View clinical trials related to Lymphoma.
Filter by:The experimental drug regimen in this study includes a PD-1 antibody (tislelizumab) single-drug induction treatment period and a PD-1 antibody + AVD combined treatment period. 1. PD-1 antibody (tislelizumab) single-drug induction treatment period (first 2 courses for all patients + 3-6 courses for CR patients): PD-1 antibody (tislelizumab), specification: 100mg/bottle. Usage and dosage: intravenous drip, 200mg each time, QD, D1. In the above PD-1 antibody single-drug regimen, 21 days are regarded as a treatment cycle, and all patients first receive 2 courses of PD-1 antibody single-drug induction treatment; 2. PET/CT mid-term efficacy evaluation used for guiding follow-up treatment options: PET/CT efficacy evaluation before the 3rd course of treatment (PET/CT2): CR patients: continue to receive PD-1 antibody monotherapy, and then receive 4 courses of PD-1 antibody therapy; PR patients: sequential 4 courses of PD-1 antibody + AVD combined chemotherapy; PD+SD patients: out group, and receive other anti-lymphoma therapy deemed suitable by the investigators; After the 6th course, patients not out of the group receive PET/CT3 efficacy evaluation: CR patients: end the treatment and enter the follow-up; PR patients: receive 2 more courses of PD-1 antibody + AVD combined chemotherapy, and then enter the follow-up. 3. PD-1 antibody + AVD combined treatment period (3rd-6th/8th course for PR patients): PD-1 antibody, specification: 100mg/bottle. Usage and dosage: intravenous drip, 100mg each time, QD, d1, d15. AVD regimen Doxorubicin 25mg/m2, d1, d15 intravenous injection Vindesine 3mg/m2, d1, d15 intravenous injection Dacarbazine 0.375mg/m2, d1, d15 intravenous drip In this combined treatment regimen, every 28 days is a treatment cycle, and the PD-1 antibody is used in combination with AVD in D1 and D15 of each treatment cycle.
This is a multicenter, prospective, single arm, non-randomized, open-label, phase 2 clinical study to evaluate safety and efficacy of valemetostat tosylate (DS-3201b) in patients with relapsed or refractory B cell lymphoma with 6 cohorts of patients including 2 biology-driven cohorts. Up to 141 patients will be enrolled in 6 different cohorts (40 patients with aggressive B-cell lymphoma, 41 with follicular lymphoma (FL), 20 with Mantle Cell Lymphoma (MCL) and 20 with other indolent lymphomas, and 20 patients with Hodgkin lymphoma (HL)). FL patients with EZH2 mutant (gain of function mutations) will be enrolled in the cohort 2bis. At least 8 aggressive B-cell lymphoma patients with EZH2 mutant will be enrolled in the cohort 1. The primary endpoint is the overall response rate (ORR) determined by investigator assessment.
This multi-center clinical study will evaluate the efficacy of Rituximab maintenance treatment of newly diagnosed follicular lymphoma after induction therapy of BR, RCHOP or R2.
This phase I-II trial is intented to demonstrate tolerability (i.e. absence of severe non-hematological toxicity) and efficacy of intended intervention with repeated doses of Voraxaze, in addition to leucovorin (LV), in patients with renal impairment or renal failure during previous HD-MTX therapy. Patients will receive up to 6 cycles of HD-MTX treatment with 14 days between cycles (a maximum delay of 28 days is permitted in order to allow time for a patient to recover from the previous cycle).
This is a phase 1 clinical trial of autologous CD7-CAR T cells in the treatment of high-risk acute T-cell leukemia / lymphoma. Twenty subjects will be enrolled. Subjects will be pretreated with chemotherapy prior to infusion of CAR T cells: about 3 days before cells transfusion, the patients who planned to reinfuse CAR T cells were treated with fluorodarabine 30 mg/m2( body surface area) and cyclophosphamide 250 mg/m2( body surface area) for 3 days. Then this study will be using a 3+3 dose escalation approach from dose 1 (DL-1): 5×105 (±20%) to dose 2 (dl-2): 1×106 (±20%). Below the lowest dose was reinfused at the PI's discretion.
This phase II trial studies the effects of venetoclax and rituximab in comparison to ibrutinib and rituximab in treating patients with previously untreated Waldenstrom's macroglobulinemia/lymphoplasmacytic lymphoma. Ibrutinib may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth. Rituximab is a monoclonal antibody. It binds to a protein called CD20, which is found on B cells (a type of white blood cell) and some types of cancer cells. This may help the immune system kill cancer cells. Venetoclax is in a class of medications called B-cell lymphoma-2 (BCL-2) inhibitors. It may stop the growth of cancer cells by blocking Bcl-2, a protein needed for cancer cell survival. Giving venetoclax and rituximab may work better in treating patients with previously untreated Waldenstrom's macroglobulinemia than ibrutinib and rituximab alone.
The aim of this trial is to develop an effective and well-tolerated regimen for treatment of r/r cHL by introducing the anti-PD-1 antibody pembrolizumab and adding it to well-established chemotherapy regimens (ICE, DHAP). Synergistic effects of conventional agents with checkpoint inhibition may facilitate a highly effective therapy with limited toxicity, which might eventually substitute the very toxic high-dose chemotherapy (HDCT).
The aim of the trial is to establish an individualized first-line treatment incorporating checkpoint inhibition for early-stage unfavorable cHL, which is effective and well tolerated.
Participants with CD30-positive lympoma will be treated with brentuximab vedotin according to their clinic's standard practice. The main aim of this study is to collect information on any side effects from treatment with brentuximab vedotin. Other aims are to collect information on how brentuximab vedotin is used to treat these participants and the outcomes of these participants.
This phase Ib/II trial studies the side effects of acalabrutinib and duvelisib and how well they work in treating patients with indolent non-Hodgkin lymphoma that has come back (relapsed) or does not respond to treatment (refractory). Acalabrutinib inhibits a signaling molecule called Bruton tyrosine kinase and blocks cancer cell proliferation, growth, and survival. Duvelisib is designed to block a protein called PI3 kinase in order to stop cancer growth and cause changes in the immune system that may allow the immune system to better act against cancer cells. Giving acalabrutinib and duvelisib together may work better to block cancer growth than therapy of either drug alone.