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Find 123 clinical trials for brain cancer near Maryland. Connect with research centers in your area.
Showing 61-80 of 123 trials
NCT03538587
Background: People cope with cancer in different ways. Mindfulness means focusing on the present moment with an open mind. Researchers want to see if this can help children and young adults with a high-grade high-risk cancer with poor prognosis. Objective: To learn if mindfulness is feasible and acceptable for children and young people with high-grade high-risk cancer with poor prognosis and their caregivers. Eligibility: Children ages 5-24 with a high-grade or high-risk cancer, with a caregiver who agrees to do the study Must have internet access (participants may borrow an iPod for the study) Must speak English Design: All participants will complete questionnaires. These will be about feelings, physical well-being, quality of life, and mindfulness. Researchers will review children's medical records. Participants will be randomly put in the mindfulness group or the standard care group. Participants in the standard care group will: Get general recommendations for coping with cancer Have check-in sessions 1 and 3 weeks after starting. These will last about 10 minutes each. After participants finish the standard care group, they may be able to enroll in the mindfulness group. Participants in the mindfulness group will: Attend an in-person mindfulness training session. The child participant will meet with one research team member for 90 minutes while the parent participant meets with another. Then they will come together for a half hour. Practice mindfulness exercises at least 4 days a week for 8 weeks. Be asked to respond to weekly emails or texts asking about their mindfulness practice Get a mindfulness kit with things to help them do their mindfulness activities at home. Have a 30-minute check-in with their coach 1 and 3 weeks after starting. This can be in person or by video chat. All participants (from both groups) will be asked to answer follow-up questions about 8 and 16 weeks after starting the study. Participants will be paid $20 for each set of questionnaires they complete to thank them for their time. ...
NCT02311920
This phase I trial studies the safety and best dose of ipilimumab, nivolumab, or both in combination with temozolomide in treating patients with newly diagnosed glioblastoma or gliosarcoma. Monoclonal antibodies, such as ipilimumab and nivolumab, may block tumor growth in different ways by targeting certain cells. Drugs used in chemotherapy, such as temozolomide, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. It is not yet known which combination is a better treatment for glioblastoma or gliosarcoma.
NCT01222754
Background: \- Children who are diagnosed with brain tumors known as high grade gliomas or diffuse intrinsic pontine gliomas are generally treated with radiation therapy and chemotherapy. However, these tumors are very difficult to cure, and the tumor frequently begins to grow again even after treatment or surgery. Researchers are interested in determining whether the anticancer drug lenalidomide, which has been used to treat other aggressive types of cancer, is a safe and effective additional treatment for children who are scheduled to receive radiation therapy to treat high grade gliomas or diffuse intrinsic pontine gliomas. Objectives: \- To determine the safety and effectiveness of lenalidomide, in conjunction with radiation therapy, as a treatment for children who have been diagnosed with high grade gliomas or diffuse intrinsic pontine gliomas. Eligibility: \- Children and adolescents up to 21 years of age who have been diagnosed with high grade gliomas or diffuse intrinsic pontine gliomas and have not had radiotherapy or chemotherapy. Design: * Participants will be screened with a medical history, physical examination, blood and urine tests, and imaging studies. * Participants will have two phases of treatment: a lenalidomide plus radiation phase and a lenalidomide-only phase. * During the radiation phase, participants will take lenalidomide daily and have 6 weeks of radiation therapy (five treatments per week). After the radiation therapy, participants will stop taking lenalidomide for 2 weeks before continuing to the next phase. * During the lenalidomide-only phase, participants will take lenalidomide daily for 21 days, followed by 7 days without lenalidomide (28-day cycle of treatment). Participants will have up to 24 cycles of lenalidomide. * Participants will have frequent blood tests during the first cycle of treatment, and will have imaging studies or other tests as required by the study researchers. * Treatment will continue until the disease progresses, the participant chooses to leave the study, or the researchers end the study.
NCT01189266
This phase I/II trial studies the side effects and best dose of vorinostat and to see how well it works when given together with radiation therapy followed by maintenance therapy with vorinostat in treating younger patients with newly diagnosed diffuse intrinsic pontine glioma (a brainstem tumor). Vorinostat may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Radiation therapy uses high-energy x-rays to kill tumor cells. Giving vorinostat together with radiation therapy may kill more tumor cells.
NCT04895553
Glioma patients with history of venous thromboembolism (VTE) treated on low molecular weight heparin (LMWH) and who decided with their physician to convert to Apixaban (oral drug) will be enrolled into our study and will collect data regarding recurrent VTE and Intracranial hemorrhage and the incidence of these events.
NCT01062425
This randomized phase II trial studies temozolomide, radiation therapy, and cediranib maleate to see how well they work compared with temozolomide, radiation therapy, and a placebo in treating patients with newly diagnosed glioblastoma (a type of brain tumor). 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. Radiation therapy uses high energy x-rays to kill tumor cells. Cediranib maleate may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth and by blocking blood flow to the tumor. It is not yet known whether temozolomide and radiation therapy are more effective when given with or without cediranib maleate in treating glioblastoma.
NCT02644291
This is a safety (Phase 1) trial using mebendazole for recurrent pediatric brain cancers that include medulloblastoma and high grade glioma, that are no longing responding to standard therapies. The drug mebendazole is an oral drug in a chewable 500 mg orange flavored tablet. It is already approved to treat parasitic infections. The purpose of this study is to determine the safety and side effects for increasing doses of mebendazole, followed by the treatment of an additional 12 patients at the best tolerated dose.
NCT02709889
The primary objective of this study is to assess the safety and tolerability of rovalpituzumab tesirine in subjects with specific delta-like protein 3-expressing advanced solid tumors.
NCT01730950
This randomized phase II trial studies how well bevacizumab with or without radiation therapy works in treating patients with recurrent glioblastoma. 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 cancer-killing substances to them. Specialized radiation therapy that delivers a high dose of radiation directly to the tumor may kill more tumor cells and cause less damage to normal tissue. It is not yet know whether bevacizumab is more effective with or without radiation therapy in treating patients with recurrent glioblastoma
NCT01590680
Protocol JDI2007-01 is an Expanded Access Protocol with therapeutic 131I-MIBG for patients with neuroblastoma or pheochromocytoma / paraganglioma, who otherwise do not qualify for available treatments, or where approved treatment is not commercially available.
NCT02858895
This is a single-arm, open-label, multicenter study in approximately 52 adults with primary (de novo) GB that has recurred or progressed (first or second recurrence, including this recurrence) after treatment(s) including surgery and radiotherapy with or without chemotherapy and following discontinuation of any previous standard or investigational lines of therapy.
NCT00031083
In this study an investigational replication-defective, recombinant adenovirus expressing the interferon-beta gene (BG00001) will be directly injected into tumors, in patients with recurrent Grade III and Grade IV Gliomas, in order to deliver the hIFN-beta gene. The purpose of the study is to evaluate the safety and any harmful effects of injection of BG00001 into brain tumors. Also, this study will help determine whether the virus carrying the beta interferon gene will enter brain tumor cells and cause the cancer cells to die. This study will require one hospital admission for the actual procedure of drug administration. All other visits will be conducted on an out-patient basis
NCT03400917
This is a single-arm, open-label phase II clinical trial in which approximately 55 patients with newly diagnosed glioblastoma (GBM) will be enrolled with the intent to receive an autologous dendritic cell vaccine consisting of autologous dendritic cells loaded with autologous tumor-associated antigens (AV-GBM-1).
NCT01723020
First in human, open-label, sequential dose escalation and expansion study of AMG 232 in subjects with advanced solid tumors or multiple myeloma
NCT02844439
This is a multicenter, Phase 2 study to assess the activity of tesevatinib in patients with recurrent glioblastoma.
NCT03419403
The objective of this study was to evaluate the effect of several ophthalmologic prophylactic treatment strategies for the management of ocular side effects (OSEs) in participants with epidermal growth factor receptor (EGFR)-amplified glioblastoma (GBM) who were being treated with depatuxizumab mafodotin (ABT-414).
NCT00418899
The goal of this research study is to investigate the role of genes that may point to a higher risk of developing a glioma. Researchers will use new gene mapping techniques to study how high-risk factors are passed on through a family's genes and increase the risk of developing gliomas. Objectives: We propose an international multi-center, multidisciplinary study consortium, GLIOGENE, to identify susceptibility genes in high-risk familial brain tumor pedigrees using the most sophisticated genetic analysis methods available. To address our hypothesis, we propose the following specific aims: Aim 1: Establish a cohort of 400 high-risk pedigrees for genetic linkage analysis. To date, we have identified and collected biologic samples from 20 high-risk families that have met our criteria of 2 or more relatives diagnosed with a brain tumor. From the 15 centers in the United States and Europe, we will screen and obtain epidemiologic data from approximately 17,080 gliomas cases to identify a target of 400 families for genetic analysis. We will establish a cohort of the first and second-degree relatives from these glioma cases to obtain new knowledge about how cancer aggregates in glioma families. We will also acquire biospecimens (blood and tumor tissue), and risk factor data from relevant family members. Aim 2: Identify candidate regions linked to familial brain tumors. To strengthen evidence of linkage to regions found in our preliminary analysis and to identify additional regions linked to brain tumors, we will genotype informative glioma pedigrees identified in aim 1 using Affymetrix 10K GeneChip with markers spaced throughout the genome, and conduct a genome-wide multipoint linkage scan with these markers. Aim 3: Fine map the regions established in Aim 2 by genotyping selected SNPs from genome databases. We will attempt to further refine the regions identified in Aim 2 to less than 1cM by using approximately 1,500 - 2,000 carefully selected SNPs. The prioritization of regions will be based on a combination of the strength of evidence for linkage from families of various ethnic backgrounds and the presence of obvious candidate genes.
NCT00369785
RATIONALE: Donepezil may help lessen confusion and fatigue and improve mood and quality of life in patients who have undergone radiation therapy for brain tumors. It is not yet known whether donepezil is more effective than a placebo in lessening side effects of radiation therapy in patients with brain tumors. PURPOSE: This randomized phase III trial is studying donepezil to see how well it works in lessening side effects of radiation therapy compared with a placebo in patients who have undergone radiation therapy for brain tumors.
NCT01260506
The purpose of this study is to evaluate the safety, tolerability and efficacy of VB-111 in patients with Relapsed Glioblastoma Multiforme.
NCT04730349
The purpose of this study is to first, in Part A, assess the safety, tolerability and drug levels of Bempegaldesleukin (BEMPEG) in combination with nivolumab and then, in Part B, to estimate the preliminary efficacy in children, adolescents and young adults with recurrent or treatment-resistant cancer.
