View clinical trials related to Glioblastoma.
Filter by:The purpose of this research study is to try and identify a more effective treatment plan to improve survival rates for patients with a recurrent Glioblastoma Multiforme (GBM) brain tumor that can be removed by brain surgery. The study will record what effects (good and bad) the combination of surgery with chemotherapy wafers inserted in the spot where the patient's tumor was during your surgery and post-operative chemotherapy has on the patient and their survival rate over the next 12 months.
Positron Emission Tomography-Computed Tomography (PET-CT) with injection of 18F-fluoroethylcholine (FEC) could be a useful tool in the evaluation and follow-up of patients who have been diagnosed with glioblastoma multiforme (GBM) and who are treated with radiotherapy and temozolomide by allowing, for example, the distinction of necrosis from tumour tissue. This tool could help the clinician in making therapeutic decisions for GBM patients.
This is a safety study of tandutinib in combination with temozolomide and bevacizumab after people have received radiation therapy and temozolomide treatment. This study will determine the maximum safe dose of tandutinib when combined with temozolomide and bevacizumab and evaluate the safety of the combination treatment.
RATIONALE: Biological therapies, such as lymphokine-activated killer cells, may stimulate the immune system in different ways and stop tumor cells from growing. Drugs used in chemotherapy, such as Gliadel wafer, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. It is not yet known whether lymphokine-activated killer cells are more effective than Gliadel wafer in treating patients with glioblastoma multiforme. PURPOSE: This randomized phase II trial is studying the side effects and how well lymphokine-activated killer cells work compared with Gliadel wafer in treating patients with newly diagnosed glioblastoma multiforme that can be removed by surgery.
A Phase II, multi-center, open-label, single-arm study in up to 42 subjects with first recurrence or progression of GBM at up to 12 sites in Australia, Europe, Israel, and the United States. Subjects will receive intratumoral infusion of PRX321 administered via convection-enhanced delivery (CED) at a concentration of 1.5 μg/mL and a total volume of 60 mL over 2 to 7 days. Primary Objective: To evaluate the efficacy (expressed as overall survival at 6 months [OS-6]) of intratumoral infusion of PRX321 in subjects with first recurrence or progression of glioblastoma multiforme (GBM). Secondary Objectives: To assess the safety of intratumoral infusion with PRX321 in subjects with recurrent or progressive GBM. To evaluate objective response rate (ORR), duration of response (DR), overall survival (OS), and progression-free survival (PFS). Tertiary Objective: To evaluate the relationship of observed infusate distribution with clinical and radiological responses.
The primary objective of this study is to determine the maximum tolerated dose (MTD) and dose limiting toxicity (DLT) of dasatinib when combined with protracted, daily temozolomide (TMZ). Secondary objectives are: To further evaluate the safety and tolerability of dasatinib plus protracted, daily TMZ; 2. To evaluate the pharmacokinetics of dasatinib when administered with protracted, daily TMZ among recurrent malignant glioma patients who are on and not on CYP-3A enzyme inducing anti-epileptic drugs (EIAEDs); 3. To evaluate for anti-tumor activity with this regimen in this patient population.
This is a study to see whether radiotherapy plus chemotherapy (Temozolomide) plus Dichloroacetate (DCA) improves overall survival and offers better control of the disease in patients with newly diagnosed Glioblastoma Multiforme Tumours.
Subjects with newly diagnosed brain tumors who undergo surgical resection and whose pathology in the operating room shows a high grade glioma will be eligible. During a screening visit, the study will be discussed, inform consent discussed and signed, a medical history will be taken and a physical examination and laboratory tests will be performed. If these tests are all within acceptable ranges, the subject will be considered for inclusion on this treatment protocol. If the results of any tests are extremely different from normal expected values, she/he may not be able to participate. Prior to surgery, the subject will have a contrast enhanced MRI and MRS. The neurosurgeon will attempt to remove the majority of the tumor in the operating room and will send a portion of the specimen removed to the pathologist immediately. This is called a "frozen section". If the pathologist believes that the tumor is a high-grade malignant brain tumor, then the surgeon will place up to 8 dime-sized chemotherapy wafers in the tumor cavity of the brain. The remainder of the tumor specimen will be given to the pathologist to review more closely in the laboratory. If the frozen section does not show that the tumor is a high-grade malignant brain tumor, the subject will not receive the Gliadel wafers and will be removed from the study. The surgeon will then discuss with the subject the appropriate treatment options for the disease he or she has. During recovery in the hospital, another contrast enhanced MRI will be performed within the first 72 hours after surgery. This is a standard of care for patients who are not involved on this protocol as well. The subject will have another contrast enhanced MRI and MRS performed at the 21st Day after his or her surgery. After Day 21, He or she may begin other forms of treatment. The last contrast enhanced MRI and MRS assessment will be performed 12 weeks after the surgery and the implantation of the Gliadel wafers. Further MRI and MRS may be performed subsequently at the discretion of the doctor. Throughout the course of treatment, clinical data will be collected.
Primary Objective: - The primary objective is to evaluate the efficacy of photodynamic therapy in the treatment of malignant intracranial tumors. Secondary Objective: - The secondary objective is to evaluate the safety of photodynamic therapy in the treatment of malignant intracranial tumors.
TransMID treatment or best standard of care for patients with advanced glioblastoma multiforme Glioblastoma multiforme (GBM) is a type of brain tumour. GBM tumours are usually treated with surgery and radiotherapy. Unfortunately, this type of brain tumour may continue to grow or come back (recur) despite treatment. This trial will compare a new drug called TransMID with the best standard treatment that is currently available. TransMID is a drug that is a combination of a protein called transferrin and a poison called diphtheria toxin. Cancer cells need iron in order to continue to grow. They need more iron than normal cells. Transferrin helps cells to take up available iron. So the cancer cells are attached to the transferrin in TransMID, and the diphtheria poison kills them. The aim of this treatment is to kill the cancer cells while not affecting the normal brain cells. This treatment for brain tumours may have fewer side effects than other treatments because it targets cancer cells. The best standard treatment will involve giving chemotherapy. You may have chemotherapy as part of the treatment when you are diagnosed. Or it may be kept in reserve to treat your brain tumour if it comes back or continues to grow. Your cancer specialist (consultant) will decide which chemotherapy drugs you should have.