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Clinical Trial Summary

Multiple Myeloma (MM) is a morbid disease which can only be cured with an allogeneic hematopoietic stem cell transplant (HSCT). Approximately 50% of allotransplanted patients will relapse, with a median survival of 5 years. Better approaches to improve disease control at relapse, while decreasing toxicity, are urgently needed. Relapse after allogeneic transplant is a failure of the graft versus MM effect (GvMM). DLIs can be used to control disease following relapse, but the optimal dose, schedule of administration and drug association remain elusive, while the immunosuppression found in MM patients can compromise their effect. One reason for immunotherapy failure relates to the immunological environment: as much as myeloma cells depend on their microenvironment to survive and proliferate, the immunotherapeutic effect of allogeneic HSCT depends on both systemic and local immunological status to be efficacious. Immunomodulatory drugs such as Lenalidomide (Len) have been tried in various settings after allogeneic transplantation with the aim to reverse immunosuppression and stimulate the GvMM, but if and how Len influences a GvMM and thereby promotes an immunotherapeutic success remained uncharacterized. Therefore, a deeper understanding of the immunological environment in MM patients is needed in order to establish and / or restore a potent GvMM effect. This study proposes the powerful combination of the two following goals, one clinical and one biological : 1. Clinical: The investigators propose a two-step treatment using first Len in association with Dexamethasone (Dex), followed by Donor Leukocytes Infusions (DLIs) to offer an optimal disease control strategy in relapsed patients. The cytoreductive and immunomodulatory effects of Len is expected to induce a permissive immunological environment for the immunotherapeutic activity of DLIs to develop, while the association with Dex will lessen the risk of graft-versus-host disease (GVHD). This treatment combination has the potential to further improve depth of myeloma response, delay myeloma progression and improve patient survival. 2. Biological: In an attempt to gain knowledge on how the GvMM behaves in MM patients post-relapse after having received a combined treatment of Len/Dex/DLIs, the investigators propose to characterize the immune environment of their bone marrow (BM) using both minimal residual disease (MRD) assessement by flow cytometry and an unbiased analysis of the transcriptome at various time points.


Clinical Trial Description

Myeloma patients in first relapse after sibling or unrelated donor allogeneic transplant willing to participate in this study will be screened for eligibility. 1. After baseline evaluation including BM aspirate for plasma cell count, minimal residual disease using 8-color multiparameter flow cytometry, transcriptome sequencing and a positron emission tomography (PET scan), patients will receive Len- Dex daily x 21 days with Dex 40 mg once weekly for a total of 6 cycles of 28 days each 2. Patients will then be evaluated clinically for acute and chronic GVHD before each cycle and a PET scan will be performed at the end of Len/Dex treatment 3. Sibling and unrelated donor transplant recipients will receive 3 DLIs 4. Disease and immune evaluation using serum and urine electrophoresis/immunofixation in addition to measurement of serum-free light chains, BM aspirate for plasma cell count and minimal residual disease using 8-color multiparameter flow cytometry, transcriptome sequencing and a PET scan will be performed 1. A BM aspirate will be performed before each DLI for plasma cell count, MRD evaluation by flow cytometry and transcriptome sequencing 2. Patients will be followed with a BM aspirate every 3 months x 1 year, then yearly and at progression for plasma cell count and evaluation 3. Transcriptome sequencing will be done on BM aspirates at time of relapse, after Len/Dex cycles, 6m, 12m, 18m and 24m after the last-DLI. 4. A PET scan will be performed after the last DLI and at progression. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03413800
Study type Interventional
Source Ciusss de L'Est de l'Île de Montréal
Contact
Status Active, not recruiting
Phase Phase 2
Start date February 12, 2018
Completion date January 1, 2026

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