View clinical trials related to Gliosarcoma.
Filter by:This phase I/II trial tests the safety and side effects of atezolizumab in combination with cabozantinib and whether they work to shrink tumors in patients with glioblastoma that has come back (recurrent). Immunotherapy with monoclonal antibodies, such as atezolizumab, may help the body's immune system attack the cancer, and may interfere with the ability of tumor cells to grow and spread. Cabozantinib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Giving atezolizumab and cabozantinib may help control the disease in patients with recurrent glioblastoma.
This phase I trial is to find out the best dose, possible benefits and/or side effects of engineered natural killer (NK) cells containing deleted TGF-betaR2 and NR3C1 (cord blood [CB]-NK-TGF-betaR2-/NR3C1-) in treating patients with glioblastoma that has come back (recurrent). CB-NK-TGF-betaR2-/NR3C1- cells are genetically changed immune cells that may help to control the disease.
Background: Glioblastoma (GBM) is a type of malignant glioma. These cancers are nearly always fatal. People who develop these cancers get aggressive treatments. But the tumors almost always recur. Researchers want to study people with newly diagnosed disease to learn more. Objective: To study people with newly diagnosed GBM or gliosarcoma to look at the changes in immune cells in the blood of those who take ipilimumab and nivolumab, along with temozolomide. Eligibility: Adults ages 18 and older with newly diagnosed GBM or gliosarcoma, who have had surgical removal of their tumor and have completed standard initial chemotherapy and radiation therapy. Design: Participants will be screened with the following: Medical record review Medical history Physical exam Tests to assess their nervous system and their ability to do typical activities Blood tests Tumor assessment. For this, they will have magnetic resonance imaging (MRI). They may get a contrast dye through an intravenous (IV) catheter. The MRI scanner makes noise. They will get earplugs. Electrocardiogram. It measures heart rate and rhythm. They will lie still. Sticky pads will be placed on their chest, arms, and legs. Screening tests will be repeated during the study. Treatment will be given in cycles. Each cycle lasts 4 weeks. Participants will get nivolumab and ipilimumab via IV. They will take temozolomide by mouth. They will keep a pill diary. Participants will fill out surveys about their symptoms. Participants will have follow-up visits about 60 days and 100 days after treatment ends. Then they will be contacted every 6 months for the rest of their life.
This phase I trial investigates the side effects and best dose of Peposertib, and to see how well it works in combination with radiation therapy in treating patients with newly diagnosed MGMT unmethylated glioblastoma or gliosarcoma. Radiation therapy uses high energy x-rays to kill tumor cells and shrink tumors. Peposertib may further stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Chemotherapy drugs, such as temozolomide, 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. Giving Peposertib with radiation therapy may work better than radiation therapy alone in treating patients with glioblastoma or gliosarcoma.
The primary objective of this Phase 1, open-label, dose-escalation, and exploratory study is to evaluate the safety and tolerability profile (establish the maximum-tolerated dose) and evaluate the occurrence of dose-limiting toxicities (DLTs) following single weekly or multiple-day weekly dose regimens of single-agent, oral ONC206 in patients with recurrent, primary central nervous system (CNS) neoplasms.
Paclitaxel is among the most active agents against glioblastoma in preclinical models. However, its clinical use has been hampered by the blood-brain barrier (BBB). In this trial we will implant a novel device with 9 ultrasound emitters allowing to temporarily and reversibly open the BBB immediately prior to chemotherapy infusion with albumin-bound paclitaxel. In the phase 1 component, increasing doses of chemotherapy will be delivered as long deemed safe based on the prior patient not experiencing severe toxicity. Once the the recommended dosing has been established, carboplatin will be added to the regimen and additional patients will be treated in order to better evaluate the antitumor efficacy of this novel treatment. The device will be implanted at the time of surgical resection of the recurrent tumor. During that procedure and when feasible, a first test dose of the chemotherapy will be administered in the operating room after sonication (procedure of activating ultrasound and opening the BBB) and tissue concentrations in different parts of the resected tumor will be measured. In select patients, the sonication procedure may occur immediately after the test dose of chemotherapy is administered. The objectives of this trial are to establish a safe and effective dose of albumin-bound paclitaxel, to demonstrate that the opening of the BBB increases chemotherapy concentration in the tumor, and to estimate how effective this treatment is in reducing the tumor burden and prolonging life.
This is a phase 0/1 dose-escalation trial to determine the maximum tolerated dose of Mycophenolate Mofetil (MMF) when administered with radiation, in patients with glioblastoma or gliosarcoma.
This phase I trial studies best dose and side effects of oncolytic adenovirus DNX-2401 in treating patients with high-grade glioma that has come back (recurrent). Oncolytic adenovirus DNX-2401 is made from the common cold virus that has been changed in the laboratory to make it less likely to cause an infection (such as a cold). The virus is also changed to target brain cancer cells and attack them.
This phase II trial studies how well whole brain radiation therapy works with standard temozolomide chemo-radiotherapy and plerixafor in treating patients with glioblastoma (brain tumor). Radiation therapy uses high energy x-rays to kill tumor cells and shrink tumors. Drugs used in chemotherapy, such as temozolomide, 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. Plerixafor is a drug that may prevent recurrence of glioblastoma after radiation treatment. Giving whole brain radiation therapy with standard temozolomide chemo-radiotherapy and plerixafor may work better in treating patients with glioblastoma.
The purpose of this project is to obtain safety information in small groups of individuals, scheduled to receive escalating doses of C134, a cancer killing virus (HSV-1) that has been genetically engineered to safely replicate and kill glioma tumor cells. Safety will be assessed at each dose level before proceeding to the next dose level. A special statistical technique called the Continual Reassessment Method (CRM) will be used to determine when higher doses of virus can be administered. Other objectives of the study include characterization of the activity of C134 after inoculation into the tumor and of the local and systemic immune responses to C134. Patients will also be followed with MRI scans for potential clinical response to C134. The clinical strategy takes advantage of the virus' ability to infect and kill tumor cells while making new virus within the tumors cells; a critical enhancement of this effect is accomplished by the induction of an anti-tumor immune response; both effects are produced by the IRS-1 gene that was placed into the virus by genetic engineering. An additional important component of the research are systematic assessments of the quality of life on treated patients.