View clinical trials related to Glioblastoma.
Filter by:This phase I trial studies the side effects of stereotactic radiosurgery with MBG453 and spartalizumab in treating patients with recurrent glioblastoma multiforme (GBM). Stereotactic radiosurgery is a specialized radiation therapy that delivers a single, high dose of radiation directly to the tumor to more precisely target the cancer. Monoclonal antibodies, such as MBG453 and spartalizumab may interfere with the ability of tumor cells to grow and spread. Giving stereotactic radiosurgery together with immunotherapy may be a better treatment for GBM.
This trial is a translational, open-label, multicentric, prospective cohort study of 900 patients aiming to describe the PD-1 (programmed death) expression in T cells (T lymphocytes) in different solid tumors. The study will be conducted on a population of patients with local and/or metastatic malignant solid tumor and who are followed within a standard of care procedure or clinical trial. Patients with any of the following tumor types may be enrolled in the trial: - Head and neck cancer, - Ovarian cancer, - Cervical cancer, - Pre-invasive CIN III cervical cancer (Cervical Intra-epithelial Neoplasia III cervical cancer), - Other solid tumor types (including glioblastoma, NSCLC (Non-small cell lung cancer), anal cancer) Each tumor type will be considered as an independent cohort. For each included patient, biological specimen (tumor sample, blood samples and ascites samples if applicable) will be collected. Study participation of each patient will be 5 years.
Several investigations suggest neural stem cells located in the subventricular region play an active role in promoting or even initiating cortical malignant glioma growth. Although normal appearing on neuroimaging, surgical specimens taken from this region show it contains malignant glioma stem-like cells. Some retrospective analyses found patients who received radiation therapy to this region during standard of care treatments lived longer than patients who did not. The investigator's study hypothesizes (1) stereotactic radiosurgery of cancer stem-like cells in these regions will be well tolerated during standard of care therapy, (2) focused stereotactic radiosurgery will be more effective in destroying cancer stem cells than conventional radiation therapy, and (3) treatment will improve malignant glioma survival.
The investigators want to verify the hypothesis that targeting the calcium-activated (KCa3.1) and the voltage-dependent K channel (Kv1.3) could be a valuable therapeutic strategy to reprogram cells of the innate immune system, with the aim to fight glioma, a deadly CNS tumor. The investigators will use murine models of glioma, injecting GL261 cells in the brain of syngeneic C57BL6 mice, to study the effect of K channel inhibition on the activation of microglia (M), macrophages (Mf) and NK cells. The investigators will use M and vesicles released from these cells, re-educated toward an anti-tumor phenotype, to interfere with the vicious circle responsible of uncontrolled tumor growth and will study the role of NK cells in tumor-M/Mf communication. The investigators will also investigate how K channels interfere with the communication of innate immune cells and brain cells like neurons and astrocytes, with experiments focused on synaptic transmission and calcium imaging, investigating the effect of modulation of the tumor microenvironment.
An open-label, single institutional phase II trial of losartan in patients with primary and metastatic brain tumors with an individual stepped-wedge, randomized, assessor-blinded, dose-finding design on three indications.
This trial studies the use of blood-based bioenergetic profiling and cognitive testing in assessing patients with glioblastoma undergoing chemoradiation therapy. The purpose of this pilot research study is to find out if it is possible to see changes in participants' mitochondria, parts of a cell that produce energy, that might be associated with changes in participants' brain function after chemoradiation therapy.
This single-arm phase II study will assess the impact of tetanus pre-conditioning and adjuvant Granulocyte Macrophage Colony Stimulating Factor (GM-CSF) on overall survival of patients newly diagnosed with World Health Organization (WHO) Grade IV glioblastoma who have undergone definitive tumor resection, are cytomegalovirus (CMV) positive and unmethylated, and completed standard temozolomide (TMZ) and radiation treatment. After completion of the standard of care radiotherapy with concurrent TMZ, patients will receive 1 cycle of dose-intensified TMZ followed by pp65-loaded dendritic cell (DC) vaccination beginning on day 23.
This early phase I trial studies how well F18 fluciclovine positron emission tomography (PET)/computed tomography (CT) works in assessing tumor volume and radiation therapy response in patients with glioblastoma undergoing surgery. Radioactive imaging agents, such as F18 fluciclovine, used during PET/CT scan may help measure tumor size compared to standard of care magnetic resonance imaging (MRI) contrast agents in patients receiving radiation therapy.
MRI including ASL will be performed before, during and after the treatment, in a total of 7 MRI sessions until 8 months after the first session. Thereafter, patients will be followed through standard clinical examinations for the next 3 years or until demise, whichever occurs first. Clinically, GBM patients are imaged every 8-weeks, beginning at 10 weeks after the completion of chemoradiation, since morphological (i.e. size) changes are not anticipated earlier. However, our preliminary experience and others have shown functional changes including perfusion and diffusion as early as 3-weeks after the initiation of the treatment . Thus, our T10, T18, T26 and T34 MRI sessions will be performed along with the clinical imaging sessions, while the T3 and T6 MRI sessions will be performed additionally for this proposal. All MR imaging sessions will be scheduled within ±1 or ±2 weeks of the target time period, as indicated in the table. MRI including ASL will be performed before, during and after the treatment, in a total of 7 MRI sessions until 8 months after the first session. The research MR imaging may take approximately an additional 15 minutes per each imaging session. However, the T3, and T6 MR imaging sessions will be performed additionally for the purpose of this study, with each taking approximately one hour. Thereafter, patients will be followed through standard clinical examinations for the next 3 years or until demise, whichever occurs first.
This phase II trial studies how well the combination of dabrafenib and trametinib works after radiation therapy in children and young adults with high grade glioma who have a genetic change called BRAF V600 mutation. Radiation therapy uses high energy rays to kill tumor cells and reduce the size of tumors. Dabrafenib and trametinib may stop the growth of tumor cells by blocking BRAF and MEK, respectively, which are enzymes that tumor cells need for their growth. Giving dabrafenib with trametinib after radiation therapy may work better than treatments used in the past in patients with newly-diagnosed BRAF V600-mutant high-grade glioma.