View clinical trials related to Glioblastoma.
Filter by:Fluorescence guidance is a safe and efficient tool for glioblastomas resection. The most widely used technique is based on 5-aminolevulinic acid (5ala), which stains glioblastoma cells through a metabolic abnormality and thus helps in defining tumoral edges through a modified microscope. A multicentric, randomized study comparing 5ala guided surgery with conventional procedures showed that this technique doubles the rate of complete removal on post-operative magnetic resonance imaging (MRI), and increases the 6 months progression-free survival. More recently, fluorescein appeared as an interesting alternative fluorophore for glioblastomas, with a highly reduced cost (2.5 euros versus 1000 euros per dose). However its use remains scarcely studied and its clinical benefit unsure. In that context, the investigators propose a randomized trial comparing conventional " white light " surgery with fluorescein-guided resection of glioblastomas, in order to assess the relevance of this technique in glioblastomas removal.
Phase II clinical trial on the combination of avelumab and axitinib for the treatment of patients with recurrent glioblastoma (histologically confirmed WHO grade IV glioma), at documented recurrence/progression following prior treatment with surgery, radiation therapy and temozolomide.
Glioblastomas (GBM) demonstrate in vivo genetic and histologic heterogeneity that can be non-invasively identified using imaging phenotypes that identify regionally distinct areas of tumor with genetic alterations that drive tumor resistance pathways. The researchers propose a unique approach to assess initial GBM heterogeneity by performing histological and genomic analysis of biopsies targeted by advanced MRI before treatment.
The goal of this protocol is to transfer autologous peripheral blood mononuclear cells (PBMCs) transduced with genes encoding a chimeric antigen receptor (CAR) that recognizes epidermal growth factor receptor variant III (EGFRvIII) tumor-specific antigen into patients with recurrent glioblastoma (GBM) following stereotactic radiosurgery (SRS). The CAR used is targeted to a tumor-specific mutation of the epidermal growth factor receptor, EGFRvIII, which is expressed on a subset of patients. Normal PBMCs derived from patients with GBM are genetically engineered with a viral vector encoding the CAR and infused directly into the patient's tumor with the aim of mediating regression of their tumors. Despite our CAR being targeted to a tumor specific antigen, given the prior toxicity using CARs that were not targeted to tumor-specific antigens, the investigators elected to begin with very low doses of cells. Enrollment on this study was suspended in April 2020 while an amendment to reduce the anticipated number of participants was under review and approved. The decision to terminate the study was made in January, 2021 to shift toward the next iteration of a related CAR T cell trial.
The purpose of this research study is to see if people can produce ketones in their blood with the modified Atkins diet. Modified Atkins diet is a diet that produces ketones in your blood by restricting carbohydrates to <20 grams per day. Ketones are substances that are produced in the blood when fat is being broken down. Ketones may help radiation work better and may starve your tumor because it is thought that some brain tumors can not use ketones to grow and can only use sugar or glucose to grow.
The purpose of this study is to test the side effects and efficacy of using Laser Interstitial Thermotherapy (LITT) combined with Pembrolizumab. LITT is a minimally invasive surgical technique that uses a laser to heat brain tumors. Pembrolizumab is an investigational (experimental) drug that works by helping participants' immune system work correctly to detect and fight cancer cells. Pembrolizumab is experimental because it is not approved by the Food and Drug Administration (FDA), for this use, though it is approved to treat other cancers.
This feasibility study will assess the effects of the Nativis Voyager therapy in patients newly diagnosed with GBM. The study will enroll and treat up to 32 subjects and will be combined with standard of care radiotherapy and temozolomide.
This is a study to determine the efficacy, safety and clinical benefit (how well the drugs works), of the pharmaceutical compositions in Nasal Spray NST-4G for the treatment of brain tumors( Recurrent Glioblastoma, Gliosarcoma,Anaplastic Gliomas, Previously Treated). All drugs target the inhibition of the growth factors and neo-angiogenesis as one the main reasons for the growth of the tumor. The purpose of the Nasal Spray NST-4G study is to determine the safety and tolerability in order to establish the best dose level to be used in future studies.
The purpose of this post-authorisation medical device study is to obtain real life data on the use of tumor-treating fields (TTFields) in patients with newly diagnosed GBM in routine clinical care in Germany. Patients with newly diagnosed GBM and clinical indication for TTFields treatment will be enrolled in the study after signing Informed consent to use their data and process it centrally for research purposes. The clinical indication for TTFields is one of the inclusion criteria and is defined prior to inclusion by the treating physician. The patient's decision regarding TTFields treatment is part of the observation and will be assessed within the baseline visit.
This phase II trial studies how well intensity-modulated stereotactic radiation therapy works in treating patients with grade II-IV glioma. Stereotactic radiosurgery is a specialized radiation therapy that delivers a single, high dose of radiation directly to the tumor and may cause less damage to normal tissue.