Monte-Carlo-based 4D robust optimization using physical and temporal uncertainties for intensity-modulated proton therapy
Mark D. Pepin, Erik Tryggestad, Hok Seum Wan Chan Tseung, Jiasen Ma,, Abdou Abdel Rehim, Jedediah E. Johnson, Michael G. Herman, and Chris Beltran

TL;DR
This paper introduces a Monte Carlo-based 4D robust optimization method for intensity-modulated proton therapy that accounts for respiratory motion, interplay effects, and uncertainties, leading to improved dose coverage and robustness.
Contribution
It presents a novel 4D robust optimization approach incorporating physical and temporal uncertainties without requiring breathing-delivery synchronization.
Findings
Enhanced target coverage by 4.9% on average
Improved dose homogeneity with a 6.0% decrease in homogeneity index
Reduced coverage and homogeneity variability across uncertainties by over 35% and 50%
Abstract
Purpose: Respiratory motion and the interplay effect cause the dose delivered to a patient with spot-scanned proton therapy to differ from the dose planned for during optimization. A new 4D robust optimization methodology was developed which incorporates patient breathing and the interplay effect, as well as their uncertainties, into the optimization process... Methods: The 4D robust optimizer used a 4DCT image set to obtain information regarding patient breathing and included a beam-delivery simulation to incorporate the interplay effect. The doses from potential spots were calculated on all breathing phases using Monte Carlo simulation, deformed to a reference phase using deformable image registration, and then added in a weighted sum. The weights for the different phases were based on the beam-delivery simulation. Robustness was added to the optimization by considering range and…
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Taxonomy
TopicsAdvanced Radiotherapy Techniques · Radiation Therapy and Dosimetry · Radiation Detection and Scintillator Technologies
