View clinical trials related to Low Grade Glioma.
Filter by:There is a high medical need to improve treatment outcome for high-grade and low-grade glioma since no curative treatment is available. To achieve this goal, a broader understanding is needed of the causes of inter-and intratumoral heterogeneity; glioma dedifferentiation and invasion; the major determinants of malignancy and treatment failure in glioma patients. Patient-derived organoid (PDOs) of high-grade gliomas and low-grade gliomas will be used to identify the mechanisms that underlie this malignant behaviour and treatment resistance. This insight may be used to develop patient avatars to simultaneously test multiple new treatment modalities that are predictive for survival and quality of life of glioma patients.
This study investigates how seizures can vary over time with changes in low grade gliomas and its treatments. This study may help doctors find symptoms or triggers of seizures earlier than normal, and ultimately earlier care or treatment for seizures.
This phase II trial studies how well F-18 fluoroethyltyrosine (fluoroethyltyrosine) works in detecting tumors in participants with intracranial tumors that have come back. FET accumulates in malignant cells within intracranial neoplasms and can be used to detect recurrent disease and characterize the grade of glial neoplasms. Imaging agents such as FET can help oncologist to see the tumor better during a positron emission tomography (PET) scan.
Patients with glial brain tumors have increasingly improved outcomes, with median survival of 5-15 years. However, the treatments, including surgery, radiation, and chemotherapy, often lead to impaired attention, working memory, and other cognitive functions. These cognitive deficits frequently have significant impact on patient quality of life. Although currently, there is no established standard of care to treat cognitive deficits in brain tumor patients, standard cognitive rehabilitative treatments have been developed for those with traumatic brain injury and stroke. However, the feasibility and efficacy of these cognitive treatments in individuals with brain tumors remains unclear.
This research study is studying a drug Tovorafenib/DAY101 (formerly TAK-580, MLN2480) as a possible treatment a low-grade glioma that has not responded to other treatments. The name of the study drug involved in this study is: • Tovorafenib/DAY101 (formerly TAK-580, MLN2480)
This is a phase 2, open-label, interventional clinical trial that will study the response rate of pediatric glioma and plexiform neurofibroma (PN) to oral administration of trametinib. Patients meeting all inclusion criteria for a given study group will receive the study medication at a daily dose of 0.025 mg/kg up to a total of 18 cycles, in 28-day cycles. A total of 150 patients will be recruited as part of this clinical study. Patients aged between 1 month (corrected age) and 25 years old will be eligible, in order to include a maximum of patients affected by low-grade glioma (LGG) and PN. This study includes four groups: patients with neurofibromatosis type 1 (NF1) and LGG, NF1 patients with PN, patients with LGG with a B-Raf Serine/Threonine-protein Kinase/Proto-oncogene Encoding B-Raf (BRAF) fusion and patients with glioma of any grade with activation of the Mitogen-activated Protein Kinase/Extracellular Signal-regulated Kinases (MAPK/ERK) pathway. All patients except patients with PN must have failed at least one line of treatment. The study will also explore the molecular mechanisms behind tumor development, progression and resistance to treatment. Furthermore, this study will also explore important aspects for patients with brain tumors by including assessment of quality of life and neuropsychological evaluation.
This trial studies how well a couple-based mind body program works in improving spiritual, psychosocial, and physical quality of life in patients with high or low grade glioma or tumors that have spread to the brain and their partners. A couple-based mind body program may help to improve spiritual well-being, sleep difficulties, depressive symptoms, and overall quality of life in patients with glioma or tumors that have spread to the brain and their partners.
This phase II Pediatric MATCH trial studies how well olaparib works in treating patients with solid tumors, non-Hodgkin lymphoma, or histiocytic disorders with defects in deoxyribonucleic acid (DNA) damage repair genes that have spread to other places in the body (advanced) and have come back (relapsed) or do not respond to treatment (refractory). Olaparib is an inhibitor of PARP, an enzyme that helps repair DNA when it becomes damaged. Blocking PARP may help keep cancer cells from repairing their damaged DNA, causing them to die. PARP inhibitors are a type of targeted therapy.
This phase II Pediatric MATCH trial studies how well tazemetostat works in treating patients with brain tumors, solid tumors, non-Hodgkin lymphoma, or histiocytic disorders that have come back (relapsed) or do not respond to treatment (refractory) and have EZH2, SMARCB1, or SMARCA4 gene mutations. Tazemetostat may stop the growth of tumor cells by blocking EZH2 and its relation to some of the pathways needed for cell proliferation.
This is an open-label, randomized, multi-center, comparator Phase II trial looking at the addition of Bevacizumab to Vinblastine in chemotherapy naïve pediatric patients with progressive Low Grade Glioma aged 6 months to less than18 years of age at the time of initiation of therapy. Participants will be randomized to Arm A or Arm B. Arm A includes 68 weeks of single agent Vinblastine administered once weekly IV. Arm B includes 68 weeks of Vinblastine administered weekly IV with the addition of 12 doses of Bevacizumab administered every two weeks IV for the initial 24 weeks. Randomization will take place at the time of registration taking into account NF1 and BRAF-KIAA1549-fusion status.