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Browse 1,242 clinical trials for brain cancer. Find studies that match your criteria and connect with research centers.
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NCT06556563
This is a multicenter, two-arm, randomized, double-blind, placebo-controlled study of Optune® (Tumor Treating Fields at 200 kHz) together with maintenance Temozolomide (TMZ) chemotherapy agent and pembrolizumab compared to Optune® together with maintenance TMZ and placebo in newly diagnosed Glioblastoma (GBM) patients. The primary objective of the study is to evaluate the Overall Survival (OS).
NCT07100730
This global clinical trial which evaluates the efficacy and safety of TLX101-Tx, an investigational radiopharmaceutical therapy, in combination with lomustine versus lomustine alone in adult patients with first recurrence of glioblastoma. TLX101-Tx delivers targeted radiation to glioblastoma cells. The trial is conducted in two parts: Part 1 assesses safety and radiation dosing; Part 2 is a randomized comparison of the combination therapy against standard care.
NCT03257618
Studying QoL in patients DLGG receiving TMZ is complex because of the multiples interactions between tumor characteristics, neurocognitive functioning, treatments, environment and psychopathological context in which these patients experience symptoms. It is, however, important to accurately evaluate these aspects in consideration of the young age, generally preserved QoL at the time of diagnosis, possible implications of the disease on the professional (DLGG patients are often still active), social and familial domain, and relatively long survival of these patients. In the absence of a curative treatment for DLGG, preserving patients' QoL is indeed a major goal.
NCT06914479
This phase I trial tests the safety, side effects and best dose of AdV-HSV1-TK and AdV-Flt3L in combination with valacyclovir for the treatment of patients with primary cancerous (malignant) brain tumors that can be removed by surgery (resectable) and that have come back after a period of improvement (recurrent). AdV-HSV1-TK and AdV-Flt3L use a virus modified in the laboratory to kill tumor cells and stimulate the immune system to recognize the tumor cells as "invaders" which can lead to tumor shrinkage. For this process to work, an oral anti-herpes medication called valacyclovir is also needed. Giving AdV-HSV1-TK, AdV-Flt3L and valacyclovir may be safe, tolerable and/or effective in treating patients with resectable, recurrent primary malignant brain tumors.
NCT02851706
Background: Brain and spinal cord tumors are uncommon. But they contribute substantially to cancer deaths in the U.S. in children and adults. Little progress has been made in treating brain tumors. Researchers want to learn more about these tumors by studying people who have them. Objectives: To understand brain and spinal cord tumors better and uncover areas for further research. Also, to connect people with these tumors to doctors who can help them manage their illness and give them new treatment options. Design: Participants will have an initial (baseline) visit. They will have their medical history taken and undergo physical and neurological exams. They will have blood tests. They may have scans (imaging studies) of the nervous system. If participants have urine or cerebrospinal fluid collected during their regular care, researchers may save some. Brain tumor tissue from a prior surgery may be studied. Genomic DNA testing will be done on samples. Results will be linked to participants medical and/or family history. The number of study visits at NIH will depend on the wishes of participants and their local doctors. Participants will take a brain tumor survey on a computer. They can take it all at once or in 6 separate sections. Participants will answer questions about their general well-being. They will answer questions to learn if they have symptoms of depression or anxiety. Physicians will discuss test results with participants. They will recommend management and treatment options.
NCT04752280
Radiation therapy is an integral part of the multimodal primary therapy of glioblastomas. As the overall prognosis in this tumor entity remains unfavorable, current research is focused on additional drug therapies, which are often accompanied by increases in toxicity. By using proton beams instead of photon beams, it is possible to protect large parts of the brain which are not affected by the tumor more effectively. An initial retrospective matched-pair analysis showed that this theoretical physical benefit is also clinically associated with a reduction in toxicity during therapy and in the first few months thereafter. The aim of the GRIPS study is to prospectively test this clinical benefit in a randomized, open-label Phase III study. Patients are treated in the study using either modern photon radiation techniques (standard arm) or proton beams (experimental arm). The primary endpoint is the cumulative toxicity CTC grade 2 and higher in the first 4 months. Secondary endpoints include overall survival, progression-free survival, quality of life, and neurocognition.
NCT05182905
This is an open-label, single-center Phase 0/1b study that will enroll at least 27 participants with recurrent WHO Grade 4 Glioma requiring re-radiation and approximately 35 participants with newly-diagnosed WHO Grade 4 glioma (nGBM). The trial will be composed of a Phase 0 component (subdivided into Arms A - C), and an expansion Phase 1b. Patients with tumors demonstrating a positive PK response in the Phase 0 component of the study will be eligible to graduate to an expansion phase that combines therapeutic dosing of AZD1390 plus standard-of-care fractionated radiotherapy (RT).
NCT05188508
This study will test the safety and effectiveness of a combination of pembrolizumab, olaparib, and temozolomide to see how well these drugs work when given together in people with a glioma that either did not respond to previous treatment or came back after treatment.
NCT04373720
This trial uses magnetic resonance elastography (MRE) to estimate tissue stiffness (hardness or softness of the tissue) in tissue that is affected by radiation treatment (radiation necrosis) and tumor tissue that has come back (recurrent) after treatment in patients with gliomas. Diagnostic procedures, such as MRE, may estimate the differences in tissue stiffness between radiation necrosis and recurrent glioma post treatment and ultimately lead to a more accurate diagnosis and/or surgery, and/or a better assessment of the disease's response to treatment.
NCT07450872
Advances in medical care have significantly improved survival among children with cancer. In China, the 5-year survival rate has reached 71.9%. Despite these improvements, many survivors continue to experience multiple co-occurring symptoms, such as fatigue, pain, sleep disturbance, and depression, which may adversely affect their quality of life. These symptoms often occur together as symptom clusters and may reflect shared underlying biological mechanisms. This study aims to characterize symptom clusters among childhood cancer survivors and to explore their potential biological basis. Participants will complete questionnaire assessments at multiple time points to evaluate symptom patterns and changes over time. In addition, stool samples will be collected to analyze gut microbiota composition and metabolite profiles. The study will examine the associations between symptom clusters and gut microbiota-metabolite features. Findings from this study are expected to improve understanding of symptom burden in childhood cancer survivors and to provide evidence for the development of targeted symptom management strategies.
NCT04978727
Patients will receive a vaccine called SurVaxM on this study. While vaccines are usually thought of as ways to prevent diseases, vaccines can also be used to treat cancer. SurVaxM is designed to tell the body's immune system to look for tumor cells that express a protein called survivin and destroy them. The survivin protein can be found on up to 95% of glioblastomas and other types of cancer but is not found in normal cells. If the body's immune system knows to destroy cells that express survivin, it may help to control tumor growth and recurrence. SurVaxM will be mixed with Montanide ISA 51 before it is given. Montanide ISA 51 is an ingredient that helps create a stronger immune response in people, which helps the vaccine work better. This study has two phases: Priming and Maintenance. During the Priming Phase, patients will get one dose of SurVaxM combined with Montanide ISA 51 through a subcutaneous injection (a shot under the skin) at the start of the study and every 2 weeks for 6 weeks (for a total of 4 doses). At the same time that patients get the SurVaxM/Montanide ISA 51 injection, they will also get a second subcutaneous injection of a medicine called sargramostim. Sargramostim is given close to the SurVaxM//Montanide ISA 51 injection and works to stimulate the immune system to help the SurVaxM/Montanide ISA 51 work more effectively. If a patient completes the Priming Phase without severe side effects and his or her disease stays the same or improves, he or she can continue to the Maintenance Phase. During the Maintenance Phase, the patient will get a SurVaxM/Montanide ISA 51 dose along with a sargramostim dose about every 8 weeks for up to two years. After a patient finishes the study treatment, the doctor and study team will continue to follow his/her condition and watch for side effects up to 3 years following the last dose of SurVaxM/Montanide ISA 51. Patients will be seen in clinic every 3 months during the follow-up period.
NCT04661384
This phase I trial investigates the side effects of brain tumor-specific immune cells (IL13Ralpha2-CAR T cells) in treating patients with leptomeningeal disease from glioblastoma, ependymoma, or medulloblastoma. Immune cells are part of the immune system and help the body fight infections and other diseases. Immune cells can be engineered to destroy brain tumor cells in the laboratory. IL13Ralpha2-CAR T cells is brain tumor specific and can enter and express its genes in immune cells. Giving IL13Ralpha2-CAR T cells may better recognize and destroy brain tumor cells in patients with leptomeningeal disease from glioblastoma, ependymoma or medulloblastoma.
NCT05431348
Glioblastoma (GBM) is a highly malignant, incurable primary brain tumor. Due to the nature of this disease and the extent of the treatment (surgery followed by chemoradiation according to the Stupp trial) patients undergo considerable psychological distress. It is known that stress hormones are involved in a wide range of processes involved in cell survival, cell cycle and immune function, and can cause therapy resistance. In this study the effect of stress on outcome after chemoradiation in patients with GBM will be investigated.
NCT06404034
The objective of this program is to provide GaM for compassionate use in patients with relapsed/refractory histologic or molecular glioblastoma who have exhausted available treatments. The population of this program is adult patients aged greater than or equal to 18 years with a diagnosis of relapsed/refractory histologic or molecular glioblastoma, according to the WHO 2021 diagnostic criteria. Molecular glioblastoma is characterized as an IDH-wildtype diffuse and astrocytic glioma in adults if there is microvascular proliferation or necrosis or TERT promoter mutation or EGFR gene amplification or +7/-10 chromosome copy number changes
NCT04908709
This trial studies how well spectroscopic magnetic resonance imaging (MRI) guided proton therapy works in assessing metabolic change in pediatric patients with brain tumors. The non-invasive imaging, such as spectroscopic MRI may help to map the differences in tumor metabolism compared to healthy tissue without injection of any contrast agent.
NCT07448480
GLIOTARG trial is a large single-center observational cohort study designed to investigate chemotherapy and targeted therapy outcomes in recurrent malignant gliomas. The study includes patients with molecularly confirmed diagnoses according to the World Health Organization (WHO) 2021 classification of Central Nervous System (CNS) tumors: glioblastomas (IDH-wildtype, WHO grade 4), astrocytomas (IDH-mutant, WHO grade 3-4), and pleomorphic xanthoastrocytomas (WHO grade 2-3).
NCT05607407
The purpose of this study is to test the effectiveness, safety, and tolerability of a drug called Methimazole. The investigational drug, Methimazole is not FDA approved for brain tumors, but it is used to treat thyroid illnesses. Different doses of Methimazole will be given to several study participants with glioblastoma. The first several study participants will receive the lowest dose. If the drug does not cause serious side effects, it will be given to other study participants at a higher dose. The doses will continue to increase for every group of study participants until the side effects occur that require the dose to be lowered. The procedures in this study are research blood draws, physical exams, collection of medical history, MRI scans, and study drug administration.
NCT07186556
The goal of this research study is to learn about the effects of the RISE-YA intervention on cancer-related fatigue in young adults who are brain cancer survivors.
NCT06546631
A medication called temozolomide has been used for many years in the treatment of high-grade gliomas, which are tumours that originate in the brain. While this drug is the normal treatment for high-grade glioma, a number of patients develop a side-effect which results in low levels of some important blood cells, such as platelets or white blood cells. If this side-effect occurs, treatment with temozolomide may have to be stopped or paused, which may affect how well this treatment works. At present, it is unknown why some patients develop this side effect and others do not. It is known that patients with a higher concentration of temozolomide in their blood are at an increased risk of developing this toxicity. There may be some factors associated with the movement of the drug in the body or the removal of the drug from the body which may affect the concentration of temozolomide in blood. There are many factors which may be involved, including genes, other medicines that are taken, how well kidneys and liver are working or even the microbiome (which is the bacteria in the gut). This study is being done to find out what these factors could be. In the future, this may lead to medical care teams being able to predict which patients are at higher risk of side-effects, allowing them to implement measures to reduce the risk of this occurring.
NCT02658279
The purpose of this study is to test if the study drug called pembrolizumab could control the growth or shrink the cancer but it could also cause side effects. Researchers hope to learn if the study drug will shrink the cancer by half, or prevent it from growing for at least 6 months. Pembrolizumab is an antibody that targets the immune system and activates it to stop cancer growth and/or kill cancer cells.
