Title :
Improved swarm intelligence solution in large scale radiation therapy inverse planning
Author :
Modiri, Arezoo ; Xuejun Gu ; Hagan, Aaron ; Sawant, Amit
Author_Institution :
Dept. of Radiat. Oncology, UT Southwestern, Dallas, TX, USA
Abstract :
This study employs particle swarm optimization to solve the non-convex inverse problem of 4D stereotactic body radiation therapy planning, targeting toxicity reduction, for a right lower lobe lung tumor with motion range of 1.5cm. A novel approach is introduced to reduce the swarm search space. 90 aperture-weights are optimized using both conventional and improved PSO algorithms over 5 optimization runs per method. It is shown that, on average, the improved PSO-based plan reduces the maximum dose to heart, spinal cord and esophagus by 43%, as compared to the conventional PSO, while swarm population is cut to half.
Keywords :
cancer; cardiology; dosimetry; inverse problems; lung; neurophysiology; particle swarm optimisation; radiation therapy; swarm intelligence; toxicology; tumours; 4D stereotactic body radiation therapy planning; PSO algorithms; PSO-based plan; esophagus; heart; improved swarm intelligence solution; large scale radiation therapy inverse planning; motion range; nonconvex inverse problem; particle swarm optimization; right lower lobe lung tumor; spinal cord; swarm search space; targeting toxicity reduction; Apertures; Biomedical applications of radiation; Cost function; Lungs; Planning; Tumors; Optimization; radiation therapy; stochastic;
Conference_Titel :
Biomedical Conference (GLBC), 2015 IEEE Great Lakes
Conference_Location :
Milwaukee, WI
DOI :
10.1109/GLBC.2015.7158300
