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Assessment of Early Post-operative Nuclear Imaging in Neurosurgery: a Safety and Feasibility Study in Patients Operated for Glioblastoma
Sponsor: Beta Emitting Accurate Monitored Systems
Summary
This clinical trial aims to evaluate the feasibility and safety of early post-operative brain PET-MRI imaging in adult patients who have undergone surgery for suspected glioblastoma. The study also seeks to validate specific nuclear imaging parameters for better detection of residual tumor tissue compared to standard gadolinium-enhanced MRI. The main objectives are to determine whether early PET-MRI within 48 hours post-surgery is feasible, to assess potential side effects related to imaging procedures, and to explore if PET parameters such as SUVmax, metabolic volume, and tumor-to-striatum ratio can improve the detection of tumor residue. A total of 15 patients will be included at a single site in France. Participants will undergo PET-MRI using 18F-DOPA and gadolinium, and will be monitored for radiation exposure and possible adverse events up to 24 hours after imaging.
Key Details
Gender
All
Age Range
18 Years - Any
Study Type
INTERVENTIONAL
Enrollment
15
Start Date
2026-01-01
Completion Date
2027-01-01
Last Updated
2025-12-10
Healthy Volunteers
No
Conditions
Interventions
Early post-operative brain PET-MRI with 18F-DOPA and Gadolinium
This intervention consists of a combined brain PET-MRI imaging session performed within 48 hours after surgical resection of a suspected glioblastoma. The PET scan uses 18F-DOPA as the radiotracer, administered intravenously at a dose of 2 MBq/kg, with static brain acquisition starting immediately post-injection. The MRI includes standard sequences and gadolinium-based contrast-enhanced imaging. The goal is to assess the feasibility and safety of this early post-operative imaging procedure, and to validate imaging parameters for the detection of residual tumor. Radiation dosimetry and potential adverse events related to imaging agents will be monitored.