CBL0137 for the Treatment of Relapsed or Refractory Solid Tumors, Including CNS Tumors and Lymphoma...
Diffuse Midline GliomaH3 K27M-Mutant10 moreThis phase I/II trial evaluates the best dose, side effects and possible benefit of CBL0137 in treating patients with solid tumors, including central nervous system (CNS) tumors or lymphoma that has come back (relapsed) or does not respond to treatment (refractory). Drugs, such as CBL0137, block signals passed from one molecule to another inside a cell. Blocking these signals can affect many functions of the cell, including cell division and cell death, and may kill cancer cells.
PEACH TRIAL- Precision Medicine and Adoptive Cellular Therapy
NeuroblastomaDiffuse Intrinsic Pontine GliomaA Phase I open-label, multicenter study, to evaluate the safety, feasibility, and maximum tolerated dose (MTD) of treating children with newly diagnosed DIPG or recurrent neuroblastoma with molecular targeted therapy in combination with adoptive cell therapy (Total tumor mRNA-pulsed autologous Dendritic Cells (DCs) (TTRNA-DCs), Tumor-specific ex vivo expanded autologous lymphocyte transfer (TTRNA-xALT) and Autologous G-CSF mobilized Hematopoietic Stem Cells (HSCs)).
Preoperative Radiosurgery for the Treatment of High Grade Glioma, The NeoGlioma Study
Malignant GliomaThis phase I/IIA trial finds out the possible benefits and/or side effects of radiosurgery before surgery (preoperative) in treating patients with high grade glioma. Radiosurgery uses special equipment to position the patient and precisely give a single large dose of radiation to the tumor. This method may kill tumor cells with fewer doses over a shorter period and cause less damage to normal tissue. Giving pre-operative radiosurgery may improve the odds of brain tumor control and reduce treatment-related side effects.
A Study of the Drug Selinexor With Radiation Therapy in Patients With Newly-Diagnosed Diffuse Intrinsic...
Anaplastic AstrocytomaAnaplastic Astrocytoma8 moreThis phase I/II trial tests the safety, side effects, and best dose of selinexor given in combination with standard radiation therapy in treating children and young adults with newly diagnosed diffuse intrinsic pontine glioma (DIPG) or high-grade glioma (HGG) with a genetic change called H3 K27M mutation. It also tests whether combination of selinexor and standard radiation therapy works to shrink tumors in this patient population. Glioma is a type of cancer that occurs in the brain or spine. Glioma is considered high risk (or high-grade) when it is growing and spreading quickly. The term, risk, refers to the chance of the cancer coming back after treatment. DIPG is a subtype of HGG that grows in the pons (a part of the brainstem that controls functions like breathing, swallowing, speaking, and eye movements). This trial has two parts. The only difference in treatment between the two parts is that some subjects treated in Part 1 may receive a different dose of selinexor than the subjects treated in Part 2. In Part 1 (also called the Dose-Finding Phase), investigators want to determine the dose of selinexor that can be given without causing side effects that are too severe. This dose is called the maximum tolerated dose (MTD). In Part 2 (also called the Efficacy Phase), investigators want to find out how effective the MTD of selinexor is against HGG or DIPG. Selinexor blocks a protein called CRM1, which may help keep cancer cells from growing and may kill them. It is a type of small molecule inhibitor called selective inhibitors of nuclear export (SINE). Radiation therapy uses high energy to kill tumor cells and shrink tumors. The combination of selinexor and radiation therapy may be effective in treating patients with newly-diagnosed DIPG and H3 K27M-Mutant HGG.
Talazoparib - Carboplatin for Recurrent High-grade Glioma With DDRd
Recurrent GliomaRecurrent Glioblastoma3 moreIn view of the strong biological rationale of employing PARP inhibition in high grade glioma, the current study purposes testing of talazoparib in a biomarker-enriched group of glioma. Carboplatin will be added to sensitize the tumor to PARP inhibition, and low dose radiation therapy will be applied to increase talazoparib drug penetration through blood-brain barrier. The goal is to estimate the effect size of such combinational treatment approach in recurrent high-grade glioma with DNA damage repair deficiency (dDDR)
Chemotherapy and Radiation Therapy for the Treatment of IDH Wildtype Gliomas or Non-histological...
Anaplastic AstrocytomaIDH-Wildtype9 moreThis phase II trial studies how well temozolomide and radiation therapy work in treating patients with IDH wildtype historically lower grade gliomas or non-histological molecular glioblastomas. Radiation therapy uses high-energy x-rays to kill tumor cells and shrink tumors. Giving chemotherapy with radiation therapy may kill more tumor cells. 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. The goal of this clinical research study is to compare receiving new radiation therapy doses and volumes to the prior standard treatment for patients with historically grade II or grade III IDH wild-type gliomas, which may now be referred to as IDH wildtype molecular glioblastomas at some institutions. Receiving temozolomide in combination with radiation therapy may also help to control the disease.
Study on TIL for the Treatment of Brain Glioma
GliomaThis study is to investigate the safety and efficacy of tumor infiltrating lymphocyte (TIL) therapy in patients with malignant glioma . Autologous TILs are expanded from tumor resections and infused i.v. into the patient after NMA lymphodepletion treatment with hydroxychloroquine(600mg,single-dose) and cyclophosphamide.
Study to Evaluate the Efficacy and Safety of Pemigatinib in Participants With Previously Treated...
GlioblastomaAdult-type Diffuse GliomasThis is an open-label, monotherapy study of pemigatinib in participants with recurrent glioblastoma (GBM) or other recurrent gliomas, circumscribed astrocytic gliomas, and glioneuronal and neuronal tumors with an activating FGFR1-3 mutation or fusion/rearrangement. This study consists of 2 cohorts, Cohorts A, and B, and will enroll approximately 82 participants into each cohort. Participants will receive pemigatinib 13.5 mg QD on a 2-week on-therapy and 1-week off-therapy schedule as long as they are receiving benefit and have not met any criteria for study withdrawal.
Nivolumab in Combination With Temozolomide and Radiotherapy in Children and Adolescents With Newly...
High Grade GliomaMulticenter, open label, prospective study including successively a phase I trial and then a phase II trial Phase I : Open label, non-randomized, safety run study in nine patients. In case of safety issue a -1 dose level will be tested. Phase II : Open label, non randomized, efficacy study of nivolumab in addition to radiotherapy and temozolomide. This phase will start when the RP2D has been defined after the last patients evaluable for DLT achieved the first 6 weeks of treatment (the radio-chemotherapy period) with a DLT rate below 30% during the the phase I study.
CED of MTX110 Newly Diagnosed Diffuse Midline Gliomas
Diffuse Intrinsic Pontine GliomaDiffuse Pontine and Thalamic Gliomas1 moreThe blood brain barrier (BBB) prevents some drugs from successfully reaching the target source. Convection-Enhanced Delivery (CED) is a method of direct infusion of drugs under controlled pressure to the tumor that may reduce systemic side effects of drugs in the patient. The purpose of this Phase I study is to find the maximum tolerated dose of MTX110 (a water-soluble Panobinostat nanoparticle formulation) and Gadolinium that can be given safely in children with newly diagnosed diffuse midline gliomas. All patients enrolled in the study will receive infusion of MTX110 and Gadolinium delivered with a pump directly into the tumor over 9-11 days.