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Active clinical trials for "Lymphoma, Non-Hodgkin"

Results 391-400 of 1849

A Phase I/II Study of CM355 in Patients With Relapsed or Refractory B-Cell Non-Hodgkin's Lymphoma...

Hematoma

A Phase I/II Open-Label, Single-Arm, Multicenter Clinical Study of CM355 in Patients With R/R B-NHL

Active30 enrollment criteria

A Study to Evaluate AB308 in Combination With AB122 in Participants With Advanced Malignancies

Advanced Solid TumorNSCLC9 more

This is a Phase 1/1b, multicenter, open-label, dose-escalation, and dose-expansion study to evaluate the safety, tolerability, pharmacokinetic (PK), pharmacodynamic (PD), and clinical activity of AB308 in combination with zimberelimab (AB122) in participants with advanced malignancies.

Active11 enrollment criteria

Treatment by a Bispecific CD3xCD20 Antibody for Relapse/Refractory Lymphomas After CAR T-cells Therapy...

Diffuse Large B-Cell Lymphoma RefractoryRefractory Indolent Adult Non-Hodgkin Lymphoma3 more

This study is a multicenter phase II trial including 2 cohorts of patients in Refractory/Relapse disease at least 1 month after CAR T-cells therapy: cohort 1: DLBCL patients cohort 2: PMBL, mantle cell lymphoma, transformed indolent NHL (t-iNHL) or iNHL CAR T-cells Refractory/Relapse status will be determined by PET-CT central review allowing inclusion in this trial. Patients enrolled will then receive a pre-phase of obinutuzumab followed by experimental treatment:11 cycle of glofitamab. The primary objective of the study is to assess the anti-lymphoma activity of glofitamab, a bispecific CD3xCD20 monoclonal antibody in patients with relapse/refractory DLBCL (cohort 1) disease after anti-CD19 CAR T-cells therapy

Active54 enrollment criteria

Nivolumab With or Without Varlilumab in Treating Patients With Relapsed or Refractory Aggressive...

ALK-Positive Large B-Cell LymphomaDiffuse Large B-Cell Lymphoma Activated B-Cell Type43 more

This phase II trial studies how well nivolumab with or without varlilumab works in treating patients with aggressive B-cell lymphomas that have come back (recurrent) or do not respond to treatment (refractory). Immunotherapy with monoclonal antibodies, such as varlilumab and nivolumab, may help the body's immune system attack the cancer, and may interfere with the ability of tumor cells to grow and spread.

Active69 enrollment criteria

Pembrolizumab and Vorinostat in Treating Patients With Relapsed or Refractory Diffuse Large B-Cell...

Grade 3b Follicular LymphomaRecurrent B-Cell Lymphoma18 more

This phase I trial studies the side effects and best dose of vorinostat when given together with pembrolizumab in treating patients with diffuse large B-cell lymphoma, follicular lymphoma, or Hodgkin lymphoma that has come back after a period of improvement or that does not respond to treatment. Immunotherapy with monoclonal antibodies, such as pembrolizumab, may help the body's immune system attack the cancer and may interfere with the ability of cancer cells to grow and spread. Vorinostat may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth. Giving vorinostat and pembrolizumab together may work better than pembrolizumab alone in treating patients with diffuse large B-cell lymphoma, follicular lymphoma, or Hodgkin lymphoma.

Active47 enrollment criteria

A Study of Blinatumomab in Patients With Pre B-cell ALL and B-cell NHL as Post-allo-HSCT Remission...

Acute Lymphoblastic LeukemiaB-cell Non Hodgkin Lymphoma1 more

The investigators primary objective is to determine the safety and toxicity of incorporating blinatumomab into the post-allogeneic hematopoietic stem cell transplant (HSCT) maintenance setting for patients with CD19+-B-cell malignancies (Acute Lymphoblastic Leukemia [ALL], Non-Hodgkin's Lymphoma [NHL]).

Active25 enrollment criteria

Administration of T Lymphocytes for Prevention of Relapse of Lymphomas

Hodgkin DiseaseLymphoma8 more

The body has different ways of fighting infection and disease. No single way seems perfect for fighting cancer. This research study combines two different ways of fighting disease: antibodies and T cells. Antibodies are proteins that protect the body from disease caused by bacteria or toxic substances. Antibodies work by binding those bacteria or substances, which stops them from growing and causing bad effects. T cells, also called T lymphocytes, are special infection-fighting blood cells that can kill other cells, including tumor cells or cells that are infected. Both antibodies and T cells have been used to treat patients with cancers. They both have shown promise, but neither alone has been sufficient to cure most patients. This study is designed to combine both T cells and antibodies to create a more effective treatment. The treatment that is being researched is called autologous T lymphocyte chimeric antigen receptor cells targeted against the CD30 antigen (ATLCAR.CD30) administration. In previous studies, it has been shown that a new gene can be put into T cells that will increase their ability to recognize and kill cancer cells. A gene is a unit of DNA. Genes make up the chemical structure carrying the patient's genetic information that may determine human characteristics (i.e., eye color, height and sex). The new gene that is put in the T cells in this study makes a piece of an antibody called anti-CD30. This antibody floats around in the blood and can detect and stick to cancer cells called lymphoma cells because they have a substance on the outside of the cells called CD30. Anti-CD30 antibodies have been used to treat people with lymphoma, but have not been strong enough to cure most patients. For this study, the anti-CD30 antibody has been changed so that instead of floating free in the blood part of it is now joined to the T cells. Only the part of the antibody that sticks to the lymphoma cells is attached to the T cells instead of the entire antibody. When an antibody is joined to a T cell in this way it is called a chimeric receptor. These CD30 chimeric (combination) receptor-activated T cells seem to kill some of the tumor, but they do not last very long in the body and so their chances of fighting the cancer are unknown. The purpose of this research study is to determine a safe dose of the ATLCAR.CD30 cells that can be given to subjects after undergoing an autologous transplant. This is the first step in determining whether giving ATLCAR.CD30 cells to others with lymphoma in the future will help them. The researchers also want to find out what side effects patients will have after they receive the ATLCAR.CD30 cells post-transplant. This study will also look at other effects of ATLCAR.CD30 cells, including their effect on your cancer and how long they will survive in your body.

Active33 enrollment criteria

Administration of TAA-Specific CTLs; Hodgkin or Non-Hodgkin Lymphoma; TACTAL

Hodgkin LymphomaNon-Hodgkin Lymphoma1 more

Patients have a type of lymph gland disease called Hodgkin or non-Hodgkin lymphoma which has come back, or may come back, or has not gone away after treatment, including the standard treatment known for these diseases. This a research study using special immune system cells called tumor associated antigen (TAA)-specific cytotoxic T lymphocytes, a new experimental therapy. This sort of therapy has been used previously to treat Hodgkin or non-Hodgkin lymphomas that show proof of infection with Epstein-Barr virus (EBV), the virus that causes infectious mononucleosis ("mono" or the "kissing disease"). EBV is found in cancer cells of up to half of all patients with Hodgkin's and non-Hodgkin lymphoma. This suggests that it may play a role in causing lymphoma. The cancer cells infected by EBV are able to hide from the body's immune system and escape being killed. Investigators tested whether special white blood cells, called T cells, that were trained to kill EBV-infected cells could affect these tumors, and in many patients it was found that giving these trained T cells caused a complete or partial response. However, many patients do not have EBV in their lymphoma cells; therefore investigators now want to test whether it is possible to direct these special T cells against other types of proteins on the tumor cell surface with similar promising results. The proteins that will be targeted in this study are called tumor associated antigens (TAAs) - these are cell proteins that are specific to the cancer cell, so they either do not show or show up in low quantities on normal human cells. In this study, we will target five TAAs which commonly show on lymphoma, called: NY-ESO-1, MAGEA4, PRAME, Survivin and SSX. This will be done by using special types of T cells called cytotoxic T lymphocytes (CTLs) generated in the lab. In addition, some adult patients will receive a drug called azacytidine before giving the T cells. We hope that the combination helps the T cells work better.

Active61 enrollment criteria

T-cells or EBV Specific CTLs, Advanced B-Cell NHL and CLL

Non-Hodgkin LymphomaChronic Lymphocytic Leukemia

Patients on this study have a type of lymph gland cancer called non-Hodgkin Lymphoma or chronic Lymphocytic Leukemia. Their lymphoma or CLL has come back or has not gone away after treatment. Because there is no standard treatment for the cancer at this time or because the currently used treatments do not work fully in all cases, patients are being asked to volunteer to take part in a gene transfer research study using special immune cells. The body has different ways of fighting infection and disease. No single way seems perfect for fighting cancers. This research study combines two different ways of fighting disease: antibodies and T cells. Antibodies are types of proteins that protect the body from infectious diseases and possibly cancer. T cells, also called T lymphocytes, are special infection-fighting blood cells that can kill other cells, including cells infected with viruses and tumor cells. Both antibodies and T cells have been used to treat patients with cancers. They have shown promise, but have not been strong enough to cure most patients. The antibody used in this study is called anti-CD19. This antibody sticks to lymphoma cells because of a substance on the outside of these cells called CD19. CD19 antibodies have been used to treat people with lymphoma and CLL. For this study, the anti-CD19 antibody has been changed so that instead of floating free in the blood it is now attached to T cells. When an antibody is joined to a T cell in this way it is called a chimeric receptor. These chimeric receptor-T cells seem to be able to kill tumors, but they don't last very long and so their chances of fighting the cancer are limited. Investigators found that T cells work better if they also attach a protein called CD28 to the T cells. This protein makes the T cells more active and survive longer. Also they found that T cells that are also trained to recognize the virus that causes infectious mononucleosis (called Epstein Barr Virus or EBV) can stay in the blood stream for many years. These CD19-CD28 chimeric receptor T cells and CD19 chimeric-EBV specific T cells are investigational products not approved by the FDA. The purpose of this study is to find the biggest dose of chimeric T cells that is safe to administer, to see how long each of the T cell populations (CD19-CD28 and CD19-EBV-specific) last, to assess what the side effects are, and to evaluate whether this therapy might help people with lymphoma or CLL.

Active21 enrollment criteria

An Open-label, Dose Escalation Study to Investigate the Safety, Pharmacokinetics, Pharmacodynamics...

Neoplasms

This first time in human (FTIH) open-label, dose escalation study will assess the safety, pharmacokinetics (PK), pharmacodynamics (PD), and preliminary clinical activity of GSK3326595 in participants with advanced or recurrent solid tumors, as well as clinical activity in participants with a subset of solid tumors and non-Hodgkin's lymphoma (NHL).

Active14 enrollment criteria
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