View clinical trials related to Glioblastoma.
Filter by:This is a non-randomized two-part study of MK-4827 given with temozolomide in participants with advanced cancer. In Part A of the study, the dose-limiting toxicities (DLTs) and the maximum tolerated dose (MTD) of MK-4827 when combined with temozolomide will be found by increasing the MK-4827 dose level in successive cohorts. In Part B of the study, participants with advanced glioblastoma multiforme and advanced melanoma will be enrolled to further evaluate the tolerability and efficacy of the MK-4827 + temozolomide combination.
The aim of this study is to evaluate the immunogenicity and clinical efficacy of intradermal vaccination with autologous RNA-modified dendritic cells (DCs) - engineered to express the WT1 protein - in patients with limited spread metastatic solid tumors, i.e. breast cancers, glioblastoma grade IV, sarcomas, malignant mesothelioma and colorectal tumors. Based on the results of our previously performed phase I study with autologous WT1 mRNA-transfected DC, the investigators hypothesize that the vaccination with DC will be well-tolerated and will result in an increase in WT1-specific CD8+ T cell responses.
RATIONALE: Monoclonal antibodies, such as bevacizumab, can block tumor growth in different ways. Some block the ability of tumor cells to grow and spread. Others find tumor cells and help kill them or carry tumor-killing substances to them. Drugs used in chemotherapy, such as lomustine, 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 which regimen of bevacizumab given together with lomustine is most effective in treating patients with glioblastoma multiforme in first recurrence. PURPOSE: The primary objective of this study is to investigate whether the addition of bevacizumab to lomustine improves overall survival (OS) in patients with recurrent glioblastoma compared to treatment with lomustine alone.
TVI-Brain-1 is an experimental treatment that takes advantage of the fact that your body can produce immune cells, called 'killer' white blood cells that have the ability to kill large numbers of the cancer cells that are present in your body. TVI-Brain-1 is designed to generate large numbers of those 'killer' white blood cells and to deliver those cells into your body so that they can kill your cancer cells.
Primary Objectives Cohort A ‐‐ monotherapy: To determine the efficacy of AMG 386 in participants with recurrent glioblastoma (GBM) as measured by 6‐month progression‐free survival (PFS6) Cohort B - combination therapy: Phase I To determine the maximum tolerated dose of AMG 386 in combination with bevacizumab given at 10mg/kg every 2 weeks in participants with recurrent glioblastoma. Phase II To determine the efficacy of AMG 386 plus bevacizumab in participants with recurrent glioblastoma (GBM) as measured by 6‐month progression‐free survival (PFS6). Secondary Objectives: To evaluate radiographic response in both cohort populations. To evaluate overall survival in both cohort populations. To assess time‐to‐progression in both cohort populations. To investigate the safety profile in both cohort populations. Exploratory Objectives: To evaluate expression of factors associated with tumor angiogenesis using a multiples cytokine assay among participants undergoing therapy with AMG 386 with response to therapy and development of resistance. This is an open‐label Phase I/II study of AMG 386 monotherapy and AMG 386 in combination with bevacizumab. Two cohorts will accrue and will be assessed sequentially. Each cohort will enroll participants with recurrent GBM. Cohort A will assess recurrent GBM participants who receive AMG 386 monotherapy at 30 g/kg every week. (Cohort A initially accrued at a dose of 15mg/kg, but this was increased to 30 mg/kg every week following an amendment). Cohort B will assess recurrent GBM participants who receive weekly AMG 386 plus bi‐weekly bevacizumab (10mg/kg). Cohort B will start with a Phase I component to determine the MTD of AMG 386 that is safe when used in combination with bevacizumab. AMG 386 is administered intravenously, and, when used in combination with intravenous bevacizumab, will be administered first. Patients will be required to come to the clinic weekly for study drug administration. For study purposes, a cycle of therapy will be 4 weeks. Treatment will continue until either evidence of progressive disease, unacceptable toxicity, non‐compliance with study follow‐up, or withdrawal of consent. The estimated rate of accrual is 60 participants per year. The estimated date of accrual completion is 1.5 years from study initiation. The estimated date of study completion will be approximately 12 months from enrollment of the last study participant.
This, international, multi-center, Phase 2 study of verubulin will be conducted in patients with newly diagnosed Glioblastoma Multiforme (GBM). The study will be conducted in two parts. Part A is an open-label dose finding study that will determine the safety and tolerability of verubulin in combination with standard treatment. Part B is a randomized open-label study that will investigate progression-free survival and overall survival of patients receiving verubulin, at the dose determined in Part A, in combination with standard treatment versus standard treatment alone.
Background: - The blood-brain barrier helps to protect the central nervous system (brain and spinal cord) from harmful toxins, but also prevents potentially useful chemotherapy from reaching brain tumors. The barrier is formed by tight connections between blood vessel cells and molecules found on the surface of brain blood vessels such as Permeability-glycoprotein (Pgp). Pgp may influence whether patients with brain tumors known as gliomas respond to chemotherapy and what side effects they may experience. The compound (11C)N-desmethyl-loperamide ((11C)dLop) reacts to Pgp molecules, and therefore may be used with positron emission tomography (PET) imaging to study the blood brain barrier. Objectives: - To study the ability of PET imaging with (11C)dLop to evaluate the blood brain barrier in brain tumor patients. Eligibility: - Individuals at least 18 years of age who have a brain tumor with characteristics that may be imaged with techniques such as magnetic resonance imaging (MRI) andPET. Design: - Participants will be screened with a full physical examination and medical history, blood and urine tests, and tumor imaging studies (fluorodeoxyglucose PET and MRI scans with contrast agent). - The (11C)dLop scan will take 1 hour to perform. Participants will be asked to return for blood and urine tests approximately 24 hours after the PET scan. - Participants will have followup visits at least every 4 months by repeating a complete history and physical exam and brain MRI. Participants may have repeat scans with (11C)dLop at various points in the course of cancer treatment, but will not have these scans more than twice in a 12-month period. - Participants will be followed for as long as possible during treatment to see if imaging with (11C)dLop correlates with response to the treatments.
This is a phase 2, multicenter study to determine the safety and efficacy of ICT-107 in treating a type of brain tumor called Glioblastoma Multiforme (GBM). ICT-107 is an immunotherapy in which the patient's immune response will be stimulated to kill the tumor cells. Patients must be newly diagnosed with GBM and not yet received chemoradiation. Some of the patient's white blood cells (WBC) will be removed and cultured in a laboratory with purified antigens, similar to those on GBM cells. The patient's own WBC/DC that have been exposed to the tumor antigens will then be given back to the patient as a vaccine over several months. The goal is for the ICT-107 vaccine to stimulate the patient's immune response to kill the remaining GBM tumor cells after surgery and chemotherapy.
The high-grade malignant brain tumors, glioblastoma multiforme (GBM) and anaplastic astrocytoma (AA), comprise the majority of all primary brain tumors in adults. This group of tumors also exhibits the most aggressive behavior, resulting in median overall survival durations of only 9-12 months for GBM, and 3-4 years for AA. Initial therapy consists of either surgical resection, external beam radiation or both. All patients experience a recurrence after first-line therapy, so improvements in both first-line and salvage therapy are critical to enhancing quality-of-life and prolonging survival. It is unknown if currently used intravenous (IV) therapies even cross the blood brain barrier (BBB). The investigators have shown in a previous phase I trial that a single Super-selective Intraarterial Cerebral Infusion (SIACI) of Bevacizumab (up to 15mg/kg) is safe and effective in the treatment of recurrent GBM. Therefore, this phase I/II clinical research trial is an extension of that trial in that the investigators seek to test the hypothesis that repeated dosing of intraarterial Bevacizumab is safe and effective in the treatment of recurrent malignant glioma. By achieving the aims of this study the investigators will also determine if IV therapy with Bevacizumab should be combined with repeated selected intraarterial Bevacizumab to improve progression free and overall survival. The investigators expect that this project will provide important information regarding the utility of repeated SIACI Bevacizumab therapy for malignant glioma, and may alter the way these drugs are delivered to the patients in the near future.
RATIONALE: Drugs used in chemotherapy, such as temozolomide, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. O6-benzylguanine may help temozolomide work better by making tumor cells more sensitive to the drug. Giving genetically modified peripheral blood stem cells during or after treatment may prevent side effects caused by chemotherapy. PURPOSE: This clinical trial studies O6-benzylguanine and temozolomide in combination with genetically modified peripheral blood stem cells in treating patients with newly diagnosed glioblastoma multiforme.