View clinical trials related to Malignant Glioma.
Filter by:This phase IV trial studies the side effects and how well perampanel works in reducing seizure frequency in patients with high-grade glioma and focal epilepsy. Perampanel is a drug used to treat seizures. Giving perampanel together with other anti-seizure drugs may work better in reducing seizure frequency in patients with high-grade glioma and focal epilepsy compared to alternate anti-seizure drugs alone.
This study is a phase 1-2 trial that evaluates the best dose of cetuximab-IRDye 800CW and how well it works in detecting tumors in patients with malignant glioma who are undergoing surgery. Cetuximab-IRDye 800CW is an optical imaging agent that may help detect tumor cells when a special camera is used.
This study will evaluate the safety and tolerability of increasing doses of PF-06840003 in patients with malignant gliomas.
Glioblastoma multiforme (GBM) is the most common and deadliest primary malignant neoplasm of the central nervous system in adults. Despite an aggressive multimodality treatment approach including surgery, radiation therapy and chemotherapy, overall survival remains poor. Novocure has shown that when properly tuned, very low intensity, intermediate frequency electric fields (TTFields) stunt the growth of tumor cells. The Optune system (NovoTTFTM Therapy) is a portable battery operated device, which produces TTFields within the human body by means of surface transducer arrays. The TTFields are applied to the patient by means of surface transducer arrays that are electrically insulated, so that resistively coupled electric currents are not delivered to the patient. Optune is currently FDA-approved as a single modality treatment for recurrent GBM when both surgical and radiotherapy options have been exhausted as well as combination with adjuvant temozolomide for newly diagnosed GBM. This research study is being performed to determine whether or not TTFields combined with pulsed bevacizumab treatment increases overall survival in patients with bevacizumab-refractory GBM compared to historical controls treated with continuous bevacizumab alone or in combination with other chemotherapy.
The purpose of this study is to determine the maximum tolerated dose (MTD) and select optimal biological doses (OBD) of the study drug NT-I7 in High Grade Glioma patients with severe lymphopenia, as well as to test the effect of NT-I7 on the CD4 counts of patients in comparison to control participants. This study has both a Phase I and Pilot component.
This research trial studies an adherence monitoring system in managing myelosuppression in patients with newly diagnosed malignant gliomas who are receiving temozolomide and radiation therapy. The development of an adherence monitoring system may help doctors more effectively utilize electronic medical records to manage myelosuppression during standard treatment with temozolomide and radiation therapy in patients with malignant gliomas.
This is a pilot study designed to evaluate the potential of using FDOPA-PET/MRI for improving surgical planning and providing non-invasive prognostic information in patients with gliomas that have substantial non-enhancing regions. The results will be used to develop larger adequately powered studies.
There are preliminary studies that suggest that radiation therapy to areas of the brain containing cancer stem cells (in addition to the area where the tumor was surgically treated) may help patients with high-grade brain tumors live longer. The purpose of this study is to determine whether the addition of stem-cell radiation therapy to the standard chemoradiation will further improve the outcome. The investigators will collect information about the patient's clinical status, disease control, neurocognitive effects, and quality of life during follow-up in our department. The purpose of the study is to improve the overall survival patients with newly diagnosed malignant brain tumors treated with stem cell radiation therapy and chemotherapy. The investigators will also measure how patients treated with this novel method of radiation therapy do over time in terms of disease control, potential neurocognitive side effects, overall function, and quality of life.
The purpose of the study is to evaluate the short- and long term toxicity of radiotherapy to patients with recurrent high-grade glioma who have previously received radiotherapy and to determine the best dose and treatment regimen. Positron emission tomography (PET) using an amino acid tracer, 18-fluoro-ethyltyrosine (18F-FET), is used for target delineation.The study examines, in four sequential treatment groups, the effect of dose, hypofractionation and treatment volume on toxicity. Upon completion of the phase I part, the study progresses to phase II where the best dose- and treatment regimen will be chosen for treatment.
The aim of this study is to assess, with 18F-FMISO PET, hypoxia in high grade gliomas and changes by spinal cord stimulation in a subset of patients. Additionally, the potential correlation with pathological, imaging and clinical parameters will be analyzed.