View clinical trials related to Glioblastoma.
Filter by:The purpose of this study is to evaluate patients with glioblastoma that is MGMT-methylated (the MGMT gene is altered by a chemical change). Patients will receive temozolomide plus radiation therapy. They will be compared to patients receiving nivolumab in addition to temozolomide plus radiation therapy.
Radiomics, the extraction of large amounts of quantitative image features to convert medical images into minable data, is an in-development field that intends to provide accurate risk stratification of oncologic patients. Published prognostic scores only take clinical variables into account. The investigators hypothesize that a combination of CT/MRI features, molecular biology and clinical data can provide an accurate prediction of medical outcome. The long term objective is to build a Decision Support System based on the predictive models established in this study.
Please note that enrollment on this study terminated early due to the end of grant funding. Newly diagnosed WHO grade IV malignant glioma subjects who are eligible were enrolled following surgery to remove their brain tumor. They then underwent a leukapheresis to harvest cells for the generation of the study drug, Epidermal Growth Factor variant III Chimeric Antigen Receptor (EGFRvIII CAR) T cells prior to beginning standard of care (SOC) radiation therapy (RT) with temozolomide (TMZ). Once SOC RT with TMZ was completed, subjects returned for the post-RT brain imaging assessment, and, if stable, started post-RT TMZ cycles. Patients received up to 3 cycles of dose-intensified TMZ prior to receiving the EGFRvIII CAR T cells, which was infused in dose escalation cohorts. Following a one-month delay between cycles, the subject resumed post-RT cycles of TMZ and were monitored with blood work and brain imaging as per SOC. An expanded cohort of 12 subjects was originally planned for once the maximally tolerated dose (MTD) was reached in the dose escalation cohorts, in order to obtain a more precise estimate of the probability of unacceptable toxicity and to track the EGFRvIII CAR T cells using 111 Indium (111In) labeling. Computed Tomography (CT) was planned on days 1, 2, and 3 post-infusion to determine intracerebral (IC) localization.
Phase II Trial of Hypofractionated Intensity Modulated Radiation Therapy(IMRT) With Temozolomide and Granulocyte-macrophage Colony-stimulating Factor(GM-CSF) for Patients With Newly Diagnosed Glioblastoma Multiforme.
Glioblastoma multiforme (GBM) is the most common and deadliest primary malignant neoplasm of the central nervous system in adults. Despite an aggressive multimodality treatment approach including surgery, radiation therapy and chemotherapy, overall survival remains poor. Novocure has shown that when properly tuned, very low intensity, intermediate frequency electric fields (TTFields) stunt the growth of tumor cells. The Optune system (NovoTTFTM Therapy) is a portable battery operated device, which produces TTFields within the human body by means of surface transducer arrays. The TTFields are applied to the patient by means of surface transducer arrays that are electrically insulated, so that resistively coupled electric currents are not delivered to the patient. Optune is currently FDA-approved as a single modality treatment for recurrent GBM when both surgical and radiotherapy options have been exhausted as well as combination with adjuvant temozolomide for newly diagnosed GBM. This research study is being performed to determine whether or not TTFields combined with pulsed bevacizumab treatment increases overall survival in patients with bevacizumab-refractory GBM compared to historical controls treated with continuous bevacizumab alone or in combination with other chemotherapy.
This phase I/II trial studies the side effects and best dose of autologous cytomegalovirus (CMV)-specific cytotoxic T cells when given together with temozolomide and to see how well they work in treating patients with glioblastoma. Autologous CMV-specific cytotoxic T cells may stimulate the immune system to attack specific tumor cells and stop them from growing or kill them. Drugs used in chemotherapy, such as temozolomide, may 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. Giving autologous CMV-specific cytotoxic T cells with temozolomide may be a better treatment for patients with glioblastoma.
Phase II: Primary Objectives: -To determine the effectiveness of dasatinib (Sprycel) with radiotherapy (RT) and 6 weeks of concomitant temozolomide (TMZ) administered at 75 mg/m^2/day followed by adjuvant temozolomide with concurrent dasatinib in patients with newly-diagnosed glioblastoma (GBM) as measured by overall survival. Secondary Objectives: - To determine the efficacy of this treatment as measured by radiographic response (RR), progression-free survival (PFS) and time to progression (TTP). - To characterize the safety profile of dasatinib (Sprycel) in combination with RT and concomitant TMZ in patients with newly-diagnosed GBM. - To characterize the safety profile of dasatinib (Sprycel) in combination with adjuvant TMZ in patients with GBM after RT. Exploratory Objectives: -To correlate tumor genotype, tumor expression of dasatinib target proteins (e.g. Src, EphA2, c-kit and PDGFR), and PTEN levels with response to therapy with dasatinib and temozolomide.
This phase I trial studies the safety and best dose of anti-LAG-3 (anti-LAG-3 monoclonal antibody BMS-986016) or urelumab alone and in combination with nivolumab in treating patients with glioblastoma that has returned (recurrent). Anti-LAG-3 monoclonal antibody BMS-986016, urelumab, and nivolumab are antibodies (a type of protein) that may stimulate the cells in the immune system to attack tumor cells. It is not yet known whether anti-LAG-3 monoclonal antibody BMS-986016 or urelumab alone or in combination with nivolumab may kill more tumor cells. (The Anti-CD137 antibody (BMS-663513 - urelumab) treatment arm closed by BMS on 10/16/18 due to closure of BMS Urelumab development program. Subjects currently on treatment may continue.)
This is a Phase 2 study of newly diagnosed patients with high grade glioma (HGG) undergoing standard radiation therapy and temozolomide treatment. BMX-001 added to radiation therapy and temozolomide has the potential not only to benefit the survival of high grade glioma patients but also to protect against deterioration of cognition and impairment of quality of life. BMX-001 will be given subcutaneously first with a loading dose zero to four days prior to the start of chemoradiation and followed by twice a week doses at one-half of the loading dose for the duration of radiation therapy plus two weeks. Both safety and efficacy of BMX-001 will be evaluated. Impact on cognition will also be assessed. Eighty patients will be randomized to the treatment arm that will receive BMX-001 while undergoing chemoradiation and 80 patients randomized to receive chemoradiation alone. The sponsor hypothesizes that BMX-001 when added to standard radiation therapy and temozolomide will be safe at pharmacologically relevant doses in patients with newly diagnosed high grade glioma. The sponsor also hypothesizes that the addition of BMX-001 will positively impact the overall survival and improve objective measures of cognition in newly diagnosed high grade glioma patients.
A study to determine the safety of CSC/ HTS-based combination drug therapy in subjects who have GBM that has recurred or progressed following prior radiation therapy and TMZ.