184 Clinical Trials for Various Conditions
The main goal of this study is to find out if the blood disorder called transfusion-dependent beta thalassemia can be safely treated by modifying blood stem cells. This is done by collecting blood stem cells from the subject, modifying those cells, adding a healthy beta globin gene, and then giving them back to the subject. It is hoped that these modified cells will decrease the need for blood transfusions. The gene modified blood stem cells are called CHOP-ALS20 ("study drug"). This experimental gene therapy has not been tried on human beings before and is not FDA approved.
Beta-Thalassemia
Hematopoietic Cell Transplantation/HCT involves receiving healthy blood-forming cells (stem cells) from a donor to replace the diseased or damaged cells in participants' bone marrow. The researchers think giving participants treatment with fludarabine and dexamethasone, drugs that lower the activity of the body's immune system (immune suppression), before standard conditioning therapy and HCT may help prevent serious side effects, including graft failure and GvHD. In this study, depending on how participants' body responds to the fludarabine and dexamethasone, the study doctor may decide participants should receive another drug, called cyclophosphamide, instead of fludarabine. In addition, depending on the results of participants' routine blood tests, participants may receive the drugs bortezomib and rituximab, which also help with immune suppression.
Sickle Cell Disease, Thalassemia, Beta, Thalassemia
This is a single-dose, open-label study in participants with transfusion-dependent β-thalassemia (TDT) or severe sickle cell disease (SCD). The study will evaluate the safety and efficacy of autologous CRISPR-Cas9 modified CD34+ human hematopoietic stem and progenitor cells (hHSPCs) using CTX001.
Beta-Thalassemia, Thalassemia, Hematologic Diseases, Genetic Diseases, Inborn, Hemoglobinopathies, Sickle Cell Anemia, Sickle Cell Disease
This is a single-dose, open-label study in pediatric participants with TDT. The study will evaluate the safety and efficacy of autologous CRISPR-Cas9 modified CD34+ human hematopoietic stem and progenitor cells (hHSPCs) (CTX001).
Beta-Thalassemia, Thalassemia, Genetic Diseases, Inborn, Hematologic Diseases, Hemoglobinopathies
This clinical trial is a Phase 2 study that will evaluate the safety and clinical activity of etavopivat in patients with thalassemia or sickle cell disease and test how well etavopivat works to lower the number of red blood cell transfusions required and increase hemoglobin.
Sickle Cell Disease, Thalassemia
Study AG348-C-010 is a multicenter study to evaluate the efficacy, safety, pharmacokinetics, and pharmacodynamics of treatment with AG-348 in adult participants with non-transfusion-dependent thalassemia (NTDT). This study includes a core period (up to 24 weeks) followed by an extension period (up to 10 years) for eligible participants. 20 participants with NTDT were enrolled. The initial dose of AG-348 was 50 milligrams (mg) twice daily (BID) with one potential dose-level increase to 100 mg BID at the Week 6 visit based on the participant's safety and hemoglobin (Hb) concentrations.
Thalassemia
This is a single-arm, open-label, multi-site, single-dose Phase 1/2/3 study in participans with transfusion-dependent β-thalassemia (TDT). The study will evaluate the safety and efficacy of autologous CRISPR-Cas9 Modified CD34+ Human Hematopoietic Stem and Progenitor Cells (hHSPCs) using CTX001.
Beta-Thalassemia, Thalassemia, Genetic Diseases, Inborn, Hematologic Diseases, Hemoglobinopathies
This study is a multicenter, open-label, two-period crossover design that evaluates the safety, tolerability, pharmacokinetics and preliminary evidence of iron chelating activity of DST-0509 as compared to Jadenu and Exjade in transfusion-dependent thalassemia patients with transfusional iron overload, requiring iron chelation therapy and demonstrating an inadequate response to Jadenu or Exjade for greater than 3 months duration. Up to 36 patients will be evaluated (18 in each treatment arm), however, the balanced randomization may enroll fewer patients based on recruitment status.
Thalassemia Major
This is a Phase 2, double-blind, randomized, placebo-controlled, multicenter study to determine the efficacy and safety of luspatercept (ACE-536) versus placebo in adults with non-transfusion dependent beta (β)-thalassemia. The study is divided into the Screening Period, Double-blind Treatment Period (DBTP), Open-label Phase (OLP), and Post-Treatment Follow-up Period (PTFP). It is planned to randomize approximately 150 subjects at a 2:1 ratio of luspatercept versus placebo.
Thalassemia
The improved long-term survival of thalassemia major (TM) patients has resulted in increased focus on the ability to preserve fertility. While the association of iron toxicity with vital organ dysfunction, heart and liver, has been extensively investigated, the correlation of reproductive capacity and extent of iron overload is not well understood. Despite remarkable progress in methodology for prediction of reproductive status and intervention for preserving fertility, implementation in thalassemia is lacking. The investigators hypothesize that iron toxicity to the anterior pituitary occurring in the process of transfusional iron loading is directly associated with a decline in gonadal function. The investigators expect pituitary MRI measurements of iron deposition as well as markers of oxidative damage to correlate with the functional studies of pituitary-gonadal axis performed in this study. This cross sectional study will examine the relation of pituitary iron deposition and pituitary volume; serum iron and oxidative stress measures, liver iron concentration (LIC), cardiac iron and chelation adequacy with pituitary and gonadal reproductive hormone levels (and spermatogenesis in adult male patients), in order to better define the association of iron burden and chelation patterns with fertility potential, in thalassemia patients with iron overload. The study will assess whether the current chelation treatment regimens, in particular during the pubertal developmental age, are adequate for preserving fertility and could lead to improved chelation routines for preventing the high prevalence of compromised fertility. In addition, by utilizing state-of-the-art markers for fertility status, findings from this study may improve current methods for screening for hypogonadism and reproductive potential and allow earlier intervention. The investigators propose to examine 26-30 patients, 12 years and older, with measures of fertility potential, and correlate them to their current iron burden parameters and to the cumulative iron effect as indicated by past iron overload patterns and chelation history.
THALASSEMIA MAJOR
The purpose of this study is to assess safety and amount of the study drug in the blood after increasing doses of SP-420. The study will be conducted in patients with β-thalassemia.
Iron Overload, Beta-Thalassemia
Background: - Some sickle cell disease or beta-thalassemia can be cured with transplant. Researchers want to test a variation of transplant that uses low dose radiation and a combination of immunosuppressive drugs. They want to know if it helps a body to better accept donor stem cells. Objectives: - To see if low dose radiation (300 rads), oral cyclophosphamide, pentostatin, and sirolimus help a body to better accept donor stem cells. Eligibility: - People 4 and older with beta-thalassemia or sickle cell disease that can be cured with transplant, and their donors. Design: * Participants and donors will be screened with medical history, physical exam, blood test, tissue and blood typing, and bone marrow sampling. They will visit a social worker. * Donors: * may receive an intravenous (IV) tube in their groin vein. * will receive a drug injection daily for 5 or 6 days to move the blood stem cells from the bone marrow into general blood circulation. * will undergo apheresis: an IV is put into a vein in each arm. Blood is taken from one arm, a machine removes the white blood cells that contain blood stem cells, and the rest is returned through the other arm. * Participants: * may undergo red cell exchange procedure. * will remain in the hospital for about 30 days. * will receive a large IV line that can stay in their body from transplant through recovery. * will receive a dose of radiation, and transplant related drugs by mouth or IV. * will receive blood stem cells over 8 hours by IV. * will take neuropsychological tests and may complete questionnaires throughout the transplant process. * must stay near NIH for 4 months. They will visit the outpatient clinic weekly.
Sickle Cell Disease, Thalassemia, Stem Cell Transplantation, Graft vs Host Disease
The design of the study incorporates the following features: 1. This is a phase II study to determine the safety and therapeutic potential of a new transplant approach (disease-free survival, graft versus myeloma effect) and to evaluate its toxicity profile (immediate toxicity, graft-versus-host disease, graft rejection, mortality) in a patient population with severe congenital anemias. 2. The patient cohort to be studied: Those patients with severe sickle cell disease and thalassemia who have risk factors for high mortality and morbidity related to their disease 3. Transplant Conditioning Regimen - Immunosuppression without myeloablation: Patients will receive conditioning sufficient to allow donor lympho-hematopoietic engraftment without complete marrow ablation. If the graft is rejected, the patient will reconstitute autologous marrow function. We will use a combination of low dose irradiation, Alemtuzumab (Campath®), and sirolimus. 4. Peripheral blood hematopoietic progenitor cell (PBPC) transplant: An unmanipulated peripheral blood stem cell collection from a filgrastim (G-CSF) stimulated HLA-matched donor should improve the chance of engraftment because of the high stem cell dose (5 x 106/kg CD34+ cells) and the presence of donor lymphocytes. To reduce the risk of GVHD, patients will receive sirolimus before and after the transplant. The sirolimus will be tapered as necessary to minimize any graft versus host disease while still maintaining adequate chimerism.
Sickle Cell Disease and Thalassemia
The primary aim of this study is to measure zinc status and related proteins in patients with Thalassemia who have or do not have diabetes. The secondary aim will be to explore the effect of zinc supplementation on glucose metabolism in patients with thalassemia.
Thalassemia
We hypothesize that the combination treatment with deferasirox and deferiprone will be well tolerated and will result in significant improvement in cardiac and liver iron levels.
Thalassemia Major With Severe Transfusional Iron Overload
The purpose of this pilot study is to determine the effect of various doses of vitamin D supplementation on vitamin D stores and calcium excretion in the urine in subjects with Thalassemia Major (TM). Subjects with TM are routinely placed on vitamin D supplements because they frequently have osteoporosis (a condition in which bone tissue thins and loses density and strength) and low vitamin D stores. The amount of vitamin D supplementation that is required to raise vitamin D stores in optimal levels is not known in TM, and will be determined in this study. Finally, a recent study in TM has linked blood vitamin D levels to urine calcium excretion, which is a risk factor for kidney stones. Therefore, we want to determine changes in calcium excretion with various vitamin D doses and with increasing vitamin D stores. We plan to test 3 doses of vitamin D for 3 months in children and adults with TM. Changes in vitamin D blood levels and urinary calcium will be determined. The results of this pilot study will be used in future studies that will examine the effect of various doses of vitamin D supplementation in the treatment of osteoporosis in TM.
Thalassemia Major
This study is being done to determine if blood cell transplants, with either bone marrow or cord blood from unrelated donors, are effective in children with severe thalassemia and if this treatment approach has acceptable risks and side effects. This study includes a preparative regimen with Hydroxyurea, Alemtuzumab, Fludarabine, Thiotepa and Melphalan that provides intense host immunosuppression without myeloablation. The primary hypothesis is that this regimen will promote stable engraftment of unrelated donor hematopoietic cells, support normal erythropoiesis, and result in an event free survival of \> 75% of children with thalassemia major.
Severe Thalassemia
This is a pilot study looking at the safety and efficacy of giving combination chelation with deferasirox and deferoxamine. The hypothesis is that combination chelation is safe in decreasing overall iron in patients with thalassemia.
Thalassemia, Iron Overload
CICL670A2209: This study will evaluate the safety and efficacy of deferasirox in non-transfusion dependent thalassemia patients with iron overload. Patients will be treated either with active treatment (deferasirox) or placebo for 12 months (core study phase). Patients who complete the core study phase will be offered to continue their study with the active treatment (deferasirox) in a 12 months extension phase. During the core and extension, the effects of treatment on iron overload in the liver will be evaluated using magnetic resonance imaging (MRI) assessments. CICL670A2209E1: A one-year open-label extension to a randomized, double-blind, placebo-controlled, phase II study to evaluate efficacy and safety of deferasirox in non-transfusion dependent thalassemia patients with iron overload (Thalassa).
Non-transfusion Dependent Thalassemia
Thalassemia is an inherited blood disorder that can result in mild to severe anemia. Regular blood transfusions, which refresh the healthy red blood cell supply, are one treatment for thalassemia. People with thalassemia often experience pain, but the exact source of pain remains unknown. This study will examine how pain varies during the blood transfusion cycle in people with thalassemia who are treated with regular blood transfusions.
Thalassemia
Thalassemia is an inherited blood disorder that can result in mild to severe anemia. People with thalassemia often experience pain, but the exact sources and prevalence of pain remain unknown. This study will examine the prevalence and severity of pain in people with thalassemia who are treated with regular blood transfusions and people with thalassemia who are not treated with regular blood transfusions.
Thalassemia
Thalassemia is an inherited blood disorder that can result in mild to severe anemia. Many people with thalassemia also have pulmonary hypertension, which is high blood pressure in the arteries in the lungs. This study will evaluate the safety and effectiveness of the medication sildenafil at reducing blood pressure in the lungs of people with thalassemia and pulmonary hypertension.
Thalassemia, Hypertension, Pulmonary
Thalassemias are inherited blood disorders that can cause anemia and other health problems. The goal of this study is to collect information on complications of the disease among people who currently have or previously had thalassemia.
Thalassemia
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.
Thalassemia
Patients have severe beta-thalassemia or one of the thalassemia variants. Thalassemia is a hereditary disease in which the bone marrow produces abnormal red blood cells that have a shorter life span than normal red blood cells. Because of that, the patient has chronically low red blood cell numbers (anemia) and need regular blood transfusions to help the patient feel better and to help prevent damage to important organs such as the heart. The following treatments are currently available to patients: lifelong blood transfusions and drugs that help remove iron from the body, and long-term antibiotics to prevent infections. These treatments are difficult for patients to take, and do not stop the effects of the disease. Currently, the only treatment that may cure thalassemia is bone marrow or blood stem cell transplantation. Special blood or bone marrow cells from a healthy person might allow the bone marrow to create healthy cells, which will replace the abnormal red blood cells of thalassemia. There is a lot of experience using special blood or bone marrow cells from a healthy brother or sister who is the same HLA (immune) type. For patients who do not have such a donor in the family, an unrelated volunteer donor can be used. It is important for the patient to realize that this kind of transplant can have more problems than a transplant from a brother or sister. Because we do not know the long-term effects of this treatment and because this type of transplant has not been used often for people with thalassemia, this is a research study. We hope, but cannot promise, that the transplanted marrow/stem cells will produce healthy cells and the patient will no longer have severe thalassemia.
Thalassemia
Hepatitis C is one of the most common causes of long-term liver disease in the United States. Ribavirin and peginterferon alfa-2a are two medications that are used to treat hepatitis C infection. The purpose of this study is to evaluate the safety of these two medications in adults with hepatitis C and thalassemia, a type of blood disorder.
Hepatitis C, Thalassemia
The purpose of this study is to test whether zinc can improve bone health in young patients with thalassemia.
Thalassemia
The primary purpose of this study is to see if giving lower doses of chemotherapy (moderately ablative) will result in successful bone marrow replacement without as severe side-effects but with permanent control of the disease. Patients will receive a chemotherapy regimen with busulfan, fludarabine, and alemtuzumab followed by an infusion of stem cells, either from a family-related or cord-blood matched donor.
Sickle Cell Disease, Beta Thalassemia
Patients who have iron overload due to chronic blood transfusions and have developed heart failure or who are at high risk of heart failure because of the high levels of iron in their hearts, will be treated with deferiprone, an investigational drug, in combination with deferoxamine (Desferal). Some studies suggest that deferiprone may be better than deferoxamine in removing iron from the heart and improving heart function, and that using both drugs together may remove more iron. Participants would make a clinic visit for lab studies each week, and would continue to take deferiprone for as long as their physician feels it is useful in their care.
Iron Overload
The purpose of this research is to evaluate the effects of L-glutamine as a therapy for sickle cell anemia and sickle ß0-thalassemia. as evaluated by the number of occurrences of sickle cell crises.
Sickle Cell Anemia, Thalassemia