FUGC: Benchmarking Semi-Supervised Learning Methods for Cervical Segmentation

Jieyun Bai; Yitong Tang; Zihao Zhou; Mahdi Islam; Musarrat Tabassum; Enrique Almar-Munoz; Hongyu Liu; Hui Meng; Nianjiang Lv; Bo Deng; Yu Chen; Zilun Peng; Yusong Xiao; Li Xiao; Nam Khanh Tran; Dac Phu Phan-Le; Hai Dang Nguyen; Xiao Liu; Jiale Hu; Mingxu Huang; Jitao Liang; Chaolu Feng; Xuezhi Zhang; Lyuyang Tong; Bo Du; Ha Hieu Pham; Thanh Huy Nguyen; Min Xu; Juntao Jiang; Jiangning Zhang; Yong Liu; Md Kamrul Hasan; Jie Gan; Zhuonan Liang; Weidong Cai; Yuxin Huang; Gongning Luo; Mohammad Yaqub; Karim Lekadir

doi:10.1109/TMI.2026.3666364

FUGC: Benchmarking Semi-Supervised Learning Methods for Cervical Segmentation

Jieyun Bai^*
, Yitong Tang
, Zihao Zhou
, Mahdi Islam
, Musarrat Tabassum
, Enrique Almar-Munoz
, Hongyu Liu
, Hui Meng
, Nianjiang Lv
, Bo Deng
, Yu Chen
, Zilun Peng
, Yusong Xiao
, Li Xiao
, Nam Khanh Tran
, Dac Phu Phan-Le
, Hai Dang Nguyen
, Xiao Liu
, Jiale Hu
, Mingxu Huang

Jitao Liang, Chaolu Feng, Xuezhi Zhang, Lyuyang Tong, Bo Du, Ha Hieu Pham, Thanh Huy Nguyen, Min Xu, Juntao Jiang, Jiangning Zhang, Yong Liu, Md Kamrul Hasan, Jie Gan, Zhuonan Liang, Weidong Cai, Yuxin Huang, Gongning Luo, Mohammad Yaqub, Karim Lekadir

^*Corresponding author for this work

Faculty of Computing

University of Jinan
Innsbruck Medical University
University of Chinese Academy of Sciences
University of Science and Technology of China
Vietnam National University Ho Chi Minh City
Nanyang Institute of Technology
Northeastern University China
Wuhan University
Carnegie Mellon University
Zhejiang University
Imperial College London
University of Sydney
Southern Medical University
Mohamed Bin Zayed University of Artificial Intelligence
University of Barcelona

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

2 Scopus citations

Abstract

Accurate segmentation of cervical structures in transvaginal ultrasound (TVS) is critical for assessing the risk of spontaneous preterm birth (PTB), yet the scarcity of labeled data limits the performance of supervised learning approaches. This paper introduces the Fetal Ultrasound Grand Challenge (FUGC), the first benchmark for semi-supervised learning in cervical segmentation, hosted at ISBI 2025. FUGC provides a dataset of 890 TVS images, including 500 training images, 90 validation images, and 300 test images. Methods were evaluated using the Dice Similarity Coefficient (DSC), Hausdorff Distance (HD), and runtime (RT), with a weighted combination of 0.4/0.4/0.2. The challenge attracted 10 teams with 82 participants submitting innovative solutions. The best-performing methods for each individual metric achieved 90.26% mDSC, 38.88 mHD, and 32.85 ms RT, respectively. FUGC establishes a standardized benchmark for cervical segmentation, demonstrates the efficacy of semi-supervised methods with limited labeled data, and provides a foundation for AI-assisted clinical PTB risk assessment.

Original language	English
Journal	IEEE Transactions on Medical Imaging
DOIs	https://doi.org/10.1109/TMI.2026.3666364
State	Accepted/In press - 2026

Keywords

Cervical Length
DINO
Fetal Ultrasound
Foundation Models
PTB
SAM
Self-supervised Learning
Semi-supervised Learning
UniMatch

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10.1109/TMI.2026.3666364

Cite this

Bai, J., Tang, Y., Zhou, Z., Islam, M., Tabassum, M., Almar-Munoz, E., Liu, H., Meng, H., Lv, N., Deng, B., Chen, Y., Peng, Z., Xiao, Y., Xiao, L., Tran, N. K., Phan-Le, D. P., Nguyen, H. D., Liu, X., Hu, J., ... Lekadir, K. (Accepted/In press). FUGC: Benchmarking Semi-Supervised Learning Methods for Cervical Segmentation. IEEE Transactions on Medical Imaging. https://doi.org/10.1109/TMI.2026.3666364

@article{83dd9b8ff319485aad31b80fd60ab247,

title = "FUGC: Benchmarking Semi-Supervised Learning Methods for Cervical Segmentation",

abstract = "Accurate segmentation of cervical structures in transvaginal ultrasound (TVS) is critical for assessing the risk of spontaneous preterm birth (PTB), yet the scarcity of labeled data limits the performance of supervised learning approaches. This paper introduces the Fetal Ultrasound Grand Challenge (FUGC), the first benchmark for semi-supervised learning in cervical segmentation, hosted at ISBI 2025. FUGC provides a dataset of 890 TVS images, including 500 training images, 90 validation images, and 300 test images. Methods were evaluated using the Dice Similarity Coefficient (DSC), Hausdorff Distance (HD), and runtime (RT), with a weighted combination of 0.4/0.4/0.2. The challenge attracted 10 teams with 82 participants submitting innovative solutions. The best-performing methods for each individual metric achieved 90.26\% mDSC, 38.88 mHD, and 32.85 ms RT, respectively. FUGC establishes a standardized benchmark for cervical segmentation, demonstrates the efficacy of semi-supervised methods with limited labeled data, and provides a foundation for AI-assisted clinical PTB risk assessment.",

keywords = "Cervical Length, DINO, Fetal Ultrasound, Foundation Models, PTB, SAM, Self-supervised Learning, Semi-supervised Learning, UniMatch",

author = "Jieyun Bai and Yitong Tang and Zihao Zhou and Mahdi Islam and Musarrat Tabassum and Enrique Almar-Munoz and Hongyu Liu and Hui Meng and Nianjiang Lv and Bo Deng and Yu Chen and Zilun Peng and Yusong Xiao and Li Xiao and Tran, \{Nam Khanh\} and Phan-Le, \{Dac Phu\} and Nguyen, \{Hai Dang\} and Xiao Liu and Jiale Hu and Mingxu Huang and Jitao Liang and Chaolu Feng and Xuezhi Zhang and Lyuyang Tong and Bo Du and Pham, \{Ha Hieu\} and Nguyen, \{Thanh Huy\} and Min Xu and Juntao Jiang and Jiangning Zhang and Yong Liu and Hasan, \{Md Kamrul\} and Jie Gan and Zhuonan Liang and Weidong Cai and Yuxin Huang and Gongning Luo and Mohammad Yaqub and Karim Lekadir",

note = "Publisher Copyright: {\textcopyright} 1982-2012 IEEE.",

year = "2026",

doi = "10.1109/TMI.2026.3666364",

language = "英语",

journal = "IEEE Transactions on Medical Imaging",

issn = "0278-0062",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

}

Bai, J, Tang, Y, Zhou, Z, Islam, M, Tabassum, M, Almar-Munoz, E, Liu, H, Meng, H, Lv, N, Deng, B, Chen, Y, Peng, Z, Xiao, Y, Xiao, L, Tran, NK, Phan-Le, DP, Nguyen, HD, Liu, X, Hu, J, Huang, M, Liang, J, Feng, C, Zhang, X, Tong, L, Du, B, Pham, HH, Nguyen, TH, Xu, M, Jiang, J, Zhang, J, Liu, Y, Hasan, MK, Gan, J, Liang, Z, Cai, W, Huang, Y, Luo, G, Yaqub, M & Lekadir, K 2026, 'FUGC: Benchmarking Semi-Supervised Learning Methods for Cervical Segmentation', IEEE Transactions on Medical Imaging. https://doi.org/10.1109/TMI.2026.3666364

TY - JOUR

T1 - FUGC

T2 - Benchmarking Semi-Supervised Learning Methods for Cervical Segmentation

AU - Bai, Jieyun

AU - Tang, Yitong

AU - Zhou, Zihao

AU - Islam, Mahdi

AU - Tabassum, Musarrat

AU - Almar-Munoz, Enrique

AU - Liu, Hongyu

AU - Meng, Hui

AU - Lv, Nianjiang

AU - Deng, Bo

AU - Chen, Yu

AU - Peng, Zilun

AU - Xiao, Yusong

AU - Xiao, Li

AU - Tran, Nam Khanh

AU - Phan-Le, Dac Phu

AU - Nguyen, Hai Dang

AU - Liu, Xiao

AU - Hu, Jiale

AU - Huang, Mingxu

AU - Liang, Jitao

AU - Feng, Chaolu

AU - Zhang, Xuezhi

AU - Tong, Lyuyang

AU - Du, Bo

AU - Pham, Ha Hieu

AU - Nguyen, Thanh Huy

AU - Xu, Min

AU - Jiang, Juntao

AU - Zhang, Jiangning

AU - Liu, Yong

AU - Hasan, Md Kamrul

AU - Gan, Jie

AU - Liang, Zhuonan

AU - Cai, Weidong

AU - Huang, Yuxin

AU - Luo, Gongning

AU - Yaqub, Mohammad

AU - Lekadir, Karim

PY - 2026

Y1 - 2026

N2 - Accurate segmentation of cervical structures in transvaginal ultrasound (TVS) is critical for assessing the risk of spontaneous preterm birth (PTB), yet the scarcity of labeled data limits the performance of supervised learning approaches. This paper introduces the Fetal Ultrasound Grand Challenge (FUGC), the first benchmark for semi-supervised learning in cervical segmentation, hosted at ISBI 2025. FUGC provides a dataset of 890 TVS images, including 500 training images, 90 validation images, and 300 test images. Methods were evaluated using the Dice Similarity Coefficient (DSC), Hausdorff Distance (HD), and runtime (RT), with a weighted combination of 0.4/0.4/0.2. The challenge attracted 10 teams with 82 participants submitting innovative solutions. The best-performing methods for each individual metric achieved 90.26% mDSC, 38.88 mHD, and 32.85 ms RT, respectively. FUGC establishes a standardized benchmark for cervical segmentation, demonstrates the efficacy of semi-supervised methods with limited labeled data, and provides a foundation for AI-assisted clinical PTB risk assessment.

AB - Accurate segmentation of cervical structures in transvaginal ultrasound (TVS) is critical for assessing the risk of spontaneous preterm birth (PTB), yet the scarcity of labeled data limits the performance of supervised learning approaches. This paper introduces the Fetal Ultrasound Grand Challenge (FUGC), the first benchmark for semi-supervised learning in cervical segmentation, hosted at ISBI 2025. FUGC provides a dataset of 890 TVS images, including 500 training images, 90 validation images, and 300 test images. Methods were evaluated using the Dice Similarity Coefficient (DSC), Hausdorff Distance (HD), and runtime (RT), with a weighted combination of 0.4/0.4/0.2. The challenge attracted 10 teams with 82 participants submitting innovative solutions. The best-performing methods for each individual metric achieved 90.26% mDSC, 38.88 mHD, and 32.85 ms RT, respectively. FUGC establishes a standardized benchmark for cervical segmentation, demonstrates the efficacy of semi-supervised methods with limited labeled data, and provides a foundation for AI-assisted clinical PTB risk assessment.

KW - Cervical Length

KW - DINO

KW - Fetal Ultrasound

KW - Foundation Models

KW - PTB

KW - SAM

KW - Self-supervised Learning

KW - Semi-supervised Learning

KW - UniMatch

UR - https://www.scopus.com/pages/publications/105030599296

U2 - 10.1109/TMI.2026.3666364

DO - 10.1109/TMI.2026.3666364

M3 - 文章

AN - SCOPUS:105030599296

SN - 0278-0062

JO - IEEE Transactions on Medical Imaging

JF - IEEE Transactions on Medical Imaging

ER -

FUGC: Benchmarking Semi-Supervised Learning Methods for Cervical Segmentation

Abstract

Keywords

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