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From FAIR to CURE: Guidelines for Computational Models of Biological SystemsGuidelines for managing scientific data have been established under the FAIR principles requiring that data be Findable, Accessible, Interoperable, and Reusable. In many scientific disciplines, especially computational biology, both data and models are key to progress. For this reason, and recognizing that such models are a very special type of “data”, we argue that computational models, especially mechanistic models prevalent in medicine, physiology and systems biology, deserve a complementary set of guidelines. We propose the CURE principles, emphasizing that models should be Credible, Understandable, Reproducible, and Extensible. We delve into each principle, discussing verification, validation, and uncertainty quantification for model credibility; the clarity of model descriptions and annotations for understandability; adherence to standards and open science practices for reproducibility; and the use of open standards and modular code for extensibility and reuse. We outline recommended and baseline requirements for each aspect of CURE, aiming to enhance the impact and trustworthiness of computational models, particularly in biomedical applications where credibility is paramount. Our perspective underscores the need for a more disciplined approach to modeling, aligning with emerging trends such as Digital Twins and emphasizing the importance of data and modeling standards for interoperability and reuse. Finally, we emphasize that given the non-trivial effort required to implement the guidelines, the community moves to automate as many of the guidelines as possible.
Document ID
20240015882
Acquisition Source
Glenn Research Center
Document Type
Accepted Manuscript (Version with final changes)
Authors
Herbert M Sauro
(University of Washington )
Eran Agmon
(University of Connecticut Health Center Farmington, United States)
Michael L Blinov
(University of Connecticut Health Center Farmington, United States)
John H Gennari
(University of Washington)
Joseph L Hellerstein
(University of Washington)
Adel Heydarabadipour
(University of Washington)
Bartholomew E Jardine
(University of Washington)
Elebeoba May
(University of Wisconsin–Madison Madison, United States)
David P Nickerson
(The University of Auckland)
Lucian P Smith
(University of Washington)
Gary D Bader
(University of Toronto)
Frank T Bergmann
(Heidelberg University Heidelberg, Germany)
Patrick M Boyle
(University of Washington)
Andreas Drager
(Martin Luther University Halle-Wittenberg Halle, Germany)
James R Faeder
(University of Pittsburgh Pittsburgh, United States)
Song Feng
(Pacific Northwest National Laboratory Richland, United States)
Juliana Freire
(New York University New York, United States)
Fabian Frohlich
(The Francis Crick Institute London, United Kingdom)
James A Glazier
(Indiana University Bloomington Bloomington, United States)
Thomas E Gorochowski
(University of Bristol Bristol, United Kingdom)
Tomas Helikar
(University of Nebraska–Lincoln Lincoln, United States)
Hermjakob Henning
(European Bioinformatics Institute Cambridge, United Kingdom)
Stefan Hoops
(University of Virginia)
Peter Hunter
(University of Auckland Auckland, New Zealand)
Princess I Imoukhuede
(University of Washington)
Sarah M Keating
(University College London London, United Kingdom)
Matthias Konig
(Humboldt-University)
Reinhard Laubenbacher
(University of Florida Gainesville, United States)
Leslie M Loew
(University of Connecticut Health Center Farmington, United States)
Carlos F Lopez
(Altos Labs San Francisco, United States)
William W Lytton
(Downstate Health Science University)
Rahuman S Malik-Sheriff
(European Bioinformatics Institute Cambridge, United Kingdom)
Andrew McCulloch
(University of California, San Diego San Diego, United States)
Pedro Mendes
(University of Connecticut Health Center Farmington, United States)
Chris J Myers
(University of Colorado Boulder Boulder, United States)
Jerry G Myers
(Glenn Research Center Cleveland, United States)
Date Acquired
December 11, 2024
Publication Date
February 27, 2026
Publication Information
Publication: Nature System Biology
Publisher: Nature
Subject Category
Numerical Analysis
Aerospace Medicine
Funding Number(s)
OTHER: EXC 2075 – 390740016
OTHER: EXC 2117–422037984
PROJECT: 251654672–TRR 161
PROJECT: HR0011262087
OTHER: IIS-2106888
OTHER: CMMI-2146306
CONTRACT_GRANT: 031L0304B
CONTRACT_GRANT: 436883643
CONTRACT_GRANT: 465194077
CONTRACT_GRANT: P41EB023912
WBS: 305041.01.02.10
OTHER: P41 EB023912
OTHER: URF\R\221008
OTHER: BB/Y007638/1
Distribution Limits
Public
Copyright
Portions of document may include copyright protected material.
Technical Review
Single Expert
Keywords
computational modeling
Credibility
Understandability
Reproducibility
Extensibility
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