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Federated Learning used for predicting outcomes in SARS-COV-2 patients (preprint)

Mona Flores; Ittai Dayan; Holger Roth; Aoxiao Zhong; Ahmed Harouni; Amilcare Gentili; Anas Abidin; Andrew Liu; Anthony Costa; Bradford Wood; Chien-Sung Tsai; Chih-Hung Wang; Chun-Nan Hsu; CK Lee; Colleen Ruan; Daguang Xu; Dufan Wu; Eddie Huang; Felipe Kitamura; Griffin Lacey; Gustavo César de Antônio Corradi; Hao-Hsin Shin; Hirofumi Obinata; Hui Ren; Jason Crane; Jesse Tetreault; Jiahui Guan; John Garrett; Jung Gil Park; Keith Dreyer; Krishna Juluru; Kristopher Kersten; Marcio Aloisio Bezerra Cavalcanti Rockenbach; Marius Linguraru; Masoom Haider; Meena AbdelMaseeh; Nicola Rieke; Pablo Damasceno; Pedro Mario Cruz e Silva; Pochuan Wang; Sheng Xu; Shuichi Kawano; Sira Sriswasdi; Soo Young Park; Thomas Grist; Varun Buch; Watsamon Jantarabenjakul; Weichung Wang; Won Young Tak; Xiang Li; Xihong Lin; Fred Kwon; Fiona Gilbert; Josh Kaggie; Quanzheng Li; Abood Quraini; Andrew Feng; Andrew Priest; Baris Turkbey; Benjamin Glicksberg; Bernardo Bizzo; Byung Seok Kim; Carlos Tor-Diez; Chia-Cheng Lee; Chia-Jung Hsu; Chin Lin; Chiu-Ling Lai; Christopher Hess; Colin Compas; Deepi Bhatia; Eric Oermann; Evan Leibovitz; Hisashi Sasaki; Hitoshi Mori; Isaac Yang; Jae Ho Sohn; Krishna Nand Keshava Murthy; Li-Chen Fu; Matheus Ribeiro Furtado de Mendonça; Mike Fralick; Min Kyu Kang; Mohammad Adil; Natalie Gangai; Peerapon Vateekul; Pierre Elnajjar; Sarah Hickman; Sharmila Majumdar; Shelley McLeod; Sheridan Reed; Stefan Graf; Stephanie Harmon; Tatsuya Kodama; Thanyawee Puthanakit; Tony Mazzulli; Vitor de Lima Lavor; Yothin Rakvongthai; Yu Rim Lee; Yuhong Wen.

researchsquare; 2020.

Preprint in English | PREPRINT-RESEARCHSQUARE | ID: ppzbmed-10.21203.rs.3.rs-126892.v1

ABSTRACT

‘Federated Learning’ (FL) is a method to train Artificial Intelligence (AI) models with data from multiple sources while maintaining anonymity of the data thus removing many barriers to data sharing. During the SARS-COV-2 pandemic, 20 institutes collaborated on a healthcare FL study to predict future oxygen requirements of infected patients using inputs of vital signs, laboratory data, and chest x-rays, constituting the “EXAM” (EMR CXR AI Model) model. EXAM achieved an average Area Under the Curve (AUC) of over 0.92, an average improvement of 16%, and a 38% increase in generalisability over local models. The FL paradigm was successfully applied to facilitate a rapid data science collaboration without data exchange, resulting in a model that generalised across heterogeneous, unharmonized datasets. This provided the broader healthcare community with a validated model to respond to COVID-19 challenges, as well as set the stage for broader use of FL in healthcare.

Subject(s)

COVID-19 , Infections

ABSTRACT

Subject(s)

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