View clinical trials related to Glioma.
Filter by:In support of the US marketing application for 5-ALA, this single arm trial is being conducted to establish the efficacy and safety of Gliolan® (5-ALA) in patients with newly diagnosed or recurrent malignant gliomas. The hypothesis of the study is Gliolan® (5-ALA), as an adjunct to tumor resection, is safe and that real-time tissue fluorescence correlates with malignant histopathology. The primary objective in this single arm study is to define the positive predictive value (PPV) of Gliolan®-induced PPIX fluorescence for malignant tumor at the time of initial resection and first use of FGS by taking a biopsy of tissue presenting with red fluorescence when observed during the course of resection of new or recurrent malignant gliomas. The functionality and performance reliability of the blue light excitation microscope platforms will be assessed.
The cost of particle therapy (PT) are considerably higher than conventional radiotherapy (RT) with photons. Considering potential dosimetric advantages of PT, it is necessary to determine if PT are more cost-effective than photons per indication regarding quality of life, survival, and progression free survival. Given the lack of evidence for the benefit of particle therapy in relevant cases, investigators proposed an in silico trial to investigate to what extend proton therapy decrease the amount of irradiated normal tissue and, consequently, the risk of side effects in the surrounding normal tissue as well as the risk of secondary tumors. Given validated dose-response curves and/or NTCP models, a 10% lower mean dose of proton therapy on normal tissue compared to photon therapy should result in at least a 20% lower risk of side effects.
This study seeks to evaluate the tolerability, pharmacokinetics (PK), efficacy, and safety of ABT-414 in Japanese participants with newly diagnosed and recurrent, World Health Organization (WHO) grade III or IV malignant glioma.
This phase I trial studies the side effects and best dose of terameprocol in treating patients with high-grade glioma that has come back. Drugs used in chemotherapy, such as terameprocol, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading.
The study is aimed to evaluate efficacy and safety of re-irradiation for patients with recurrent high grade gliomas after other treatment.
The purpose of this study is to identify and quantify circulating tumor markers, which are associated with the presence of tumors. The current imaging available does not allow specificity of tumor size as it relates to pseudoprogression (a temporary enlargement or "swelling" of the tumor after treatment before it shrinks). Our hope is that CTCs will provide a more accurate description of tumor state for high grade glioma patients.
The purpose of this study is to assess the activity of Sym004, a recombinant antibody mixture that specifically binds to EGFR, in patients diagnosed with recurrent glioblastoma whose tumor is EGFR amplified. This is a phase 2 study that will accrue patients with WHO grade IV recurrent malignant glioma (glioblastoma or gliosarcoma) in two cohorts to assess the efficacy of Sym004.
Patients will be randomized to one of two treatment arms - Group I and Group II. Group I will receive nivolumab monotherapy until surgical resection, and Group II will receive nivolumab alone and with DC vaccine therapy until surgical resection. During surgical resection blood and tumor samples will be assessed and compared. Following surgery, both groups will continue to receive DC vaccines (total of 8) and nivolumab therapy until confirmed progression.
Phase 1a/1b does-escalation study of cabiralizumab alone and with nivolumab in advanced solid tumors.
In patients at risk of increased intracranial pressure (ICP), ICP measurements require invasive transducers, usually with insertion of a catheter into the cranium, or through a spinal tap. These invasive modalities involve risks and pain and they can be done only in specialized care units, with a high associated cost. A novel method for detecting changes in ICP has developed recently. The auditory hair cells emit sounds and electric signals in response to sound, which can be easily detected and measured non-invasively with the help of a microphone probe placed in the external ear canal or regular electrodes. Indeed, the cochlear aqueduct connects the cerebrospinal fluid (CSF) spaces to the inner ear in such a way that ICP and inner-ear fluid pressure equalize within seconds. A symptom of intracranial pressure (ICP) was observed in glioma patient due to a combination of causes: the inflammatory reaction around the tumor, the mass effect of the tumor, secondary vascular changes, a change in the flow of CSF. The evaluation of intracranial hypertension by increased ICP (invasive) is not used in the monitoring of intracranial tumors. It is then detected by using routine clinical signs, in combination with a standard imaging method (MRI), but still subjective. The measurement of noninvasive ICP could allow earlier detection of relapse, and evaluate whether the increase in ICP precedes tumor clinical worsening and / or imaging.