View clinical trials related to B-Cell Lymphoma.
Filter by:Chimeric antigen receptor (CAR) T cells targeting CD19 will be evaluated for safety and efficacy in patients with B cell lymphoma or leukemia. The CAR consists of a CD19 targeting antibody scFv with three intracellular signaling domains derived from CD3 zeta, CD28 and 4-1BB. Autologous T cells will be gene engineered with the CAR gene using a retrovirus vector. Prior to T cell infusion, the patients will be subjected to preconditioning treatment. After T cell infusion, the patients will be evaluated for 24 months for adverse reactions, persistence of CAR T cells and efficacy.
This is an open-label, Phase 2 study designed to assess the efficacy and safety of ibrutinib combined with rituximab in previously untreated subjects with Follicular Lymphoma (FL).
Phase 2, open-label, non-randomized, monotherapy study to evaluate the safety and efficacy of ibrutinib in subject with relapsed/refractory Marginal Zone Lymphoma (MZL).
Multicenter prospective open-label non-randomised phase I/II study in patients with relapsed or refractory CD20-positive aggressive lymphomas Phase I: Dose escalation of methotrexate and cytarabine (days 1, 8 and 15 of each 28-day cycle) in a 3 + 3 design with fixed doses of lenalidomide (days 1 - 21) and rituximab (day 1), maximum 6 cycles Phase II: Treatment of 20 patients at maximum tolerated doses of phase I
The purpose of this study is to determine whether ublituximab is safe and effective in patients with relapsed or refractory B-cell lymphoma who were previously treated with rituximab.
This is a study for children who have been previously treated for Leukemia/Lymphoma. In particular, it is a study for people who have a type of Leukemia/Lymphoma that involves B cells (a type of white cell), which contain the cancer. This is a new approach for treatment of Leukemia/Lymphoma that involves B cells (tumor cells). This study will take the subject's white blood cells (T cells) and modify them in order to target the cancer. The subject's T cells will be modified in one or two different ways that will allow the cells to identify and kill the tumor cells (B cells). Both ways of modifying the cells tells the T cells to go to the B cells (tumor cells) and turn "on" and potentially kill the B cells (tumor cells). The modification is a genetic change to the T cells, or gene transfer, in order to allow the modified T cells to recognize your tumor cells but not other normal cells in the subject's body. These modified cells are called chimeric antigen receptor 19 (CART19) T-cells.
Background: - Although progress has been made in treating children with B-cell cancers such as leukemia or lymphoma, many children do not respond to the standard treatments. One possible treatment involves collecting white blood cells called T cells from the person with cancer and modifying the cells to attack the B-cell cancer. The cells can then be given back to the participant. This study will use T cells that have been modified to attack the cluster of differentiation 19 (CD19) protein, which is found on the surface of some B-cell cancers. Objectives: - To see if anti-CD19 modified white blood cells are a safe and effective treatment for children and young adults with advanced B-cell cancer. Eligibility: - Children and young adults between 1 and 30 years of age who have B-cell cancer (leukemia or lymphoma) that has not responded to standard treatments. - The leukemia or the lymphoma must have the CD19 protein. - There must be adequate organ function. Design: - Participants will be screened with a physical exam and medical history. Blood and urine samples will be collected. Imaging studies or bone marrow biopsies may be performed depending on the type of cancer. - Participants will undergo a process where white blood cells are collected, called apheresis. These cells will be modified to contain the anti-CD19 gene. - Participants will have 3 days of chemotherapy to prepare their immune system to accept the modified cells. - Participants will receive an infusion of their own modified white blood cells. They will remain in the hospital until they have recovered from the treatment. - Participants will have frequent follow-up visits to monitor the outcome of the treatment. - If the participant benefits from the treatment, then he/she may have the option for another round of treatment.
This international, prospective, observational, open-label, pharmaco-epidemiologic study observes cancer patients at risk for chemotherapy-induced febrile neutropenia (FN) who are receiving filgrastim biosimilar (EP2006) for primary or secondary FN prophylaxis to better describe the patient population at risk for FN and treated prophylactically in physician's best clinical judgement with filgrastim biosimilar (EP2006), to describe prophylaxis patterns involving filgrastim biosimilar (EP2006), and to evaluate hematology levels and variability in hematological outcomes, impact on chemotherapy delivery, radiotherapy, surgery, and mortality. Additionally the study aims to identify patient cohorts who are vulnerable to poor response to FN prophylaxis and experience break-through episodes of FN, understand the differences between prophylaxis responders and non-responders, and describe the degree to which prophylaxis of FN is in congruence with guideline recommendations.
This study is to evaluate the safety and anti-tumor activity of ASP3026 in patients with advanced malignancies (solid tumors and B-cell lymphoma).
This is a Phase 2 study to determine the efficacy and safety of canfosfamide treatment in relapsed or refractory mantle cell lymphoma, diffuse large B cell lymphoma and multiple myeloma. The study will be conducted in two stages with 5-6 patients in each indication in Stage 1 and if responses are observed an additional 10 patients in Stage 2 in each group.