View clinical trials related to Non-Hodgkin's Lymphoma.
Filter by:The purpose of this study is to evaluate response rate, survival, safety and tolerability of YM155 given in combination with rituximab in subjects with Non-Hodgkin's Lymphoma.
This is a single-arm, open-label, multicenter study of Iodine I-131 Anti B1 Antibody (Tositumomab and Iodine I 131 Tositumomab) for treatment of non-Hodgkin's lymphoma (NHL) who were previously treated with rituximab antibody. Patients must have been treated with at least 4 doses of rituximab and have progressed during or following rituximab therapy. Patients will undergo two dosing phases of study. In the first phase, termed the "dosimetric dose", patients will receive an infusion of unlabeled Anti-B1 Antibody (450 mg) over 70 minutes immediately followed by a 30-minute infusion of Anti-B1 Antibody (35 mg) which has been radiolabeled with 5 mCi of Iodine-131. Whole body gamma camera scans will be obtained on Day 0; Day 2, 3, or 4; and Day 6 or 7 following the dosimetric dose. Using the dosimetric data from three imaging timepoints, a patient-specific dose of Iodine-131 will be calculated to deliver the desired total body dose of radiotherapy. In the second phase, termed the "therapeutic dose", patients will receive a 70-minute infusion of unlabeled Anti-B1 Antibody (450 mg) immediately followed by a 30-minute infusion of 35 mg Anti-B1 Antibody labeled with a patient-specific dose of Iodine-131 to deliver a whole body dose of 75 cGy to patients with no hematologic risk factors. Patients who have platelet counts of 100,001-149,999 cells/mm3 will receive 65 cGy and patients who are obese will be dosed based upon 137% of their lean body mass. Patients will be treated with either saturated solution potassium iodide (SSKI), Lugol's solution, or potassium iodide tablets starting at least 24 hours prior to the first infusion of the Iodine-131 Anti-B1 Antibody (i.e., dosimetric dose) and continuing for 14 days following the last infusion of Iodine-131 Anti-B1 Antibody (i.e., therapeutic dose). The endpoints of the study are to determine the response rate, complete response rate, duration of response, and time to progression or death, based on both a Masked Independent Randomized Radiographic and Oncologic Review (MIRROR) panel and the Investigators, and the Investigators' assessment of safety and survival of survival of Iodine-131 Anti-B1 Antibody therapy in NHL patients who have previously been treated with rituximab.
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.
One risk of a stem cell transplant is that the donated stem cells do not grow in the recipient. This is called graft rejection. Previous laboratory research has suggested that the reaction between the recipient's cells and the donor's cells that causes graft rejection is associated with an anti-cancer effect. In this research study the investigators will give participants some of their own white blood cells after their transplant. This is called a recipient leukocyte infusion (RLI). This is done to cause the participant's immune system to react against the donor's cells and reject the transplant. The purpose of this research study is to learn if the graft rejection has an anti-cancer effect.
The purpose of this study is to compare the effects (good and bad) of the medication basiliximab in combination with cyclosporine (investigational therapy) for the prevention of a complication of bone marrow transplantation known as graft-versus-host disease (GVHD). GVHD is a complication in which the cells of the transplanted bone marrow react against organs and tissues.
In previous studies, the investigators found that in patients with Hodgkin's lymphoma (HL) treated with ABVD (adriamycin, bleomycin, vinblastine and decarbazine) the absence of alopecia may predict for a poor response to treatment [complete remission (CR) rate 79% versus 31%, P < 0.0005, respectively]. Also, patients without alopecia had fewer episodes of either leucopenia, neutropenia, deferral of treatment courses or number of courses with dose reduction [88% vs. 62.5%, P=0.05, for the presence of at least one of them]. One of the explanations for this phenomenon is related to a lower systemic exposure of chemotherapeutic drugs in patients who retain their hair. There is a wide interpatient variability in the pharmacokinetic and pharmacodynamic parameters of doxorubicin systemic exposure and the degree of myelosuppression. In a pilot study on 18 patients the investigators could not find the previous association between alopecia, response to chemotherapy and bone marrow depression. However, when analyzing doxorubicin pharmacokinetics, patients who had no remission had 2 fold lower AUC (area under the curve) and 3 fold lower peaks (p=0.06). The investigators' lack to approve the previous findings might be explained by the small study group.
We postulate that the combination of IL-2 and GM-CSF immunotherapy will efficiently mobilize autologous peripheral blood stem cells and activated immune effector cells in patients with a hematologic malignancy. These activated effector cells will improve the immune function of the graft. These hypotheses will be tested using this proposed clinical trial to mobilize autologous peripheral blood stem cells pre-transplantation.
This is a single-arm, open-label study of Iodine 131 Anti B1 Antibody for the treatment of 1st or 2nd relapsed indolent B cell lymphomas or B cell lymphomas that have transformed to a more aggressive histology. The primary endpoint of the study is to determine the response rate. Secondary endpoints of the study is to determine the duration of response, time to progression, time-to-treatment failure, safety, and survival. Forty patients will receive therapy on this study at the 2 clinical sites. Patients will undergo 2 phases of the study. In the first phase, termed the "dosimetric dose", patients will receive an infusion of unlabeled Anti B1 Antibody (450 mg) over 70 minutes (including a 10 minute flush) immediately followed by a 30 minute infusion (including a 10 minute flush) of Anti B1 Antibody (35 mg) which has been trace-labeled with 5 mCi of Iodine 131. Whole body gamma camera scans will be obtained on 1) Day 0; 2) Day 2, 3, or 4; and 3) Day 6 or 7 following the dosimetric dose. Using the dosimetric data from the 3 imaging timepoints, a patient-specific dose of Iodine 131 Anti B1 Antibody to deliver the desired total body dose of radiotherapy will be calculated. In the second phase, termed the "radioimmunotherapeutic dose", patients will receive a 70 minute infusion (including a 10 minute flush) of unlabeled Anti B1 Antibody (450 mg) immediately followed by a 30 minute infusion (including a 10 minute flush) of 35 mg Anti B1 Antibody labeled with the patient-specific dose of Iodine 131 to deliver a whole body dose of 75 cGy to patients with no hematologic risk factors. Patients who have platelet counts of 100,001-149,999 cells/mm3 will receive 65 cGy and patients who are obese will be dosed based upon 137% of their lean body mass (see Appendix A). Patients will be treated with either saturated solution potassium iodide (SSKI), Lugol's solution, or potassium iodide tablets starting at least 24 hours prior to the first infusion of the Iodine 131 Anti B1 Antibody and continuing for 14 days following the last infusion of Iodine 131 Anti B1 Antibody (i.e., therapeutic dose).
The purpose of this study is to determine if MDX-1203 is safe for the treatment of renal cell carcinoma or non-hodgkin's lymphoma.
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.