Search clinical trials by condition, location and status
This clinical trial studies whether educational tools work to improve early advance care planning (ACP) in adolescents and young adults (AYAs) with solid tumors that may have spread from where they first started to nearby tissue, lymph nodes, or distant parts of the body (advanced) and high-grade brain tumors. The incidence of AYA cancers is on the rise with approximately 90,000 new diagnoses yearly in the United States. Cancer remains the leading cause of disease-related death among AYAs, which could be due to patients having more advanced disease at presentation. It is recommended that AYAs begin ACP conversations at the start of treatment. ACP includes clarifying goals of care, discussions about end-of-life preferences, and completing a legal document that states the treatment or care a person wishes to receive or not receive if they become unable to make medical decisions (advance directive). The educational tools in this study include an early ACP educational video featuring AYAs with cancer and an ACP appointment geared for AYAs. Patients can access and watch the educational video at home prior to their scheduled ACP appointment. During the ACP appointment, a tailored ACP guide made specifically for AYAs is reviewed and questions regarding ACP are answered. This may help to introduce the importance of key ACP concepts, which may improve early ACP in AYAs with advanced solid tumors and high-grade brain tumors.
This phase I trial studies how well zirconium (Zr)-89 crefmirlimab berdoxam and immuno-positron emission tomography (PET) identifies areas of immune cell activity in patients with brain tumors that can be removed by surgery (resectable). One important predictor of the immune response is the presence and change in CD8 positive (+) tumor infiltrating lymphocytes (TIL) cells. Identifying the presence and changes in CD8+ cells can be challenging, particularly for participants with central nervous system (CNS) tumors, and usually requires invasive procedures such as repeat tissue biopsies, which may not accurately represent the immune status of the entire tumor. Zr-89 crefmirlimab berdoxam is known as a radioimmunoconjugate which consists of a radiolabeled anti-CD8+ minibody whose uptake can be imaged with PET. Upon administration, Zr 89 crefmirlimab berdoxam specifically targets and binds to the CD8+ cells. This enables PET imaging and may detect CD8+ T-cell distribution and activity and may help determine the patient's response to cancer immunotherapeutic agents more accurately. Giving Zr-89 crefmirlimab berdoxam along with undergoing immuno-PET imaging may work better at identifying immune cell activity in patients with resectable brain tumors.
The goal of this interventional study is to Assess the safety and tolerability of atovaquone in combination with standard radiation therapy (RT) for the treatment of pediatric patients with newly diagnosed pediatric high-grade glioma/diffuse midline glioma/diffuse intrinsic pontine glioma (pHGG/DMG/DIPG). The secondary aim is to assess the safety and tolerability of longer-term atovaquone treatment for pediatric patients with relapsed or progressed pHGG/DMG/DIPG and medulloblastoma (MB) or pHGG/DMG/DIPG after completion of RT and before progression.
This is an open-label phase 1 safety and feasibility study that will employ multi-tumor antigen specific cytotoxic T lymphocytes (TSA-T) directed against proteogenomically determined personalized tumor-specific antigens (TSA) derived from a patient's primary brain tumor tissues. Young patients with embryonal central nervous system (CNS) malignancies typically are unable to receive irradiation due to significant adverse effects and are treated with intensive chemotherapy followed by autologous stem cell rescue; however, despite intensive therapy, many of these patients relapse. In this study, individualized TSA-T cells will be generated against proteogenomically determined tumor-specific antigens after standard of care treatment in children less than 5 years of age with embryonal brain tumors. Correlative biological studies will measure clinical anti-tumor, immunological and biomarker effects.
This phase II trial tests the effect of decreasing (tapering) doses of dexamethasone on steroid side effects in patients after surgery to remove (craniotomy) a brain tumor. Steroids are the gold standard post-surgery treatment to reduce swelling (edema) at the surgical site to reduce neurological symptoms. Although, corticosteroids reduce edema, they have side effects including high blood sugar, high blood pressure, and can impair wound healing. Dexamethasone is in a class of medications called corticosteroids. It is used to reduce inflammation and lower the body's immune response. It also works to treat other conditions by reducing swelling and redness. Tapering doses dexamethasone may decrease steroid side effects without increasing the risk of edema in patients with brain tumors after a craniotomy.
The goal of this study is to refine and test a psychosocial intervention called ASCENT (ACT-based Supportive intervention for patients with CENTral nervous system tumors). This intervention was developed to help patients after being diagnosed with a brain tumor. The main question this study aims to answer is whether this intervention is feasible (i.e., possible to carry out) and acceptable (i.e., considered helpful) to patients. Participants will be asked to take part in 6 coaching sessions and complete short surveys at four different time points. Some participants will be asked to share feedback via interviews.
This goal of this study is to test an information and support intervention for patients with malignant (or "high-grade") brain tumors. This study was developed to help patients cope after a brain tumor diagnosis. The main question this study aims to answer is whether this intervention (which includes access to an information guide and one-on-one coaching sessions) is feasible (i.e., possible to carry out) and acceptable (i.e., considered helpful) to patients. Participants will be asked to take part in the coaching sessions, use the guide as desired, and complete a small group of short surveys at three different points in time; some participants will be asked to share feedback via exit interviews.
This phase I trial tests the safety, side effects, and best dose of ex vivo expanded natural killer cells in treating patients with cancerous (malignant) tumors affecting the upper part of the brain (supratentorial) that have come back (recurrent) or that are growing, spreading, or getting worse (progressive). Natural killer (NK) cells are immune cells that recognize and get rid of abnormal cells in the body, including tumor cells and cells infected by viruses. NK cells have been shown to kill different types of cancer, including brain tumors in laboratory settings. Giving NK cells from unrelated donors who are screened for optimal cell qualities and determined to be safe and healthy may be effective in treating supratentorial malignant brain tumors in children and young adults.
The objective of the International Rare Brain Tumor Registry (IRBTR) is to better understand rare brain tumors through the collection of biospecimens and matched clinical data of children, adolescents, and young adult patients diagnosed with rare brain tumors.
This trial studies how well spectroscopic magnetic resonance imaging (MRI) guided proton therapy works in assessing metabolic change in pediatric patients with brain tumors. The non-invasive imaging, such as spectroscopic MRI may help to map the differences in tumor metabolism compared to healthy tissue without injection of any contrast agent.