1,105 Clinical Trials for Various Conditions
The aim of this study is to investigate the safety and tolerability of trichostatin A in individuals with relapsed or refractory hematologic malignancies.
This is a global, multicenter, open-label, repeat-dose, Phase 1/2 study consisting of a Dose Escalation Phase (Phase 1) and a Cohort Expansion Phase (Phase 2). In both phases, KB004 will be administered by IV infusion once weekly as part of a 21-day dosing cycle.
There is no curative therapy once acute leukemia patients relapse after transplant. Patients who develop clinically significant graft versus host disease (GVHD) have a lower rate of relapse than those who do not develop GVHD. We are initiating this study of post-transplant fast withdrawal of immunosuppression and donor lymphocyte infusions, with a goal of achieving full donor chimerism in children with hematologic malignancies. If our hypothesis that full donor chimerism results in leukemia-free survival is correct, using immune modulation to achieve full donor chimerism should decrease relapse rate and thus increase survival. The goal of this Phase II study is to identify if achieving full donor chimerism in whole blood CD3+ and leukemia-specific (CD14/15+, CD19+, CD33+ and CD34+) subset may decrease the risk of relapse of patients undergoing allogeneic transplant for hematologic malignancy.
This is an open-label, dose escalation study of intravenous ARQ 621 administered to patients with late-stage solid tumors or hematologic malignancies.
The purpose of this study is to evaluate the anti-tumor activity of 852A when used to treat certain hematologic malignancies not responding to standard treatment.
This study primarily determined the safety and tolerability of escalating doses of vosaroxin (SNS-595) in 2 dose schedules, and assessed the PK profile of vosaroxin and defined a recommended dose regimen for Phase 2 studies. Secondarily the study assessed potential biomarkers and antileukemic activity.
To compare the safety and efficacy of piperacillin/tazobactam (4 g/500 mg) administered intravenously every 6 hours to cefepime (2 g) administered intravenously every 8 hours for the empiric treatment of neutropenic fever in patients with a hematologic malignancy or lymphoma.
Background: Blood cancers (such as leukemias) can be hard to treat, especially if they have mutations in the TP53 or RAS genes. These mutations can cause the cancer cells to create substances called neoepitopes. Researchers want to test a method of treating blood cancers by altering a person s T cells (a type of immune cell) to target neoepitopes. Objective: To test the use of neoepitope-specific T cells in people with blood cancers Eligibility: People aged 18 to 75 years with any of 9 blood cancers. Design: Participants will have a bone marrow biopsy: A sample of soft tissue will be removed from inside a pelvic bone. This is needed to confirm their diagnosis and the TP53 and RAS mutations in their cancer cells. They will also have a skin biopsy to look for these mutations in other tissue. Participants will undergo apheresis: Blood will be taken from their body through a vein. The blood will pass through a machine that separates out the T cells. The remaining blood will be returned to the body through a different vein. The T cells will be grown to become neoepitope-specific T cells. Participants receive drugs for 3 days to prepare their body for the treatment. The modified T cells will be given through a tube inserted into a vein. Participants will need to remain in the clinic at least 7 days after treatment. Participants will have 8 follow-up visits in the first year after treatment. They will have 6 more visits over the next 4 years. Long-term follow-up will go on for 10 more years.
The purpose of the study is to evaluate if firefighter exposure to hazardous compounds will increase the incidence of premalignant hematological states which subsequently increases the risk of the development of hematologic malignancies, and potentially other pathophysiological consequences.
The purpose of the research project is to collect one blood sample from participants who are affected by very low platelets as a result of their condition or their treatment.
The goal of this clinical research study is to learn if intermediate-intensity conditioning therapy followed by a cord blood transplant can help to control high-risk hematological malignancies in patients who need a second allogeneic stem cell transplantation.
Pharmacogenomic (PGx) testing involves analyzing variants of genes associated with drug metabolism, transport and medication targets. PGx testing uses an individual's genetic factors, such as single nucleotide polymorphisms (SNPs), to personalize therapy or dose a selection of medications. PGx testing has traditionally been used to test single genes, but there are now platforms allowing a panel of genes to be tested at once. To date there has not been a comprehensive screening of pediatric oncology patients to determine the prevalence of genetic variants that may affect anticancer therapy and supportive care medications. This study would allow us to summarize the frequency of clinically relevant gene-drug interactions and actionable genetic polymorphisms in pediatric oncology patients.
This phase I trial tests the safety, side effects, and best dose of Q702 in treating patients with hematologic malignancies. Q702 is in a class of medications called immunomodulatory agents. It works by helping the immune system kill cancer cells and by helping the bone marrow to produce normal blood cells. Giving Q702 may be safe, tolerable and/or effective in treating patients with hematologic malignancies.
Determine knowledge, attitudes, and beliefs among adult patients, and parents of pediatric patients, with transfusion dependent beta-thalassemia and sickle cell disease toward gene therapy to treat their or their child's illness, and to assess the likely impact of gene therapy on patients' quality of life.
The goal of this clinical trial is to learn if KQB198 works to treat advanced hematologic malignancies in adults. It will also learn about the safety of KQB198. The main questions it aims to answer are: * What is the safe dose of KQB198 by itself or in combination with other anti-cancer drugs? * Does KQB198 alone or in combination with other anti-cancer drugs decrease the size of the tumor? * What happens to KQB198 in the body? Participants will: * Take KQB198 daily, alone or in combination with another anti-cancer drug * Visit the clinic about 8 times in the first 8 weeks, and then once every 4 weeks after that
This phase of the protocol (protocol part B), seeks to evaluate the new formulation in healthy normal volunteers to confirm the new formulation provides comparable human dosimetry to which was seen and published in protocol part A. Additionally, the new formulation will be studied utilizing an expanded patient population to include patients with confirmed diagnosis of multiple myeloma (MM), low-grade lymphoma, or MM and lymphoma patients who are status post bone marrow transplant (BMT) with negative imaging and suspected recurrence.
The study goal is to characterize the safety of the combination of Orca-T with dual agent GVHD prophylaxis.
This is a Phase 1/2, first-in-human, open-label, dose-escalating trial designed to assess the safety and efficacy of VNX-101 in patients with relapsed or refractory CD19-positive hematologic malignancies.
People with hematologic cancer often have sleep disturbance and symptoms of fatigue, stress, and pain. This study is being done to test a mindfulness intervention for sleep disturbance and symptom management in patients with hematologic cancer during and after inpatient treatment (Nite2Day+). Participants will complete a baseline survey online, using a mobile application, or paper/pencil. Once the baseline survey is complete, participants will be randomized (like a flip of a coin) to receive Nite2Day+ or Standard Care. Nite2Day+ will include activities during and after inpatient treatment. During inpatient treatment, participants will use a mobile app to access: 1) mindfulness meditations, 2) brief sleep education videos, and 3) brief videos teaching strategies to improve sleep quality in the hospital. After inpatient treatment, participants will complete 6, videoconference sessions (45-60 minutes) with a trained therapist to learn mindfulness and behavioral coping strategies to self-manage nighttime sleep disturbance and daytime symptoms of fatigue, stress, and pain. Three follow-up surveys will occur at hospital discharge, and approximately 8, and 12 weeks after hospital discharge. Participants randomized to Nite2Day+ will be given the option to complete an exit interview to provide feedback on the Nite2Day+ program. Participants randomized to Standard Care will only complete the four surveys. All participants will continue to receive their usual medical care. The total study duration is about 16 weeks.
This is an open label, multicenter, phase 1/2 dose evaluation and cohort expansion study evaluating the safety and efficacy of CTX131 in subjects with Relapsed/Refractory Hematologic Malignancies
Substudy 01A is part of a platform study. The purpose of this study is to assess the efficacy and safety of zilovertamab vedotin in pediatric participants with relapsed or refractory B-cell acute lymphoblastic leukemia (B-ALL), diffuse large B-cell lymphoma (DLBCL)/Burkitt lymphoma, or neuroblastoma and in pediatric and young adult participants with Ewing sarcoma.
This study is a rolling arm study of pembrolizumab in combination with investigational agents in pediatric participants with relapsed or refractory classical Hodgkin lymphoma (cHL) solid tumors with microsatellite instability-high (MSI-H)/mismatch repair deficient (dMMR) or tumor mutational burden-high (TMB-H). This study will have 2 parts: a safety lead-in to demonstrate a tolerable safety profile and confirm a preliminary recommended phase 2 dose (RP2D) (Part 1) followed by an efficacy evaluation (Part 2). Participants will be assigned to a treatment arm (either Part 1 or Part 2) that is open for enrollment. There will be no hypothesis testing in this study.
This phase I trial tests the safety, side effects, and best dose of genetically engineered cells called EGFRt/19-28z/IL-12 CAR T cells, and to see how they work in treating patients with hematologic malignancies that makes a protein called CD19 (CD19-positive) that has come back after a period of improvement (relapsed) or that has not responded to previous treatment (refractory). Chimeric Antigen Receptor (CAR) T-cell Therapy is a type of treatment in which a patient's T cells (a type of immune system cell) are changed in the laboratory so they will attack cancer cells. T cells are taken from a patient's blood. Then the gene for a special receptor that binds to a certain protein on the patient's cancer cells is added to the T cells in the laboratory. The special receptor is called a chimeric antigen receptor (CAR). Large numbers of the CAR T cells are grown in the laboratory and given to the patient by infusion for treatment of certain cancers. To improve the effectiveness of the modified T cells and to help the immune system fight cancer cells better, the modified T cells given in this study will include a gene that makes the T cells produce a cytokine (a molecule involved in signaling within the immune system) called interleukin-12 (IL-12). The researchers think that IL-12 may improve the effectiveness of the modified T cells, and it may also strengthen the immune system to fight cancer. Giving EGFRt/19-28z/IL-12 CAR T cells may be safe and tolerable in treating patients with relapsed or refractory CD19+ hematologic malignancies.
The purpose of this study is to evaluate whether a novel decision support tool called PRIME (Preference Reporting to Improve Management and Experience), which combines values-elicitation with tailored feedback to patients and providers, improves patient-reported values-concordance of initial treatment decisions compared to usual care.
This phase I trial tests safety, side effects and best dose of B-cell activating factor receptor (BAFFR)-based chimeric antigen receptor T-cells, with fludarabine and cyclophosphamide lymphodepletion, for the treatment of patients with B-cell hematologic malignancies that has come back after a period of improvement (relapsed) or that does not respond to treatment (refractory). BAFFR-based chimeric antigen receptor T-cells is a type of treatment in which a patient's T cells (a type of immune system cell) are changed in the laboratory so they will attack cancer cells. T cells are taken from a patient's blood. Then the gene for a special receptor that binds to a certain protein on the patient's cancer cells is added to the T cells in the laboratory. The special receptor is called a chimeric antigen receptor (CAR). Large numbers of the CAR T cells are grown in the laboratory and given to the patient by infusion for treatment of certain cancers. Giving chemotherapy, such as fludarabine and cyclophosphamide, helps ill cancer cells in the body and helps prepare the body to receive the BAFFR based chimeric antigen receptor T-cells. Giving BAFFR based chimeric antigen receptor T-cells with fludarabine and cyclophosphamide for lymphodepletion may work better for the treatment of patients with relapsed or refractory B-cell hematologic malignancies.
A FIH study to evaluate the safety, tolerability, pharmacokinetics and pharmacodynamics of VVD-130850, as single agent and in combination with checkpoint inhibition, in participants with advanced solid and hematologic tumors.
This study is designed to evaluate the safety, tolerability, PK and preliminary efficacy following oral administration of AZD3470 as a monotherapy, and in combination with other anticancer agents in participants with haematologic malignancies.
This is an open label, Phase 1/2, first-in-human, multiple ascending dose, and dose-expansion study of IDP-023 administered as a single agent and in combination with or without interleukin-2 (IL-2), and with or without isatuximab, daratumumab or rituximab to evaluate the safety, tolerability and preliminary antitumor activity in patients with advanced hematologic cancers.
Dose Escalation - Determine the maximum tolerated dose (MTD), if possible, or minimum optimal biologic dose (OBD), and evaluate the safety and tolerability of VIP943 in subjects with advanced CD123+ hematologic malignancies
This phase II trial studies how well giving an umbilical cord blood transplant together with cyclophosphamide, fludarabine, and total-body irradiation (TBI) works in treating patients with hematologic diseases. Giving chemotherapy, such as cyclophosphamide, fludarabine and thiotepa, and TBI before a donor cord blood transplant (CBT) helps stop the growth of cancer and abnormal cells and helps stop the patient's immune system from rejecting the donor's stem cells. When the healthy stem cells from a donor are infused into the patient they may help the patient's bone marrow make stem cells, red blood cells, white blood cells, and platelets. Sometimes the transplanted cells from a donor can make an immune response against the body's normal cells. Giving cyclosporine and mycophenolate mofetil after transplant may stop this from happening in patients with high-risk hematologic diseases.