View clinical trials related to Brain Tumor.
Filter by:The purpose of this study is to test the accuracy of using an imaging technique called breath-holding functional magnetic resonance imaging (BH fMRI) in addition to the standard imaging test described above. This study will allow the researchers to find out whether using BH fMRI in combination with the standard approach is the same as, better, or worse than the standard approach used alone.
The purpose of this study is to test any good and bad effects of a study drug called abemaciclib (LY2835219) in patients with recurrent brain tumors.
The goal of this study is to learn about the cognitive and behavioral functioning of children being treated for cancer.
This study proposes to do a prospective observational cohort study evaluating the quality of life (QOL) of children with Central Nervous System (CNS) tumors and their families who choose to self-medicate with marijuana-derived products while undergoing treatment at Children's Hospital Colorado (CHCO).
This research study is evaluating a novel drug called CUDC-907 as a possible treatment for resistant (refractory) pediatric solid tumors (including neuroblastoma), lymphoma, or brain tumors.
Background: Brain and spinal cord tumors are uncommon. But they contribute substantially to cancer deaths in the U.S. in children and adults. Little progress has been made in treating brain tumors. Researchers want to learn more about these tumors by studying people who have them. Objectives: To understand brain and spinal cord tumors better and uncover areas for further research. Also, to connect people with these tumors to doctors who can help them manage their illness and give them new treatment options. Design: Participants will have an initial (baseline) visit. They will have their medical history taken and undergo physical and neurological exams. They will have blood tests. They may have scans (imaging studies) of the nervous system. If participants have urine or cerebrospinal fluid collected during their regular care, researchers may save some. Brain tumor tissue from a prior surgery may be studied. Genomic DNA testing will be done on samples. Results will be linked to participants medical and/or family history. The number of study visits at NIH will depend on the wishes of participants and their local doctors. Participants will take a brain tumor survey on a computer. They can take it all at once or in 6 separate sections. Participants will answer questions about their general well-being. They will answer questions to learn if they have symptoms of depression or anxiety. Physicians will discuss test results with participants. They will recommend management and treatment options.
The purpose of this study is to evaluate the safety of BBB disruption using transcranial MRI-guided focused ultrasound in conjunction with an intravenous ultrasound contrast agent to increase the accumulation of doxorubicin in brain tumours and the adjacent brain using the ExAblate Transcranial system (220 kHz). Data will be collected to establish the basic safety of this type of treatment as the basis for later studies to evaluate its clinical efficacy.
Advances in cancer therapies have led to increasing numbers of adult survivors of pediatric malignancy. Unfortunately, treatment of childhood cancer continues to require agents designed to destroy malignant cell lines, and normal tissue is not always spared. While early treatment- related organ specific toxicities are not always apparent, many childhood cancer survivors report symptoms that interfere with daily life, including exercise induced shortness of breath, fatigue and reduced capacity to participate in physical activity. These symptoms may be a hallmark of premature aging, or frailty. Frailty is a phenotype most commonly described in older adults; it indicates persons who are highly vulnerable to adverse health outcomes. Frailty may help explain why nearly two thirds of childhood cancer survivors have at least one severe chronic health condition 30 years from diagnosis, why childhood cancer survivors are more likely than peers to be hospitalized for non-obstetrical reasons, and why they have mortality rates more than eight times higher than age-and-gender matched members of the general population. Frailty is a valuable construct because it can be distinguished from disability and co-morbidity, and is designed to capture pre-clinical states of physiologic vulnerability that identify individuals most at risk for adverse health outcomes. These investigators have recently presented data indicating that impaired fitness is present in survivors of childhood acute lymphoblastic leukemia, brain tumor and Hodgkin lymphoma. This is relevant because frailty, characterized by a cluster of five measurements of physical fitness, is predictive of chronic disease onset, frequent hospitalization, and eventually mortality in both the elderly and in persons with chronic conditions. Using a frailty phenotype as an early predictor of later chronic disease onset will allow identification of childhood and adolescent cancer survivors at greatest risk for adverse health. An early indicator of those at risk for adverse health will allow researchers to test, and clinicians to provide, specific interventions designed to remediate functional loss, and prevent or delay onset of chronic health conditions. The investigators goals include characterizing physical frailty over a five year time span in a population of young adult survivors of childhood cancer, as well as assessing the association between frailty and the increase in the number and severity of chronic health conditions.
Summary of scientific evidence and rationale of this project: Integrative molecular-genetic approaches have provided important insights in the biology of glioblastoma. It has meanwhile become clear, that glioblastoma is not a single tumor entity but comprises different molecular subtypes, which are associated with a distinct genetic/epigenetic signature and prognosis. Multimodal treatment approaches combining radio- and chemotherapy as well as the recent introduction of novel antiangiogenic agents have resulted in increasing survival times and improved quality-of-life of glioblastoma patients. Yet, despite these intense treatment efforts the therapeutic efficacy in glioblastoma patients is limited, leading in virtually all cases to tumor recurrence and death of the patients. As only a limited fraction of glioblastoma patients undergo second neurosurgery at tumor recurrence (< 10%), post-therapeutic samples are rare and no systematic, large-scale studies exist, which address post-therapeutic morphological and molecular alterations in glioblastoma tumor tissue. Yet, these data would help to improve the understanding of mechanisms involved in therapy-resistance and tumor progression, to develop new therapeutic approaches and could pave the way for personalized treatment strategies.
Some patients with brain tumors receive standard radiation to help prevent tumor growth. Although standard radiation kills tumor cells, it can also damage normal tissue in the process and lead to more side effects. This research study is looking at a different form of radiation called proton radiotherapy which helps spare normal tissues while delivering radiation to the tumor or tumor bed. Proton techniques irradiate 2-3 times less normal tissue then standard radiation. This therapy has been used in treatment of other cancers and information from those other research studies suggests that this therapy may help better target brain tumors then standard radiation.