View clinical trials related to Brain Neoplasms.
Filter by:This study will assess cognitive function in patients with a primary brain tumour treated with radiation therapy (RT) to generate radio-sensitivity and volume effect parameters for the development of cognitive dysfunction. All types of brain tumours apart from glioblastoma will be included.
Background: Distress, anxiety, and other psychological disorders may be more common in people with primary brain tumors (PBTs). PBTs can affect their symptoms, quality of life, and their tolerance of cancer treatments. Researchers want to learn if virtual reality (VR) technology can help reduce stress and improve mood. VR uses computer technology to make fake experiences and environments that look real. This allows people to escape from their lives and experience more positive thoughts and emotions. Objective: To learn if it is feasible to use a VR relaxation intervention in people with PBTs. Eligibility: Adults 18 and older who have a brain tumor and have recently reported psychological distress during their participation in the Natural History Study (NHS), protocol #16C0151 Design: The VR intervention and all patient-reported outcome measures (PROs) will be done remotely using telehealth. Participants will be mailed a VR headset. This headset looks like a thick pair of goggles that is worn over the eyes. Participants will view computer-generated environments on this VR headset. Participants will fill out symptoms questionnaires at 4 different times points during participation in this study, including questionnaires for the NHS as well as 4 questionnaires unique to this study. There are also optional saliva samples collected at these timepoints. The 4 timepoints are: - Before the VR intervention - After the VR intervention - 1 week later - 4 weeks later Participants will also have a phone interview 1 week after the initial VR interevention, which will last 10 to 15 minutes. Participation lasts 4 to 6 weeks.
To evaluate the efficacy and safety of Camrelizumab Combined with Chemotherapy and Local Treatment in non-small cell lung cancer with brain metastases.
Evaluate the diagnostic performance of a virtual reality application to detect the presence of cognitive impairment of the non-dominant hemisphere in patients with glioma
This phase II trial studies how well hypofractionated proton or photon radiation therapy works in treating patients with brain tumors. Hypofractionated radiation therapy delivers higher doses of radiation therapy over a shorter period of time and may kill more tumor cells. A shorter duration of radiation treatment may avoid some of the delayed side effects of radiation while providing a more convenient treatment and reducing costs.
This study compares the effectiveness and safety of two radiation treatment techniques for patients with multiple brain metastases.
Skull base tumors are a type of tumor that grow in the area of several skulls behind the cranial cavity. The incidence rate is 2 to 18 per 100,000 people per year; males and females are likely to have a proportional difference in the types of skull base tumors. Cerebellopontine angle (CPA) tumors are the most common neoplasms in the posterior skull base,accounting for 5-10% of skull base tumors.Some different kinds of tumors can grow in cerebellopontine angle. The tumors are more likely to cause some symptoms when they grow large enough to put pressure on the brain. A common traditional treatment for skull base tumors is neurosurgery-craniotomy. However, after the operation, brain may be injured with hematoma, and the instruments used are in contact with the brain. It is still inevitable that there will have complications of minor and major nerve damages, such as facial paralysis,trigeminal neuralgia, tinnitus, sports disorders (ataxia) and so on. Acupuncture has a unique effect on the treatment of the human nervous system. Aim of the study is used acupuncture to improve the complications of the surgery of Cerebellopontine angle tumors in skull base.
The purpose of this study is to test whether an additional magnetic resonance image (MRI) sequence can improve the ability to distinguish radiation damage from tumor recurrence in participants with brain metastasis who have previously been treated with stereotactic radiosurgery (SRS).
Brain metastasis (BrM) develops in approximately 40% of cancer patients. Stereotactic radiosurgery (SRS) is a form of radiotherapy that delivers high-dose per fraction to individual lesions that is commonly used to treat BrM. Radionecrosis (RN) is an adverse event that occurs in approximately 10 - 25% of patients 6 - 24 months after treatment with SRS. Tumour progression may also occur due to local failure of treatment. Radionecrosis and tumour progression share very similar clinical features including vomiting, nausea, and focal neurologic findings. Radionecrosis and tumour progression also share overlapping imaging characteristics. Due to their similarities, physicians need to perform a surgical resection to diagnose the complication. By using a hybrid FLT-PET/MRI scan, the investigators propose that this combination scan will provide robust data with which to differentiate between radionecrosis and tumour progression without the need for surgery. The investigators plan to conduct a single center feasibility study to investigate the potential in differentiating between SRS and tumour progression in patients who have previously undergone SRS for BrM who are suspected to have either RN or tumour progression using hybrid FLT-PET/MRI imaging.
High field MR-technologies are expected to boost metabolic spectroscopic imaging (MRSI), but also CEST-MRI. This is due to the fact that increased SNR is available which can be used to increase the spatial resolution of all sequences, or reduction of measurement times. Recent findings has shown that MRSI can be used to evaluate the isocitrate dehydrogenase (IDH) status of gliomas, a brain tumor type which is most often diagnosed in humans. Patients with IDH-mutated gliomas have a much longer survival time that IDH-wildtype. In IDH-mutated gliomas the substance 2-hydroxy-glutarate (2HG) is found, whereas in IDH-wildtype gliomas it is not. The underlying trial aims to measure 2HG directly with different MRSI sequences at 3 Tesla (3T) and 7 Tesla (7T) magnetic field strength. Apart from MRSI-techniques for IDH-typing it has been shown that CEST-imaging can also be performed to determine the IDH-status of gliomas. A total of 75 patients and 50 healthy controls will be examined in this study to evaluate the most accurate method for pre-operative IDH-status determination.