The technical evolution of radiation therapy for brain cancer has improved both the efficacy of individual radiation treatments and patient safety. The advent of computed tomography (CT)-based planning marked an important initial shift toward target-directed treatment (1). Treatment planning accuracy was further increased by fusing CT planning images with positron emission tomography (PET) and magnetic resonance imaging (MRI) scans (2, 3). Additionally, cone beam CT images acquired before each fraction were added to compensate for any deviations from the simulation CT (4).
Joshua T. Dilworth, Sarah A. Krueger, George D. Wilson, Brian Marples
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Image-Guided Targeting in Preclinical Studies: Tumors and Normal Tissues
While SARRP is often used to investigate the effect of radiation therapy in preclinical oncology settings, it should be noted that the impact of radiation on normal tissues requires understanding and further research to mitigate both early and late effects. The use of...