View clinical trials related to Multiple Myeloma.
Filter by:This study is designed to prospectively determine the sensitivity, specificity, and diagnostic accuracy of whole-body MRI (WBMRI) with Dual-Echo T2-weighted acquisition for Enhanced Conspicuity of Tumors (DETECT) for the detection of multiple myeloma. Subjects will undergo WBMRI and fluorodeoxyglucose (FDG) positron emission tomography (PET) for research purposes either at one time point for cross-sectional study or at four time points for longitudinal study: baseline, prior to bone marrow transplant (BMT), prior to maintenance therapy, and post BMT. The results of these imaging procedures will be compared to standard of care whole body x-ray and bone marrow biopsy results.
This protocol is a phase III study designed to compare the efficacy and the safety of Isa-KRd induction, transplant, Isa-KRd post ASCT consolidation and Isa-KRd light consolidation vs KRd induction, transplant, KRd post ASCT consolidation and KRd light consolidation After confirmation of eligibility criteria patients will be randomized to one of the 2 treatment groups in a 1:1 randomization ratio.
The purpose of this study is to find out whether acupuncture treatments can reduce the need for opioid medication when managing pain caused by chemotherapy. The study will compare the effects of adding acupuncture to usual pain management with those of usual pain management alone, in reducing opioid use by relieving pain. Researchers also want to find out more about the effects of acupuncture treatments on other symptoms caused by cancer treatments and quality of life.
This phase II MATCH treatment trial identifies the effects of trametinib in patients whose cancer has genetic changes called GNAQ or GNA11 mutations. Trametinib may block proteins called MEK1 and MEK2, which may be needed for cancer cell growth when GNAQ or GNA11 mutations are present. Researchers hope to learn if trametinib will shrink this type of cancer or stop its growth.
This phase II MATCH treatment trial investigates the good and bad effects of binimetinib in patients whose cancer has a genetic change called NRAS mutation. Binimetinib blocks proteins called MEK1 and MEK2, which may be needed for cancer cell growth when an NRAS mutation is present. Researchers hope to learn if binimetinib will shrink this type of cancer or stop its growth.
This phase II MATCH treatment trial identifies the effects of VS-6063 (defactinib) in patients whose cancer has a genetic change called NF2 mutation. Defactinib may block a protein called FAK, which may be needed for cancer cell growth when NF2 mutations are present. Researchers hope to learn if defactinib will shrink this type of cancer or stop its growth.
This phase II MATCH treatment trial identifies the effects of trametinib in patients whose cancer has a has a genetic change called NF1 mutation. Trametinib blocks proteins called MEK1 and MEK2, which may be needed for cancer cell growth when an NF1 mutation is present. Researchers hope to learn if trametinib will shrink this type of cancer or stop its growth.
This phase II MATCH treatment trial identifies the effects of trametinib and dabrafenib in patients whose cancer has genetic changes called BRAF V600 mutations. Dabrafenib may stop the growth of cancer by blocking BRAF proteins which may be needed for cell growth. Trametinib may stop the growth of cancer cells by blocking MEK proteins which, in addition to BRAF proteins, may also be needed for cell growth. Researchers hope to learn if giving trametinib with dabrafenib will shrink this type of cancer or stop its growth.
This phase II MATCH treatment trial identifies the effects of trametinib in patients with cancer having genetic changes called BRAF mutations and fusions. Trametinib may block proteins called MEK1 and MEK2, which may be needed for growth of cancer cells that express BRAF mutations. Researchers hope to learn if giving trametinib will shrink this type of cancer or stop its growth.
This phase II MATCH treatment trial identifies the effects of crizotinib in patients whose cancer has a genetic change called ALK rearrangement. Crizotinib may stop the growth of cancer cells by blocking the ALK protein which may be needed for cell growth. Researchers hope to learn if crizotinib will shrink this type of cancer or stop its growth.