View clinical trials related to Glioma.
Filter by:This is a multicenter prospective study:2 independant cohorts of patients with OMS grade II glioma will be followed during 5 years. - cohort A: patients in first-line treatment (surgery, radiotherapy or chemotherapy) - cohort B: patients with disease simple monitoring. The primary endpoint is to evaluate the impact of tumor and treatments on neurocognitive functions and quality of life, using validate and standard tests.
To compare the effects of low dose naltrexone (LDN) versus placebo on quality of life in high grade glioma patients undergoing standard chemoradiation
TVI-Brain-1 is an experimental treatment that takes advantage of the fact that your body can produce immune cells, called 'killer' white blood cells that have the ability to kill large numbers of the cancer cells that are present in your body. TVI-Brain-1 is designed to generate large numbers of those 'killer' white blood cells and to deliver those cells into your body so that they can kill your cancer cells.
Background: - The blood-brain barrier helps to protect the central nervous system (brain and spinal cord) from harmful toxins, but also prevents potentially useful chemotherapy from reaching brain tumors. The barrier is formed by tight connections between blood vessel cells and molecules found on the surface of brain blood vessels such as Permeability-glycoprotein (Pgp). Pgp may influence whether patients with brain tumors known as gliomas respond to chemotherapy and what side effects they may experience. The compound (11C)N-desmethyl-loperamide ((11C)dLop) reacts to Pgp molecules, and therefore may be used with positron emission tomography (PET) imaging to study the blood brain barrier. Objectives: - To study the ability of PET imaging with (11C)dLop to evaluate the blood brain barrier in brain tumor patients. Eligibility: - Individuals at least 18 years of age who have a brain tumor with characteristics that may be imaged with techniques such as magnetic resonance imaging (MRI) andPET. Design: - Participants will be screened with a full physical examination and medical history, blood and urine tests, and tumor imaging studies (fluorodeoxyglucose PET and MRI scans with contrast agent). - The (11C)dLop scan will take 1 hour to perform. Participants will be asked to return for blood and urine tests approximately 24 hours after the PET scan. - Participants will have followup visits at least every 4 months by repeating a complete history and physical exam and brain MRI. Participants may have repeat scans with (11C)dLop at various points in the course of cancer treatment, but will not have these scans more than twice in a 12-month period. - Participants will be followed for as long as possible during treatment to see if imaging with (11C)dLop correlates with response to the treatments.
This phase I trial is studying the side effects and best dose of RO4929097 in treating patients with recurrent invasive gliomas. RO4929097 may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth
The goal of this Phase I portion of this clinical research study is to find the highest tolerable dose of bevacizumab with or without vorinostat, that can be given to patients with malignant gliomas. The safety of these drug combinations will also be studied. The goal of this Phase II part of this clinical research study is to learn if bevacizumab when given with or without vorinostat can help to control malignant gliomas. The safety of these drug combinations will also be studied.
RATIONALE: New imaging techniques using magnetic resonance imaging give better tumor definition, thus may lead to better tumor targeting and avoid damaging critical parts of normal brain. PURPOSE: This phase I/II trial is studying how well image-guided therapy works in treating patients with newly diagnosed intracranial glioma.
Primary Objectives To compare progression free survival (PFS), the time from randomization to progressive disease,in children with optic pathway glioma (OPG) age ≥ 6 months to < 18 years, who receive combination antineoplaston therapy (ANP therapy) vs. temozolomide (TMZ); study subjects will have 1) received prior treatment with carboplatin or cisplatin, which was terminated secondary to toxicity or progression of OPG, or 2) developed recurrence of OPG after completion of carboplatin or cisplatin therapy. PFS data will be censored on the date of the last tumor assessment documenting absence of progression for study subjects: - Who are alive, on study and are progression-free at the time of the analysis; - Who discontinue, receive no subsequent therapy and are progression-free at the time of the analysis; - Who are given/change therapy other than the study treatment prior to observing progression; - Who discontinued (due to personal preference or toxicity) with a change in therapy, withdrew, or was lost to follow-up; - For whom documentation of disease progression or death occurs after ≥ 2 consecutive missed tumor assessments. - To describe the toxicity profile for ANP therapy vs. TMZ. Secondary Objectives: - To compare overall survival (OS) for subjects treated with ANP therapy vs. TMZ; - To compare disease stabilization rates for subjects treated with ANP therapy vs. TMZ; - To compare complete response (CR), partial response (PR), stable disease (SD), and progressive disease (PD) rates for subjects treated with ANP therapy vs. TMZ.
The purpose of this study is to test the effectiveness of a drug called erlotinib in treating the tumor. This is a multi-center pilot study that explores efficacy and molecular effects of high dose weekly erlotinib for recurrent EGFR vIII mutant malignant gliomas, and correlate molecular profile of pre-treatment tissue with outcome.
Background: - An important new area of brain tumor research is the development of tumor and brain stem cell lines. Successful growth of these cell lines requires obtaining large volumes of fresh tumor and brain tissue, which is best accomplished by harvesting whole brains from recently deceased patients. These cell lines will help researchers understand how these tumors develop and will also help identify new targets for treatment. Researchers are interested in conducting a pilot study of planned inpatient hospice care with timely brain tumor tissue harvest at the time of death. Objectives: - To provide high-quality end of life inpatient hospice care for patients with untreatable brain tumors. - To procure brain and tumor tissue shortly after time of death in order to derive viable tumor and neural stem cell lines for research purposes. Eligibility: - Individuals at least 18 years of age who have an untreatable primary brain or central nervous system tumor, are able to give informed consent (either their own or through a designated power of attorney), and have agreed to a Do Not Resuscitate order and Consent for Autopsy as part of the end-of-life care plan. - HIV-positive individuals or those suspected of having infectious cerebritis are not eligible because of the potential for contamination of brain tissue. Design: - Participants will be enrolled in inpatient hospice admission to the National Institutes of Health Clinical Center either from home or from an outside hospital once a study investigator estimates an expected survival of less than 2 weeks. - Participants will receive palliative care at the Clinical Center. Care will be tailored to each participant depending on the information provided in the individual's end-of-life care plan. - Supportive medications such as antiseizure medications and pain relievers will be administered as appropriate. - At the time of death, researchers will follow standard procedures for notifying next of kin and will collect brain tissue and tumor samples from the deceased. - Following tissue collection, the deceased will be released for autopsy and funeral procedures.