Abstract
Accurate in-vivo verification of beam range and dose distribution is crucial for the safety and effectiveness of particle therapy. Prompt gamma (PG) imaging, as a method for real-time verification, has gained prominence in this area. Currently, several PG imaging systems are under development, including gamma electron vertex imaging (GEVI), the Compton camera, the slit camera, and the multi-array type collimator camera. However, challenges persist in dose prediction accuracy, largely due to patient positioning uncertainty and anatomical changes. Although each system demonstrates potential in verifying PG range, further improvements in detection efficiency, spatial resolution, background reduction, and integration into clinical workflows are essential.
Reference76 articles.
1. Radiological use of fast protons;Wilson;Radiology,1946
2. In vivo proton range verification: a review;Knopf;Phys Med Biol,2013
3. New technology in radiation oncology;Schulz;Oncology,2004
4. Particle therapy patient statistics (per end 2023) (update April 2024)2024
5. Particle therapy facilities in clinical operation. (update January 2024)2024