: - To determine the efficacy of Hydroxyurea in the study participants. - Hypothesis: The study will result in either maintenance or rise in hemoglobin as compared to the control treatment. Secondary objectives: - To determine the compliance of Hydroxyurea in study participants. - To determine the safety of Hydroxyurea in the study participants. Design and Outcomes An open label randomized controlled trial to test the efficacy and safety of Hydroxyurea on beta thalassemia major patients. It is a six months study. Findings of physical examination, vital sign variables, laboratory variables and ultrasound at baseline, during and end of the study will be listed. Schedule of intervention is mentioned in section 6.1. later in the protocol. Interventions and Duration Hydroxyurea will be given to the participants in intervention arm along with the standard treatment if thalassemia (blood transfusion and iron chelation therapy) and the control arm will receive the standard treatment (blood transfusion and iron chelation therapy) only. Each participant will be followed up for 6 months after initiating the intervention. Intervention will be given for 6 months or until the participant withdraws from the study or due to any reason, the investigator stops the intervention. Sample Size and Population This pilot study will be done on 100 patients initially. Stratified randomization will be done on the basis of presence of Xmn polymorphism. And the study population will be assigned to intervention or control arm randomly through a computer software (randomizer.org).
Research has suggested that children with sufficient vitamin D levels undergoing hematopoietic stem cell transplant (HSCT) have improved outcomes, including lower incidences of infection and graft-versus-host disease (GVHD), as well as overall improved survival. However, supplementation in children undergoing HSCT has shown to be a challenge using standard or aggressive supplementation strategies. The primary objective of this study is to determine the safety and efficacy of a single, high dose oral vitamin D (Stoss Therapy) at the start of transplant followed by maintenance supplementation in children undergoing HSCT.
The purpose of the study is to assess the safety and efficacy of haploidentical hematopoietic stem cell transplantation for patients with thalassemia major.
Every year, 100,000 neonates are born with hemoglobinopathies around the world. Thalassemia is the most common heterogeneous disease of the human being . It is a disease of high prevalence in Mediterranean, Indian, North Chinese, and Pacific populations. Recently, the quantity and quality of the life of these patients have been significantly improved by regular transfusion and iron chelating therapy .
The purpose is to assess the Safety, Tolerability, Pharmacokinetics, and Pharmacodynamics of IONIS TMPRSS6-Lrx Administered Subcutaneously for up to 44 Healthy Volunteers