Calibration and Uncertainty for multiRater Volume Assessment in multiorgan Segmentation (CURVAS) challenge results

Meritxell Riera-Marín; Sikha O.K.; Júlia Rodríguez-Comas; Matthias Stefan May; Zhaohong Pan; Xiang Zhou; Xiaokun Liang; Franciskus Xaverius Erick; Andrea Prenner; Cédric Hémon; Valentin Boussot; Jean Louis Dillenseger; Jean Claude Nunes; Abdul Qayyum; Moona Mazher; Steven A. Niederer; Kaisar Kushibar; Carlos Martín-Isla; Petia Radeva; Karim Lekadir; Theodore Barfoot; Luis C. Garcia Peraza Herrera; Ben Glocker; Tom Vercauteren; Lucas Gago; Justin Englemann; Joy Marie Kleiss; Anton Aubanell; Andreu Antolin; Javier García-López; Miguel A. González Ballester; Adrián Galdrán

doi:10.1016/j.compbiomed.2025.111024

Calibration and Uncertainty for multiRater Volume Assessment in multiorgan Segmentation (CURVAS) challenge results

Meritxell Riera-Marín^*
, Sikha O.K.
, Júlia Rodríguez-Comas
, Matthias Stefan May
, Zhaohong Pan
, Xiang Zhou
, Xiaokun Liang
, Franciskus Xaverius Erick
, Andrea Prenner
, Cédric Hémon
, Valentin Boussot
, Jean Louis Dillenseger
, Jean Claude Nunes
, Abdul Qayyum
, Moona Mazher
, Steven A. Niederer
, Kaisar Kushibar
, Carlos Martín-Isla
, Petia Radeva
, Karim Lekadir

Theodore Barfoot, Luis C. Garcia Peraza Herrera, Ben Glocker, Tom Vercauteren, Lucas Gago, Justin Englemann, Joy Marie Kleiss, Anton Aubanell, Andreu Antolin, Javier García-López, Miguel A. González Ballester, Adrián Galdrán

^*Corresponding author for this work

TECNALIA Research & Innovation

Research output: Contribution to journal › Article › peer-review

Abstract

Deep learning (DL) has become the dominant approach for medical image segmentation, yet ensuring the reliability and clinical applicability of these models requires addressing key challenges such as annotation variability, calibration, and uncertainty estimation. This is why we created the Calibration and Uncertainty for multiRater Volume Assessment in multiorgan Segmentation (CURVAS), which highlights the critical role of multiple annotators in establishing a more comprehensive ground truth, emphasizing that segmentation is inherently subjective and that leveraging inter-annotator variability is essential for robust model evaluation. Seven teams participated in the challenge, submitting a variety of DL models evaluated using metrics such as Dice Similarity Coefficient (DSC), Expected Calibration Error (ECE), and Continuous Ranked Probability Score (CRPS). By incorporating consensus and dissensus ground truth, we assess how DL models handle uncertainty and whether their confidence estimates align with true segmentation performance. Our findings reinforce the importance of well-calibrated models, as better calibration is strongly correlated with the quality of the results. Furthermore, we demonstrate that segmentation models trained on diverse datasets and enriched with pre-trained knowledge exhibit greater robustness, particularly in cases deviating from standard anatomical structures. Notably, the best-performing models achieved high DSC and well-calibrated uncertainty estimates. This work underscores the need for multi-annotator ground truth, thorough calibration assessments, and uncertainty-aware evaluations to develop trustworthy and clinically reliable DL-based medical image segmentation models.

Original language	English
Article number	111024
Journal	Computers in Biology and Medicine
Volume	197
DOIs	https://doi.org/10.1016/j.compbiomed.2025.111024
Publication status	Published - Oct 2025

Keywords

Abdominal CT
Calibration
Multi-class image segmentation
Multiple expert annotations
Uncertainty

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Riera-Marín, M., O.K., S., Rodríguez-Comas, J., May, M. S., Pan, Z., Zhou, X., Liang, X., Erick, F. X., Prenner, A., Hémon, C., Boussot, V., Dillenseger, J. L., Nunes, J. C., Qayyum, A., Mazher, M., Niederer, S. A., Kushibar, K., Martín-Isla, C., Radeva, P., ... Galdrán, A. (2025). Calibration and Uncertainty for multiRater Volume Assessment in multiorgan Segmentation (CURVAS) challenge results. Computers in Biology and Medicine, 197, Article 111024. https://doi.org/10.1016/j.compbiomed.2025.111024

@article{eabbadfb814d4ad1aa95606a4833e79f,

title = "Calibration and Uncertainty for multiRater Volume Assessment in multiorgan Segmentation (CURVAS) challenge results",

abstract = "Deep learning (DL) has become the dominant approach for medical image segmentation, yet ensuring the reliability and clinical applicability of these models requires addressing key challenges such as annotation variability, calibration, and uncertainty estimation. This is why we created the Calibration and Uncertainty for multiRater Volume Assessment in multiorgan Segmentation (CURVAS), which highlights the critical role of multiple annotators in establishing a more comprehensive ground truth, emphasizing that segmentation is inherently subjective and that leveraging inter-annotator variability is essential for robust model evaluation. Seven teams participated in the challenge, submitting a variety of DL models evaluated using metrics such as Dice Similarity Coefficient (DSC), Expected Calibration Error (ECE), and Continuous Ranked Probability Score (CRPS). By incorporating consensus and dissensus ground truth, we assess how DL models handle uncertainty and whether their confidence estimates align with true segmentation performance. Our findings reinforce the importance of well-calibrated models, as better calibration is strongly correlated with the quality of the results. Furthermore, we demonstrate that segmentation models trained on diverse datasets and enriched with pre-trained knowledge exhibit greater robustness, particularly in cases deviating from standard anatomical structures. Notably, the best-performing models achieved high DSC and well-calibrated uncertainty estimates. This work underscores the need for multi-annotator ground truth, thorough calibration assessments, and uncertainty-aware evaluations to develop trustworthy and clinically reliable DL-based medical image segmentation models.",

keywords = "Abdominal CT, Calibration, Multi-class image segmentation, Multiple expert annotations, Uncertainty",

author = "Meritxell Riera-Mar{\'i}n and Sikha O.K. and J{\'u}lia Rodr{\'i}guez-Comas and May, \{Matthias Stefan\} and Zhaohong Pan and Xiang Zhou and Xiaokun Liang and Erick, \{Franciskus Xaverius\} and Andrea Prenner and C{\'e}dric H{\'e}mon and Valentin Boussot and Dillenseger, \{Jean Louis\} and Nunes, \{Jean Claude\} and Abdul Qayyum and Moona Mazher and Niederer, \{Steven A.\} and Kaisar Kushibar and Carlos Mart{\'i}n-Isla and Petia Radeva and Karim Lekadir and Theodore Barfoot and \{Garcia Peraza Herrera\}, \{Luis C.\} and Ben Glocker and Tom Vercauteren and Lucas Gago and Justin Englemann and Kleiss, \{Joy Marie\} and Anton Aubanell and Andreu Antolin and Javier Garc{\'i}a-L{\'o}pez and \{Gonz{\'a}lez Ballester\}, \{Miguel A.\} and Adri{\'a}n Galdr{\'a}n",

note = "Publisher Copyright: {\textcopyright} 2025 Elsevier Ltd",

year = "2025",

month = oct,

doi = "10.1016/j.compbiomed.2025.111024",

language = "English",

volume = "197",

journal = "Computers in Biology and Medicine",

issn = "0010-4825",

publisher = "Elsevier Ltd.",

}

Riera-Marín, M, O.K., S, Rodríguez-Comas, J, May, MS, Pan, Z, Zhou, X, Liang, X, Erick, FX, Prenner, A, Hémon, C, Boussot, V, Dillenseger, JL, Nunes, JC, Qayyum, A, Mazher, M, Niederer, SA, Kushibar, K, Martín-Isla, C, Radeva, P, Lekadir, K, Barfoot, T, Garcia Peraza Herrera, LC, Glocker, B, Vercauteren, T, Gago, L, Englemann, J, Kleiss, JM, Aubanell, A, Antolin, A, García-López, J, González Ballester, MA & Galdrán, A 2025, 'Calibration and Uncertainty for multiRater Volume Assessment in multiorgan Segmentation (CURVAS) challenge results', Computers in Biology and Medicine, vol. 197, 111024. https://doi.org/10.1016/j.compbiomed.2025.111024

TY - JOUR

T1 - Calibration and Uncertainty for multiRater Volume Assessment in multiorgan Segmentation (CURVAS) challenge results

AU - Riera-Marín, Meritxell

AU - O.K., Sikha

AU - Rodríguez-Comas, Júlia

AU - May, Matthias Stefan

AU - Pan, Zhaohong

AU - Zhou, Xiang

AU - Liang, Xiaokun

AU - Erick, Franciskus Xaverius

AU - Prenner, Andrea

AU - Hémon, Cédric

AU - Boussot, Valentin

AU - Dillenseger, Jean Louis

AU - Nunes, Jean Claude

AU - Qayyum, Abdul

AU - Mazher, Moona

AU - Niederer, Steven A.

AU - Kushibar, Kaisar

AU - Martín-Isla, Carlos

AU - Radeva, Petia

AU - Lekadir, Karim

AU - Barfoot, Theodore

AU - Garcia Peraza Herrera, Luis C.

AU - Glocker, Ben

AU - Vercauteren, Tom

AU - Gago, Lucas

AU - Englemann, Justin

AU - Kleiss, Joy Marie

AU - Aubanell, Anton

AU - Antolin, Andreu

AU - García-López, Javier

AU - González Ballester, Miguel A.

AU - Galdrán, Adrián

PY - 2025/10

Y1 - 2025/10

N2 - Deep learning (DL) has become the dominant approach for medical image segmentation, yet ensuring the reliability and clinical applicability of these models requires addressing key challenges such as annotation variability, calibration, and uncertainty estimation. This is why we created the Calibration and Uncertainty for multiRater Volume Assessment in multiorgan Segmentation (CURVAS), which highlights the critical role of multiple annotators in establishing a more comprehensive ground truth, emphasizing that segmentation is inherently subjective and that leveraging inter-annotator variability is essential for robust model evaluation. Seven teams participated in the challenge, submitting a variety of DL models evaluated using metrics such as Dice Similarity Coefficient (DSC), Expected Calibration Error (ECE), and Continuous Ranked Probability Score (CRPS). By incorporating consensus and dissensus ground truth, we assess how DL models handle uncertainty and whether their confidence estimates align with true segmentation performance. Our findings reinforce the importance of well-calibrated models, as better calibration is strongly correlated with the quality of the results. Furthermore, we demonstrate that segmentation models trained on diverse datasets and enriched with pre-trained knowledge exhibit greater robustness, particularly in cases deviating from standard anatomical structures. Notably, the best-performing models achieved high DSC and well-calibrated uncertainty estimates. This work underscores the need for multi-annotator ground truth, thorough calibration assessments, and uncertainty-aware evaluations to develop trustworthy and clinically reliable DL-based medical image segmentation models.

AB - Deep learning (DL) has become the dominant approach for medical image segmentation, yet ensuring the reliability and clinical applicability of these models requires addressing key challenges such as annotation variability, calibration, and uncertainty estimation. This is why we created the Calibration and Uncertainty for multiRater Volume Assessment in multiorgan Segmentation (CURVAS), which highlights the critical role of multiple annotators in establishing a more comprehensive ground truth, emphasizing that segmentation is inherently subjective and that leveraging inter-annotator variability is essential for robust model evaluation. Seven teams participated in the challenge, submitting a variety of DL models evaluated using metrics such as Dice Similarity Coefficient (DSC), Expected Calibration Error (ECE), and Continuous Ranked Probability Score (CRPS). By incorporating consensus and dissensus ground truth, we assess how DL models handle uncertainty and whether their confidence estimates align with true segmentation performance. Our findings reinforce the importance of well-calibrated models, as better calibration is strongly correlated with the quality of the results. Furthermore, we demonstrate that segmentation models trained on diverse datasets and enriched with pre-trained knowledge exhibit greater robustness, particularly in cases deviating from standard anatomical structures. Notably, the best-performing models achieved high DSC and well-calibrated uncertainty estimates. This work underscores the need for multi-annotator ground truth, thorough calibration assessments, and uncertainty-aware evaluations to develop trustworthy and clinically reliable DL-based medical image segmentation models.

KW - Abdominal CT

KW - Calibration

KW - Multi-class image segmentation

KW - Multiple expert annotations

KW - Uncertainty

UR - https://www.scopus.com/pages/publications/105015353777

U2 - 10.1016/j.compbiomed.2025.111024

DO - 10.1016/j.compbiomed.2025.111024

M3 - Article

AN - SCOPUS:105015353777

SN - 0010-4825

VL - 197

JO - Computers in Biology and Medicine

JF - Computers in Biology and Medicine

M1 - 111024

ER -

Calibration and Uncertainty for multiRater Volume Assessment in multiorgan Segmentation (CURVAS) challenge results

Abstract

Keywords

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