View clinical trials related to Hematologic Neoplasms.
Filter by:The purpose of the study is to determine the safety and tolerability of pembrolizumab/vibostolimab (MK-7684A) in hematological malignancies. This study will also evaluate the overall response rate (ORR), the duration of response (DOR), and disease control rate (DCR) following administration of pembrolizumab/vibostolimab. In addition, this study will characterize pharmacokinetic (PK) profile of vibostolimab (MK-7684).
This is an open-label, two-part Phase 2 study investigating CGT9486 for the treatment of patients with Advanced Systemic Mastocytosis (AdvSM), including patients with Aggressive SM (ASM), SM with Associated Hematologic Neoplasm (SM-AHN), and Mast Cell Leukemia (MCL).
A clinical study of WJ01024 in subjects with advanced cancer in China, to evaluate the safety, tolerability, PK and efficacy of WJ01024. This study includes a dose escalation part and a dose expansion part. Patients receive WJ01024 on Day 1 and Day 3 of each week, 4 weeks as a cycle, until disease progression, or intolerable toxicity , withdrawal of consent, or end of the study, whichever occurs first.
This research study is a genomic profiling and repository study for children and young adults who have leukemia, myelodysplastic syndrome (MDS) or myeloproliferative syndrome (MPS). Genes are the part of cells that contain the instructions which tell cells how to make the right proteins to grow and work. Genes are composed of DNA letters that spell out these instructions. Genomic profiling helps investigators understand why the disease develops and the instructions that led to its development. Understanding the genetic factors of the disease can also help investigator understand why the disease of some people can respond to certain therapies differently than others. The genomic profiling will be performed using bone marrow and blood samples that either have already been obtained during a previous clinical procedure or will be obtained at the time of a scheduled clinical procedure. Studying the genetic information in the cells of these samples will provide information about the origin, progression, and treatment of leukemia and myeloproliferative syndromes and myelodysplastic syndrome. Storing the bone marrow and blood samples will allow for additional research and genomic assessments to be performed in the future.
Currently, transplantation centers across North America generally do not offer longitudinal rehabilitation programs and research is urgently needed to test the acceptability and effectiveness of these programs using innovative delivery strategies that have the potential for future scalability and to understand the associated costs. Through a strong collaboration between the PM Cancer Rehabilitation and Survivorship (CRS) and alloBMT teams, the principal investigators developed an innovative multicomponent rehabilitation intervention for patients undergoing alloBMT (CaRE-4-alloBMT). CaRE-4-alloBMT uses a person- centred strategy and a multidimensional approach targeting physical activity, nutrition, psychosocial distress and promoting self-management skills. Innovative components of CaRE-4-alloBMT include:1) Individualized progressive exercise prescriptions developed and monitored by CRS registered kinesiologists and supported with a web/mobile application (Physitrack) that allows customizable exercise prescriptions, tracking of exercise completion, and video tutorials; 2) Individualized nutrition plans and stepped stratified care (education, counselling, intervention) based on nutritional status and delivered by registered dietitians (alloBMT and CRS). 3) On-line e-modules (developed in collaboration with PM Oncology Education) provide interactive education to promote self-management skills on crucial topics; 4) Remote monitoring using FitbitTM devices to monitor patients physical activity, caloric intake, and sleep for duration of the program; 5) Remote clinical support: Pre/Post discharge, patients will have scheduled (PHS) remote check-ins and health coaching sessions with a member of the CRS team (phone or MS Teams video). Objectives: i) To test the feasibility and safety of CaRE-4-alloBMT plus standard best practice cancer care compared to standard best practice cancer care alone; ii) To assess the preliminary efficacy of CaRE-4-alloBMT on physical function, disability, nutritional status, distress, QoL, healthcare utilization, and survival and estimate program return on investment.
The aim of this project is to test whether low levels of BcrAbl1, despite the presence of resistance mutations, are related to high levels of innate CD8+ T cells, in the hypothesis that these cells have an anti-tumor role. This research aims to investigate: - An association between the rate of innate CD8+ T cells and the evolution of Phi+ pathologies (Chronic Myeloid Leukemia and Philadelphia chromosome-positive Acute lymphocytic leukemia (Phi+ ALL) carrying a resistance mutation, according to the ELN 2013 and Phi LMC recommendations. - An association between the level of innate CD8+ T cells and the expansion of TKI resistance clones, assessed as the number of BcrAbl1 copies carrying the mutation relative to the number of Abl1 copies.
This phase II trial tests whether treosulfan, fludarabine, and rabbit antithymocyte globulin (rATG) work when given before a blood or bone marrow transplant (conditioning regimen) to cause fewer complications for patients with bone marrow failure diseases. Chemotherapy drugs, such as treosulfan, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Fludarabine may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth. rATG is used to decrease the body's immune response and may improve bone marrow function and increase blood cell counts. Adding treosulfan to a conditioning regimen with fludarabine and rATG may result in patients having less severe complications after a blood or bone marrow transplant.
The purpose of this study is to evaluate the safety and the efficacy of SMART101 (Human T Lymphoid Progenitor (HTLP)) injection to accelerate immune reconstitution after T cell depleted allogeneic hematopoietic stem cell transplantation (HSCT) in adult and pediatric patients with hematological malignancies.
Background: Certain blood cancers can be treated with blood or bone marrow transplants. Sometimes the donor cells attack the recipient's body, called graft-versus-host disease (GVHD). The chemotherapy drug cyclophosphamide helps reduce the risk and severity of GVHD. Researchers want to learn if using a lower dose of cyclophosphamide may reduce the drug's side effects while maintaining its effectiveness. Such an approach is being used in an ongoing clinical study at the NIH with promising results, but this approach has not been tested for transplants using lower doses of chemotherapy/radiation prior to the transplant. Objective: To learn if using a lower dose of cyclophosphamide will help people have a successful transplant and have fewer problems and side effects. Eligibility: Adults ages 18-85 who have a blood cancer that did not respond well to standard treatments or is at high risk for relapse without transplant, and their donors. Design: Participants may be screened with the following: Medical history Physical exam Blood and urine tests Heart and lung tests Body imaging scans (they may get a contrast agent) Spinal tap Bone marrow biopsy Participants will be hospitalized for 4-6 weeks. They will have a central venous catheter placed in a chest or neck vein. It will be used to give medicines, transfusions, and the donor cells, and to take blood. In the week before transplant, they will get 2 chemotherapy drugs and radiation. After the transplant, they will get the study drug for 2 days. They will take other drugs for up to 2 months. Participants must stay near NIH for 3 months after discharge for weekly study visits. Then they will have visits every 3-12 months until 5 years after transplant. Participants and donors will give blood, bone marrow, saliva, cheek swab, urine, and stool samples for research.
The purpose of this research is to gather information on the safety and effectiveness of fedratinib (a drug called a "jak inhibitor" ) in combination with ivosidenib or enasidenib (two anti-cancer drugs). While all three drugs are FDA-approved for various conditions, the US Food and Drug Administration (FDA) has not approved the combination of these drugs for the treatment of rare blood cancers that present Isocitrate dehydrogenase (IDH) mutations, and therefore these drugs can only be given in a research study.