View clinical trials related to Brain Neoplasms.
Filter by:The aim of the study is to evaluate whether open-face masks improve patient comfort/preference whilst maintaining immobilization performance as known for closed masks in patients undergoing whole or partial cranial radiotherapy.
Recent research indicates that variability in cognitive function for brain tumor survivors may be explained by differences in cognitive reserve (CR) and use of compensatory strategies.However, it is unknown when cognitive function declines or survivors tap into compensation. This longitudinal mixed methods study proposes to explore differences in cognitive function and change over time in newly diagnosed adults with brain cancer prior to, immediately after (within 2 weeks), and 2-3 months after radiation therapy treatment has been completed. Specific aims are to: Aim1: Examine the relationship between objective and subjective cognitive function in subjects newly diagnosed with brain cancer prior to and after XRT. Aim 2: Explore the interrelationship between cognitive function and compensation (neural and behavioral) by high/low CR prior to and after XRT. Aim 3: Describe the trajectory of objective and subjective cognitive function over time by CR, cancer type, and associated treatment-related factors.
This early phase I trial studies how well a genetic test called pharmacogenomics works in directing the optimal use of supportive care medications in patients with stage III-IV cancer. Pharmacogenomics is the study of how genes may affect the body's response to and interaction with some prescription medications. Genes, which are inherited from parents, carry information that determines things such as eye color and blood type. Genes can also influence how patients process and respond to medications. Depending on the genetic makeup, some medications may work faster or slower or produce more or fewer side effects. Pharmacogenomics testing may help doctors learn more about how patients break down and process specific medications based on their genes and improve the quality of life of cancer patients receiving clinical care.
This study will evaluate the rate of radiation necrosis following treatment with immune checkpoint inhibitor (ICI) treatment and radiation therapy in subjects with metastatic brain cancer. Subjects will be treated with the standard of care immunotherapy followed by radiation therapy via stereotactic radiosurgery at a reduced dose.
This phase II trial studies how well F-18 fluoroethyltyrosine (fluoroethyltyrosine) works in detecting tumors in participants with intracranial tumors that have come back. FET accumulates in malignant cells within intracranial neoplasms and can be used to detect recurrent disease and characterize the grade of glial neoplasms. Imaging agents such as FET can help oncologist to see the tumor better during a positron emission tomography (PET) scan.
Background. Brain metastases are the most common intracranial tumor and occur in 20-40% of all oncological patients. The most common primary cancer in brain metastases is lung cancer, followed by melanoma, breast cancer, renal cancer and colorectal cancer. The incidence of brain metastases has been increasing but the occurrence of brain metastases is still associated with high morbidity and poor prognosis. The main treatment methods are stereotactic radiosurgery (SRS), microsurgical resection and whole brain irradiation (WBRT). The stereotactic Gamma Knife Radiosurgery (GKRS) is a non-invasive method, applying high dose radiation into an exact defined volume within the cranium, and thereby associated with significantly decreased neurotoxicity. It is the only treatment method for multiple disseminated and thereby non-resectable brain metastases. A novel treatment method of brain metastases is the combination of GKRS and systematic immunotherapy (IT), targeted therapy (TT) or chemotherapy, which showed significant improvements in survival. Furthermore, patients with brain metastases often develop cerebral edema, which is commonly treated with glucocorticoids to relieve the symptoms and decrease the fluid accumulation, but the long-term use was shown to be unfavorable due to various side effects. One of the potentially concerning side effect of glucocorticoids is the immunosuppressive properties. This raises the question of whether glucocorticoids might influence the effect of immunotherapy. Aim. The aim of the study is to evaluate if the use of glucocorticoids before, during and after treatment with gamma knife radiosurgery and immunotherapy effect the overall survival in patients with brain metastases, in contrast to patients undergoing gamma knife radiosurgery and immunotherapy alone. In addition, the effect of glucocorticoids on progression-free survival and clinical outcome will be evaluated. For the evaluation of the modern oncological treatment, patients with gamma knife radiosurgery, receiving immunotherapy, will be compared to patients not receiving immunotherapy. Patients and methods. The investigators plan to conduct a observational prospective preliminary study including about 200 radiosurgically treated patients with brain metastases. Patients will be included to our study, if they were diagnosed with one of two most common primary cancers (lung cancer or melanoma) and were treated with at least one Gamma Knife radiosurgical treatment for at least one brain metastasis. For the outcome evaluation of the different treatment options, a comprehensive database will be established. The study participations will not interfere with any clincally indicated therapeutic decisions and the study participants will not be exposed to any additional risks.
Surgery for brain gliomas is usually guided by different imaging techniques including neuronavigation MRI and intraoperative ultrasound that do not allow visualization of the low-density peri-lesional tumor infiltration present in gliomas and from which the tumor recurs. Another important aspect in the management of glial tumors is the histological grade. The appearance of new vessels (called neo-angiogenesis) is one of the crucial steps in the life of these tumors, which signifies the transition to anaplasia. This neoangiogenesis is diagnosed during the anatomopathological analysis of the operative specimen, and may be suspected on preoperative MRI on the so-called infusion sequences. The objective of this project is to evaluate the potential of two ultrasound modalities - elastography and ultrasensitive Doppler - in helping the surgical management of brain tumors. Ultrasound elastography measures cerebral elasticity and thus indirectly the degree of tumor infiltration; while ultrasensitive Doppler measures intratumoral vascularization, and could therefore help in the diagnosis of tumor anaplasia.
The purpose of this study is to evaluate whether 18F-fluciclovine PET/CT of the brain, is able to distinguish radiation necrosis from tumor progression in cases where MRI is inconclusive. 18F-fluciclovine is an FDA approved radioactive diagnostic agent and is injected into the participant and then taken up by cancer cells, which can then be visualized with a PET/CT scan. 18F-fluciclovine is FDA approved for the detection of recurrent prostate cancer, but is still investigational for the purposes of this study.
Immune checkpoint blockade therapies targeting the immunomodulatory effect of cytotoxic T-lymphocyte antigen (CTLA-4) and programmed cell death-1/ Programmed death-ligand 1 (PD-1/PD-L1) have recently demonstrated survival benefit and durable response in phase III trials in several human cancers, especially in tumors that bear high mutation load and/or tumor-associated neoantigen signatures. The aim of these treatments is to restore effector T-cell function and antitumor activity, which could be enhanced in the context of high mutational/neoantigen load. In Isocitrate DeHydrogenase mutated High Grade Gliomas (IDHm HGGs), acquired resistance to alkylating chemotherapy frequently results from the inactivation of mismatch-repair (MMR) proteins which in turn leads to the acquisition of a hypermutator phenotype. These findings suggest that at least in a subset of recurrent IDHm HGGs immune checkpoint blockade therapies may be particularly effective. IDHm HGGs most frequently occur in young adults. The first line treatment consists of maximal safe surgical resection followed by radiotherapy and adjuvant alkylating chemotherapy (Temozolomide or Procarbazine-CCNU-Vincristine regimen (PCV)). Despite these treatments, most IDHm HGGs recurred in few years. There is no standard of care at recurrence and the median overall survival after it is less than 3 years. The investigators make the hypothesis that treatment with the anti-PD-1 monoclonal antibody Nivolumab will improve 24 weeks progression-free survival in IDHm HGGs that have recurred after initial treatment with radiotherapy and alkylating chemotherapy.
This study is a prospective cohort study to find the incidence of re-craniotomy and predictive factors. The secondary outcomes are to find the incidence of major non-neurological complications and predictive factors.