View clinical trials related to Non-Hodgkin's Lymphoma.
Filter by:The goal of this clinical research is to see if Rituxan (rituximab) therapy given after high dose chemotherapy and transplant of a patients own stem cells will prevent or delay the return of the lymphoma.
The purpose of the study is to find out the effects and the safety of an investigational study drug called LBH589 when given to people with relapsed or refractory chronic lymphocytic leukemia (CLL) or mantle cell lymphoma (MCL).
The purpose of this study is to find out the effects of a drug called LBH589 when given to people with recurrent or refractory Hodgkin or Non-Hodgkin's lymphoma. The safety of this drug will also be studied. The participants' physical state, changes in the size of the tumor, or state of Hodgkin or non-Hodgkin's Lymphoma, and laboratory findings taken while on-study will help the researchers decide if LBH589 is safe and effective.
A study to evaluate the efficacy of lenalidomide as maintenance therapy after completion of first-line combination chemotherapy in patients with mantle cell lymphoma (MCL) who are not candidates for transplantation and have achieved partial response (PR) or complete response (CR). This study was prematurely terminated by the sponsor in light of new unpublished data that rendered the current design of the study no longer clinically relevant. A study design with the control arm of no active treatment was no longer appropriate. The termination of the trial was not based on any safety concerns in the study.
Background: - Allogeneic hematopoietic stem cell transplantation (allotransplant) has been used to treat many kinds of cancer that develop in cells from the blood or immune system. After allotransplant, donor cells take over production of the recipient s blood and immune cells, and donor immune cells can directly attack and control tumor. However, for cancers that do not respond to allotransplant, there are no proven cures. - A single treatment with radiation can improve the potency of immune-cell therapies. This is probably because the tumor tissue is damaged in a way that new tumor proteins are exposed, attracting immune cells to the tumor. By giving only a single dose of radiation, the immune cells that are attracted to the tumor are allowed to survive and function in their usual way, traveling throughout the body and educating other immune cells to recognize tumor, and to activate and expand in order to kill the tumor cells. Some research has shown that radiation may have a widespread effect on stimulating the immune system, educating immune cells to recognize and control tumors that have not been radiated. Objectives: - To determine whether a single treatment of radiation will help donor immune cells control cancer after allotransplant without causing excessive side effects. Eligibility: - Recipients: Individuals 18 years of age and older who have blood cancers that have not responded to allotransplant. - Donors: Healthy individuals 18 years of age and older who were previous allotransplant donors for one of the study recipients. Design: - Donors will provide additional blood immune cells, called lymphocytes, through apheresis. Apheresis involves drawing blood, separating out the lymphocytes, and returning the rest of the blood to the donor. - Recipients will receive a single dose of radiation to the greatest amount of tumor that can be irradiated safely. Researchers will intentionally leave some tumor that will not be radiated in order to evaluate whether there is a widespread response to the treatment. - There are two treatment arms on the study. - Arm 1: Study participants who have donor lymphocytes available and who have not had major complications from the allotransplant will be given a dose of donor cells after they receive radiation, to provide an additional boost to the donor immune response. - Arm 2: Study participants who cannot receive donor lymphocytes because their donor is not available, they received an allotransplant from a partially matched relative, or they have had significant complications from the allotransplant - will receive radiation without additional donor lymphocytes. - All recipients will be followed closely for side effects and for tumor response to radiation with or without donor lymphocytes. Additional tests will be performed, including tumor biopsies, bone marrow samples, and blood draws, in order to study the immune effects of radiation and donor lymphocytes. - A separate, control group of allotransplant recipients will not receive radiation. This group will include participants whose transplant doctors plan to use donor lymphocyte therapy alone to control cancer progression. This group will donate blood immune cells through blood draws and apheresis. These cells will be examined to study the immune effects of receiving donor lymphocytes without radiation.
This is a Phase II, open label, fixed dose, repeat injection, single institution study. Eligible subjects will receive up to six doses of Ad-ISF35 injected directly into a selected lymph node under ultrasound guidance. The primary goal is to determine and monitor clinical and biological responses in patients treated with repeat intranodal injections of Ad-ISF35.
The proposed study is based on our observation of paradoxical tumor regression after rejection of the donor graft in conjunction with the results of our murine experiments. We hypothesize that clinically meaningful responses can be achieved in patients with advanced malignancies with a transplant strategy using nonmyeloablative conditioning and related mismatched donor stem cell transplant where the intention will be to initially achieve mixed chimerism which will be followed by recipient lymphocyte infusion (RLI) in an attempt to deliberately reject the donor graft. This will lead to the development of novel transplant strategies for achieving antitumor effects without the risk of graft versus host disease (GVHD). This proposed protocol is a Pilot Study that will evaluate the safety of this outpatient transplant strategy, i.e., establishment of initial mixed chimerism followed by RLI for donor graft rejection, in patients with advanced lymphomas, and multiple myeloma. In addition, because RLI have been reported to reverse ongoing GVHD, this approach might potentially reverse GVHD while achieving antitumor responses if this complication unexpectedly occurs.
This research is being done to see if a PET scan that is obtained after 3 cycles of a standard chemotherapy regimen can help guide treatment for patients with a blood disease called Non-Hodgkin's Lymphoma. The standard treatment for newly diagnosed lymphoma is 6 to 8 cycles of chemotherapy like the CHOP combination (Cyclophosphamide, Doxorubicin, Vincristine, and Prednisone). This regimen can cure about half of patients with lymphoma, but in many others disease relapses (comes back). Relapses are generally treated with more chemotherapy. We believe that a PET scan (a type of imaging study that "lights up" in areas of cells with high activity such as lymphoma), may identify patients early who are at high risk of relapse. The purpose of this research study is to find out if people whose treatment is changed early to an intensification regimen (high dose chemotherapy) based on a positive PET scan will have longer remissions than they would if they did not receive that high dose chemotherapy.
This study evaluates the use of the standard treatment R-CHOP plus the anti-VEGF drug, bevacizumab and whether this treatment is feasible in patients with stage II, III and IV diffuse large B cell lymphoma (DLBCL).
A study to determine the accuracy of FLT-PET in quantifying tumor cell proliferation at the initial staging of patients with Non-Hodgkin's Lymphoma in comparison wit the "gold standard" FDG-PET.