The popularity of particle radiotherapy has grown exponentially over recent years owing to the marked advantage of the depth-dose curve and its unique biological property. However, particle therapy is sensitive to changes in anatomical structure, and the dose distribution may deteriorate. In particle therapy, robust beam angle selection plays a crucial role in mitigating inter- and intrafractional variation, including daily patient setup uncertainties and tumor motion. With the development of a rotating gantry, angle optimization has gained increasing attention. Currently, several studies use the variation in the water equivalent thickness to quantify anatomical changes during treatment. This method seems helpful in determining better beam angles and improving the robustness of planning. Therefore, this review will discuss and summarize the robust beam angles at different tumor sites in particle radiotherapy.
Keywords: beam angle optimization; dose distribution; particle radiotherapy; robust planning; water equivalent pass length.
Copyright © 2021 Zhou, Li, Kubota, Sakai and Ohno.