View clinical trials related to Glioblastoma Multiforme.
Filter by:Patients will receive a vaccine called SurVaxM on this study. While vaccines are usually thought of as ways to prevent diseases, vaccines can also be used to treat cancer. SurVaxM is designed to tell the body's immune system to look for tumor cells that express a protein called survivin and destroy them. The survivin protein can be found on up to 95% of glioblastomas and other types of cancer but is not found in normal cells. If the body's immune system knows to destroy cells that express survivin, it may help to control tumor growth and recurrence. SurVaxM will be mixed with Montanide ISA 51 before it is given. Montanide ISA 51 is an ingredient that helps create a stronger immune response in people, which helps the vaccine work better. This study has two phases: Priming and Maintenance. During the Priming Phase, patients will get one dose of SurVaxM combined with Montanide ISA 51 through a subcutaneous injection (a shot under the skin) at the start of the study and every 2 weeks for 6 weeks (for a total of 4 doses). At the same time that patients get the SurVaxM/Montanide ISA 51 injection, they will also get a second subcutaneous injection of a medicine called sargramostim. Sargramostim is given close to the SurVaxM//Montanide ISA 51 injection and works to stimulate the immune system to help the SurVaxM/Montanide ISA 51 work more effectively. If a patient completes the Priming Phase without severe side effects and his or her disease stays the same or improves, he or she can continue to the Maintenance Phase. During the Maintenance Phase, the patient will get a SurVaxM/Montanide ISA 51 dose along with a sargramostim dose about every 8 weeks for up to two years. After a patient finishes the study treatment, the doctor and study team will continue to follow his/her condition and watch for side effects up to 3 years following the last dose of SurVaxM/Montanide ISA 51. Patients will be seen in clinic every 3 months during the follow-up period.
The purpose of this study is to assess the safety/tolerability/feasibility of pembrolizumab and radiation therapy before surgical resection in patients with recurrent glioblastoma as defined by treatment-related AEs and the number of patients who do not necessitate a delay in surgical resection, and to assess overall survival. The secondary objectives are to assess progression free survival, and to assess the T cell clonality, CD8 T cell activation and Tumor Infiltrating Lymphocyte (TIL) score after treatment
This clinical trial evaluates adding ferumoxytol and pharamcologic ascorbate (vitamin C) to standard of care treatment of glioblastoma multiforme (a type of brain tumor) in adults. All subjects will receive ferumoxytol and pharmacologic ascorbate in addition to the standard treatment.
MBM-02 (Tempol) is an HIF-1 and HIF-2 inhibitor that is being tested as an addition to standard of care treatment that includes radiotherapy and TMZ. MBM-02's ability to increase progression free survival and decrease side effects of TMZ and radiotherapy treatment will be assessed.
This research is being done to find out if the study drug (ketoconazole) can enter brain tumors at a high enough amount to stop the tumor cells from dividing. Ketoconazole is a drug which doctors already use for fungal infections and is thought to be able to effect tumor cells. As treatments for this type of brain tumor are limited, it is hoped that the results of this study will help to determine if the study drug should be studied further as a possible treatment.
The goal of this prospective, non-randomized, single-arm study is to evaluate the safety and feasibility of sonodynamic therapy with 5-aminolevulinic acid in patients with newly diagnosed cerebral glioblastomas using the ExAblate Model 4000 Type-2 "Neuro-System". Patients will be consented, screened, and will undergo study SDT treatment with 5-ALA using the ExAblate Model 4000 Type-2 "Neuro-System". After SDT treatment, patients will perform a strict neuro-radiological follow-up (minimum of 2 MRI) and undergo tumor resection 15-21 days after SDT, according to the clinical and radiological status. The main goal of the present study is to investigate the safety and feasibility of SDT in patients affected by GBMs attained with low-frequency FUS. In particular: Safety will be evaluated by patient examination and MRI images during the treatment, and by follow-up MRI and clinical and neurological visits. To evaluate feasibility, the extent of the sonicated area will be calculated at the end of the procedure in order to evaluate the targeted area. Secondary objective of the trial is to assess the efficacy of the SDT procedure in terms of tumor regression and/or cell apoptosis and necrosis.
This research is being done to find out if the study drug (posaconazole) can enter brain tumors at a high enough amount to stop the tumor cells from dividing. Posaconazole is a drug which doctors already use for fungal infections and is thought to be able to effect tumor cells. As treatments for this type of brain tumor are limited, it is hoped that the results of this study will help to determine if the study drug should be studied further as a possible treatment.
This study aims to analyze the role the of Regorafenib in prolonging the Overall Survival of glioblastoma multiforme patients who progressed after surgery and a first-line chemo-radiotherapy treatment in the setting of "real world life".
The combination of anatomical MRI examination with functional examination of tissue metabolic activity such as FET-PET (PET using the radiotracer - 18F-fluoro-ethyl-tyrosine) is a valuable tool to determine the actual tumor infiltration. The FET-PET examination can be performed using the dual-time point aqusition of FET for exact treatment planning. It has also been proven that using the dual FET-PET method, it is possible to obtain a precise image of the glioblastoma infiltration corresponding to the location and shape of the recurrence, and the tumor volumes in dual FET-PET are significantly larger than in MRI. Moreover, tumor defined in dual FET-PET is different than that of the tumor defined in single FET-PET acquisition. In the DualFETboosT trial we plan to assess the safety and preliminary efficacy of hypofractionated irraditon using simultaneous in-field boost directed on dual FET-PET based tumor volumes for treatment of primary glioblastoma multiforme with concomitant temozolomide.
Glioblastoma multiforme (GBM) and anaplastic astrocytoma (AA) are the most common primary malignant brain tumors. Survival of patients with these brain tumors is directly related to the extent of resection. Consequently, a great deal of effort has been directed at developing techniques and technologies that allow more extensive, safe resections. This study will test a loupe-based wearable device in the clinical setting and compare its accuracy with a large operative microscope to identify tumor tissues. Postoperative histopathological analysis on tumor tissues will be used as gold standards for comparison. The outcome from this study will be a low-cost, miniaturized, easy-to-operate, loupe-based fluorescence imaging device for intraoperative guidance of brain tumor resection with the same level of accuracy as the large microscope.