Gerlach, StefanStefanGerlachFürweger, ChristophChristophFürwegerHofmann, TheresaTheresaHofmannSchlaefer, AlexanderAlexanderSchlaefer2020-11-022020-11-022020-09-17Current Directions in Biomedical Engineering 1 (6): 20200030 (2020)http://hdl.handle.net/11420/7734Although robotic radiosurgery offers a flexible arrangement of treatment beams, generating treatment plans is computationally challenging and a time consuming process for the planner. Furthermore, different clinical goals have to be considered during planning and generally different sets of beams correspond to different clinical goals. Typically, candidate beams sampled from a randomized heuristic form the basis for treatment planning. We propose a new approach to generate candidate beams based on deep learning using radiological features as well as the desired constraints. We demonstrate that candidate beams generated for specific clinical goals can improve treatment plan quality. Furthermore, we compare two approaches to include information about constraints in the prediction. Our results show that CNN generated beams can improve treatment plan quality for different clinical goals, increasing coverage from 91.2 to 96.8% for 3,000 candidate beams on average. When including the clinical goal in the training, coverage is improved by 1.1% points.en2364-5504Current directions in biomedical engineering20201de Gruyterhttps://creativecommons.org/licenses/by/4.0/machine learningrobotic radiosurgerytreatment planningMLE@TUHHBiowissenschaften, BiologieMedizinMulticriterial CNN based beam generation for robotic radiosurgery of the prostateJournal Article10.15480/882.304010.1515/cdbme-2020-003010.15480/882.3040Journal Article