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Active clinical trials for "Glioma"

Results 221-230 of 1149

Phase I Study of APX005M in Pediatric CNS Tumors

Glioblastoma MultiformeHigh-grade Astrocytoma NOS6 more

This phase I trial studies the side effects and best dose of APX005M in treating younger patients with primary malignant central nervous system tumor that is growing, spreading, or getting worse (progressive), or newly diagnosed diffuse intrinsic pontine glioma. APX005M can trigger activation of B cells, monocytes, and dendritic cells and stimulat cytokine release from lymphocytes and monocytes. APX005M can mediate a direct cytotoxic effect on CD40+ tumor cells.

Active44 enrollment criteria

PVSRIPO in Recurrent Malignant Glioma

Malignant Glioma

This is a phase 2 study of oncolytic polio/rhinovirus recombinant (PVSRIPO) in adult patients with recurrent World Health Organization (WHO) grade IV malignant glioma.

Active32 enrollment criteria

Tazemetostat in Treating Patients With Relapsed or Refractory Advanced Solid Tumors, Non-Hodgkin...

Advanced Malignant Solid NeoplasmAnn Arbor Stage III Hodgkin Lymphoma39 more

This phase II Pediatric MATCH trial studies how well tazemetostat works in treating patients with brain tumors, solid tumors, non-Hodgkin lymphoma, or histiocytic disorders that have come back (relapsed) or do not respond to treatment (refractory) and have EZH2, SMARCB1, or SMARCA4 gene mutations. Tazemetostat may stop the growth of tumor cells by blocking EZH2 and its relation to some of the pathways needed for cell proliferation.

Active58 enrollment criteria

Samotolisib in Treating Patients With Relapsed or Refractory Advanced Solid Tumors, Non-Hodgkin...

Advanced Malignant Solid NeoplasmAnn Arbor Stage III Non-Hodgkin Lymphoma31 more

This phase II Pediatric MATCH trial studies how well samotolisib works in treating patients with solid tumors, non-Hodgkin lymphoma, or histiocytic disorders with TSC or PI3K/MTOR mutations that have spread to other places in the body (metastatic) and have come back (recurrent) or do not respond to treatment (refractory). Samotolisib may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth.

Active60 enrollment criteria

Erdafitinib in Treating Patients With Relapsed or Refractory Advanced Solid Tumors, Non-Hodgkin...

Advanced Malignant Solid NeoplasmRecurrent Childhood Ependymoma30 more

This phase II Pediatric MATCH trial studies how well erdafitinib works in treating patients with solid tumors, non-Hodgkin lymphoma, or histiocytic disorders that have spread to other places in the body and have come back or do not respond to treatment with FGFR mutations. Erdafitinib may stop the growth of cancer cells with FGFR mutations by blocking some of the enzymes needed for cell growth.

Active61 enrollment criteria

ONC201 in Adults With Recurrent H3 K27M-mutant Glioma

Glioma

The primary objective of this phase II trial is to determine the efficacy and safety of ONC201, an oral small molecule imipridone DRD2 antagonist, in adult subjects with recurrent high-grade glioma. This study will test the research hypothesis that histone H3 K27M mutation sensitizes to oral administration of ONC201 in gliomas.

Active49 enrollment criteria

H3.3K27M Peptide Vaccine With Nivolumab for Children With Newly Diagnosed DIPG and Other Gliomas...

Diffuse Intrinsic Pontine GliomaGlioma2 more

This is 3-arm, multicenter study that will be conducted through the Pacific Pediatric Neuro-oncology Consortium (PNOC). This study will assess the safety and immune activity of a synthetic peptide vaccine specific for the H3.3.K27M epitope given in combination with poly-ICLC and the H3.3.K27M epitope given in combination with poly-ICLC and the PD-1 inhibitor, nivolumab, in HLA-A2 (02:01)+ children with newly diagnosed DIPG or other midline gliomas that are positive for H3.3K27M.

Active48 enrollment criteria

Veliparib, Radiation Therapy, and Temozolomide in Treating Patients With Newly Diagnosed Malignant...

Anaplastic AstrocytomaGlioblastoma1 more

This phase II trial studies how well veliparib, radiation therapy, and temozolomide work in treating patients with newly diagnosed malignant glioma without H3 K27M or BRAFV600 mutations. Poly adenosine diphosphate (ADP) ribose polymerases (PARPs) are proteins that help repair DNA mutations. PARP inhibitors, such as veliparib, can keep PARP from working, so tumor cells can't repair themselves, and they may stop growing. 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. Giving veliparib, radiation therapy, and temozolomide may work better in treating patients with newly diagnosed malignant glioma without H3 K27M or BRAFV600 mutations compared to radiation therapy and temozolomide alone.

Active44 enrollment criteria

Fimepinostat in Treating Brain Tumors in Children and Young Adults

Diffuse Intrinsic Pontine GliomaRecurrent Anaplastic Astrocytoma3 more

This trial studies how well fimepinostat works in treating patients with newly diagnosed diffuse intrinsic pontine glioma, or medulloblastoma, or high-grade glioma that have come back. Fimepinostat may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.

Active51 enrollment criteria

Dendritic Cell Vaccine for Patients With Brain Tumors

GliomaAnaplastic Astrocytoma2 more

The main purpose of this study is to evaluate the most effective immunotherapy vaccine components in patients with malignant glioma. Teh investigators previous phase I study (IRB #03-04-053) already confirmed that this vaccine procedure is safe in patients with malignant brain tumors, and with an indication of extended survival in several patients. However, the previous trial design did not allow us to test which formulation of the vaccine was the most effective. This phase II study will attempt to dissect out which components are most effective together. Dendritic cells (DC) (cells which "present" or "show" cell identifiers to the immune system) isolated from the subject's own blood will be treated with tumor-cell lysate isolated from tumor tissue taken from the same subject during surgery. This pulsing (combining) of antigen-presenting and tumor lysate will be done to try to stimulate the immune system to recognize and destroy the patient's intracranial brain tumor. These pulsed DCs will then be injected back into the patient intradermally as a vaccine. The investigators will also utilize adjuvant imiquimod or poly ICLC (interstitial Cajal-like cell) in some treatment cohorts. It is thought that the host immune system might be taught to "recognize" the malignant brain tumor cells as "foreign" to the body by effectively presenting unique tumor antigens to the host immune cells (T-cells) in vivo.

Active14 enrollment criteria
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