View clinical trials related to CNS Cancer.
Filter by:The goal of this clinical research trial is to study the use of differing investigational doses and scheduling for Proton Therapy for tumors previously treated with radiation therapy. Generally, when patients are first treated for cancer with radiation therapy, they are treated with traditional photon (or x-ray) radiation therapy, which uses high-energy waves to kill tumor cells. In some cases, the cancer either returns or a new tumor can present in a different part of the body. With the usual radiation treatment, the photon beams travel all the way through the body. As a result, healthy tissues in front of and behind the tumor are exposed to radiation. Physicians who treat these cases where the tumor has returned often use a much lower dose of radiation to prevent patients from experiencing serious and long-term side-effects. This dose is often not strong enough to destroy the cancerous tumor. Alternatively, they may also treat a smaller area than would be indicated for complete tumor eradication, again in an attempt to prevent serious and long-term toxicities, but at the cost of optimally treating the cancer. Proton therapy, however, may offer a chance to safely deliver a more effective dose and volume of radiation as it is more targeted and can spare healthy tissues surrounding the tumor. The reason we are conducting this research study is to look at whether Proton therapy can be a better way to treat reoccurring tumors in patients who have previously received radiation therapy to the same area, compared to treatment approaches used to date.
The purpose of this study is to understand the breadth of molecular characteristics present in participants cared for in a large integrated, community-based health care system. Using comprehensive genomic profiling and proteomics, the investigators seek to identify the underlying genomic drivers of premalignant or malignant conditions in participants across different stages of disease development and cancer types. Comprehensive molecular profiling will consist of somatic tumor testing (tissue and/or blood) using whole exome sequencing, whole transcriptome sequencing, proteomics, and selected instances of whole genome sequencing. In addition, the investigators seek to perform broad hereditary cancer testing in affected participant populations. Hereditary testing has implications in screening, prognosis, and therapeutics for affected participants, as well as broad implications for genetic counseling and cascade testing. In order to maximize the value of genomic information, participants consented to this protocol will have their electronic health records (both retrospectively and prospectively) abstracted, curated, annotated and linked to genomic information obtained though the testing performed. Given the long-term value of this data, participants will also be asked to voluntarily consent to have their samples stored in a biobank and have their de-identified information used for future research. Information collected across this participant population will aid in advancing the investigators' knowledge of cancer biology, to discover and validate biomarkers associated with clinical outcomes, and shared in collaborative projects in order to promote the study of cancer.
This study is to collect and validate regulatory-grade real-world data (RWD) in oncology using the novel, Master Observational Trial construct. This data can be then used in real-world evidence (RWE) generation. It will also create reusable infrastructure to allow creation or affiliation with many additional RWD/RWE efforts both prospective and retrospective in nature.