Qiong Wu, Jenna M. Reps, Lu Li, Bingyu Zhang, Yiwen Lu, Jiayi Tong, Dazheng Zhang, Thomas Lumley, Milou T. Brand, Mui Van Zandt, Thomas Falconer, Xing He, Yu Huang, Haoyang Li, Chao Yan, Guojun Tang, Andrew E. Williams, Fei Wang, Jiang Bian, Bradley Malin, George Hripcsak, Martijn J. Schuemie, Yun Lu, Steve Drew, Jiayu Zhou, David A. Asch, Yong Chen
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引用次数: 0
摘要
来自真实世界数据的临床见解通常需要来自机构的汇总信息,以确保足够的样本量和普遍性。然而,患者隐私问题只限制了患者级数据的共享,而传统的联邦学习算法依赖于广泛的来回通信,实现起来效率很低。我们介绍了用于广义线性模型的协作一次性无损算法(COLA-GLM),这是一种新型的联邦学习算法,它通过广义线性模型支持多种结果类型,并且仅通过一轮聚合数据交换(一次性)实现与合并患者级数据分析(无损)相同的结果。为了进一步保护聚合的机构数据,我们开发了一个安全扩展,secure- cola - glm,利用同态加密。通过在国际流感队列和分散的美国COVID-19死亡率研究中的应用,我们证明了COLA-GLM的有效性和无损性。COLA-GLM和secure-COLA-GLM为涉及多个数据合作伙伴和不同安全要求的分散协作学习提供了可扩展、高效的解决方案。
COLA-GLM: collaborative one-shot and lossless algorithms of generalized linear models for decentralized observational healthcare data
Clinical insights from real-world data often require aggregating information from institutions to ensure sufficient sample sizes and generalizability. However, patient privacy concerns only limit the sharing of patient-level data, and traditional federated learning algorithms, relying on extensive back-and-forth communications, can be inefficient to implement. We introduce the Collaborative One-shot Lossless Algorithm for Generalized Linear Models (COLA-GLM), a novel federated learning algorithm that supports diverse outcome types via generalized linear models and achieves results identical to a pooled patient-level data analysis (lossless) with only a single round of aggregated data exchange (one-shot). To further protect aggregated institutional data, we developed a secure extension, secure-COLA-GLM, utilizing homomorphic encryption. We demonstrated the effectiveness and lossless property of COLA-GLM through applications to an international influenza cohort and a decentralized U.S. COVID-19 mortality study. COLA-GLM and secure-COLA-GLM offer a scalable, efficient solution for decentralized collaborative learning involving multiple data partners and diverse security requirements.
期刊介绍:
npj Digital Medicine is an online open-access journal that focuses on publishing peer-reviewed research in the field of digital medicine. The journal covers various aspects of digital medicine, including the application and implementation of digital and mobile technologies in clinical settings, virtual healthcare, and the use of artificial intelligence and informatics.
The primary goal of the journal is to support innovation and the advancement of healthcare through the integration of new digital and mobile technologies. When determining if a manuscript is suitable for publication, the journal considers four important criteria: novelty, clinical relevance, scientific rigor, and digital innovation.
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