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P17.10.B VOLUMETRIC DIFFERENCES IN TARGET DEFINITON OF RECURRENT HIGH-GRADE GLIOMAS USING CONTRAST ENHANCED MRI VS.[18F] FDOPA PET IN RADIOSURGICAL PLANNING

Abstract BACKGROUND Radiosurgical treatment of high-grade gliomas usually bases target definition on contrast-enhanced T1-weighted MRI images. Despite advances in several MRI techniques, a number of limitations exist, primarily due to the disruption of the blood-brain barrier, making the target deli...

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Published in:Neuro-oncology (Charlottesville, Va.) Va.), 2023-09, Vol.25 (Supplement_2), p.ii119-ii119
Main Authors: Obad, N, Tveiten, Ø, Biermann, M, Brekke, J
Format: Article
Language:English
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Summary:Abstract BACKGROUND Radiosurgical treatment of high-grade gliomas usually bases target definition on contrast-enhanced T1-weighted MRI images. Despite advances in several MRI techniques, a number of limitations exist, primarily due to the disruption of the blood-brain barrier, making the target delineation less accurate, particularly when treating recurrences. Several studies support the use of amino acid PET/MRI in distinguishing progression from post-operative/post-radiation inflammation. However, no established guidelines define the biological target volume when using amino acid PET/MRI in radiosurgical treatment planning. We aimed to explore the volumetric differences in target volumes obtained with standard contrast-enhanced MRI versus [18F]FDOPA PET in patients with recurrent high-grade gliomas (rHGG). MATERIAL AND METHODS Ten patients obtained [18F]FDOPA PET/MRI within 1 week before radiosurgical treatment. We co-registered these images with the 3D MPRAGE-MRI typically used for stereotactic target definition and performed a follow-up PET/MRI scan 4-6 weeks after treatment. We reviewed and compared the method of tumor delineation, target volumes, and stereotactic accuracy in both modalities. RESULTS Radiosurgical treatment delivers high radiation doses to defined targets. The target volume and the proximity to eloquent structures limit the dose, thus depending on high-accuracy imaging. The invasive nature of malignant brain tumors makes anatomical delineation insufficient, particularly when treating recurrences. In such cases, amino acid PET supplies additional information. However, the spatial resolution afforded by [18F]FDOPA uptake alone is insufficient for stereotactic definition, which to a large degree is based on contrast-enhanced T1-weighted MRI images in order to achieve the sub-millimeter resolution needed for radiosurgical planning. Hybrid PET/MRI allows the combination of metabolic information of [18F]FDOPA-PET with the anatomical precision of stereotactic MRI. In the recurrent setting, [18F]FDOPA-PET supplies the necessary information for targeting the biologically active tumour, differentiating it from radiation necrosis, thus limiting the target volumes. This enables us to treat the recurrent tumours more efficiently. CONCLUSION [18F]FDOPA-PET is a useful supplement in radiosurgical planning and treatment of rHGG. It is helpful in the delineation of the biologically active tumor, thus limiting the target volume significantly. This enab
ISSN:1522-8517
1523-5866
DOI:10.1093/neuonc/noad137.400