Clinical Applicantion of Multi-Tracer PET/MR Imaging in Neurological Disorders/Disease
Alzheimer DiseaseParkinson Disease2 moreThe goal of this clinical trial is to learn about the application of domestic PET/MR in major brain diseases. The main questions it aims to answer are: Overcome the bottleneck of early accurate diagnosis and treatment in major brain diseases clinical practice. Promote the clinical application of domestic PET/MR, enhance international competitiveness. Participants will have a PET/MR scan of the brain.
Longitudinal Prospective Study of Neurocognition & Neuroimaging in Primary BT Patients
Primary Brain TumorGlioma2 moreIn this proposal, the investigators introduce a novel, translational study to prospectively examine primary brain tumor patients undergoing fractionated radiation therapy to the brain. Quantitative neuroimaging, radiation dose information, and directed neurocognitive testing will be acquired through this study to improve understanding of cognitive changes associated with radiation dosage to non-targeted tissue, and will provide the basis for evidence-based cognitive- sparing brain radiotherapy.
Patient Perceptions Around Quality of Care Through Telemedicine in Neuro-Oncology
Central Nervous System NeoplasmLeptomeningeal Neoplasm2 moreThis study evaluates patient perceptions around quality of care through telemedicine in neuro-oncology. Studying questionnaires related to perceptions quality of care through telemedicine in patients with brain cancer may help doctors to improve the delivery of care through this modality.
ALA-induced PpIX Fluorescence During Brain Tumor Resection
Brain TumorsRemoving a tumor from a patients brain is hard to do because, very often, brain tumors do not have boundaries that are easy for the patients surgeon to find. In many cases, the surgeon can't tell exactly where the tumor begins or ends. The surgeon usually can remove most of the patient's tumor by looking at the MRI images that were taken of the patient's brain before surgery. However, the surgeon does not have any good way to tell if the entire tumor has been removed or not. Removing the entire tumor is very important because leaving tumor behind may allow it to grow back which could decrease the chances of survival.
18F-DOPA-PET in Planning Surgery in Patients With Gliomas
Malignant GliomaRecurrent Brain NeoplasmThis pilot clinical trial studies fluorine F 18 fluorodopa (18F-DOPA)-positron emission tomography (PET) in planning surgery in patients with gliomas. New imaging procedures, such as 18F-DOPA-PET scan, may help find gliomas and may help in planning surgery.
Neurobehavioral Outcomes and Quality of Life in Pediatric Patients With Brain or Head/Neck Tumors...
Brain TumorBackground: Neurobehavioral functions and quality of life (QoL) are the important outcome measurements after radiotherapy in patients with brain tumors and even head/neck cancers. However, few studies have focused on neurobehavioral functions and QoL after anti-cancer treatment particularly brain radiotherapy for pediatric/adolescent patients with brain tumors. This study thus aims to prospectively evaluate those functions in pediatric or adolescent patients with brain or head/neck tumors in order to provide useful information about their clinical outcomes. Methods: A total of 72 pediatric/adolescent patients, who are diagnosed with brain tumors or head/neck cancers, were prospectively recruited. Neurobehavioral functions will be evaluated using a neuropsychological battery, which includes general cognitive functions, intelligence, memory, executive functions, information processing and emotional/behavioral expressions. The QoL will be evaluated by the health-related QoL questionnaire. All participants will be examined at six phases, which include pre-treatment, 1-month post-treatment, 4-month post-treatment, 1-year post-treatment, 2-year post-treatment and 3-year post-treatment. Expected results: Patients'neurobehavioral functions and QoL will show significant improvement after treatment, and the improvement will not be diminished across each post-treatment phase.
FET-PET/MRI for Surgical Assessment of Pediatric Brain Tumors
Pediatric Brain TumorsThe primary objectives of this study are: Determine the percentage of patients whose surgical plan would change with FET-PET/MRI compared to MRI alone. Determine the percentage of patients who have residual tumor after surgery detected with FET-PET/MRI. A secondary objective of this study is: 1) Perform preliminary correlations between the pre- and post-surgical metabolic tumor volumes measured with FET-PET/MRI to progression free survival.
PET and MRI Imaging of Brain Tumors Using [18F]PARPi
Brain TumorBrain CancerThis study is to collect data about how 18FPARPi can be used together with PET/positron emission tomography and MRI/magnetic resonance imaging scans to take pictures of brain cancer
FLT-PET / MRI Brain Mets
Brain MetastasesRadionecrosisBrain 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.
Why Still in Neurosurgical Ward After Tumor Craniotomy?
Surgery--ComplicationsBrain TumorThe aim of this prospective observational study is to identify the specific reasons that prolong a hospital stay after elective tumor craniotomy. Optimal postoperative in-hospital stay is considered to be two days from surgery to discharge from the neurosurgical ward. However, a variable length of stay at a neurological department for follow-up of late recognized deficits of neurological consequences of the surgical procedure are common.