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Individualized estimates of overall survival in radiation therapy plan optimization - A concept study

Individualized estimates of overall survival in radiation therapy plan optimization - A concept study

Authors :
Modiri, Arezoo
Stick, Line Bjerregaard
Rice, Stephanie Renee
Rechner, Laura Ann
Vogelius, Ivan Richter
Bentzen, Søren Møller
Sawant, Amit
Modiri, Arezoo
Stick, Line Bjerregaard
Rice, Stephanie Renee
Rechner, Laura Ann
Vogelius, Ivan Richter
Bentzen, Søren Møller
Sawant, Amit
Source :
Modiri , A , Stick , L B , Rice , S R , Rechner , L A , Vogelius , I R , Bentzen , S M & Sawant , A 2018 , ' Individualized estimates of overall survival in radiation therapy plan optimization - A concept study ' , Medical Physics , vol. 45 , no. 11 , pp. 5332-5342 .
Publication Year :
2018

Abstract

PURPOSE: Current radiation therapy planning uses a set of defined dose-volume constraints to ensure a specified level of tumor coverage while constraining the dose distribution in the organs at risk. Such constraints are aggregated, population-based quantities that do not adequately consider patient-specific risk factors. Furthermore, these constraints are calculated for each organ independently and it is therefore not guaranteed that the optimal trade-off between organs is achieved. We introduce a novel radiotherapy planning approach where a patient-specific all-cause mortality risk is minimized using inverse plan optimization. As illustration of concept, our outcome risk model incorporates patient age, sex, cardiac risk factor (CRF), and smoking.METHODS AND MATERIALS: We retrospectively analyzed a left-sided breast cancer case and a Hodgkin's lymphoma case, both clinically treated with three-dimensional conformal radiotherapy (3D-CRT). Our objective function for inverse plan optimization was an equally weighted summation of risk models for cancer recurrence and mortality from radiation-induced coronary heart disease and secondary lung and breast cancers incorporating patient age, sex, CRF, and smoking. We allowed the optimization algorithm to choose from a large set of gantry angles. The optimization task was to choose beams and optimize monitor units (MUs) so that overall survival was maximized (and the total risk of cancer recurrence and mortality from radiation-induced causes were minimized). The sensitivity analysis was performed in the lymphoma case by changing the tumor control probability model from using mean dose (Model 1) to using generalized equivalent uniform dose (Model 2).RESULTS: For the breast case in this study, the 3D-CRT clinical plan used eight beams while the proposed 3D-CRT outcome-optimized plan used five beams, reducing the total risk - summation of the risks of recurrence and secondary disease mortality - from 3% to 2%. Th

Details

Database :
OAIster
Journal :
Modiri , A , Stick , L B , Rice , S R , Rechner , L A , Vogelius , I R , Bentzen , S M & Sawant , A 2018 , ' Individualized estimates of overall survival in radiation therapy plan optimization - A concept study ' , Medical Physics , vol. 45 , no. 11 , pp. 5332-5342 .
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1322727105
Document Type :
Electronic Resource