View clinical trials related to Lymphoma.
Filter by:This phase II MATCH treatment trial tests how well palbociclib (PD-0332991) works in treating patients with cancer that has certain genetic changes. Palbociclib (PD-0332991) is in a class of medications called kinase inhibitors. It is used in patients whose cancer has a certain mutation (change) in the CDK4 or CDK6 gene. It works by blocking the action of mutated CDK4 or CDK6 that signals cancer cells to multiply. This helps to stop or slow the spread of cancer cells.
This phase II MATCH treatment trial tests how well sunitinib in treating patients with cancer that has certain genetic changes. Sunitinib is in a class of medications called kinase inhibitors. It is used in patients whose cancer has a certain mutation (change) in the cKIT gene. It works by blocking the action of mutated cKIT that signals cancer cells to multiply. This helps to stop or slow the spread of cancer cells.
This is a clinical trial testing whether the addition of one of two chemotherapy agents, dasatinib or venetoclax, can improve outcomes for children and young adults with newly diagnosed T-cell acute lymphoblastic leukemia and lymphoma or mixed phenotype acute leukemia. Primary Objective - To evaluate if the end of induction MRD-negative rate is higher in patients with T-ALL treated with dasatinib compared to similar patients treated with 4-drug induction on AALL1231. - To evaluate if the end of induction MRD-negative rate is higher in patients with ETP or near-ETP ALL treated with venetoclax compared to similar patients treated with 4-drug induction on AALL1231. Secondary Objectives - To assess the event free and overall survival of patients treated with this therapy. - To compare grade 4 toxicities, event-free survival (EFS) and overall survival (OS) of patients treated with this therapy in induction and reinduction to toxicities of similar patients treated on TOT17.
This study is planned to evaluate the effect of back-to-school adaptation programme on social anxiety score, coping score and back-to-school readiness score in children aged 8-17 years who are followed up with a diagnosis of cancer. H1: Is there a significant difference in children's social anxiety scores before and after the back-to-school adaptation programme? H2: Is there a significant difference in children's coping scores before and after the back-to-school adaptation programme? H3: Is there a significant difference in children's readiness to return to school scores before and after the back-to-school adaptation programme?
This phase II trial compares the safety, side effects and effectiveness of reduced dose radiation therapy to standard of care dose radiation in treating patients with indolent non-Hodgkin lymphoma. Radiation therapy uses high energy x-rays, particles, or radioactive seeds to kill cancer cells and shrink tumors. Standard of care radiation treatment for indolent non-Hodgkin lymphoma is usually delivered in 12 treatments. Studies have shown indolent lymphoma to be sensitive to radiation treatment, however, larger doses have higher rates of toxicities. A reduced radiation dose may be safe, tolerable and/or effective compared to standard of care radiation dose in treating patients with indolent non-Hodgkin lymphoma.
The goal of this trial is to learn if a new drug, BITR2101, works to treat non-Hodgkin lymphoma (NHL) in adults, with CTCL patients being sought in particular. The trial also seeks to learn about the safety of this drug. This drug is a protein called an antibody. The drug prevents a molecule called a receptor, named TNFR2, from being made. TNFR2 regulates the immune system and provides important signals to lymphoma cells to grow, make more of themselves and survive. When the drug prevents TNFR2 from being produced in lymphoma cells from CTCL patients, those cells died in the laboratory. Therefore, the trial seeks to enroll CTCL patients in particular, in addition to other subtypes of NHL. When the drug prevents the receptor from being made in certain immune cells, there is increased immune activity. Thus, the trial will test if this drug is a new immune therapy that helps the immune system to keep lymphoma under control. In particular, we want to find out if the amount of lymphoma in the body decreases while taking the drug. Patients with autoimmune diseases are not permitted because of this potential increase in immunity brought on by this drug. Patients should have NHL that has been previously treated, that is getting worse on their current therapy, and their doctors think a new treatment is needed. All patients will receive BITR2101 by a 3 hour infusion into a vein, periodically, initially every 3 weeks. There is no placebo in this trial. Visits to the clinic facility will be required, initially at least every week and later less frequently. Patients will be expected to report changes in their health to the clinic staff including new findings and any change in the status of their lymphoma they may be aware of. Patients can continue to receive BITR2101 for up to a year or until their lymphoma worsens. For patients who are clearly benefiting, they may be able to receive BITR2101 for another year.
This phase II MATCH treatment trial tests how well MLN0128 (TAK-228) works in treating patients with cancer that has certain genetic changes called mTOR mutations. MLN0128 (TAK-228) may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth.
This phase II MATCH treatment trial tests how well afatinib works in treating patients with cancer that has certain genetic changes. Afatinib is in a class of medications called kinase inhibitors. It is used in patients whose cancer has a certain mutation (change) in the EGFR gene. It works by blocking the action of mutated EGFR that signals cancer cells to multiply. This helps to stop or slow the spread of cancer cells.
PEGASUS aims to test acceptability and feasibility of studying phenoconversion (the change in metabolism phenotype) using probe medications in a paediatric oncology patient population. The study will be conducted in patients (6-25 years of age) with Hodgkin lymphoma or non-Hodgkin lymphoma as exemplar cohort, but with the understanding that cancer-directed and supportive care medicines of the CYP3A4, CYP2C19, and CYP2D6 metabolic pathways are commonly utilised for the treatment of many paediatric, adolescent, young adult, and adult cancers. The study involves administration of the probe medication at timepoints which align with pre-determined hospital visits for the treatment of lymphoma and subsequent blood draws to measure the metabolism of the probe medications. The acceptability and feasibility of this study will inform future studies in phenoconversion within the paediatric cancer population to direct more personalised precision medicine.
Identification and quantitation of circulating tumor cells in patients with cutaneous T-cell lymphoma -mycosis fungoides (MF)/Sézary syndrome (SS)- are required for diagnosis and precising the actual staging and response to treatment. The current flow cytometry techniques used in clinical laboratories do not correctly allow to compare results in a clinical setting. Furthermore, now we know that the phenotype of tumor cells partially overlaps with that of normal TCD4+ cells, and it is rather heterogeneous. The GENERAL OBJECTIVE of this project is to apply flow-cytometry standardized strategies for rapid, specific, sensitive, and reproducible detection and quantitation of tumor cells in patients with MF/SS. For this purpose, in the first phase of the project we will design an optimal combination of markers to detect tumor cells by spectral flow-cytometry, and then the specificity and analytical sensitivity of the new combination/procedure will be assessed in blood samples -to be later applied to skin samples-, and finally reference databases will be created for the automatic analysis of cytometry data. In a second phase of the project, the developed method will be validated in a multicenter manner, through the demonstration of its practical applicability and clinical utility (speed and precision) in blood samples (and skin, where appropriate) for diagnosis, staging, and treatment monitoring. In parallel, the tumor microenvironment (residual normal immune system) will be explored -by applying the panel designed in the first phase together with additional immune-monitoring panels by flow cytometry-, and its relationship with clinical-biological heterogeneity of the tumor will be analyzed. In the two phases of the project, cytometry data will be compared with the gold standard approach to identify tumor T cells (through the identification of clonal rearrangement by PCR and/or NGS, performed on cell populations previously sorted by flow cytometry).