Data publication: A deep-learning-based surrogate model for Monte-Carlo simulations of the linear energy transfer in primary brain tumor patients treated with proton-beam radiotherapy
Data publication: A deep-learning-based surrogate model for Monte-Carlo simulations of the linear energy transfer in primary brain tumor patients treated with proton-beam radiotherapy
Starke, S.; Kieslich, A. M.; Palkowitsch, M.; Hennings, F.; Troost, E. G. C.; Krause, M.; Bensberg, J.; Hahn, C.; Heinzelmann, F.; Bäumer, C.; Lühr, A.; Timmermann, B.; Löck, S.
Abstract
This repository contains the outputs and result data of our deep-learning-based experiments for the approximation of Monte-Carlo-simulated linear energy transfer distributions, which build the foundation for the corresponding article.
The Pytorch checkpoint of our finally chosen SegResNet architecture trained on the UPTD dose distributions is located at dd_pbs/Dose-LETd/clip_let_below_0.04/segresnet/all_trainvalid_data/training/lightning_logs/version_6358843/checkpoints/last.ckpt.
Moreover, we provide an exemplary data sample from a water phantom for trying our analysis pipeline.
Keywords: proton-beam therapy; relative biological effectiveness; linear energy transfer; NTCP models; deep learning; brain tumor
Beteiligte Forschungsanlagen
- OncoRay
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Forschungsdaten im HZDR-Daten-Repositorium RODARE
Publication date: 2024-03-15 Open access
DOI: 10.14278/rodare.2763
Versions: 10.14278/rodare.2764
License: CC-BY-4.0
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Permalink: https://www.hzdr.de/publications/Publ-38860