View clinical trials related to Glioblastoma Multiforme.
Filter by:The purpose of this study is to determine the safety and efficacy of SL-701 as a treatment for recurrent glioblastoma multiform (GBM).
This study will evaluate if a drug called G-202 can be safely used to treat people with glioblastoma (GBM) that has progressed or recurred. G-202 is given by intravenous infusion on three consecutive days of a 28-day cycle.
In this study, investigators will conduct a phase I/II trial in recurrent (temozolomide resistant) glioma patients. The overall goal of this study is to provide a foundation for future studies with indoximod tested in newly diagnosed glioblastoma patients with radiation and temozolomide, or in combination with vaccine therapies.
This study will evaluate a type of immunotherapy in which the patient's immune system will be stimulated to kill tumor cells. ICT-121 dendritic cell (DC)vaccine is made from patient's white blood cells. This vaccine will be tested in patients with recurrent glioblastoma to assess safety, tolerability and clinical response. Patient's white blood cells (WBC) will be collected from blood and cultured to yield autologous DC. The DC will be mixed with purified peptides from the CD133 antigen. The DC vaccine will be given back to the patient over several months. The goal is to stimulate the patient's immune system to CD133 to kill the patient's glioblastoma tumor cells.
The purpose of this study is to explore the efficacy and safety of Atorvastatin in combination with multimodality therapy of concurrent radiotherapy plus temozolomide followed by adjuvant temozolomide in patients with newly diagnosed glioblastoma multiforme (GBM).The anticipated time on study treatment is until disease progression, and the target sample size is 32 individuals.
This research study involves an investigational product: Ad-RTS-hIL-12 given with veledimex for production of human IL-12. IL-12 is a protein that can improve the body's natural response to disease by enhancing the ability of the immune system to kill tumor cells and may interfere with blood flow to the tumor. The main purpose of this study is to evaluate the safety and tolerability of a single tumor injection of Ad-RTS-hIL-12 given with oral veledimex.
In this explorative study immunological changes during tumor therapy will be analyzed in patients with malignant glioma. Immunophenotyping before and during therapy is used as analysis method. Thereby immune cells are quantitatively and qualitatively detected from patient's blood at continuous time points. Additionally relevant mediators like cytokines, danger signals and chemokines are analyzed by other methods. Obtained results may give information about the effects of therapy on immunological processes and immune cells and may help to find immunological based predictive or prognostic tumor markers and to define time points for including additional immune therapy in the future.
The purpose of this study is to learn more about the ability of a substance called arginine to improve the functioning of the immune system in people with a certain type of brain tumor. This could lead to improvements in a type of treatment for brain tumors called immunotherapy. The immune system includes organs, cells, and substances in the body that fight infection and disease. Immunotherapy is a type of treatment that uses the immune system as a tool to seek out and destroy abnormal cells. Immunotherapy requires that the immune system be working properly. Arginine is a normal component of protein (an amino acid) that we all consume in foods such as red meat, poultry, fish, and dairy products and that our bodies can make. Arginine helps the immune system function normally. Recent research has shown that certain types of brain tumors decrease the amount of arginine in the body leading to impaired immune system function. This may interfere with the ability of immunotherapy to fight abnormal cells. We would like to see if giving people with brain tumors arginine in powder form will make their immune systems work better.
The purpose of this study is to test the safety and effects of a special type of a cancer vaccine called a 'dendritic cell vaccine' in patients with either newly diagnosed or recurrent glioblastoma. The goal of this dendritic cell vaccine is to activate a patient's own immune system against their tumor. This study utilizes a patient's own immune-stimulating dendritic cells that are isolated in a procedure called leukapheresis. In a laboratory, these dendritic cells are treated in a way that is designed to promote an immune response against cancer stem cells. Then the dendritic cells are injected under the skin in a series of vaccinations, with the goal of activating an immune response against cancer stem cells in the tumor. To qualify for this study, patients must have very little to no residual tumor visible on a recent MRI. In addition to the vaccines, patients with newly diagnosed glioblastoma will receive standard temozolomide chemotherapy and radiation therapy. Patients with recurrent glioblastoma will not receive any treatment other than the vaccines as long as they are participating in this study, unless they were previously treated with bevacizumab, in which case they will be allowed to continue receiving bevacizumab.
- Metabolic Tumor Volume (MTV), identified by Magnetic Resonance Spectroscopic Imaging (MRSI) is different from the Clinical Target Volume (CTV) used for radiation dose delivery in the treatment of brain tumors. - If MTV > CTV, the investigators hypothesize that the difference in volumes (cc) is related to worse clinical outcome. Furthermore, in case of local recurrence, the lesion is located in the MTV area that is outside of the CTV. - Alternatively, if CTV > MTV, then the difference in volumes is related to higher treatment toxicity.