View clinical trials related to Brain Neoplasms.
Filter by:Patients with brain metastases with expected life expectancy of 3-6 months are typically treated with radiotherapy to the whole brain giving a dose of 20 Gy over a 5 day period. This study will compare this with volumetric modulated arc therapy (VMAT) which is capable of delivering 15 Gy in one single session to identified disease within the brain but sparing the normal surrounding brain tissue. Primarily the study will assess whether it is possible to recruit sufficient patient numbers to a trial of this type. It will also compare effectiveness, side effects and quality of life between the two treatment methods.
In this dose-escalation study, the safety and tolerability of escalating dose levels of RRx-001 administered intravenously twice a week in subjects with brain metastases receiving whole brain radiation therapy (WBRT) will be assessed. Once a maximum tolerated dose is identified, further (up to approximately 30) participants will be recruited. The study will use MRI to monitor changes in tumor blood flow associated with RRx-001.
This research trial studies electronic medical record review in monitoring the effects of adherence on myelosuppression and morbidity in patients with newly diagnosed brain tumors receiving temozolomide and radiation therapy. Myelosuppression is a condition in which bone marrow activity is decreased, resulting in fewer red blood cells, white blood cells, and platelets and is a side effect of some cancer treatments. Morbidity is a term that refers to having a symptom of disease or medical problems caused by a treatment. Monitoring patients' electronic medical records to compare side effects, such as myelosuppression and morbidity, with treatment adherence may be a way to enhance patient care by organizing data for medical staff.
Potential subjects with progressive Grade II primary brain tumor that have IDH1 positive testing from the primary tumor (initial diagnosis) will be offered this treatment study in order to test the safety of the PEPIDH1M vaccine in combination with standard chemotherapy (temozolomide).
This pilot clinical trial studies fluorine F 18 fluorothymidine (FLT) positron emission tomography (PET)/computed tomography (CT) in measuring cell proliferation in patients with brain tumors. Comparing results of diagnostic procedures done before, during, and after treatment may help doctors measure tumor growth and plan the best treatment.
Phase 3 randomized open labeled trials will evaluate the 3 D navigable ultrasound (SonoWand) in improving the extent of resection in intra-axial brain tumors. All patients will undergo resective surgery. In the experimental arm, a navigable 3 D ultrasound will be used. In the standard arm, only navigation will be used. This study will help in assessing the usefulness sononavigation in improving radicality of resection in malignant gliomas and also to access the accuracy of SonoWand in predicting residue (histopathological correlation).
The purpose of this study is to evaluate whether sparing the hippocampi during whole brain radiotherapy following neurosurgery or stereotactic radiosurgery in patients with brain metastases from a systemic tumour helps preserve brain function.
This research will leverage novel pilot research conducted by the investigators to take important first steps in addressing neurocognitive late effects by intervening early, during treatment, with a promising computerized cognitive remediation program to prevent the downward trajectory of neurocognitive function experienced by pediatric brain tumor survivors. Specifically, we propose to test the feasibility, acceptability, and initial proof of concept of a neuroplasticity-based adaptive cognitive training program (Cogmed) to train working memory (WM) and attention in newly diagnosed youth with a brain tumor. Further, we will test the feasibility of using this intervention in a true prospective design beginning pre-surgery to examine the effects of this intervention in deflecting the downward trajectory of cognitive function in children with brain tumors during treatment. We will also use functional neuroimaging (near infrared spectroscopy - "NIRS") to examine the effects of this program on brain activation in frontal regions that are affected by treatment. Findings from this pilot study will inform the development of a large multi-site randomized efficacy trial to test an individualized cognitive training program. Aim 1. To test the feasibility and acceptability of enrolling youth (7 to 16 years-old) with newly diagnosed brain tumors at time of diagnosis, following patients for 10 weeks, delivering the Cogmed computer-based training program in a randomized trial at 10-weeks post-diagnosis, and following patients to 1 year post-diagnosis. Aim 2. To test the initial acceptability and efficacy of the Cogmed training program on cognitive function in newly diagnosed pediatric brain tumor patients.
Ipilimumab adds a clinical benefit to radiation therapy in patients with melanoma metastatic to the brain. Melanoma is the third most common cancer causing brain metastases, after cancers of the lung and breast, which appears to reflect the relative propensity of melanoma to metastasize to the central nervous system (CNS). Brain metastases are responsible for 20 to 54 percent of deaths in patients with melanoma, and among those with documented brain metastases, these lesions contribute to death in up to 95 percent of cases, with an estimated median overall survival ranging between 1.8 and 10.5 months, depending upon other prognostic factors. Ipilimumab is an anti-Cytotoxic T-Lymphocyte Antigen 4 (anti-CTLA4) monoclonal antibody that has demonstrated a clinically relevant and statistically significant improvement in overall survival, either alone (second line) or in combination with dacarbazine (DTIC) in 1st line. Ipilimumab has shown activity against brain metastases. According to the European Medicines Agency (EMA) approved label for Yervoy®, the use of glucocorticoids at baseline (commonly prescribed when brain metastases are diagnosed) should be avoided before the administration of ipilimumab. Data show that the use of even high doses of glucocorticoids for the management of immune-related adverse events do not decrease the efficacy of Yervoy®. There is no documented experience on the efficacy of Yervoy® when given concomitantly with radiation therapy and glucocorticoids. In experimental models, radiation therapy is synergistic to anti-Cytotoxic T-Lymphocyte Antigen 4 (anti-CTLA4) strategies (abscopal effect). There are no published results from clinical trials on the interaction between radiation therapy and ipilimumab.
Prognosis in patients with glioblastomas (the most aggressive high-grade glioma) remains unfavourable. Tools for improving brain tumor surgery, in particular for gliomas, are increasing. There seems to be an agreement that achieving extensive resections, when done safely without jeopardizing neurological function, improves survival. Ultrasound is currently used as a tool for providing 2D or 3D images for the purpose of tumor localization and resection control. For the use in resection control the resection cavity is filled with saline to provide acoustic coupling between the ultrasound transducer and tissue. However, attenuation of acoustic waves is very low in saline compared to the brain and this difference in attenuation is the cause of artifacts that may severely degrade the ultrasound images. Such artifacts are seen as high-intensity signal at the resection cavity wall and beyond, potentially masking small tumor remnants and generally making the interpretation of images more difficult. This research group has developed an acoustic fluid intended for use in the resection cavity instead of saline. Tests in laboratory measurements have shown that the fluid reduces artifacts and has the potential to enhance ultrasound image quality in brain tumor surgery. The investigators expect that the acoustic fluid will make it easier to detect small tumor remnants near the end of an operation, thus increasing success of glioma surgery. The purpose of this study is to test the fluid during surgery for histopathologically proven glioblastoma to assess safety and efficacy.