View clinical trials related to Glioma.
Filter by:This feasibility study will assess the clinical potential of a new imaging approach to detect viable high grade glioma (HGG) in pediatric and adult patients after standard of care radiation therapy (RT) with or without concurrent temozolomide (TMZ). Study participants will undergo simultaneous positron emission tomography/magnetic resonance imaging (PET/MRI) with O-([2-[F-18]fluoroethyl)-L-tyrosine (FET, amino acid transport) and 1H-1-(3-[F-18]fluoro-2-hydroxypropyl)-2-nitroimidazole (FMISO, hypoxia) at the time of standard of care imaging after completion of RT. The presence of viable tumor at this time point will be assessed on a per patient basis. Study participants will be followed clinically and with standard of care (SOC) imaging for up to 2 years after completion of PET/MRI to determine the nature of lesions seen on investigational imaging and to obtain patient outcome data. The imaging data will also be used to develop a semi-automated workflow suitable for implementation in clinical trials and standard of care PET/MRI studies.
The general objective of this project is to evaluate the value of cell-free DNA circulating in plasma as a marker of tumor evolution in patients with high-grade gliomas and meningiomas. To this end, we propose to longitudinally collect four samples of plasma at the following time points: - T0: before surgery; - T1: one month after surgery; - T2: one month after the end of radiotherapy; - T3 at the time of radiological progression. The goal is to evaluate whether changes in plasma concentration of circulating cell-free DNA can help predict progression-free survival, overall survival, and response to therapies.
Glioma is a major histological subtype of primary malignant brain tumors in Taiwan, with distinct epidemiological, clinical, and pathological features comparing to the other common cancer diseases. The disease rarely appears with metastatic disease at diagnosis, and with the most malignant subtype, glioblastoma, occurs with preference in mid- to old-age. For decades, primary malignant brain tumors has been known as one of the most desperate disease without successful improvement regarding of the treatment. Surgical resection is the principle for the primary treatment of gliomas. Chemotherapy and radiotherapy are often applied to patients for adjuvant therapy of surgery to pursue the treatment effect. Disappointedly, vast majority of the patients would eventually develop disease recurrence, leaving only limited choice for salvage treatment thereafter. The prognosis of these patients remains desperate, and thus a better understanding of this deadly disease is crucial for finding better therapeutic strategies for these patients.
The purpose of this dose finding study is to evaluate the safety and efficacy of 2 different dose levels of CLR 131 in children, adolescents and young adults with relapsed or refractory high-grade glioma (HGG).
The purpose of this study is to test the effectiveness, safety, and tolerability of a drug called Methimazole. The investigational drug, Methimazole is not FDA approved for brain tumors, but it is used to treat thyroid illnesses. Different doses of Methimazole will be given to several study participants with glioblastoma. The first several study participants will receive the lowest dose. If the drug does not cause serious side effects, it will be given to other study participants at a higher dose. The doses will continue to increase for every group of study participants until the side effects occur that require the dose to be lowered. The procedures in this study are research blood draws, physical exams, collection of medical history, MRI scans, and study drug administration.
Background: Diffuse gliomas are tumors that affect the brain and spinal cord. Gliomas that develop in people with certain gene mutations (IDH1 or IDH2) are especially aggressive. Better treatments are needed. Objective: To see if a study drug (zotiraciclib) is effective in people with recurrent diffuse gliomas who have IDH1 or IDH2 mutations. Eligibility: People aged 18 years and older with diffuse gliomas that returned after treatment. They must also have mutations in the IDH1 or IDH2 genes. Design: Participants will be screened. They will have a physical exam with blood and urine tests. They will have tests of their heart function. They will have an MRI of their brain. A new biopsy may be needed if previous results are not available. Zotiraciclib is a capsule taken by mouth with a glass of water. Participants will take the drug at home on days 1, 4, 8, 11, 15, and 18 of a 28-day cycle. They may also be given medications to prevent side effects of the study drug. The schedule for taking the study drug may vary for participants who will undergo surgery. Participants will be given a medication diary for each cycle. They will write down the date and time of each dose of the study drug. Participants will visit the clinic about once a month. They will have a physical exam, blood tests, and tests to evaluate their heart function. An MRI of the brain will be repeated every 8 weeks. Participants may remain in the study for up to 18 cycles (1.5 years).
This is a randomized, double-blind, placebo-controlled, parallel-group, international, Phase 3 study in patients with newly diagnosed H3 K27M-mutant diffuse glioma to assess whether treatment with ONC201 following frontline radiotherapy will extend overall survival and progression-free survival in this population. Eligible participants will have histologically diagnosed H3 K27M-mutant diffuse glioma and have completed standard frontline radiotherapy.
The aim of this clinical trial is to evaluate the feasibility of undertaking a Phase 0 surgical study in patients with diagnosis of a IDH1 mutated Low Grade Glioma (LGG) who have not received prior radiation or chemotherapy and are planned to undergo surgical resection.
In this proposal, the investigators introduce a novel, translational study to prospectively examine primary brain tumor patients undergoing fractionated radiation therapy to the brain. Quantitative neuroimaging, radiation dose information, and directed neurocognitive testing will be acquired through this study to improve understanding of cognitive changes associated with radiation dosage to non-targeted tissue, and will provide the basis for evidence-based cognitive- sparing brain radiotherapy.
PSMA is highly expressed on the cell surface of the microvasculature of several solid tumors, including glioma. This makes it a potentially imaging target for the detection and grading of gliomas. This pilot study was designed to evaluate the diagnostic performance of 68Ga-P16-093, a novel radiopharmaceutical targeting PSMA, which was compared with MRI in the same group of glioma patients.