Comparison of projection- and image-based methods for proton stopping power estimation using dual energy CT

Gloria Vilches-Freixas; Vicki Trier Taasti; Ludvig Paul Muren; Jørgen Breede Baltzer Petersen; Jean Michel Létang; David Christoffer Hansen; Simon Rit

Physics and Imaging in Radiation Oncology (Jul 2017)

Comparison of projection- and image-based methods for proton stopping power estimation using dual energy CT

Gloria Vilches-Freixas,
Vicki Trier Taasti,
Ludvig Paul Muren,
Jørgen Breede Baltzer Petersen,
Jean Michel Létang,
David Christoffer Hansen,
Simon Rit

Affiliations

Gloria Vilches-Freixas: Université de Lyon, CREATIS, CNRS UMR5220, Inserm U1206, INSA-Lyon, Université Lyon 1, Centre Léon Bérard, Lyon 69373 Cedex 08, France
Vicki Trier Taasti: Dept. of Medical Physics, Aarhus University Hospital, Denmark; Corresponding author.
Ludvig Paul Muren: Dept. of Medical Physics, Aarhus University Hospital, Denmark
Jørgen Breede Baltzer Petersen: Dept. of Medical Physics, Aarhus University Hospital, Denmark
Jean Michel Létang: Université de Lyon, CREATIS, CNRS UMR5220, Inserm U1206, INSA-Lyon, Université Lyon 1, Centre Léon Bérard, Lyon 69373 Cedex 08, France
David Christoffer Hansen: Dept. of Medical Physics, Aarhus University Hospital, Denmark
Simon Rit: Université de Lyon, CREATIS, CNRS UMR5220, Inserm U1206, INSA-Lyon, Université Lyon 1, Centre Léon Bérard, Lyon 69373 Cedex 08, France

Journal volume & issue: Vol. 3
pp. 28 – 36

Abstract

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Background and Purpose: Several strategies for estimating stopping power ratio (SPR) from dual-energy CT (DECT) have been proposed to improve accuracy of proton dose calculations. DECT methods can mainly be categorized into projection-based methods, where material decomposition is performed prior to image reconstruction, and image-based methods, where decomposition takes place after image reconstruction. With the advent of photon-counting and dual-layer technology, projection-based methods could be considered for SPR estimation. In this simulation-based study we compared the SPR accuracy of one projection- and three image-based DECT methods. Materials and Methods: X-ray CT projections of the female ICRP phantom were simulated using two different X-ray spectra with a realistic detector response and noise levels. ICRP slices at four different locations were selected. Reference SPR-maps were computed at 200 MeV. The SPR comparison was based on percentage deviation inside ROIs and relative range errors calculated with Radon transform of difference maps. Results: SPR root-mean-square errors (RMSE) over the selected ROIs were 0.54% for the projection-based method and 0.68%, 0.61% and 0.70% for the three image-based methods. The RMSE for the relative range errors were slightly smaller for the projection-based approach, but close to zero for all decomposition domains as positive and negative errors averaged out over the slice. Conclusions: SPR estimations with the projection-based method produced slightly better results (though not statistically significant) than the three image-based methods used in this simulation-based study, therefore, with the advent of technological developments, projection-based methods could be considered for SPR estimation if projection data is available. Keywords: CT noise, Dual-energy CT, Proton stopping power ratio, Range uncertainty, Robustness

Published in Physics and Imaging in Radiation Oncology

ISSN: 2405-6316 (Online)
Publisher: Elsevier
Country of publisher: Ireland
LCC subjects: Medicine: Medicine (General): Medical physics. Medical radiology. Nuclear medicine; Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: https://www.journals.elsevier.com/physics-and-imaging-in-radiation-oncology/

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