Clinical Research Directory

Study of Tovorafenib in High-Grade Glioma and Diffuse Intrinsic Pontine Glioma (DIPG)

The goal of this study is to determine the efficacy of the study drugs tovorafenib to treat pediatric and young adult patients newly diagnosed with a high-grade glioma (HGG), including DIPG, that have genetic changes in pathways (MAPK) that this drug targets. The main question the study aims to answer is whether tovorafenib can prolong the life of patients diagnosed with HGG, including DIPG.

Targeted Pediatric High-Grade Glioma Therapy

The goal of this study is to perform genetic sequencing on brain tumors from children, adolescents, and young adult patients who have been newly diagnosed with a high-grade glioma. This molecular profiling will decide if patients are eligible to participate in a subsequent treatment-based clinical trial based on the genetic alterations identified in their tumor.

Study of Ribociclib and Everolimus in HGG and DIPG or Ribociclib and Temozolomide in DHG, H3G34-mutant

The goal of this study is to determine the efficacy of the 1) ribociclib and everolimus to treat pediatric and young adult patients newly diagnosed with a high-grade glioma (HGG), including DIPG, that have genetic changes in pathways (cell cycle, PI3K/mTOR) that these drugs target or 2) ribociclib and temozolomide to treat pediatric and young adult patients newly diagnosed with diffuse hemispheric glioma (DHG), H3G34-mutant. The main question the study aims to answer is whether the combinations of ribociclib and everolimus or ribociclib and temozolomide can prolong the life of patients diagnosed with HGG/DIPG or DHG H3G34-mutant.

Developing a New MRI Technique to Understand Changes in Brain Tumors After Treatment

The purpose of this study is to develop and test a new magnetic resonance imaging (MRI) technique to see if it can be used to tell the difference between tumor growth from worsening of cancer and growth from the effects of treatment in participants who have brain tumors treated with radiation therapy called stereotactic radiosurgery (SRS).

A Study of How Proton Beam Radiotherapy (PBRT) Affects Brain Function and Quality of Life in Children and Young Adults Undergoing Treatment for a Brain Tumor

The researchers are doing this study to find out if there are differences in the resting state brain networks of children and young adults (ages 6-25) after treatment with proton beam radiation therapy (PBRT). The researchers will use resting state functional connectivity magnetic resonance imagining (rs-fcMRI) scanning to detect these differences. The researchers will also check for differences in participants' thinking and quality of life through a cognitive assessment and a questionnaire. Both people undergoing PBRT for a brain tumor and healthy people will take part in this study so that the researchers can compare the brain networks (connections in the brain that are involved in certain function, such as memory or attention), thinking patterns, and quality of life of these two groups of participants. The study researchers think that rs-fcMRI scans may be an effective way to look at the brain networks after treatment with PBRT and see if this treatment causes differences in those networks, including damage to the brain (neurotoxicity). rs-fcMRI scans take images when a patient is in a resting state, which means the patient is not performing a task or thinking about anything in particular. This study will provide valuable information about how PBRT affects brain networks, thinking (cognitive) abilities, and quality of life in children and young adults. The study results may have an impact on future treatment approaches for brain cancer and the use of PBRT in children and young adults.

F-Tryptophan PET/CT in Human Cancers

Imaging procedures such as 1-(2-\[18F\]FLUOROETHYL)-L-Tryptophan PET/CT in patients with cancers may help doctors assess a patient's response to treatment and help plan the best treatment in the future. The purpose is to see if there can be a better differentiation of tumor and non-tumor tissue where the tumor tissue has a higher uptake of Tryptophan.

Assessment of Eloquent Function in Brain Tumor Patients

Purpose of the study: AIM 1: Prospectively collect pre-operative \[functional magnetic resonance imaging (fMRI), diffusion tensor imaging (DTI), magnetoencephalography (MEG)\] and intra-operative mapping data in patients with intra-axial brain tumors to assess how well each modality predicts the location of eloquent brain function. In addition, each modality will be compared with the other. AIM 2: Assess reorganization of eloquent brain function and plasticity in patients with intra-axial brain tumors. This will be accomplished by prospectively collecting post-operative mapping studies and neuropsychological tests to compare them to prior mapping studies as stated above.

Study of Olutasidenib and Temozolomide in HGG

The goal of this study is to determine the efficacy of the study drug olutasidenib to treat newly diagnosed pediatric and young adult patients with a high-grade glioma (HGG) harboring an IDH1 mutation. The main question the study aims to answer is whether the combination of olutasidenib and temozolomide (TMZ) can prolong the life of patients diagnosed with an IDH-mutant HGG.