View clinical trials related to Lymphoblastic Lymphoma.
Filter by:This randomized phase II trial studies the safety and how well multi-peptide cytomegalovirus (CMV)-modified vaccinia Ankara (MVA) vaccine works in reducing CMV complications in patients previously infected with CMV and are undergoing a donor hematopoietic cell transplant. CMV is a virus that may reproduce and cause disease and even death in patients with lowered immune systems, such as those undergoing a hematopoietic cell transplant. By placing 3 small pieces of CMV deoxyribonucleic acid (DNA) (the chemical form of genes) into a very safe, weakened virus called MVA, the multi-peptide CMV-MVA vaccine may be able to induce immunity (the ability to recognize and respond to an infection) to CMV. This may help to reduce both CMV complications and reduce the need for antiviral drugs in patients undergoing a donor hematopoietic cell transplant.
The goal of this clinical research study is to learn if a chemotherapy combination called augmented Berlin-Frankfurt-Munster (BFM), when also combined with ofatumumab or rituximab, can help to control precursor-B ALL or LL in patients who are 12-30 years of age. The safety of these drug combinations will also be studied. Augmented BFM is made up of daunorubicin, vincristine, prednisone, dexamethasone, PEG asparaginase, and methotrexate.
The clinical application and effect of ATG based myeloablative conditioning regimen after allogeneic hematopoietic stem cell transplantation in adult patients with aggressive T-cell lymphomas.
The purpose of this study is to evaluate the effectiveness,safety, and dosage of pegcrisantaspase in patients with Acute Lymphoblastic Leukemia (ALL) / Lymphoblastic Lymphoma (LBL).
This research study is evaluating a combination of drugs considered standard treatment for children and young adults with acute lymphoblastic leukemia (ALL), in combination with a new drug called MLN 9708. Additionally, the study is also evaluating if bone marrow or stem cell transplantation, which will be given to some participants, helps to prevent ALL from returning.
This phase II trial is for patients with acute lymphocytic leukemia, acute myeloid leukemia, myelodysplastic syndrome or chronic myeloid leukemia who have been referred for a peripheral blood stem cell transplantation to treat their cancer. In these transplants, chemotherapy and total-body radiotherapy ('conditioning') are used to kill residual leukemia cells and the patient's normal blood cells, especially immune cells that could reject the donor cells. Following the chemo/radiotherapy, blood stem cells from the donor are infused. These stem cells will grow and eventually replace the patient's original blood system, including red cells that carry oxygen to our tissues, platelets that stop bleeding from damaged vessels, and multiple types of immune-system white blood cells that fight infections. Mature donor immune cells, especially a type of immune cell called T lymphocytes (or T cells) are transferred along with these blood-forming stem cells. T cells are a major part of the curative power of transplantation because they can attack leukemia cells that have survived the chemo/radiation therapy and also help to fight infections after transplantation. However, donor T cells can also attack a patient's healthy tissues in an often-dangerous condition known as Graft-Versus-Host-Disease (GVHD). Drugs that suppress immune cells are used to decrease the severity of GVHD; however, they are incompletely effective and prolonged immunosuppression used to prevent and treat GVHD significantly increases the risk of serious infections. Removing all donor T cells from the transplant graft can prevent GVHD, but doing so also profoundly delays infection-fighting immune reconstitution and eliminates the possibility that donor immune cells will kill residual leukemia cells. Work in animal models found that depleting a type of T cell, called naïve T cells or T cells that have never responded to an infection, can diminish GVHD while at least in part preserving some of the benefits of donor T cells including resistance to infection and the ability to kill leukemia cells. This clinical trial studies how well the selective removal of naïve T cells works in preventing GVHD after peripheral blood stem cell transplants. This study will include patients conditioned with high or medium intensity chemo/radiotherapy who can receive donor grafts from related or unrelated donors.
This is a treatment guideline for an unrelated umbilical cord blood transplant (UCBT) using a myeloablative preparative regimen for the treatment of hematological diseases, including, but not limited to acute leukemias. The myeloablative preparative regimen will consist of cyclophosphamide (CY), fludarabine (FLU) and fractionated total body irradiation (TBI).
The purpose of this study is to test the safety of a study drug called CPX-351. This drug has been tested in adults but not yet in children and adolescents. This study tests different doses of the drug to see which dose is safer in children and adolescents. Patients who have blood cancer are being asked to take part in this study . Blood cancers may include leukemia and lymphoma. Patients able to be in this study have already been treated with standard chemotherapy for their disease and the disease is still growing or has come back. CPX-351 is a drug that is not yet approved by the United States Food and Drug Administration (FDA) and is only used in research studies like this one. CPX-351 is made up of two chemotherapy drugs that patients may have already received called cytarabine and daunorubicin that are now packaged together. Another purpose of this study is to collect blood samples for special research studies. Researchers want to study how much of the CPX-351 is in the body over time. These studies are call pharmacokinetic studies or PK studies for short. PK studies require the collection of several blood samples before and after participants are given the study drug.
Asparaginase (Asp) is used during the induction phase of ALL treatment for children and young adults. Its efficacy is counterbalanced by its toxicity, mainly in patients 40 years or older. The efficacy rate in older adult population is lower than for children or young adults. A recent review on outcomes in older adults with ALL pointed out that there were significantly more drug reductions, omissions or delays in the older group as compared to younger adults and that asparaginase was the drug most commonly omitted. The investigational product ERYASPASE is a dispersion for infusion of homologous red blood cells (RBC) encapsulating E. coli L-asparaginase. A previous European phase I/II clinical study in children and adults (<55 yo) at first relapse of ALL was conducted to determine the optimal dose of homologous RBC encapsulating native E. coli Asp (GRASPA®) in 24 patients with relapsed ALL. The activity and safety profiles of 3 doses of GRASPA® (50, 100 and 150 IU/kg) in combination with standard chemotherapy were compared to free native Asp. The global safety profile is also improved, reducing hypersensitivity, liver toxicity and coagulation disorders. Study showed that a single dose of GRASPA® 150 IU/kg induced a depletion in plasmatic asparagine for 18.6 days, i.e. similar to that obtained with 8 injections of 10,000 IU/m² of free native Asp. A reduction in the incidence and severity of the allergic reactions and coagulation disorders were observed with GRASPA® (Domenech 2011). A French phase II study designed to determine the maximum tolerated dose of GRASPA® in combination with a polychemotherapy regimen in ALL patients older than 55 yo at first diagnosis has been performed, and showed that both 100 and 150 IU/kg doses fulfilled the predefined criteria for efficacy and tolerability but the better profile of 100 IU/kg dose was considered the optimal dose in this setting. A phase II/III trial in adult and children patients with relapsed ALL is currently ongoing. Based on these results, the combination of ERYASPASE with the CALGB chemotherapy regimen appears to be an attractive combination for the treatment of adults patients with ALL/LBL.
The combination of mitoxantrone and clofarabine as reinduction therapy will be safe, well tolerated and effective in children, adolescents and young adults with poor risk refractory/relapsed acute leukemia and high grade non-Hodgkin lymphoma (NHL).