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Find 123 clinical trials for brain cancer near Baltimore, Maryland. Connect with research centers in your area.
Showing 81-100 of 123 trials
NCT00874614
This clinical trial is designed to evaluate the effectiveness and collect additional safety information on AZEDRA® (iobenguane I 131) for the treatment of metastatic or relapsed/refractory (to other treatment) or unresectable pheochromocytoma or paraganglioma. The purpose of this trial is to test the use of AZEDRA® as a treatment for pheochromocytoma and paraganglioma, a rare disease. This Phase II study will help determine primarily if using the drug reduces the amount of blood pressure medication being taken as a result of the cancer and secondarily to determine such things as the effectiveness of the study drug in treating the cancer, additional safety measures, and to assess if the drug helps the quality of life and use of pain medication. All subjects will receive an imaging dose with scans followed by two therapeutic doses given approximately 3 months apart.
NCT00262730
RATIONALE: Radiation therapy uses high-energy x-rays to kill tumor cells. Drugs used in chemotherapy, such as temozolomide, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. Biological therapies, such as poly ICLC, may stimulate the immune system in different ways and stop tumor cells from growing. Giving poly ICLC after radiation therapy and temozolomide may stop any remaining tumor cells from growing. PURPOSE: This phase II trial is studying how well giving radiation therapy together with temozolomide followed by temozolomide and poly ICLC works in treating patients with newly diagnosed glioblastoma multiforme.
NCT00085098
RATIONALE: Radiation therapy uses high-energy x-rays to damage tumor cells. Drugs used in chemotherapy work in different ways to stop tumor cells from dividing so they stop growing or die. It is not yet known whether radiation therapy alone is as effective as chemotherapy plus radiation therapy in treating germ cell tumor. PURPOSE: This randomized phase III trial is studying radiation therapy alone to see how well it works compared to chemotherapy and radiation therapy in treating patients with newly diagnosed primary CNS germ cell tumor.
NCT00782626
The purpose of this research study is to learn if the study drug RAD001 can shrink or slow the growth of low-grade gliomas. Additionally, the safety of RAD001 will be studied. RAD001 is a drug that may act directly on tumor cells by inhibiting tumor cell growth and proliferation.
NCT02490930
A recent prospective multicenter study by Dr. Grossman demonstrated that 40% of patients with high grade glioma undergoing radiation and chemotherapy developed severe and persistent lymphopenia (CD4 counts \<200 cells/mm3). This lymphopenia lasted for twelve months following radiation treatment and on multivariate analysis was associated with shorter survival. Our group has data that strongly suggests that this lymphopenia is secondary to the inadvertent radiation of circulating lymphocytes as they pass through the radiation beam. Investigators propose the use of FDA approved for multiple sclerosis, fingolimod to signal lymphocytes to leave the circulation prior to the initiation of radiation. It is a functional antagonist of the sphingosine-1-phosphate receptor (S1PR) pathway and prevents lymphocyte egress from secondary lymphoid organs. Oral fingolimod will be given 1 week prior to the initiation of concurrent radiation and temozolomide and will be discontinued immediately upon completion of the six weeks of therapy. The primary objective is to evaluate if fingolimod can be safely combined with radiation and temozolomide. Secondary endpoint is total lymphocyte counts (TLC) for the proposed study participants. Investigators expect that patients receiving radiation and temozolomide plus fingolimod have a recovery of lymphocyte counts to 80% of baseline within four months, reference to historical control in which sustained lymphopenia lasted for twelve months.
NCT00540722
This phase II trial is studying how well gossypol works in treating patients with progressive or recurrent glioblastoma multiforme. Gossypol may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth.
NCT00916409
The study is a prospective, randomly controlled pivotal trial, designed to test the efficacy and safety of a medical device, the NovoTTF-100A, as an adjuvant to the best standard of care in the treatment of newly diagnosed GBM patients. The device is an experimental, portable, battery operated device for chronic administration of alternating electric fields (termed TTFields or TTF) to the region of the malignant tumor, by means of surface, insulated electrode arrays.
NCT00433381
This randomized phase II trial is studying the side effects and how well giving bevacizumab together with irinotecan or temozolomide works in treating patients with recurrent or refractory glioblastoma multiforme or gliosarcoma. Monoclonal antibodies, such as bevacizumab, can block tumor growth in different ways. Some block the ability of tumor cells to grow and spread. Others find tumor cells and help kill them or carry tumor-killing substances to them. Bevacizumab may also stop the growth of tumor cells by blocking blood flow to the tumor. Drugs used in chemotherapy, such as irinotecan and temozolomide, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. Giving bevacizumab together with irinotecan or temozolomide may kill more tumor cells.
NCT01158651
The purpose of this research study is to learn if the study drug RAD001 can shrink or slow the growth of low-grade gliomas in children with Neurofibromatosis type 1 (NF1). Additionally, the safety of RAD001 will be studied. The study drug, RAD001, is a drug that may act directly on tumor cells by preventing tumor cell growth and development. RAD001 has been studied in participants with various types of cancer as a single agent (a drug that is used alone to treat the cancer) or in combination with a number of well known anticancer therapies. Information from these research studies suggests that RAD001 may help to shrink or slow the growth of low-grade gliomas. In this research study, the investigators are looking to see the response of RAD001 in children with low-grade gliomas and NF1 that have either not responded to treatment or have come back after treatment. We are also looking for the highest dose of RAD001 that can be given safely in this patient population.
NCT01222780
Background: * Marqibo(Registered Trademark) is a new anticancer drug. It combines Vincristine sulfate, which is a widely used anticancer drug, and packages it into a tiny fat bubble known as a liposome. The goal of this is to improve the drug's ability to destroy cancer cells and help reduce the potential side effects of treatment. * Vincristine sulfate was originally developed from chemicals found in the periwinkle plant and acts against multiple types of malignant cancer. It is approved for multiple cancer types including solid tumors and blood cancers. * Research has shown that Marqibo(Registered Trademark) is able to slow or stop the growth of cancer cells in some adults, both alone and in combination with other chemotherapy drugs, but more research is needed to determine its use in children. * There has been one previous small study of Marqibo(Registered Trademark) in children. Although some anti-cancer activity was seen, side effects and optimal dosing were not fully determined. * As is seen with standard Vincristine suflate, the most common side effect of Marqibo(Registered Trademark) involves the nervous system. It can cause numbness and tingling in the hands and feet. Symptoms commonly improve when the drug is discontinued or the dose is lowered. Objectives: \- To determine the safety and efficacy of Marqibo as a treatment for children who have been diagnosed with certain types of malignant cancer that has not responded to standard treatment. Eligibility: * Children and adolescents between 2 and 21 years of age who have been diagnosed with certain types of malignant cancer that has not responded to standard treatment. * These cancer types include solids tumors, primary brain tumors, leukemias, and lymphomas.
NCT00009035
This study offers evaluation of patients with brain and spinal cord tumors. Its purpose is threefold: 1) to allow physicians in NIH s Neuro-Oncology Branch to increase their knowledge of the course of central nervous system tumors and identify areas that need further research; 2) to inform participants of new studies at the National Cancer Institute and other centers as they are developed; and 3) to provide patients consultation on possible treatment options. Children (at least 1 year old) and adults with primary malignant brain and spinal cord tumors may be eligible for this study. Participants will have a medical history, physical and neurological examinations and routine blood tests. They may also undergo one or more of the following procedures: * Magnetic resonance imaging (MRI) MRI is a diagnostic tool that uses a strong magnetic field and radio waves instead of X-rays to show detailed changes in brain structure and chemistry. For the procedure, the patient lies on a table in a narrow cylinder containing a magnetic field. A contrast material called gadolinium may be used (injected into a vein) to enhance the images. The procedure takes about an hour, and the patient can speak with a staff member via an intercom system at all times. * Computed axial tomography (CAT or CT) CT is a specialized form of X-ray imaging that produces 3-dimensional images of the brain in sections. The scanner is a ring device that surrounds the patient and contains a moveable X-ray source. The scan takes about 30 minutes and may be done with or without the use of a contrast dye. * Positron emission tomography (PET) PET is a diagnostic test that is based on differences in how cells take up and use glucose (sugar), one of the body s main fuels. The patient is given an injection of radioactive glucose. A special camera surrounding the patient detects the radiation emitted by the radioactive material and produces images that show how much glucose is being used by various tissues. Fast-growing cells, such as tumors, take up and use more glucose than normal cells do, and therefore, the scan might indicate the overall activity or aggressiveness of the tumor. The procedure takes about an hour. When all the tests are completed, the physician will discuss the results and potential treatment options with the patient. Follow-up will vary according to the individual. Some patients may end the study with just one visit to NIH, while others may be followed at NIH regularly, in conjunction with their local physicians. Patients with aggressive tumors may be seen every 3 or 4 months, while those with less active tumors may be seen every 6 to 12 months. Permission may be requested for telephone follow-up (with the patient or physician) of patients not seen regularly at NIH. ...
NCT00994071
Background: \- An experimental drug called ABT-888 has been studied in combination with temozolomide (a type of chemotherapy) in adults who have certain kinds of cancer. ABT-88 has been shown to increase tumor sensitivity to temozolomide and improve treatment outcomes in people who have cancer. More research is needed to determine if this combination of drugs will work well as an effective treatment for children who have brain tumors. This will be the first time this combination has been studied in pediatric patients. Objectives: * To determine the maximum doses of ABT-888 and temozolomide when given in combination in children with brain tumors. * To learn how children metabolize and clear ABT-888 from their bodies so that appropriate doses of this medication can be recommended for future clinical trials of this drug. * To learn what side effects may occur when ABT-888 and temozolomide are given together. * To learn how certain tumors respond to this combination of drugs by studying the characteristics of these tumors in a laboratory. Eligibility: \- Individuals less than 21 years of age who have been diagnosed with a cancer of the nervous system (including brain and brain stem tumors) that has not responded to standard therapy. Design: * Before beginning the study, participants will have a full medical history and physical examination, and may also be required to have scans of the brain and spine or provide samples of cerebrospinal fluid. * Treatment will consist of up to 13 28-day cycles of therapy, for a total of 52 weeks (1 year). Participants will receive a dose of ABT-888 twice daily for 5 days, and will receive a dose of temozolomide once daily for 5 days, every 28 days. The morning dose of ABT-888 will be given 60-90 minutes before the dose of temozolomide. * Participants will have routine blood tests at least once a week throughout the treatment cycles, and will have scans of the brain and spine performed as required by the researchers.
NCT00031538
This study will analyze tissue and blood samples from patients with gliomas (a type of brain tumor) to develop a new classification system for these tumors. Tumor classification can help guide treatment, in part by predicting how aggressive a tumor may be. Gliomas are currently classified according to their grade (how quickly they may grow) and the type of cells they are composed of. This system, however, is not always accurate, and sometimes two tumors that appear to be identical under the microscope will have very different growth patterns and responses to treatment. The new classification system is based on tumor genes and proteins, and may be used in the future to better predict a given tumor s behavior and response to therapy. Patients with evidence of a primary brain tumor and patients with a known glioma who will be undergoing surgery to remove the tumor may participate in this study. A sample of tumor tissue removed in the course of a participant s normal clinical care will be used in this study for laboratory analysis of genes and chromosome abnormalities. A small blood sample will also be collected for genetic analysis. In addition, clinical information on patients condition and response to treatment will be collected every 6 months over several years. This information will include findings from physical and neurologic examinations, radiographic findings, and response to therapy, including surgery, radiation and chemotherapy.
NCT02692898
Background: The number of people who get tumors of the brain or central nervous system (CNS) is lower than other cancers. But these tumors cause a higher rate of serious effects and even death. Researchers want to test existing samples of tissue from these tumors to learn more about them. This may lead to better treatment. Objective: To study stored samples of CNS tumors to learn more about the tumors and explore new ways to diagnose them. Eligibility: The study will use tissue samples already collected at NIH from people with brain or CNS tumors. Design: The participants will have given their consent in a previous study. Researchers will review the tissue samples and any data collected about them. Researchers will do lab tests and scans on the samples. All data will be kept secure.
NCT00045110
Phase I/II trial to study the effectiveness of erlotinib in treating patients who have recurrent malignant glioma or recurrent or progressive meningioma. Erlotinib may stop the growth of tumor cells by blocking the enzymes necessary for tumor cell growth.
NCT02049489
This study will evaluate a type of immunotherapy in which the patient's immune system will be stimulated to kill tumor cells. ICT-121 dendritic cell (DC)vaccine is made from patient's white blood cells. This vaccine will be tested in patients with recurrent glioblastoma to assess safety, tolerability and clinical response. Patient's white blood cells (WBC) will be collected from blood and cultured to yield autologous DC. The DC will be mixed with purified peptides from the CD133 antigen. The DC vaccine will be given back to the patient over several months. The goal is to stimulate the patient's immune system to CD133 to kill the patient's glioblastoma tumor cells.
NCT02961491
The purpose of this sub-study is to provide expanded access of AZEDRA (Ultratrace Iobenguane I 131) and to evaluate the safety and tolerability of AZEDRA in subjects with iobenguane-avid malignant and/or recurrent pheochromocytoma/paraganglioma (PPGL).
NCT02764151
This study will evaluate the safety and tolerability of increasing doses of PF-06840003 in patients with malignant gliomas.
NCT01220271
The purpose of this trial is to show proof of concept that by blocking the Transforming Growth Factor-beta signaling pathway in patients with Glioblastoma, there will be clinical benefit. Phase 1b: To determine the safe and tolerable dose of LY2157299 in combination with radiochemotherapy with temozolomide for Phase 2 in patients with glioma eligible to receive radiochemotherapy with temozolomide (e.g. newly diagnosed malignant glioma World Health Organization Grade III and IV). Phase 2a: To confirm the tolerability and evaluate the pharmacodynamic effect of LY2157299 in combination with standard radiochemotherapy in patients with newly diagnosed glioblastoma.
NCT01547546
This open-label, multicenter, Phase I, dose-escalating study will evaluate the safety and tolerability, pharmacokinetics, pharmacodynamics and efficacy of GDC-0084 in patients with progressive or recurrent high-grade glioma. Stage 1 is the dose escalation part of the study. Stage 2, patients will receive GDC-0084 at a recommended dose for future studies.
