View clinical trials related to Hematologic Malignancy.
Filter by:This is a study utilizing the Magnetic-activated cell sorting (CliniMACS®) Alpha-Beta T-cell (αβT)/Cluster of Differentiation 19 (CD19), also called B lymphocyte antigen CD19 depletion device for Children and Young Adults with Hematologic Malignancies undergoing alternative Donor Allogeneic Hematopoietic Cell Transplantation (HSCT). Patients will receive an allogenic HSCT from a matched unrelated donor (MUD), mismatch unrelated donor (MMUD) or a mismatched related (haploidentical) donor. Patients will receive a granulocyte-colony stimulating factor (G-CSF) ± Plerixafor donor mobilized peripheral stem cell donor transplant following CliniMACS® αβT cell/CD19+B cell depletion. Cluster of Differentiation 34 (CD34) and αβT cell content of the graft is determined based on the transplant indication.
A Phase I study of BR108 in hematological malignancies
The safety, tolerability, and antileukemic response of ziftomenib in combination with standard of care treatments for patients with relapsed/refractory acute myeloid leukemia will be examined with the following agents: FLAG-IDA, low-dose cytarabine, and gilteritinib.
The purpose of this clinical trial is to examine safety and toxicity of CD45RA depleted donor lymphocyte infusion (DLI) after transplantation of TCRα/β/CD19 depleted peripheral blood stem cells.
The aim of the study is to evaluate the efficacy and safety of Beijing protocol in malignant haematologic disease patients receiving more than 5/10 HLA-mismatched allo-HSCT.
The study is designed to examine the feasibility and safety of collecting autologous hematopoietic stem cells (HSCs) to be combined with CAR T-cell therapy for patients with relapsed/refractory (r/r) hematological disease. The study will evaluate feasibility of collecting the target dose of HSCs from at least 50% of enrolled patients. The study will assess safety based on incidence and severity of cytokine release syndrome (CRS) and immune effector cell-associated neurotoxicity syndrome (ICANS) in the first 60 days post CAR T dosing, and also through the collection of adverse events (AEs) and serious adverse events (SAEs) as well as the durability of response after treatment with HSCs with CAR T. The study follows an open-label, single-center and single non-randomized cohort design. 20 subjects with r/r hematological malignancies will be enrolled and treated to evaluate the feasibility and preliminary safety of collecting autologous HSCs and combining them with CAR T-cell therapy.
Hemophagocytic lymphohistiocytosis (HLH) associated with hematologic malignancies (HM-HLH) is a syndrome with an abysmal prognosis (10-30% 5 years overall survival). We have recently established an improved diagnostic and prognostic index for HM-HLH, termed the Optimized HLH Inflammatory (OHI) index. The OHI index is comprised of the combined elevation of soluble CD25 (sCD25) > 3,900 U/mL and ferritin >1,000 ng/mL . However, the true incidence and outcomes of HLH/OHI+ in an unselected cohort are unknown and so is the mechanism of HM-HLH.
This is a multi-center study to evaluate the clinical performance of ClearLLab LS screening panel with specimens from subjects for the diagnosis of hematologic malignancies.
In recent years, the application of increasingly advanced methods of ex-vivo cell culture and cell engineering has made it possible to develop new cellular therapeutic platforms including the "CAR (Chimeric Antigen Receptor) - T cell therapy". CAR-T cell therapy is a therapy that uses T lymphocytes engineered to express a chimeric receptor directed against a specific antigen, theoretically applicable to the treatment of all neoplasms but currently more widely used in the treatment of haematological malignancies. One of the most innovative aspects introduced with CAR-T cell therapy is that of living-drug, cells that act as a drug as well as a means to build specific immunity against the neoplasm. The advantages of this therapy are therefore represented by the possibility of refueling the patient's immunity, deficient in the control of the neoplastic disease, with lymphocytes capable of expressing an antineoplastic activity with mechanisms not subject to restriction of HLA-mediated antigen recognition. However, the use of CAR-T therapies is not free from potentially serious and sometimes lethal adverse events; in the toxicity profile the following are recognizable as peculiar: - cytokine release syndrome (CRS) - B-cell aplasia (hypogammaglobulinemia) - neurological adverse reactions - haematological toxicity - infections. Therefore, considering that on the one hand adverse events are not negligible and on the other hand that a percentage > 50% of patients lose the response obtained, it is necessary to improve the therapeutic profile of CAR-T cell therapy by increasing its efficacy and reducing its toxicity . Both of these strategies are linked to the understanding of the resistance mechanisms of neoplastic cells, as well as to the biology of CAR-T cells and of all the cellular (microenvironment) and non-cellular systems with which they interact.
This study investigates whether the 12-week home-based exercise training with remote guidance and telemonitoring compared to regular center-based training leads to better long-term cardiorespiratory fitness and physical activity levels in post-treatment patients with lymphoma.