AI Article Synopsis
- Pediatric brain tumors are the second most common tumors after leukemia, with an incidence of 6.13 per 100,000 annually.
- Conventional MRI and CT scans are essential for diagnosing, planning surgery, and evaluating treatment, but they have limitations in providing detailed histopathological information.
- New advanced MRI techniques and molecular imaging methods, like PET scans, are enhancing diagnosis and prognosis, while radiomics and radiogenomics offer innovative ways to tailor treatment strategies based on individual biomarkers.
Article Abstract
In the pediatric age group, brain neoplasms are the second most common tumor category after leukemia, with an annual incidence of 6.13 per 100,000. Conventional MRI sequences, complemented by CT whenever necessary, are fundamental for the initial diagnosis and surgical planning as well as for post-operative evaluations, assessment of response to treatment, and surveillance; however, they have limitations, especially concerning histopathologic or biomolecular phenotyping and grading. In recent years, several advanced MRI sequences, including diffusion-weighted imaging, diffusion tensor imaging, arterial spin labelling (ASL) perfusion, and MR spectroscopy, have emerged as a powerful aid to diagnosis as well as prognostication; furthermore, other techniques such as diffusion kurtosis, amide proton transfer imaging, and MR elastography are being translated from the research environment to clinical practice. Molecular imaging, especially PET with amino-acid tracers, complement MRI in several aspects, including biopsy targeting and outcome prediction. Finally, radiomics with radiogenomics are opening entirely new perspectives for a quantitative approach aiming at identifying biomarkers that can be used for personalized, precision management strategies.
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