Active clinical trials for "Glioma"

RATIONALE: Drugs used in chemotherapy use different ways to stop tumor cells from dividing so they stop growing or die. Radiation therapy uses high-energy x-rays to damage tumor cells. Paclitaxel may make the tumor cells more sensitive to radiation therapy. PURPOSE: Phase I trial to study the effectiveness of combining paclitaxel with radiation therapy in treating children who have newly diagnosed brain stem glioma.

RATIONALE: Drugs used in chemotherapy use different ways to stop tumor cells from dividing so they stop growing or die. Chemotherapy placed into the surrounding tissue after surgery to remove the tumor may kill any remaining tumor cells. O(6)-benzylguanine may increase the effectiveness of carmustine by making tumor cells more sensitive to the drug. PURPOSE: Phase I trial to study the safety of combining O(6)-benzylguanine with carmustine implants in treating children who have recurrent malignant glioma.

Topotecan is an FDA-approved drug when given by intravenous infection. The purpose of this study is to determine if treatment with topotecan by an alternative method, direct delivery into the part of the brain where the tumor has spread, is safe and well tolerated. The Cleveland Multiport Catheter is a new, investigational device that will be used to deliver topotecan into tumor-infiltrated brain. A second purpose of this study is to determine whether the Cleveland Multiport Catheter can be used effectively and safely to deliver topotecan into tumor-infiltrated brain. This study will also examine how tumors responds to treatment with topotecan. This study will also look at the way topotecan is injected into tumors-infiltrated brain. A small amount of contrast dye (called gadolinium DTPA) will be added to topotecan before it is injected. Pictures will be taken of the brain with an MRI machine. This will allow the investigators to see where in the tumor-infiltrated brain the topotecan has been injected. This study will collect medical information before, during, and after treatment in order to better understand hot to make this type of procedure accessible to patients.

The purpose of this study is to test the effectiveness and safety of the NovoTTF-200A device in patients with low-grade glioma when it's used by itself or used together with temozolomide. Researchers would also like to know whether the use of NovoTTF-200A, with or without temozolomide, is associated with fewer negative side effects on mental function that may be seen with other currently used treatment options.

The purpose of this study is to find out what effects, good and/or bad, everolimus (RAD001, also known as Afinitor®) alone or with temozolomide has on the patient and the patient's low-grade glioma. Everolimus is being investigated as an anticancer agent based on its potential to prevent tumor cells from growing and multiplying. Specifically, there is a protein called mTOR that we think helps many tumors to grow, and everolimus blocks the effect of mTOR. Temozolomide is also an anticancer agent that prevents tumor cells from growing and multiplying.

The purpose of the study is to evaluate the short- and long term toxicity of radiotherapy to patients with recurrent high-grade glioma who have previously received radiotherapy and to determine the best dose and treatment regimen. Positron emission tomography (PET) using an amino acid tracer, 18-fluoro-ethyltyrosine (18F-FET), is used for target delineation.The study examines, in four sequential treatment groups, the effect of dose, hypofractionation and treatment volume on toxicity. Upon completion of the phase I part, the study progresses to phase II where the best dose- and treatment regimen will be chosen for treatment.

Glioblastoma multiforme (GBM) is the most common and deadliest primary malignant neoplasm of the central nervous system in adults. Despite an aggressive multimodality treatment approach including surgery, radiation therapy and chemotherapy, overall survival remains poor. Novocure has shown that when properly tuned, very low intensity, intermediate frequency electric fields (TTFields) stunt the growth of tumor cells. The Optune system (NovoTTFTM Therapy) is a portable battery operated device, which produces TTFields within the human body by means of surface transducer arrays. The TTFields are applied to the patient by means of surface transducer arrays that are electrically insulated, so that resistively coupled electric currents are not delivered to the patient. Optune is currently FDA-approved as a single modality treatment for recurrent GBM when both surgical and radiotherapy options have been exhausted as well as combination with adjuvant temozolomide for newly diagnosed GBM. This research study is being performed to determine whether or not TTFields combined with pulsed bevacizumab treatment increases overall survival in patients with bevacizumab-refractory GBM compared to historical controls treated with continuous bevacizumab alone or in combination with other chemotherapy.

Phase 1: To confirm the safety and anticipated recommended phase 2 dose (RP2D) of REGN2810 (cemiplimab) for children with recurrent or refractory solid or Central Nervous System (CNS) tumors To characterize the pharmacokinetics (PK) of REGN2810 given in children with recurrent or refractory solid or CNS tumors Phase 2 (Efficacy Phase): To confirm the safety and anticipated RP2D of REGN2810 to be given concomitantly with conventionally fractionated or hypofractionated radiation among patients with newly diagnosed diffuse intrinsic pontine glioma (DIPG) To confirm the safety and anticipated RP2D of REGN2810 given concomitantly with conventionally fractionated or hypofractionated radiation among patients with newly diagnosed high-grade glioma (HGG) To confirm the safety and anticipated RP2D of REGN2810 given concomitantly with re-irradiation in patients with recurrent HGG To assess PK of REGN2810 in pediatric patients with newly diagnosed DIPG, newly diagnosed HGG, or recurrent HGG when given in combination with radiation To assess anti-tumor activity of REGN2810 in combination with radiation in improving overall survival at 12 months (OS12) among patients with newly diagnosed DIPG To assess anti-tumor activity of REGN2810 in combination with radiation in improving progression-free survival at 12 months (PFS12) among patients with newly diagnosed HGG To assess anti-tumor activity of REGN2810 in combination with radiation in improving overall survival at OS12 among patients with recurrent HGG

The standard therapy of glioblastoma (GBM) consists of gross total resection followed by focal irradiation to the tumor bed with concomitant and adjuvant temozolomide (TMZ). The association of valproic acid and TMZ during radiotherapy improves survival of GBM. Preclinical studies suggested that doxorubicin had a strong antineoplastic activity against human gliomas. Moreover, some studies showed that the continuous infusion of anthracyclines in patients with solid tumor ensured a better safety profile compared with bolus administration. Based on these findings, the purpose of this study is to evaluate safety and efficacy of prolonged administration of doxorubicin in combination with radiotherapy, temozolomide and valproic acid in pediatric and adult patients with newly diagnosed GBM and diffuse intrinsic pontine glioma (DIPG).

This is a 2-part multicenter Phase 1b study designed to test icapamespib in patients with recurrent brain lesions. Part 1 of the trial will be a standard 3 by 3 dose escalation design where different doses are examined. Part 2 will be a dose expansion cohort to further evaluate the recommended Phase 2 dose (RP2D). The RP2D is defined as the dose level recommended for further clinical study, or the highest dose tested.