View clinical trials related to Hematologic Neoplasms.
Filter by:The main purpose of this study is to learn if a new combination of chemotherapy, in combination with low-dose radiation, will be safe for the patient, and at the same time provide the best opportunity to cure the bone marrow cancer. The combination of chemotherapy and radiation described in the study is considered 'low intensity.' Although the chemotherapy agents used in this study and for transplant are FDA approved, the chemotherapy treatment and conditioning regimens or combinations listed in this consent are not yet FDA approved. The CliniMACS device is FDA approved for one type of T cell depletion (positive selection of the stem cells) but not approved yet for other type of T cell depletion, which is being studied on this protocol. This pilot study, along with other studies will serve as the basis for FDA approval, if outcomes are favorable.
Phase I, open-label, non-randomized study of safety, pharmacokinetics and efficacy of donor BPX-501 T cell infusion in children with recurrent or minimal residual disease (MRD) hematologic malignancies post-allogeneic transplant. The study will consist of the Main Study and an optional Pharmacokinetics (PK) Sub-Study.
Hematologic malignancy patients are admitted to ICU in increasing numbers. Successful ICU intervention has led to an increasing number of ICU survivors; however, there is a lack of information available about these patients' long term survival and quality of life. There is little Canadian data regarding ICU survival and regarding 1-year survival and functional outcomes in this group of patients. Over 500 patients are admitted annually to Canadian ICUs with an underlying hematologic malignancy or stem cell transplant, yet there is a paucity of up to date long-term outcome data. This information will facilitate a better understanding who would best benefit from critical care interventions and the impact of critical illness on their level of function at 1 year as well as survival.
This is a Phase I/II study designed to evaluate the kinetics of hematopoietic reconstitution and the incidence of acute chronic GVHD after partially matched related donor hematopoietic cell transplantation using an αβTCR/CD19+ cell depleted graft.
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.
Pneumonia is a lung infection. Fiberoptic bronchoscopy is a test to diagnose the type of lung infection. While this procedure is being performed, a small amount of oxygen is delivered into the nose (low flow nasal cannula). Occasionally during this procedure, the blood oxygen of the patient may drop and an intervention such as increasing the oxygen flow, or placing the patient on a breathing machine is required. An alternative device called 'Optiflow' can provide high flow oxygen through nasal cannula, and is comfortable for patients. If Optiflow is used during bronchoscopy, it may prevent the blood oxygen from dropping.
This study aims to evaluate the safety, tolerability, pharmacodynamic, and pharmacokinetic (PK) of nemtabrutinib (formerly ARQ 531) tablets in selected participants with relapsed or refractory hematologic malignancies. No formal hypothesis testing will be performed for this study.
This is a prospective study of the safety and efficacy of nivolumab for the treatment of relapsed or residual haematological malignancies after allogeneic stem cell transplantation (alloSCT). Eligible patients will receive nivolumab at a dose of 3mg/kg intravenously every 2 weeks. The primary objective is to evaluate the incidence, severity and treatment responsiveness of GVHD following nivolumab treatment post-alloSCT.
This is an open label, non-randomised, multicentre Phase I to determine the safety of tacrolimus-resistant autologous EBV-specific cytotoxic T-cells (EBV CTL) and compare their expansion/persistence with control EBV CTL in solid organ transplant patients with post-transplant lymphoproliferative disease (PTLD). Each patient will receive an infusion of two ATIMPs - autologous EBV CTL retrovirally transduced with (a) a calcineurin mutant (CNA12) that confers resistance to tacrolimus and (b) a control calcineurin mutant (CNA8).
The purpose of this phase I study is to test the safety of different dose levels of specially prepared cells collected from the patient called "modified T cells". The investigators want to find a safe dose of modified T cells for patients with this type of cancer that has progressed after standard therapy. The investigators also want to find out what effects these modified T cells have on the patient and the cancer. For patients who were treated, had progression of disease and were removed from study, duplicate enrollment is permitted if it is determined the patients could receive a benefit. If the patients meet all eligibility criteria, they can be enrolled onto study a second time as a new accrual, and receive treatment in a higher dose level cohort.