View clinical trials related to Multiple Myeloma.
Filter by:This open-label, randomized study for evaluating the efficacy and safety of single agent belantamab mafodotin when compared to pom/dex in participants with RRMM. Participants will be randomized in a 2:1 ratio to receive either single agent belantamab mafodotin or pom/dex. Belantamab mafodotin will be administered on Day 1 (D1) at every 3 weeks (Q3W) schedule. Pomalidomide will be administered daily on Days 1 to 21 of each 28-day cycle, with dexamethasone administered once weekly (Days 1, 8, 15, and 22). Participants in both arms will be treated until disease progression, death, unacceptable toxicity, withdrawal of consent, and lost to follow-up or end of study, whichever comes first.
This is a Phase II study of daratumumab based therapies for older adults with multiple myeloma.
This a Phase I/II randomized trial for patients with relapsed refractory Multiple Myeloma who have relapsed after treatment with prior therapies. The protocol is designed to evaluate two agents, Anti-LAG-3 and Anti-TIGIT, in order to understand their immunologic effects and safety both as single agents and in combination with pomalidomide and dexamethasone. In these arms, patients will be treated with either Anti-LAG-3 or Anti-TIGIT respectively for one cycle as single agent followed by the addition of pomalidomide and dexamethasone in combination for subsequent cycles. A third arm allows patients to be treated with the FDA approved combination of elotuzumab plus pomalidomide and dexamethsone as a control. This arm will thus allow a concurrent standard of care comparator for the experimental arms.
This study is a prospective open label interventional multicenter study evaluating the impact of the update multiple myeloma criteria on the natural history of smoldering myeloma in order to establish new recommendations about follow up and prognostic evaluation of smoldering myeloma.
This phase 2 trial will test whether the combination of DaraRd (daratumumab + lenalidomide + dexamethasone) as induction therapy, followed by DRVd (daratumumab + lenalidomide + bortezomib + dexamethasone) consolidation therapy, if needed, will result in more patients achieving minimal residual disease (MRD)-negative status, relative to the standard of care. Consolidation therapy will be administered only to those patients with MRD-positive status after induction therapy. This is a study based on adaptive design for decision making of treatment options. Duration of therapy (daratumumab cycles) will depend on individual approach, response, evidence of disease progression and tolerance.
This study propose to investigate the immune repertoire of MM patients at the time of diagnosis vs. 1st vs. 2nd vs. 3rd relapse. This study will provide insights into the immune status of MM patients before and after disease transformation and help identify patients who will benefit from immunotherapy. It will also allow us to predict the efficacy of these immune-mediated strategies and their associated toxicity. By understanding the immune-microenvironment in MM patients during disease progression, the investigator will be able to better design immunotherapeutic strategies for maximal success.
The purpose of this study is to evaluate the overall minimal residual disease (MRD) negative rate of participants who receive JNJ-68284528.
Multiple myeloma (MM) with chromosome 17 deletion (del(17p) represents one of the most dangerous genetic variant of this disease, since it is associated with a high level of genomic instability. Del(17p) is present in approximately 10% of patients at diagnosis, and its frequency increases with disease evolution. The adverse prognosis of del(17p) has been observed in patients treated with conventional chemotherapy and new drugs. Only very few studies have suggested an advantage in treating del(17p) MM patients with specific therapies. In particular, several recent trials combining lenalidomide plus dexamethasone with a new agent, suggested that high risk cytogenetics patients may benefit from newest generation drugs. Yet, in all studies, outcome of patients with high risk genetic features have been derived from subgroup analyses, with all the limitations of this approach. To date no trial has been designed with the specific aim to test genotype-adapted therapies. The objective of the present study is to evaluate the combination of daratumumab-pomalidomide-dexamethasone (DPd) in relapsed or relapsed/refractory MM patients harboring del(17p). Treatment of relapsed or relapsed/refractory MM patients harbouring del(17p) is a relevant unmet medical need. A clinical trial designed to test a tailored treatment for this patient population would be a major improvement. In this perspective the combination DPd seems attractive since: - both daratumumab and pomalidomide are therapies not interfering with DNA replication, thus not increasing the intrinsic genomic instability of del(17p) plasma cells. - the POLLUX study has shown that daratumumab in combination with lenalidomide is highly effective in relapsed and relapsed/refractory MM patients.10 - the IFM 2010-02 trial has suggested that pomalidomide may be effective in del(17p) patients. - the DPd combination has been successfully tested in MM patients with advanced disease.
The design of a phase I, open-label, dose finding study was chosen in order to establish a safe and tolerated dose of single agent WVT078 alone and in combination with WHG626 in patients relapses and/or refractory Multiple Myeloma (MM)
This study is being done because, despite major advances in therapy, MM is still considered an incurable disease. The purpose of this study is to determine the efficacy (how well it works) of the study treatment that combines the following drugs: daratumumab, carfilzomib, lenalidomide, dexamethasone in subjects who have a recent diagnosis of multiple myeloma (MM). Normal plasma (blood) cells are found in the bone marrow and are an important part of the immune system. MM is a cancer formed by malignant (cancerous) plasma cells. Daratumumab, one of the study drugs, is a man-made protein that works with your immune system by attaching itself to the cancerous cells. Once daratumumab attaches itself to these cells, it gets your body's immune system to attack and destroy the MM cells. Daratumumab has shown to be effective in subjects with MM when combined with medicines like bortezomib, or lenalidomide + dexamethasone.