[18F] FACBC and [18F] FLT PET Imaging in Central Nervous System Tumors
Brain CancerGliomasThe purpose of this study is to help us understand gliomas, one type of brain tumor. This research protocol makes pictures of gliomas. We will take pictures of the glioma before and after treatment. The pictures are made with a positron emission tomography (PET) scanner. PET scans use radioactive markers to "see" cancer cells. We plan to use two different radioactive markers, [18F]FACBC and [18F]FLT, to "see" if the glioma responds to the treatment being recommended by the doctor. We are investigating whether one or both of these types of PET scans can help us to better understand gliomas and their response to treatment. We expect these pictures will give us information the your tumor and may help us to understand why the treatment that the patient is receiving is affecting the tumor the way that it is. We also hope to collect information about the amount of radioactivity exposure. We will measure radioactivity exposure to the tumor, brain and other organs.
Radiotherapy for Malignant Astrocytomas in the Elderly
Primary Brain TumorAnaplastic Astrocytoma1 moreA randomized trial comparing radiotherapy with supportive care in patients aged 70 years or older with newly diagnosed, histologically confirmed anaplastic astrocytoma or glioblastoma, and a Karnofsky performance status > 70.
Stereotactic Radiotherapy Plus Temozolomide for Refractory Brain Metastases
Brain MetastasesThis clinical trial was designed to investigate the efficiency and toxicity of fractionated stereotactic radiotherapy(FSRT) combined with Temozolomide(TMZ) for refractory brain metastases.
Tumor Bed Hypofractionated IMRT After Surgery for Patients With Single,Large Brain Metastases From...
Brain MetastasesInvestigators designed a study of a multimodality approach: surgery followed by hypofractionated intensity modulated radiation therapy (IMRT) using VMAT approach for patients with single, large brain metastases from solid primary tumor
Patients With Brain Metastases From HER2-positive Breast Cancer
HER2-positive Breast CancerThe purpose of this study is to determine the optimal sequences of combined trastuzumab emtansine (T-DM1) and whole-brain radiotherapy in patients presenting brain metastases from HER2-positive breast cancer in terms of acute toxicities and blood/cerebrospinal fluid T-DM1 pharmacokinetics.
Safety and Tolerability Study of 131I-TM-601 to Treat Adult Patients With Recurrent Glioma.
GliomaBrain NeoplasmThis drug is being developed to treat a type of brain cancer, glioma. This study was designed to determine a safe and well tolerated dose. Patients must have had prior treatment for their glioma and be eligible for removal of their recurring tumor.
Phase II Study of Carmustine, Streptozocin, and Mercaptopurine for Refractory or Recurrent Brain...
Anaplastic AstrocytomaAnaplastic Oligodendroglioma3 moreOBJECTIVES: I. Assess the clinical response of patients with refractory or recurrent brain neoplasms treated with carmustine, streptozocin, and mercaptopurine.
Study of Neurologic Progression With Motexafin Gadolinium and Radiation Therapy (SMART)
Brain NeoplasmsCarcinoma3 moreThe primary purpose of the study is to determine if patients with brain metastases from non-small cell lung cancer treated with Motexafin Gadolinium and whole brain radiation therapy retain their neurologic function and ability to think for a longer time compared to patients treated with whole brain radiation therapy alone.
Corticosteroids + Bevacizumab vs. Corticosteroids + Placebo (BEST) for Radionecrosis After Radiosurgery...
RadionecrosisBrain MetastasesThis randomized phase II study aims to investigate whether the addition of bevacizumab to standard corticosteroid therapy results in greater improvement in symptoms and less treatment-induced symptoms compared with standard corticosteroid therapy for patients with symptomatic brain radionecrosis following radiosurgery. It is hypothesized that the addition of bevacizumab to standard care corticosteroids will reduce treatment-induced toxicities and improve neurologic impairments in patients with brain radionecrosis following radiosurgery for brain metastases.
Quantifying Oxygen Utilization of Tumors Using Oxygen-Enhanced Molecular MRI
Malignant Brain NeoplasmThis trial looks to study the safety and feasibility of using oxygen-enhanced molecular MRI to understand how cancer cells use oxygen differently than normal cells. Cancer cells tend to utilize (or not utilize) oxygen differently than normal cells. By using the oxygen-enhanced molecular MRI, researchers will be able to create spatial "maps" depicting areas of abnormal oxygen utilization unique to cancer. This type of information may be useful for diagnosing new cancers, understanding various "subtypes" of cancer that might utilize oxygen differently, or this information may be useful for evaluating new drugs that impact cancer metabolism.