Achieving flexible fairness metrics in federated medical imaging.

Journal: Nature communications
PMID: 40199877

Abstract

The rapid adoption of Artificial Intelligence (AI) in medical imaging raises fairness and privacy concerns across demographic groups, especially in diagnosis and treatment decisions. While federated learning (FL) offers decentralized privacy preservation, current frameworks often prioritize collaboration fairness over group fairness, risking healthcare disparities. Here we present FlexFair, an innovative FL framework designed to address both fairness and privacy challenges. FlexFair incorporates a flexible regularization term to facilitate the integration of multiple fairness criteria, including equal accuracy, demographic parity, and equal opportunity. Evaluated across four clinical applications (polyp segmentation, fundus vascular segmentation, cervical cancer segmentation, and skin disease diagnosis), FlexFair outperforms state-of-the-art methods in both fairness and accuracy. Moreover, we curate a multi-center dataset for cervical cancer segmentation that includes 678 patients from four hospitals. This diverse dataset allows for a more comprehensive analysis of model performance across different population groups, ensuring the findings are applicable to a broader range of patients.

Authors

  • Huijun Xing
    Shenzhen Future Network of Intelligence Institute and Guangdong Provincial Key Laboratory of Future Networks of Intelligence, The Chinese University of Hong Kong (Shenzhen), Shenzhen, China.
  • Rui Sun
    The Second Affiliated Hospital and Yuying Children's Hospital of Wenzhou Medical University, Wenzhou 325027, China.
  • Jinke Ren
    Shenzhen Future Network of Intelligence Institute and Guangdong Provincial Key Laboratory of Future Networks of Intelligence, The Chinese University of Hong Kong (Shenzhen), Shenzhen, China.
  • Jun Wei
    Guangzhou Perception Vision Medical Technology Inc. Guangzhou 510000 China.
  • Chun-Mei Feng
  • Xuan Ding
    Department of Radiology, The Second Affiliated Hospital of Chongqing Medical University, Yuzhong, Chongqing, China.
  • Zilu Guo
    Shenzhen Future Network of Intelligence Institute and Guangdong Provincial Key Laboratory of Future Networks of Intelligence, The Chinese University of Hong Kong (Shenzhen), Shenzhen, China.
  • Yu Wang
    Clinical and Technical Support, Philips Healthcare, Shanghai, China.
  • Yudong Hu
    Aberdeen Institute of Data Science and Artificial Intelligence, South China Normal University, Foshan, Guangdong, China.
  • Wei Wei
    Dept. Biomedical Informatics, University of Pittsburgh, Pittsburgh, PA, USA.
  • Xiaohua Ban
    Imaging Diagnostic and Interventional Center, Sun Yat-sen University Cancer Center, State Key Laboratory of Oncology in South China, Collaborative Innovation Center for Cancer Medicine, Guangzhou, China.
  • Chuanlong Xie
    Department of Statistics, Faculty of Arts and Sciences, Beijing Normal University, Zhuhai, Guangdong, China. clxie@bnu.edu.cn.
  • Yu Tan
    Department of Radiology, Guangdong Women and Children Hospital, Guangzhou, China.
  • Xian Liu
    Department of Radiology, Guangdong Provincial Hospital of Chinese Medicine, Guangzhou, Guangdong, PR China.
  • Shuguang Cui
  • Xiaohui Duan
    Department of Radiology, Sun Yat-sen Memorial Hospital, Sun Yat-sen University, Guangzhou, China. Electronic address: duanxh5@mail.sysu.edu.cn.
  • Zhen Li
    PepsiCo R&D, Valhalla, NY, United States.

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