View clinical trials related to Glioblastoma.
Filter by:This trial studies how well fimepinostat works in treating patients with newly diagnosed diffuse intrinsic pontine glioma, or medulloblastoma, or high-grade glioma that have come back. Fimepinostat may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
The aim of this study is to make preliminary assessment of PD-L1 and other immune related biomarkers that might act as predictors of anti-tumor activity of Nivolumab in patients with recurrent glioblastoma
This phase I/II trials evaluates the feasibility, safety and efficacy of an individualized cancer vaccine, based on autologous, tumor-lysate loaded dendritic cells in children and adolescents with relapsed high-grade gliomas. In addition, regulatory T cells are depleted by a short cycle of metronomic cyclophosphamide upfront of the vaccine in order to facilitate induction of immune responses. Therapeutic DC vaccines are followed by four cycles of Nivo/Ipi double checkpoint blockade and a Nivolumab monotherapy maintenance in order to optimize the induced T-cell response.
This pilot study will assess feasibility and to obtain initial estimates of efficacy of Sleep Activity and Task Effectiveness (SAFTE) model, which can accurately estimate the impact of scheduling factors and sleep history on both safety and productivity. The SAFTE model will be used to asses cancer-related fatigue and study potential associations of change in sleep patterns to tumor recurrence in patients with high grade glioma. Data will be collected using the Readiband™ Sleep Tracker (https://www.fatiguescience.com/sleep-science-technology/). The Readiband device captures high-resolution sleep data, validated against the clinical gold standard of polysomnography with 92% accuracy. Sleep data is transmitted to the cloud automatically for SAFTE Fatigue Model analysis. We will correlate clinical progression data obtained from the patient's electronic medical record with SAFTE data.
Study Objectives: To compare the efficacy and safety outcome of newly diagnosed GBM patients treated with NovoTTF-200A concomitant to RT and TMZ to those treated with RT and TMZ alone Study Design: Prospective, randomized, open label, standard of care control Study Hypothesis: The hypothesis of this study is that addition of NovoTTF-200A treatment to RT and TMZ will significantly increase progression free survival of newly diagnosed GBM patients compared to patients treated with RT and TMZ alone Sample Size: 60 patients with newly diagnosed GBM Study Population: Patients with tissue based diagnosis of GBM, above 18 years of age, of both genders after surgery or biopsy amenable for radiation therapy (RT) with concomitant TMZ (Stupp protocol1) Primary endpoint: Rate of progression-free survival at 12 months (PFS12) Secondary endpoints: - Overall survival (OS) - Progression-free survival (PFS) - Progression free survival at 6 months (PFS6) - 1 and 2-year survival rates - Overall radiological response (ORR, per RANO criteria) - Safety (adverse events severity and frequency)
This phase II trial studies the side effects of solriamfetol in improving sleep in patients with grade II-IV glioma. Solriamfetol is a wakefulness-promoting drug. Giving solriamfetol may improve sleep, memory, fatigue, mood, or quality of life in patients with brain tumors (gliomas).
The purpose of this study is to determine the safety and tolerability of LAM561 added to first-line treatment for subjects with newly diagnosed glioblastoma (GBM), and to determine the highest safe dose of LAM561 administered orally when added to the concurrent phase of treatment with temozolomide (TMZ) and radiation therapy (RT) or when added to the maintenance phase of treatment with TMZ (once TMZ 200 g/m2/day is started).
This is a non-randomized, open label, phase I/IIa, dose-escalation study, involving a single injection of Temferon, an investigational advanced therapy consisting of autologous CD34+-enriched hematopoietic stem and progenitor cells exposed to transduction with a lentiviral vector driving myeloid specific interferon-alpha2 expression, which will be administered to up to 27 patients affected by GBM who have an unmethylated MGMT promoter. Part A will evaluate the safety and tolerability of 5 escalating doses of Temferon and 3 different conditioning regimens in up to 27 patients, following first line treatment.
This is an exploratory, non-interventional and translational clinical study. The aim of this study is to analyze blood and cerebrospinal fluid metabolomic profile in glioma patients.
This clinical trial is testing the safety and efficacy of NanO2TM administered via intravenous infusion in combination with standard radiation and chemotherapy. NanO2TM is being developed to increase the amount of oxygen delivered to tumors which is hoped to increase the effectiveness of radiation therapy.