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Main Authors: Arbor, Nicolas, Bartolucci, Laurent, Dai, Botao, Azhar, Halima El, Galmiche, Pierre, Jarnet, Delphine, de Papigny, Michel de Mathelin, Meyer, Philippe, Seo, Hyewon
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.21823
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author Arbor, Nicolas
Bartolucci, Laurent
Dai, Botao
Azhar, Halima El
Galmiche, Pierre
Jarnet, Delphine
de Papigny, Michel de Mathelin
Meyer, Philippe
Seo, Hyewon
author_facet Arbor, Nicolas
Bartolucci, Laurent
Dai, Botao
Azhar, Halima El
Galmiche, Pierre
Jarnet, Delphine
de Papigny, Michel de Mathelin
Meyer, Philippe
Seo, Hyewon
contents Skin dose in radiotherapy is a key issue for reducing patient side effects, but dose calculations in this high-gradient region remains a challenge. To support radiation therapists and medical physicist in their decisions, a computational tool has been developed to systematically recalculate the skin dose for each treatment session, taking into account changes in breast geometry. This tool is based on Monte Carlo skin dose calculations from deformed vector fields (DVF)-driven CT images, using 3D-scanner data. The application of deformation fields to the initial patient CT, as well as the validation of Monte Carlo skin dose calculations and comparison with TPS algorithm, are presented. The tool is currently being evaluated using data from a clinical study involving 60 patients (MorphoBreast3D).
format Preprint
id arxiv_https___arxiv_org_abs_2410_21823
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Skin dose in breast radiation therapy: Monte Carlo calculations from deformed vector fields (DVF)-driven CT images
Arbor, Nicolas
Bartolucci, Laurent
Dai, Botao
Azhar, Halima El
Galmiche, Pierre
Jarnet, Delphine
de Papigny, Michel de Mathelin
Meyer, Philippe
Seo, Hyewon
Medical Physics
Skin dose in radiotherapy is a key issue for reducing patient side effects, but dose calculations in this high-gradient region remains a challenge. To support radiation therapists and medical physicist in their decisions, a computational tool has been developed to systematically recalculate the skin dose for each treatment session, taking into account changes in breast geometry. This tool is based on Monte Carlo skin dose calculations from deformed vector fields (DVF)-driven CT images, using 3D-scanner data. The application of deformation fields to the initial patient CT, as well as the validation of Monte Carlo skin dose calculations and comparison with TPS algorithm, are presented. The tool is currently being evaluated using data from a clinical study involving 60 patients (MorphoBreast3D).
title Skin dose in breast radiation therapy: Monte Carlo calculations from deformed vector fields (DVF)-driven CT images
topic Medical Physics
url https://arxiv.org/abs/2410.21823