View clinical trials related to Glioblastoma, Adult.
Filter by:Relapsed GBMs have a life expectancy of a few months and re-radiation has proven to be safe in terms of toxicity and effective in increasing OS. One of our studies [Ciammella P, 2013, 8:222] reported a median survival of 9.5 months in patients with recurrent GBM and treated with stereotactic radiotherapy with a total dose of 25 Gy in 5 consecutive sessions, in which the dose was prescribed to 70% isodose with a homogeneous gradient towards the center of the target volume. The identification with functional imaging of specific areas with higher tumor cell density, and the possibility of delivering precisely, thanks to the most advanced therapy units, different doses to the different sub-volumes, can lead to an increase in the maximum dose that can be delivered at the expense of the most aggressive areas (with a greater effect on the tumor), compared to smaller doses in areas with lower signal alteration. This selectivity of the doses should allow an increase in the efficacy of the therapy and therefore a hypothetical increase in local control, compared to a radio-induced toxicity on the surrounding healthy tissues almost comparable to that achieved with the previous hypofractionated treatments [Ciammella P, 2013]. In fact, delivering many high doses to the entire volume would result in an excess of radio-induced necrosis within the irradiated regions with high dose, as well as the impossibility of minimizing the doses on healthy areas and / or on non-neoplastic critical areas keeping them at internal dose ranges related to minimal and acceptable toxicity levels. Since there are no studies providing clear indications on the acute and late toxicity of irradiated healthy tissues that have already been the subject of a first course of radiotherapy (STUPP), the choice of safety is the primary objective of the study.
Rationale: This project elaborates on a novel finding of the investigators that has not yet been reported in literature, namely the presence of elevated levels of atypical B cells in participants with glioblastoma. ln the period 2015 2018 the investigators analysed the blood immune subset composition of a cohort of 180 participants undergoing neurosurgery. The most relevant finding was the presence of an abnormally elevated level of B cells in the blood of the great majority of participants with glioblastoma. These B cells may be involved in the immunosuppression associated with glioblastoma that makes this tumor refractory to immunotherapy. Multiple regression analysis indicated that the increase in the frequency of atypical B cells in participants' peripheral blood was related with the administration of dexamethasone prior to surgery. However, this study design did not allow the investigators to address the causality of the relationship between dexamethasone and atypic B cell dysregulation. Alternative treatments to dexamethasone exist. Objective: To investigate the effect of dexamethasone in the dysregulation of atypic B cells in participants with glioblastoma. Study design: Observational case control pilot study with 20 participants (10 per group). Study population: Newly diagnosed participants with glioblastoma. Intervention (if applicable): Observational study. Main study parameters/endpoints: Changes in the immune subset composition and functionality in the peripheral blood of participants with glioblastoma upon administration of dexamethasone for neurological signs of peritumoral edema (oral dexamethasone). Nature and extent of the burden and risks associated with participation, benefit and group relatedness: The investigators will collect blood (28 ml) during the first visit and again (28 ml) at the time of surgery (2 weeks ± 3 days). There will not be additional site visits, physical examinations or any other tests, questionnaires. Blood collection is only a minor discomfort and it does not represent any additional risk.
The purpose of this study is to assess the safety, tolerability, immunogenicity, and preliminary efficacy of EO2401 in patients with unequivocal evidence of progressive or first recurrent glioblastoma.
Recurrent glioblastoma (GBM) is a disease with high unmet clinical need. The standard of care for patients with GBM includes surgery, radiotherapy and chemotherapy. Despite this aggressive treatment, the overall median survival of patients with GBM remains at 15-20 months. In more than 95% of cases, tumor recurrence is observed within 2 cm to 3 cm of the resection cavity within 4-7 months after initial treatments. One of the main causes of recurrence is the inability of chemotherapies to enter the brain from the systemic circulation due to the blood-brain barrier (BBB). The BBB is unique to cerebral blood vessels and blocks most drugs from entering the brain in sufficient concentrations. The SonoCloud-9 (SC9) System delivers ultrasound to locally and transiently increase the permeability of the BBB to allow the passage of drugs into the cerebral parenchyma. The SC9 is dimensioned to cover the resection area and surrounding tissues in patients with recurrent GBM. The large sonicated volume covered by the SC9 device allows for broad BBB disruption and should allow for carboplatin chemotherapy to penetrate the surrounding tumor infiltrative area. By enhancing drug concentrations, it is hypothesized that further disease progression will be prevented.
Patients with first or second recurrence of GBM will be treated with stereotactic injection of the oncolytic virus DNX-2440.
Monocentric randomized phase I/II trial, including 24 patients diagnosed with relapsing glioblastoma (GBM) irrespective of MGMT and IDH gene status. Following diagnosis of relapsing glioblastoma by either brain CT scan or MRI, patients will be randomized in 2 arms: 1. Arm 1: IMA950 mixed with Poly-ICLC administered subcutaneously 2. Arm 2: Pembrolizumab 200mg q3w IV and IMA950 mixed with Poly-ICLC administered subcutaneously The first phase of treatment will last 6 weeks, then surgery will be performed (done if clinically possible ad indicated). In case of available brain tissue, extensive analysis of the tumor immune response will be performed. Assessment of systemic immune response by PBMC immunomonitoring will be systematically done before and after surgery.
This study is a phase 2 trial of GC1118, an EGFR monoclonal antibody, for recurrent glioblastoma patients who were treated with standard concurrent chemoradiation.
This protocol has a 2-part design: This phase 2 study is an open-label, multicenter, dose-escalation and expansion study to assess the safety, tolerability, recommended phase 2 dose (RP2D), pharmacokinetics (PK) and clinical activity of paxalisib in patients with newly-diagnosed glioblastoma (GBM) with unmethylated MGMT promoter status as adjuvant therapy following surgical resection and initial chemoradiation with temozolomide (TMZ).
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.
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.