Active clinical trials for "Multiple Myeloma"

This study will test the safety of TTI-622 in combination with daratumumab hyaluronidase-fihj in people with relapsed/refractory multiple myeloma. The researchers look for the highest dose TTI-622 that causes few or mild side effects in participants when given in combination with daratumumab hyaluronidase-fihj. Once the researchers find the highest safe dose of each study drug, they will further test the combination TTI-622 + daratumumab hyaluronidase-fihj) in new participants to find out if the combinations are effective in treating relapsed/refractory multiple myeloma. Researchers think that combining TTI-621 or TTI-622 with daratumumab hyaluronidase-fihj, a standard treatment for multiple myeloma, may be an effective treatment approach.

This study is a single-center, open Phase I study, to observe the effectiveness and safety of CT103A combined with different doses of Selinexor in patients with relapsed/refractory extramedullary multiple myeloma, and the pharmacokinetics of Selinexor and CT103A Kinetic and pharmacodynamic characteristics.

This is a Phase I dose-finding study of FT576 as monotherapy and in combination with the monoclonal antibody daratumumab in multiple myeloma (MM). The study will consist of a dose-escalation stage and an expansion stage.

The study is researching an experimental drug called linvoseltamab in combination with other drugs for the treatment of a blood cancer called multiple myeloma. Linvoseltamab has previously been studied as a single agent (without other cancer treatments) in participants with multiple myeloma that returned after multiple prior therapies and needed to be treated again. In the initial study, some participants treated with linvoseltamab had improvement of their myeloma, including complete responses (no evidence of myeloma in their bodies). This study is the first time linvoseltamab will be combined with other cancer therapies. The main goal is to understand if linvoseltamab can be given safely with other cancer treatments, and if so, what dose of linvoseltamab should be used for each combination. The study is looking at several other research questions, including: How many participants treated with linvoseltamab in combination with each of the other cancer treatments have improvement of their multiple myeloma What side effects may happen from taking linvoseltamab together with another cancer treatment How much study drug is in your blood at different times Whether the body makes antibodies against the study drug (which could make the drug less effective or could lead to side effects)

Selinexor (KPT-330, Xpovio) is a first in class selective inhibitor of nuclear export which has been approved for use in relapsed and refractory multiple myeloma (RRMM). This trial will seek to evaluate the outcomes achieved with selinexor based combination in RRMM selected by physician's choice and compared prospectively to ex vivo drug sensitivity testing results. Participants will be enrolled and assigned into one of the following treatment arms: Arm 1: Selinexor + pomalidomide + dexamethasone (SPd) Arm 2: Selinexor + daratumumab + dexamethasone (SDd) Arm 3: Selinexor + carfilzomib + dexamethasone (SKd)

Evaluate the efficacy and safety of Belantamab Mafodotin, cyclophosphamide, and dexamethasone in patients with Relapsed/Refractory Multiple Myeloma

This is a single-arm, single-center, open-label clinical study to evaluate the safety and efficacy of GC012F in high-risk, transplant eligible patients with NDMM.

This Phase 1/2, open-label, dose-finding study is intended to evaluate the safety and tolerability, PK, PD, and efficacy of INCB000928 administered as monotherapy in participants with MDS or MM who are transfusion-dependent or present with symptomatic anemia.

This is a phase I, first in human, single arm, open label study that will assess safety, tolerability and clinical activity of FHND6091 when taken orally on a weekly dosing schedule by patients with relapsed and refractory multiple myeloma (RRMM).The study will consist of two parts: dose escalation (Part 1) and dose expansion (Part 2).The dose escalation (Part 1) of the study will evaluate the safety and tolerability of FHND6091 using a dose escalation scheme to establish a maximum tolerated dose (MTD) and/or recommended Phase 2 dose (RP2D). And the dose expansion (Part B) of the study will further evaluate the safety, pharmacokinetics (PK)/ pharmacodynamics (PD), and efficacy of FHND6091 at two selected dose levels to characterize the safety, tolerability and efficacy of FHND6091. A total of 40 evaluable participants will be enrolled in the study. The participants receiving treatment in part 1 and part 2 may continue combination treatment for a total of up to 12 cycles. After 12 cycles of therapy, the participants will continue treatment until the occurrence of PD, intolerable AEs, consent withdrawal, death or end of study based on the judgement of investigator's assessment.

Patients have a type of cancer called NHL, Multiple Myeloma (MM) or CLL that has come back or has not gone away after treatment. There is no standard treatment for the cancer at this time or the currently used treatments do not work completely in all cases like these. This is 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, that investigators hope will work together. Antibodies are types of proteins that protect the body from bacterial and other diseases. T cells, also called T lymphocytes, are special infection-fighting blood cells that can kill other cells, including 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 recognizes a protein on the lymphoma, MM or CLL cells called kappa immunoglobulin. Antibodies can stick to lymphoma, MM or CLL cells when it recognizes the kappa molecules present on the tumor cells. For this study, the kappa antibody has been changed so that instead of floating free in the blood it is now joined to the 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 kill some of the tumor, but they don't last very long and so their chances of fighting the cancer are limited. In the laboratory, investigators found that T cells work better if they also add a protein that stimulates T cells to grow called CD28. By joining the anti-kappa antibody to the T cells and adding the CD28, the investigators expect to be able to make cells that will last for a longer time in the body (because of the presence of the CD28). They are hoping this will make the cells work better. Previously, when patients enrolled on this study, they were assigned to one of three different doses of the kappa-CD28 T cells. We found that all three dose levels are safe. Now, the plan is to give patients the highest dose that we tested. These chimeric T cells (kappa-CD28) are an investigational product not approved by the FDA.