View clinical trials related to Glioblastoma.
Filter by:This pilot clinical trial studies gallium Ga 68-edotreotide (68Ga-DOTATOC) positron emission tomography (PET)/computed tomography (CT) in finding brain tumors in younger patients. Diagnostic procedures, such as gallium Ga 68-edotreotide PET/CT imaging, may help find and diagnose brain tumors.
This phase I trial studies the side effects and best dose of genetically modified stem cells when given together with irinotecan hydrochloride in treating patients with recurrent high-grade gliomas. Irinotecan hydrochloride may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Placing a gene that has been created in the laboratory into neural stem cells and injecting it into the brain may help irinotecan hydrochloride kill more tumor cells once it reaches the brain.
ONC201 is a new potential drug that kills cancer cells but not normal cells in laboratory studies. This clinical trial will be the first evaluation of ONC201 in humans and will enroll patients with advanced cancer. This trial includes a phase I portion that will evaluate the safety of ONC201 and the recommended dose for the phase II portion. The phase II portion will evaluate the initial efficacy profile of ONC201 in select types of cancer.
The study investigates valproic acid added to radiation and temozolomide therapy (standard of care) for progressive or recurrent pediatric brain tumors.
Eligible adult patients with new diagnosis of gliobastoma are enrolled to receive 3 weekly vaccinations of the study drug PEP-CMV 1-3 days following standard of care chemoradiation. Patients will then be randomized to one of three arms: 1). standard temozolomide (TMZ)(200mg/m^2 for 5 days) with vaccine on day 6-8 of each monthly TMZ cycle. 2). standard TMZ (200mg/m^2 for 5 days) with vaccine on day 22-24 of each monthly TMZ cycle. 3). dose-intensified TMZ (100 mg./m^2 for 21 days) with vaccine on day 22-24 of each monthly cycle. All vaccines will be given intradermally (i.d.) and will be given with monthly TMZ cycles and continue after TMZ cycles until progression or death.
The investigators hope to improve overall median survival of patients with recurrent Glioblastoma by investigating continuous low-dose daily Temozolomide plus or minus five treatments of re-irradiation.
This exploratory study uses [18F] Fluciclatide and Positron emission tomography (PET) imaging in patients with glioblastoma multiforme (GBM) to be treated with Bevacizumab. The primary objective of this study is to determine the association of [18F] Fluciclatide uptake, fludeoxyglucose (FDG) uptake, and tumor blood flow/perfusion determined with H215O and Magnetic resonance imaging (MRI) and correlate these variables with time to progression (TTP) in participants with GBM treated with Bevacizumab.
The goal of this clinical research study is to learn if cilengitide given in combination with bevacizumab can help to control glioblastoma. The safety of this drug combination will also be studied. Cilengitide is designed to block the flow of blood to cancer cells, which may help to slow or block the growth of cancer. Bevacizumab is designed to block the growth of new blood vessels, which may help to slow or block the growth of cancer.
Patients with a high grade glioma have an increasing overall survival and progression free survival after initial treatment. Because of a better performance status these patients are more often eligible for re-treatment with for example radiotherapy. However, to date only a few prospective studies on re-irradiation of gliomas exist and very little is known about the effects of re-irradiation on quality of life and cognition. This trial is designed to longitudinally establish the effects of re-irradiation on quality of life, cognition and physical performance in patients with a high grade glioma. Based on the currently available information the investigators hypothesize that quality of life after re-irradiation can be kept stable until further tumour progression.
The research the investigators propose is a molecular imaging study of RO5323441, an antibody against placental growth factor (PlGF) in patients with recurrent GBM treated with bevacizumab, a drug against vascular endothelial growth factor (VEGF). Both VEGF and PlGF are molecules involved in tumor growth since they enable the development of tumor vasculature, thus delivery of oxygen and nutrients to the tumor. The treatment will consist of bevacizumab (i.v.) given every 2 weeks, until the patient has clinical benefit (no disease progression) or unacceptable toxicity. Meanwhile, patients will receive and injection of low protein-dose radiolabeled RO5323441 (89Zr-RO5323441) on day -3 and 11 of the first bevacizumab treatment cycle. Brain-only 89Zr-RO5323441 positron emission tomography (PET) will be performed at 2 hours after each injection of 89Zr-RO5323441 on day -3 and 11. Whole body 89Zr-RO5323441 PET will be performed on day 1 and 15, before and after the first treatment with bevacizumab. The main purpose of this trial is to determine how much of RO5323441 actually gets into the recurrent GBM lesions, since for a drug to be active, it has to be able to reach cancer cells. As second aims, RO5323441 accumulation in normal, non-tumor organs, will be assessed, as well as how bevacizumab influences RO5323441 penetration into tumor lesions (to answer the question of combined bevacizumab + RO5323441 treatment in GBM) or RO5323441 biodistribution in non-tumor organs.