View clinical trials related to Myeloma.
Filter by:The investigators propose to determine whether it is acceptable to patients with a diagnosis of multiple myeloma (a type of blood cancer that can cause bone weakness, pain and fatigue) to be offered and attend an exercise group before receiving an autologous stem cell transplantation (being given back one's own stem cells, following receipt of intensive chemotherapy, to enable bone marrow to start producing blood cells again). Exercise has been shown to be effective in reducing many of the side effects of myeloma and the treatment patients receive to manage the disease. Prehabilitation i.e. providing an intervention after diagnosis but before treatment begins has been effective in reducing the severity of side effects of treatment in cancer patients receiving surgery. No evidence exists for its use in patients with myeloma. Patients awaiting transplantation will be provided with information regarding the study and invited to join. Patients who agree to take part will attend the hospital for an assessment of their exercise capability and to complete one set of four questionnaires. They will receive an exercise booklet, advice and complete one attempt at their exercise programme under supervision of a physiotherapist. Patients will be requested to attend the gym for a minimum of six further weeks to complete their exercise programme. Patients will complete a repeat set of questionnaires and a repeat walking test six weeks after the first, on admission to hospital for their transplant and on the day they leave hospital. Some patients will be invited to discuss their opinions of the exercise programme and how useful they felt it was to them in preparing for their transplant. If the study shows that the exercise programme is acceptable to patients and we can recruit enough patients to test it in a larger trial, the investigators will apply for further funding.
This registry has been established to gain a better understanding of the clinical and biological characteristics and outcome of patients with lymphoid cancer
Enrolled participants health status will be tracked by using a mobile health-monitoring device while undergoing chemotherapy for multiple myeloma.
Rationale: Recent studies showed that ascorbic acid (AA) stimulates proliferation and maturation of T lymphocytes and NK cells. Chemotherapy results in depletion of those cells and thereby an increased infection rate. A pilot study showed low levels of AA in the plasma of several patients after chemotherapy for hematological malignancies. AA suppletion could be beneficial to the recovery of the immune system in these patients. But before an intervention study can be undertaken, further understanding of changing over time of AA levels and the relationship with the immune status after chemotherapy is necessary. Objective: The aim of this pilot study is to evaluate the changing over time of AA levels in plasma and in leukocytes before and during chemotherapy treatment for several different groups of patients and compare that to healthy controls. In this way we want to identify the patients were further interventions could be useful and use the data in the development of an intervention study for power calculations and to identify the primary endpoint. Study design: observational study Study population: There will be 6 different groups of participants in the study: two groups of patients that receive clinical intensive chemotherapy (acute leukemia and high dose chemotherapy with autologous stem cell rescue), two groups of patients that receive relatively mild chemotherapy in outpatient setting (colon cancer and lung cancer) and two control groups. All participants will be adults and recruited at the MUMC+. In total there will be 150 participants. Main study parameters/endpoints: Influence of chemotherapy on AA levels in plasma and in leukocytes.
The goal of this proposal is to perform first-in-man evaluation of and experimental imaging agent F-18 tetrafluoroborate (BF4) or (TFB).
The purpose of this study is to see if exercise fitness testing is feasible and safe in persons over 21 years of age who have been diagnosed with a hematological malignancy and are scheduled to undergo a hematopoietic stem cell transplant (HCT). Assessments in this study will look at the capacity of the body before transplantation to see if these measures can help predict how patients do after transplant.
Determine the relapse-free, donor lymphocyte infusion (DLI)-free survival in patients receiving the investigational regimen.This is a randomized phase II clinical trial, comparing two different dosing schedules of mycophenolate mofetil for graft versus host disease (GVHD) prevention following allogeneic stem cell transplantation. Risk for relapse, GVHD and non-relapse mortality will be assessed. Adaptive randomization between two study arms will be performed based on T cell counts at day 60.
This is a 2 part study: Part 1 (dose escalation) and Part 2 (dose expansion). The goal of Part 1 of this clinical research study is to find the highest tolerable dose of DS-3032b that can be given to patients with multiple myeloma (MM) that is relapsed (has come back) and/or refractory (has not responded to treatment). The goal of Part 2 of this clinical research study is to continue to study the safety of the highest tolerable dose found in Part 1 of the study.
This phase I/II trial studies the side effects and best dose of clarithromycin when given together with ixazomib citrate, pomalidomide, and dexamethasone and to see how well it works in treating patients with multiple myeloma that has not responded to previous treatment. Biological therapies, such as clarithromycin, pomalidomide, and dexamethasone, use substances made from living organisms that may stimulate the immune system in different ways and stop cancer cells from growing. Ixazomib citrate may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth. Giving clarithromycin with ixazomib citrate, pomalidomide and dexamethasone may be a better treatment for patients with multiple myeloma.
Theranostics is the use of a diagnostic test to decide which patients will benefit from a certain treatment. The current standard treatment for patients with myeloma is induction chemotherapy followed by peripheral stem cell transplant. Although there are options for timing of treatments, patient outcomes are variable and the investigators do not currently know which patients benefit from which treatment schedule. There is evidence to suggest that residual disease on imaging after treatment is an indicator for a worse prognosis, however the best time point for this imaging is currently not known. This study is designed to show if there is an optimum time point for correlation between imaging and prognosis. Several studies have indicated that MRI is better at detecting disease than FDG PET/CT and the investigators will confirm this when patients are first diagnosed, by performing both FDG PET/CT and whole body diffusion weighted MRI. Patients will then be followed up with whole body diffusion weighted MRI after induction chemotherapy and 3 months post autograft. The investigators will look at the amount of disease present on these scans and correlate this with outcomes. There are likely to be other factors which influence patient outcomes (such as genetics) and the investigators will also look at some of these. Patients who undergo autograft have regular blood tests and marrow samples taken as part of routine care, the investigators will use some of these samples (without compromising the patients treatment) to analyses some of these other factors. If the investigators are able to determine a correlation of genetic factors with outcome this information could be used in future research. Theranostics is the use of a diagnostic test to decide which patients will benefit from a certain treatment. The current standard treatment for patients with myeloma is induction chemotherapy followed by peripheral stem cell transplant. Although there are options for timing of treatments, patient outcomes are variable and the investigators do not currently know which patients benefit from which treatment schedule. There is evidence to suggest that residual disease on imaging after treatment is an indicator for a worse prognosis, however the best time point for this imaging is currently not known. This study is designed to show if there is an optimum time point for correlation between imaging and prognosis. Several studies have indicated that MRI is better at detecting disease than FDG PET/CT and the investigators will confirm this when patients are first diagnosed, by performing both FDG PET/CT and whole body diffusion weighted MRI. Patients will then be followed up with whole body diffusion weighted MRI after induction chemotherapy and 3 months post autograft. The investigators will look at the amount of disease present on these scans and correlate this with outcomes. There are likely to be other factors which influence patient outcomes (such as genetics) and the investigators will also look at some of these. Patients who undergo autograft have regular blood tests and marrow samples taken as part of routine care, the investigators will use some of these samples (without compromising the patients treatment) to analyses some of these other factors. If the investigators are able to determine a correlation of genetic factors with outcome this information could be used in future research.