Active clinical trials for "Glioblastoma"

The aim of this study is to evaluate the role of automatic segmentation of cerebral gliomas in multi-sequence MR images using state-of-the-art methods for automatic segmentation and internal classification of brain tumors in correlation with operative findings

The purpose of this study is to establish a Brain and Spinal Tumor Tissue/Specimen repository to serve as a resource for current and future scientific studies.

Glioma is the most common primary cancer of the central nervous system, and around 50% of patients present with the most aggressive form of the disease, glioblastoma. Conventional therapies, including surgery, radiotherapy, and pharmacotherapy (typically chemotherapy with temozolomide), have not resulted in major improvements in the survival outcomes with only a median survival of around 15 months.The main reason may be related to the highly immunosuppressive tumor microenvironment. In recent years, the microbiome has emerged as a key regulator of not only systemic immune regulation but brain circuitry, neuro-physiology and microglia development. We hypothesized that there is a link between the gut microbiota and the GBM development and evolution through the immune regulation cells (microglia and tumor related macrophagocyte) in the blood circulation to impact the prognosis( PFS and MST) of GBM patients.

The investigators want to verify the hypothesis that targeting the calcium-activated (KCa3.1) and the voltage-dependent K channel (Kv1.3) could be a valuable therapeutic strategy to reprogram cells of the innate immune system, with the aim to fight glioma, a deadly CNS tumor. The investigators will use murine models of glioma, injecting GL261 cells in the brain of syngeneic C57BL6 mice, to study the effect of K channel inhibition on the activation of microglia (M), macrophages (Mf) and NK cells. The investigators will use M and vesicles released from these cells, re-educated toward an anti-tumor phenotype, to interfere with the vicious circle responsible of uncontrolled tumor growth and will study the role of NK cells in tumor-M/Mf communication. The investigators will also investigate how K channels interfere with the communication of innate immune cells and brain cells like neurons and astrocytes, with experiments focused on synaptic transmission and calcium imaging, investigating the effect of modulation of the tumor microenvironment.

In this study, the characterization of human malignant glioma cell lines is described. After mechanical and enzymatic digestion of glioblastoma human biopsies from Neuromed IRCCS Neurosurgery patients, the investigators analyzed the established cell lines by immunohistochemistry. The investigators have already characterized 10 cell lines and results revealed that not all cell lines are positive for glial fibrillary acidic protein (GFAP), but only one was positive: the so-called COGI cell line. Moreover, the expression of Isocitrate Dehydrogenase 1(IDH1) and alpha thalassemia/mental retardation syndrome X-linked protein (ATRX) was investigated in all established cell lines. COGI cell line was also positive for IDH1R132 mutation and for ATRX. The results of characterization were summarized in table 1.

No predictive factors are known for the response to the bevacizumab anti-angiogenic molecule (Avastin) given in the event of relapse of glioblastoma (GBM) following radiochemotherapy. Classical MRI with gadolinium injection and perfusion is not sufficient to predict survival and response or duration. We propose to evaluate the prognostic interest for 6-month survival of spectroscopic biomarkers of proliferation, glial reaction, infiltration and glutaminergic metabolism or glycolytic metabolism recorded at 7 and 28 days of application of the treatment. These biomarkers are based on the increase of an index combining choline / Creatine (Cho / Cr), Glx / Cr (Glutamine and glutamate / Creatine), NAA / Cr (N acetyl aspartate / Creatine) and lactate / Cr ratios. The long-term objective is to predict the survival of these relapsed GBM patients at an early stage and to identify responder patients who would benefit from this expensive molecule and avoid using it in non-responding patients

The primary purpose of the study is to evaluate the efficacy and safety of supra-early post-surgery chemotherapy versus standard TEMODAL® regimen in treatment of patients with newly diagnosed glioblastoma multiforme. The secondary purpose is to assess the efficacy of supra-early post-surgery chemotherapy in release brain edema.

Study of the urinary vascular endothelial growth factor (VEGF) levels in patients with glioblastoma, receiving standard therapy. Hypothesis: that urinary VEGF levels can serve as a predictor of treatment response and survival.

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 clinical trial studies how well delayed fludeoxyglucose F-18 (18F-FDG) positron emission tomography (PET)/computed tomography (CT) works in improving visualization of brain tumors in patients with glioblastoma. Radiotracers such as 18F-FDG are highly taken up by tumors in the brain and are visualized using PET/CT. Increasing the interval of time between 18F-FDG administration and PET/CT scan may improve the visualization of brain tumors in patients with glioblastoma.