View clinical trials related to Glioblastoma.
Filter by:The aim of this study was to analyse usefulness of [68Ga]Ga-PSMA-11 PET/CT scans in preoperative differentiation between HGG and LGG in patients with suspicion of a tumor of glial origin in previously performed imaging examinations. The PET/CT scan will be compared with postoperative histopathological results and with additional immunohistochemical staining for PSMA expression.
The purpose of this study is to establish the recommended phase 2 dose of eflornithine in combination with temozolomide in patients whose glioblastoma is newly diagnosed, and to evaluate safety and tolerability of this combination at that dose.
This phase II trial tests how well the combination of WP1066 and radiation therapy works in treating newly diagnosed glioblastoma. Glioblastoma is difficult to treat effectively because the cells within the tumor vary widely and are controlled by factors within and around the tumor, requiring multiple approaches to treat the tumor. The study drug WP1066 targets a specific pathway, known as STAT3, which is responsible for promoting tumor growth and causing the body's immune system to avoid attacking the tumor. Radiation therapy prevents glioblastoma from growing. Giving WP1066 with radiation therapy may prevent glioblastoma from growing and prolong survival.
To learn if the Exablate Model 4000 Type 2 ("Exablate System") with the DEFINITY® ultrasound contrast agent can temporarily disrupt the blood brain barrier in patients with recurrent (has grown back) glioblastoma who are scheduled to receive pembrolizumab.
This retrospective study aims to assess the utility of 2D non-navigated intraoperative ultrasound (ioUS) as a cost-effective alternative for guiding the surgical resection of gliomas and for detecting residual tumor. The study will analyse the records from consecutive adult patients diagnosed with gliomas, undergoing craniotomy between June 2018 and June 2023. The extent of resection (EOR) will be determined using postoperative MRI as the gold standard. The study will also examine the sensitivity and specificity of ioUS in detecting residual tumor. This research seeks to determine if ioUS can be an affordable and reliable tool that, combined with other intraoperative adjuncts, may aid neurosurgeons in achieving the maximum safe resection in glioma surgery.
Glioblastoma is the most aggressive brain tumor and often recurs locally despite intensive treatment. Standard chemoradiotherapy with 60 Gy may not be sufficient to control the tumor, and dose escalation seems to be warranted, but causes more toxicity. To address this, the multicentric PRIDE trial employs two cycles of bevacizumab to achieve dose escalation isotoxically. The goal is improved survival without significantly increasing side effects. The study uses a simultaneous integrated boost with a total dose of 75 Gy in 2.5 Gy per fraction.
This is a single arm clinical study to estimate the safety, tolerability and pharmacokinetic (PK) characteristics of Chimeric Antigen Receptor-modified T cells (CAR-T) SNC-109 in patients with recurrent glioblastoma (r-GBM) and preliminarily evaluate the effectiveness, the immunogenicity of the product, as well as their correlation between the changes of cytokines from baseline level after cellular infusion.
This study is investigating the use of a computer algorithm to analyze scans of the brain before surgery to predict how a person's tumor will respond to treatment.
Brain tumor treatment is hampered by the blood-brain barrier (BBB). This barrier prevents drugs carried in the bloodstream from getting into the brain. If the BBB can be opened, making it temporarily more permeable, drugs may able to better reach the brain tumor. In this trial we will implant a novel device with 9 ultrasound emitters, allowing temporary and reversible opening of the BBB to maximize brain penetration of drugs that modulate the immune system. The device will be implanted after radiation is completed. Immune modulating drugs will be given every 3 weeks in conjunction with activation of the device to open the BBB. The objectives of this trial are to establish whether it is safe and feasible to administer immune modulating drugs in this manner, and identify whether the treatment is effective in treating glioblastoma.
This phase II trial tests how well erdafitinib works in controlling IDH-wild type (WT) gliomas with FGFR-TACC gene fusion that have returned or that have grown, spread, or gotten worse (progressed). Erdafitinib is in a class of medications called kinase inhibitors. It works by blocking the action of an abnormal FGFR protein that signals tumor cells to multiply. This may help keep tumor cells from growing and may kill them. Giving erdafitinib may help to slow the growth of or to shrink tumor cells in patients with recurrent or progressive IDH-wild type gliomas with FGFR-TACC gene fusion.