View clinical trials related to High Grade Glioma.
Filter by:This study is to provide access for patients who are receiving treatment with dabrafenib and/or trametinib in a Novartis-sponsored Oncology Global Development, Global Medical Affairs or a former GSK-sponsored study who have fulfilled the requirements for the primary objective, and who are judged by the investigator as benefiting from continued treatment in the parent study as judged by the Investigator at the completion of the parent study.
It is believed that the body's immune system protects the body by attacking and killing tumor cells. T-lymphocytes (T-cells) are part of the immune system and can attack when they recognize special proteins on the surface of tumors. In most patients with advanced cancer, T-cells are not stimulated enough to kill the tumor. In this research study, we will use a patient's tumor to make a vaccine which we hope will stimulate T-cells to kill tumor cells and leave normal cells alone. High grade gliomas (HGGs) are very aggressive and difficult for the body's immune system to attack. Before T-cells can become active against tumor cells, they require strong stimulation by special "stimulator" cells in the body called Dendritic Cells (DCs) which are also part of the immune system. DCs can recognize the cancer cells and then activate the T lymphocytes, and create this strong stimulation. The purpose of this research study is to learn whether anti-tumor T-cells and anti-tumor DC vaccines can be given safely. Most importantly, this study is also to determine whether the T-cells and DC vaccines can stimulate a person's immune system to fight off the tumor cells in the brain.
Brain tumours are the leading cause of cancer deaths in children, men under the age of 45 and women under the age of 25. Glioblastoma is the most common and most malignant primary tumour. The predominant treatment is surgical removal of the tumour followed by radiotherapy. Sadly the majority of patients given this treatment develop recurrent and progressive disease. Better understanding of the invasive margin might improve outcomes by facilitating more complete surgical resection beyond the traditional contrast enhancing margins. Diffusion tensor MRI (DTI) is an imaging technique which may be able to predict the site of tumour recurrence. DTI has previously been shown to identify regions, which have been confirmed with biopsies, to be areas of invasive tumours and are present before progression is seen with an MRI. The primary aim of this study is to qualify an imaging biomarker that can be applied at initial presentation, that can accurately predict the site of where glioblastomas will progress after treatment and allow personalisation of both radiotherapy and surgical targets.
The purpose of this study is to determine if the Optune NovoTTF-200A device can be safely used in combination with chemotherapy in pediatric patients with recurrent high-grade glioma and ependemoma.
The investigators of this study want to see if shortening the total treatment time for brain tumors is safe.The treatment for participant's brain tumors is laser surgery (Laser Interstitial Thermal Therapy (LITT)) followed by radiation with chemotherapy. For participants, the total time of treatment from surgery to the end of radiation and chemotherapy is about l 0 weeks long. This study asks whether it is safe to shorten the total treatment to 7 weeks. To shorten the total treatment time, investigators want to see if it is safe to start radiation with chemotherapy within 5 days after surgery. Usually patients start their radiation with chemotherapy about 21-28 days after the surgery. Shortening the total time of treatment may allow investigators to kill the cancer cells more effectively.
This pilot will study the feasibility and exploratory efficacy of using Cabozantinib for recurrent or refractory central nervous system tumors for which there are no curative options. Patients will also be followed for safety, time to progression, event free survival and overall survival
The study is aimed to evaluate the efficacy and safety of Apatinib and Irinotecan in patients with recurrent high-grade glioma.
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.
In this research study the investigators want to learn more about the effects, both good and bad, when the study drug Ribociclib is given after radiation therapy. The investigators are asking people to be in this research study that have been newly diagnosed with a high grade glioma, and the tumor has been screened for the Rb1 protein, and have recently finished radiation therapy. Patients with a DIPG or a Bi-thalamic high grade glioma do not need to have tumor tissue screened for the Rb1 protein but do need to have finished radiation therapy. Tumor cells grow and divide quickly. In normal cells, there are proteins called cyclin-dependent kinases (CDK 4 and 6) that control cell division. Another protein Rb1 also controls cell division and works to stop cells from dividing so they do not become cancer cells. But in cancer, the CDK 4 and 6 proteins are out of control making the cells divide and grow quickly. The study drug, ribociclib stops the CDK 4 and 6 proteins. When the CDK 4 and 6 proteins are stopped, the normal Rb1 protein can now work to slow cell growth. For patients with HGG, to be in this study tumor tissue must have a normal Rb1 protein. The researchers think that if the study drug is given soon after radiation therapy, it may help improve the effect of the radiation in stopping the tumor from growing. The study drug, Ribociclib is considered investigational as it has not yet been approved by the United States Food and Drug Administration. The study drug has been tested in children and adults with cancer in prior research studies.
Topotecan is an FDA-approved drug when given by intravenous infection. The purpose of this study is to determine if treatment with topotecan by an alternative method, direct delivery into the part of the brain where the tumor has spread, is safe and well tolerated. The Cleveland Multiport Catheter is a new, investigational device that will be used to deliver topotecan into tumor-infiltrated brain. A second purpose of this study is to determine whether the Cleveland Multiport Catheter can be used effectively and safely to deliver topotecan into tumor-infiltrated brain. This study will also examine how tumors responds to treatment with topotecan. This study will also look at the way topotecan is injected into tumors-infiltrated brain. A small amount of contrast dye (called gadolinium DTPA) will be added to topotecan before it is injected. Pictures will be taken of the brain with an MRI machine. This will allow the investigators to see where in the tumor-infiltrated brain the topotecan has been injected. This study will collect medical information before, during, and after treatment in order to better understand hot to make this type of procedure accessible to patients.