Jianyi Ji scite author profile

Artificial intelligence (AI) has shown promise for diagnosing prostate cancer in biopsies. However, results have been limited to individual studies, lacking validation in multinational settings. Competitions have been shown to be accelerators for medical imaging innovations, but their impact is hindered by lack of reproducibility and independent validation. With this in mind, we organized the PANDA challenge—the largest histopathology competition to date, joined by 1,290 developers—to catalyze development of reproducible AI algorithms for Gleason grading using 10,616 digitized prostate biopsies. We validated that a diverse set of submitted algorithms reached pathologist-level performance on independent cross-continental cohorts, fully blinded to the algorithm developers. On United States and European external validation sets, the algorithms achieved agreements of 0.862 (quadratically weighted κ, 95% confidence interval (CI), 0.840–0.884) and 0.868 (95% CI, 0.835–0.900) with expert uropathologists. Successful generalization across different patient populations, laboratories and reference standards, achieved by a variety of algorithmic approaches, warrants evaluating AI-based Gleason grading in prospective clinical trials.

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Simulation Study on Hot Stamping Forming of the Drive Axle Housing of Heavy Truck

Dai

Ji²,

Luo³

2018

IOP Conf. Ser.: Mater. Sci. Eng.

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3D implementation of push-out test in ABAQUS using the phase-field method

Wang

Dong³

et al. 2023

J Mech Sci Technol

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Axial Impact Behaviors of Uhpc: The Roles of Nanomaterials and Steel Fibres

et al. 2022

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Research on CAD and CAE integration technology in driving axle design system

Wang

Sun

Wang

et al. 2011

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In order to improve the efficiency of mechanical elements design, calculation and analysis on the methods of traditional driving axle design, the Visual basic software development tools were adopted to develop the parameterization technology for the axles design. The integration technology for the computer aided design and computer aided engineering was discussed and developed to realize the elements parameterization and integration. The driving axle virtual design system was developed to realize the virtualization and integration for driving axle design and analysis.

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Jianyi Ji

Artificial intelligence for diagnosis and Gleason grading of prostate cancer: the PANDA challenge

Simulation Study on Hot Stamping Forming of the Drive Axle Housing of Heavy Truck

3D implementation of push-out test in ABAQUS using the phase-field method

Axial Impact Behaviors of Uhpc: The Roles of Nanomaterials and Steel Fibres

Research on CAD and CAE integration technology in driving axle design system

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