View clinical trials related to Glioblastoma.
Filter by:The main purpose of this first human study with CC-115 is to assess the safety and action of a new class of experimental drug (dual DNA-PK and TOR kinase inhibitors) in patients with advanced tumors unresponsive to standard therapies and to determine the appropriate dose and tumor types for later-stage clinical trials. The bioavailability of tablet and capsule formulations under fasting and fed conditions will also be evaluated in some patients.
In this phase I/II study,investigators are evaluating the feasibility and efficacy of the combination of BKM120, an oral inhibitor of PI3 kinase, and bevacizumab in the treatment of patients with relapsed/refractory GBM. In the Phase I part of the trial, the optimal BKM120 dose to be administered with a standard dose of bevacizumab will be determined in patients with refractory solid tumors. Although it is unlikely that the concurrent administration of bevacizumab will alter the pharmacokinetics of BKM120, limited pharmacokinetic sampling will be performed on all patients treated during the Phase II portion of the study. Assuming this combination is feasible, the Phase II portion of the study will proceed, using the doses determined in the Phase I portion. In the phase II portion, eligible patients will be limited to those with recurrent/progressive GBM following 1st line combined modality therapy.
Treatment for newly diagnosed glioblastomas currently involves surgical resection followed by Temozolomide chemotherapy with concomitant radiotherapy, and then 6 cycles of Temozolomide in adjuvant. According to many studies, only those patients not expressing the enzyme repair MGMT benefit from the adjunction of Temozolomide. Therefore, many patients receive unnecessary treatment. The aim of this project is to compare different techniques for analysis of MGMT in order to choose the approach with the best cost/utility ratio, which will allow the selection of patients likely to respond to TMZ chemotherapy during the first course of GBM treatment.
This clinical trial is studying magnetic resonance spectroscopy imaging in predicting response in patients to vorinostat and temozolomide in patients with recurrent, progressive, or newly diagnosed glioblastoma. Drugs used in chemotherapy, such as temozolomide, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. Vorinostat may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Vorinostat may also help temozolomide work better by making tumor cells more sensitive to the drug. Imaging procedures, such as magnetic resonance spectroscopy imaging, may help measure the patient's response to vorinostat and temozolomide and allow doctors to plan better treatment.
BKM120 is a newly discovered drug that has been used in other research studies. Information from those other research studies suggests that BKM120 may help to slow or stop the growth of malignant gliomas. The purpose of this study is to see how well BKM120 works in patients with malignant gliomas. Patients on this study will be treated in two groups: patients who are going to receive surgery and those who will not receive surgery. This study is trying to determine how effective BKM120 is in stopping cancer cells from growing. For patients receiving surgery the research will also try to determine if an effective level of BKM120 can penetrate the brain before surgery.
For many brain tumors, one reason that chemotherapy drugs might not be effective is that the drug may not be able to get into the brain tumor and kill the cancer cells. The brain is protected by a layer called the blood brain barrier. This barrier prevents substances from entering. The purpose of this research study is to determine if bosutinib can get past the blood brain barrier and into the brain tumor, and to see how well bosutinib works in killing cancer cells.
Background: - AZD8055 is an experimental cancer treatment drug that works by inhibiting a protein called mTOR, which is known to promote tumor cell and blood vessel growth and to control tumor s energy and nutrient levels. AZD8055 is the first drug that inhibits both types of mTOR protein and is expected to be more effective than prior mTOR inhibitors. However, more research is needed to determine its safety and effectiveness in treating brain tumors known as gliomas that have not responded to standard treatments. Objectives: - To evaluate the safety and effectiveness of AZD8055 in individuals with gliomas that have not responded to standard treatments. Eligibility: - Individuals at least 18 years of age who have been diagnosed with gliomas that have not responded to standard chemotherapy, surgery, or radiation. Design: - Participants will be screened with a physical examination, medical history, blood tests, and tumor imaging studies. - Participants will be separated into two treatment groups: one group that will receive surgery to remove the glioma and one that will not have surgical treatment. - Participants in the nonsurgical treatment group will take AZD8055 by mouth daily for a 42-day cycle of treatment. Participants will keep a diary to record doses and keep track of any side effects. - Participants in the surgical treatment group will take AZD8055 by mouth daily for 7 days, and then will have tumor removal surgery. At least 3 weeks after surgery, participants will resume doses of AZD8055 and will continue to take the drug for as long as the tumor does not recur. - During treatment, participants will have regular visits to the clinical center, involving frequent blood and urine tests and other examinations to monitor the effects of treatment. Participants will have imaging studies to study the cancer's response to the treatment. - Participants will continue to have cycles of treatment for as long as the treatment continues to be effective and the side effects are not severe enough to stop participation in the study....
RATIONALE: Drugs used in chemotherapy, such as Gliadel wafer and temozolomide, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. Radiation therapy uses high-energy x-rays to kill tumor cells. Giving radiation therapy and temozolomide after surgery and Gliadel wafer may kill any tumor cells that remain after surgery. PURPOSE: This phase II trial is studying the side effects of fluorescence-guided surgery with 5-ALA given together with Gliadel wafer, followed by radiation therapy and temozolomide, in treating patients with primary glioblastoma.
This open-label, multicenter study will evaluate the safety and efficacy of RO5323441 in combination with Avastin (bevacizumab) in patients with recurrent glioblastoma. In the dose-finding part, patients will receive intravenous escalating doses of RO5323441 in combination with 10 mg/kg Avastin once every two weeks. In the efficacy-finding part, patients will be randomized to receive the established dose (from the dose-finding part) of RO5323441 plus Avastin or Avastin alone. Patients in the dose-finding part may continue treatment with RO5323441 and Avastin on the study until evidence of progressive disease or unacceptable adverse events happen. In the efficacy-finding part, patients will receive study treatment until disease progression or death.
Investigation on safety, tolerability and efficacy of H-1 parvovirus (H-1PV) in subjects suffering from glioblastoma multiforme.