Towards fair decentralized benchmarking of healthcare AI algorithms with the Federated Tumor Segmentation (FeTS) challenge.
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BORIS DOI
Date of Publication
July 8, 2025
Publication Type
Article
Division/Institute
Author
Zenk, Maximilian | |
Baid, Ujjwal | |
Pati, Sarthak | |
Linardos, Akis | |
Edwards, Brandon | |
Sheller, Micah | |
Foley, Patrick | |
Aristizabal, Alejandro | |
Zimmerer, David | |
Gruzdev, Alexey | |
Martin, Jason | |
Shinohara, Russell T | |
Reinke, Annika | |
Isensee, Fabian | |
Parampottupadam, Santhosh | |
Parekh, Kaushal | |
Floca, Ralf | |
Kassem, Hasan | |
Baheti, Bhakti | |
Thakur, Siddhesh | |
Chung, Verena | |
Kushibar, Kaisar | |
Lekadir, Karim | |
Jiang, Meirui | |
Yin, Youtan | |
Yang, Hongzheng | |
Liu, Quande | |
Dou, Qi | |
Heng, Pheng-Ann | |
Zhang, Xiaofan | |
Zhang, Shaoting | |
Khan, Muhammad Irfan | |
Azeem, Mohammad Ayyaz | |
Jafaritadi, Mojtaba | |
Alhoniemi, Esa | |
Kontio, Elina | |
Khan, Suleiman A | |
Mächler, Leon | |
Ezhov, Ivan | |
Kofler, Florian | |
Shit, Suprosanna | |
Paetzold, Johannes C | |
Loehr, Timo | |
Wiestler, Benedikt | |
Peiris, Himashi | |
Pawar, Kamlesh | |
Zhong, Shenjun | |
Chen, Zhaolin | |
Hayat, Munawar | |
Egan, Gary | |
Harandi, Mehrtash | |
Isik Polat, Ece | |
Polat, Gorkem | |
Kocyigit, Altan | |
Temizel, Alptekin | |
Tuladhar, Anup | |
Tyagi, Lakshay | |
Souza, Raissa | |
Forkert, Nils D | |
Mouches, Pauline | |
Wilms, Matthias | |
Shambhat, Vishruth | |
Maurya, Akansh | |
Danannavar, Shubham Subhas | |
Kalla, Rohit | |
Anand, Vikas Kumar | |
Krishnamurthi, Ganapathy | |
Nalawade, Sahil | |
Ganesh, Chandan | |
Reddy, Divya | |
Das, Yudhajit | |
Yu, Fang F | |
Fei, Baowei | |
Madhuranthakam, Ananth J | |
Maldjian, Joseph | |
Singh, Gaurav | |
Ren, Jianxun | |
Zhang, Wei | |
An, Ning | |
Hu, Qingyu | |
Zhang, Youjia | |
Zhou, Ying | |
Siomos, Vasilis | |
Tarroni, Giacomo | |
Passerrat-Palmbach, Jonathan | |
Rawat, Ambrish | |
Zizzo, Giulio | |
Kadhe, Swanand Ravindra | |
Epperlein, Jonathan P | |
Braghin, Stefano | |
Wang, Yuan | |
Kanagavelu, Renuga | |
Wei, Qingsong | |
Yang, Yechao | |
Kotowski, Krzysztof | |
Adamski, Szymon | |
Machura, Bartosz | |
Malara, Wojciech | |
Zarudzki, Lukasz | |
Nalepa, Jakub | |
Shi, Yaying | |
Gao, Hongjian | |
Avestimehr, Salman | |
Yan, Yonghong | |
Akbar, Agus S | |
Kondrateva, Ekaterina | |
Yang, Hua | |
Li, Zhaopei | |
Wu, Hung-Yu | |
Roth, Johannes | |
Saueressig, Camillo | |
Milesi, Alexandre | |
Nguyen, Quoc D | |
Gruenhagen, Nathan J | |
Huang, Tsung-Ming | |
Ma, Jun | |
Singh, Har Shwinder H | |
Pan, Nai-Yu | |
Zhang, Dingwen | |
Zeineldin, Ramy A | |
Futrega, Michal | |
Yuan, Yading | |
Conte, Gian Marco | |
Feng, Xue | |
Pham, Quan D | |
Xia, Yong | |
Jiang, Zhifan | |
Luu, Huan Minh | |
Dobko, Mariia | |
Carré, Alexandre | |
Tuchinov, Bair | |
Mohy-Ud-Din, Hassan | |
Alam, Saruar | |
Singh, Anup | |
Shah, Nameeta | |
Wang, Weichung | |
Sako, Chiharu | |
Bilello, Michel | |
Ghodasara, Satyam | |
Mohan, Suyash | |
Davatzikos, Christos | |
Calabrese, Evan | |
Rudie, Jeffrey | |
Villanueva-Meyer, Javier | |
Cha, Soonmee | |
Hess, Christopher | |
Mongan, John | |
Ingalhalikar, Madhura | |
Jadhav, Manali | |
Pandey, Umang | |
Saini, Jitender | |
Huang, Raymond Y | |
Chang, Ken | |
To, Minh-Son | |
Bhardwaj, Sargam | |
Chong, Chee | |
Agzarian, Marc | |
Kozubek, Michal | |
Lux, Filip | |
Michálek, Jan | |
Matula, Petr | |
Ker Kovský, Miloš | |
Kopr Ivová, Tereza | |
Dostál, Marek | |
Vybíhal, Václav | |
Pinho, Marco C | |
Holcomb, James | |
Metz, Marie | |
Jain, Rajan | |
Lee, Matthew D | |
Lui, Yvonne W | |
Tiwari, Pallavi | |
Verma, Ruchika | |
Bareja, Rohan | |
Yadav, Ipsa | |
Chen, Jonathan | |
Kumar, Neeraj | |
Gusev, Yuriy | |
Bhuvaneshwar, Krithika | |
Sayah, Anousheh | |
Bencheqroun, Camelia | |
Belouali, Anas | |
Madhavan, Subha | |
Colen, Rivka R | |
Kotrotsou, Aikaterini | |
Vollmuth, Philipp | |
Brugnara, Gianluca | |
Preetha, Chandrakanth J | |
Sahm, Felix | |
Bendszus, Martin | |
Wick, Wolfgang | |
Mahajan, Abhishek | |
Balaña, Carmen | |
Capellades, Jaume | |
Puig, Josep | |
Choi, Yoon Seong | |
Lee, Seung-Koo | |
Chang, Jong Hee | |
Ahn, Sung Soo | |
Shaykh, Hassan F | |
Herrera-Trujillo, Alejandro | |
Trujillo, Maria | |
Escobar, William | |
Abello, Ana | |
Bernal, Jose | |
Gómez, Jhon | |
LaMontagne, Pamela | |
Marcus, Daniel S | |
Milchenko, Mikhail | |
Nazeri, Arash | |
Landman, Bennett | |
Ramadass, Karthik | |
Xu, Kaiwen | |
Chotai, Silky | |
Chambless, Lola B | |
Mistry, Akshitkumar | |
Thompson, Reid C | |
Srinivasan, Ashok | |
Bapuraj, J Rajiv | |
Rao, Arvind | |
Wang, Nicholas | |
Yoshiaki, Ota | |
Moritani, Toshio | |
Turk, Sevcan | |
Lee, Joonsang | |
Prabhudesai, Snehal | |
Garrett, John | |
Larson, Matthew | |
Jeraj, Robert | |
Li, Hongwei | |
Weiss, Tobias | |
Weller, Michael | |
Bink, Andrea | |
Sharma, Sonam | |
Tseng, Tzu-Chi | |
Adabi, Saba | |
Xavier Falcão, Alexandre | |
Martins, Samuel B | |
Teixeira, Bernardo C A | |
Sprenger, Flávia | |
Menotti, David | |
Lucio, Diego R | |
Niclou, Simone P | |
Keunen, Olivier | |
Hau, Ann-Christin | |
Pelaez, Enrique | |
Franco-Maldonado, Heydy | |
Loayza, Francis | |
Quevedo, Sebastian | |
Trenkler, Johannes | |
Pichler, Josef | |
Necker, Georg | |
Haunschmidt, Andreas | |
Meckel, Stephan | |
Guevara, Pamela | |
Torche, Esteban | |
Mendoza, Cristobal | |
Vera, Franco | |
Ríos, Elvis | |
López, Eduardo | |
Velastin, Sergio A | |
Choi, Joseph | |
Baek, Stephen | |
Kim, Yusung | |
Ismael, Heba | |
Allen, Bryan | |
Buatti, John M | |
Zampakis, Peter | |
Panagiotopoulos, Vasileios | |
Tsiganos, Panagiotis | |
Alexiou, Sotiris | |
Haliassos, Ilias | |
Zacharaki, Evangelia I | |
Moustakas, Konstantinos | |
Kalogeropoulou, Christina | |
Kardamakis, Dimitrios M | |
Luo, Bing | |
Poisson, Laila M | |
Wen, Ning | |
Vallières, Martin | |
Loutfi, Mahdi Ait Lhaj | |
Fortin, David | |
Lepage, Martin | |
Morón, Fanny | |
Mandel, Jacob | |
Shukla, Gaurav | |
Liem, Spencer | |
Alexandre, Gregory S | |
Lombardo, Joseph | |
Palmer, Joshua D | |
Flanders, Adam E | |
Dicker, Adam P | |
Ogbole, Godwin | |
Oyekunle, Dotun | |
Odafe-Oyibotha, Olubunmi | |
Osobu, Babatunde | |
Shu'aibu Hikima, Mustapha | |
Soneye, Mayowa | |
Dako, Farouk | |
Dorcas, Adeleye | |
Murcia, Derrick | |
Fu, Eric | |
Haas, Rourke | |
Thompson, John A | |
Ormond, David Ryan | |
Currie, Stuart | |
Fatania, Kavi | |
Frood, Russell | |
Simpson, Amber L | |
Peoples, Jacob J | |
Hu, Ricky | |
Cutler, Danielle | |
Moraes, Fabio Y | |
Tran, Anh | |
Hamghalam, Mohammad | |
Boss, Michael A | |
Gimpel, James | |
Kattil Veettil, Deepak | |
Schmidt, Kendall | |
Cimino, Lisa | |
Price, Cynthia | |
Bialecki, Brian | |
Marella, Sailaja | |
Apgar, Charles | |
Jakab, Andras | |
Weber, Marc-André | |
Colak, Errol | |
Kleesiek, Jens | |
Freymann, John B | |
Kirby, Justin S | |
Maier-Hein, Lena | |
Albrecht, Jake | |
Mattson, Peter | |
Karargyris, Alexandros | |
Shah, Prashant | |
Menze, Bjoern | |
Maier-Hein, Klaus | |
Bakas, Spyridon |
Subject(s)
Series
Nature Communications
ISSN or ISBN (if monograph)
2041-1723
Publisher
Nature Research
Language
English
Publisher DOI
PubMed ID
40628696
Description
Computational competitions are the standard for benchmarking medical image analysis algorithms, but they typically use small curated test datasets acquired at a few centers, leaving a gap to the reality of diverse multicentric patient data. To this end, the Federated Tumor Segmentation (FeTS) Challenge represents the paradigm for real-world algorithmic performance evaluation. The FeTS challenge is a competition to benchmark (i) federated learning aggregation algorithms and (ii) state-of-the-art segmentation algorithms, across multiple international sites. Weight aggregation and client selection techniques were compared using a multicentric brain tumor dataset in realistic federated learning simulations, yielding benefits for adaptive weight aggregation, and efficiency gains through client sampling. Quantitative performance evaluation of state-of-the-art segmentation algorithms on data distributed internationally across 32 institutions yielded good generalization on average, albeit the worst-case performance revealed data-specific modes of failure. Similar multi-site setups can help validate the real-world utility of healthcare AI algorithms in the future.
File(s)
| File | File Type | Format | Size | License | Publisher/Copright statement | Content | |
|---|---|---|---|---|---|---|---|
| s41467-025-60466-1.pdf | text | Adobe PDF | 8.17 MB | Attribution (CC BY 4.0) | published |