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SynthRAD2025 Grand Challenge dataset : Generating synthetic CTs for radiotherapy from head to abdomen

Thummerer, Adrian ; van der Bijl, Erik ; Galapon, Arthur Jr ; Kamp, Florian ; Savenije, Mark ; Muijs, Christina ; Aluwini, Shafak ; Steenbakkers, Roel J.H.M. ; Beuel, Stephanie and Intven, Martijn P.W. , et al. (2025) In Medical Physics 52(7).
Abstract

Purpose: Medical imaging is crucial in modern radiotherapy, aiding diagnosis, treatment planning, and monitoring. The development of synthetic imaging techniques, particularly synthetic computed tomography (sCT), continues to attract interest in radiotherapy. The SynthRAD2025 dataset and the accompanying SynthRAD2025 Grand Challenge aim to stimulate advancements in synthetic CT generation algorithms by providing a platform for comprehensive evaluation and benchmarking of synthetic CT generation algorithms based on cone-beam CTs (CBCT) and magnetic resonance images (MRI). Acquisition and validation methods: The dataset comprises 2362 cases, including 890 MRI-CT pairs and 1472 CBCT-CT pairs of head-and-neck, thoracic, and abdominal cancer... (More)

Purpose: Medical imaging is crucial in modern radiotherapy, aiding diagnosis, treatment planning, and monitoring. The development of synthetic imaging techniques, particularly synthetic computed tomography (sCT), continues to attract interest in radiotherapy. The SynthRAD2025 dataset and the accompanying SynthRAD2025 Grand Challenge aim to stimulate advancements in synthetic CT generation algorithms by providing a platform for comprehensive evaluation and benchmarking of synthetic CT generation algorithms based on cone-beam CTs (CBCT) and magnetic resonance images (MRI). Acquisition and validation methods: The dataset comprises 2362 cases, including 890 MRI-CT pairs and 1472 CBCT-CT pairs of head-and-neck, thoracic, and abdominal cancer patients treated at five European university medical centers [UMC Groningen, UMC Utrecht, Radboud UMC (Netherlands), LMU University Hospital Munich, and University Hospital of Cologne (Germany)]. Images were acquired using a wide range of acquisition protocols and scanners. Pre-processing, including rigid and deformable image registration methods, was performed to ensure high-quality image datasets and alignment between modalities. Extensive quality assurance was performed to validate image consistency and usability. Data format and usage notes: All imaging data is provided using the MetaImage (.mha) file format, ensuring compatibility with common medical image processing tools. Metadata, including acquisition parameters and registration details, is available in structured comma-separated value (CSV) files. To ensure dataset integrity, SynthRAD2025 is split into training (65%), validation (10%), and test (25%) sets. The dataset is accessible through https://doi.org/10.5281/zenodo.14918088 under the SynthRAD2025 collection. Potential applications: This dataset enables benchmarking and development of synthetic imaging techniques for radiotherapy applications. Potential use cases include sCT generation for MRI-only and MR-guided photon and proton radiotherapy, CBCT-based dose calculations, and adaptive radiotherapy workflows. By incorporating data from diverse acquisition settings, SynthRAD2025 supports the advancement of robust and generalizable image synthesis algorithms for clinical implementation, ultimately promoting personalized cancer care and improving adaptive radiotherapy workflows.

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organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
artificial intelligence, CBCT, CT, deep learning, image synthesis, MR
in
Medical Physics
volume
52
issue
7
article number
e17981
publisher
John Wiley & Sons Inc.
external identifiers
  • pmid:40665582
  • scopus:105010841147
ISSN
0094-2405
DOI
10.1002/mp.17981
language
English
LU publication?
yes
additional info
Publisher Copyright: © 2025 The Author(s). Medical Physics published by Wiley Periodicals LLC on behalf of American Association of Physicists in Medicine.
id
f0903c49-0e3e-476c-a13e-cd44e06c14a6
date added to LUP
2025-12-15 14:59:39
date last changed
2025-12-16 03:00:09
@article{f0903c49-0e3e-476c-a13e-cd44e06c14a6,
  abstract     = {{<p>Purpose: Medical imaging is crucial in modern radiotherapy, aiding diagnosis, treatment planning, and monitoring. The development of synthetic imaging techniques, particularly synthetic computed tomography (sCT), continues to attract interest in radiotherapy. The SynthRAD2025 dataset and the accompanying SynthRAD2025 Grand Challenge aim to stimulate advancements in synthetic CT generation algorithms by providing a platform for comprehensive evaluation and benchmarking of synthetic CT generation algorithms based on cone-beam CTs (CBCT) and magnetic resonance images (MRI). Acquisition and validation methods: The dataset comprises 2362 cases, including 890 MRI-CT pairs and 1472 CBCT-CT pairs of head-and-neck, thoracic, and abdominal cancer patients treated at five European university medical centers [UMC Groningen, UMC Utrecht, Radboud UMC (Netherlands), LMU University Hospital Munich, and University Hospital of Cologne (Germany)]. Images were acquired using a wide range of acquisition protocols and scanners. Pre-processing, including rigid and deformable image registration methods, was performed to ensure high-quality image datasets and alignment between modalities. Extensive quality assurance was performed to validate image consistency and usability. Data format and usage notes: All imaging data is provided using the MetaImage (.mha) file format, ensuring compatibility with common medical image processing tools. Metadata, including acquisition parameters and registration details, is available in structured comma-separated value (CSV) files. To ensure dataset integrity, SynthRAD2025 is split into training (65%), validation (10%), and test (25%) sets. The dataset is accessible through https://doi.org/10.5281/zenodo.14918088 under the SynthRAD2025 collection. Potential applications: This dataset enables benchmarking and development of synthetic imaging techniques for radiotherapy applications. Potential use cases include sCT generation for MRI-only and MR-guided photon and proton radiotherapy, CBCT-based dose calculations, and adaptive radiotherapy workflows. By incorporating data from diverse acquisition settings, SynthRAD2025 supports the advancement of robust and generalizable image synthesis algorithms for clinical implementation, ultimately promoting personalized cancer care and improving adaptive radiotherapy workflows.</p>}},
  author       = {{Thummerer, Adrian and van der Bijl, Erik and Galapon, Arthur Jr and Kamp, Florian and Savenije, Mark and Muijs, Christina and Aluwini, Shafak and Steenbakkers, Roel J.H.M. and Beuel, Stephanie and Intven, Martijn P.W. and Langendijk, Johannes A. and Both, Stefan and Corradini, Stefanie and Rogowski, Viktor and Terpstra, Maarten and Wahl, Niklas and Kurz, Christopher and Landry, Guillaume and Maspero, Matteo}},
  issn         = {{0094-2405}},
  keywords     = {{artificial intelligence; CBCT; CT; deep learning; image synthesis; MR}},
  language     = {{eng}},
  number       = {{7}},
  publisher    = {{John Wiley & Sons Inc.}},
  series       = {{Medical Physics}},
  title        = {{SynthRAD2025 Grand Challenge dataset : Generating synthetic CTs for radiotherapy from head to abdomen}},
  url          = {{http://dx.doi.org/10.1002/mp.17981}},
  doi          = {{10.1002/mp.17981}},
  volume       = {{52}},
  year         = {{2025}},
}