Multi-Center Fetal Brain Tissue Annotation (FeTA) Challenge 2022 Results.

IEEE transactions on medical imaging Pub Date : 2024-10-30 DOI:10.1109/TMI.2024.3485554

Kelly Payette, Celine Steger, Roxane Licandro, Priscille De Dumast, Hongwei Bran Li, Matthew Barkovich, Liu Li, Maik Dannecker, Chen Chen, Cheng Ouyang, Niccolo McConnell, Alina Miron, Yongmin Li, Alena Uus, Irina Grigorescu, Paula Ramirez Gilliland, Md Mahfuzur Rahman Siddiquee, Daguang Xu, Andriy Myronenko, Haoyu Wang, Ziyan Huang, Jin Ye, Mireia Alenya, Valentin Comte, Oscar Camara, Jean-Baptiste Masson, Astrid Nilsson, Charlotte Godard, Moona Mazher, Abdul Qayyum, Yibo Gao, Hangqi Zhou, Shangqi Gao, Jia Fu, Guiming Dong, Guotai Wang, ZunHyan Rieu, HyeonSik Yang, Minwoo Lee, Szymon Plotka, Michal K Grzeszczyk, Arkadiusz Sitek, Luisa Vargas Daza, Santiago Usma, Pablo Arbelaez, Wenying Lu, Wenhao Zhang, Jing Liang, Romain Valabregue, Anand A Joshi, Krishna N Nayak, Richard M Leahy, Luca Wilhelmi, Aline Dandliker, Hui Ji, Antonio G Gennari, Anton Jakovcic, Melita Klaic, Ana Adzic, Pavel Markovic, Gracia Grabaric, Gregor Kasprian, Gregor Dovjak, Milan Rados, Lana Vasung, Meritxell Bach Cuadra, Andras Jakab

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Abstract

Segmentation is a critical step in analyzing the developing human fetal brain. There have been vast improvements in automatic segmentation methods in the past several years, and the Fetal Brain Tissue Annotation (FeTA) Challenge 2021 helped to establish an excellent standard of fetal brain segmentation. However, FeTA 2021 was a single center study, limiting real-world clinical applicability and acceptance. The multi-center FeTA Challenge 2022 focused on advancing the generalizability of fetal brain segmentation algorithms for magnetic resonance imaging (MRI). In FeTA 2022, the training dataset contained images and corresponding manually annotated multi-class labels from two imaging centers, and the testing data contained images from these two centers as well as two additional unseen centers. The multi-center data included different MR scanners, imaging parameters, and fetal brain super-resolution algorithms applied. 16 teams participated and 17 algorithms were evaluated. Here, the challenge results are presented, focusing on the generalizability of the submissions. Both in- and out-of-domain, the white matter and ventricles were segmented with the highest accuracy (Top Dice scores: 0.89, 0.87 respectively), while the most challenging structure remains the grey matter (Top Dice score: 0.75) due to anatomical complexity. The top 5 average Dices scores ranged from 0.81-0.82, the top 5 average 95^th percentile Hausdorff distance values ranged from 2.3-2.5mm, and the top 5 volumetric similarity scores ranged from 0.90-0.92. The FeTA Challenge 2022 was able to successfully evaluate and advance generalizability of multi-class fetal brain tissue segmentation algorithms for MRI and it continues to benchmark new algorithms.

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2022 年多中心胎儿脑组织注释（FeTA）挑战赛结果。

分割是分析发育中的人类胎儿大脑的关键步骤。过去几年，自动分割方法有了很大改进，2021 年胎儿脑组织注释（FeTA）挑战赛帮助建立了胎儿脑分割的优秀标准。然而，FeTA 2021 是一项单中心研究，限制了实际临床应用和接受程度。多中心 FeTA 2022 挑战赛的重点是提高磁共振成像（MRI）胎儿大脑分割算法的通用性。在 FeTA 2022 中，训练数据集包含来自两个成像中心的图像和相应的人工注释多类标签，测试数据包含来自这两个中心以及另外两个未见中心的图像。多中心数据包括不同的磁共振扫描仪、成像参数和应用的胎儿大脑超分辨率算法。共有 16 个团队参赛，对 17 种算法进行了评估。这里介绍的是挑战赛的结果，重点是提交数据的通用性。无论是域内还是域外，白质和脑室的分割准确率最高（最高骰子得分分别为 0.89 和 0.87），而最具挑战性的结构仍然是灰质（最高骰子得分：0.75），原因是解剖结构复杂。前五名的平均骰子得分介于 0.81-0.82 之间，前五名的平均第 95 百分位数豪斯多夫距离值介于 2.3-2.5 毫米之间，前五名的体积相似性得分介于 0.90-0.92 之间。2022 年 FeTA 挑战赛能够成功评估和推进 MRI 多类胎儿脑组织分割算法的通用性，并继续为新算法设定基准。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE transactions on medical imaging

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