Exploring approaches for predictive cancer patient digital twins: Opportunities for collaboration and innovation

Eric A. Stahlberg; Mohamed Abdel-Rahman; Boris Aguilar; Alireza Asadpoure; Robert A. Beckman; Lynn L. Borkon; Jeffrey N. Bryan; Colleen M. Cebulla; Young Hwan Chang; Ansu Chatterjee; Jun Deng; Sepideh Dolatshahi; Olivier Gevaert; Emily J. Greenspan; Wenrui Hao; Tina Hernandez-Boussard; Pamela R. Jackson; Marieke Kuijjer; Adrian Lee; Paul Macklin; Subha Madhavan; Matthew D. McCoy; Navid Mohammad Mirzaei; Talayeh Razzaghi; Heber L. Rocha; Leili Shahriyari; Ilya Shmulevich; Daniel G. Stover; Yi Sun; Tanveer Syeda-Mahmood; Jinhua Wang; Qi Wang; Ioannis Zervantonakis

doi:10.3389/fdgth.2022.1007784

Exploring approaches for predictive cancer patient digital twins: Opportunities for collaboration and innovation

Eric A. Stahlberg, Mohamed Abdel-Rahman, Boris Aguilar, Alireza Asadpoure, Robert A. Beckman, Lynn L. Borkon, Jeffrey N. Bryan, Colleen M. Cebulla, Young Hwan Chang, Ansu Chatterjee, Jun Deng, Sepideh Dolatshahi, Olivier Gevaert, Emily J. Greenspan, Wenrui Hao, Tina Hernandez-Boussard, Pamela R. Jackson, Marieke Kuijjer, Adrian Lee, Paul MacklinSubha Madhavan, Matthew D. McCoy, Navid Mohammad Mirzaei, Talayeh Razzaghi, Heber L. Rocha, Leili Shahriyari, Ilya Shmulevich, Daniel G. Stover, Yi Sun, Tanveer Syeda-Mahmood, Jinhua Wang, Qi Wang, Ioannis Zervantonakis

Research output: Contribution to journal › Article › peer-review

40 Scopus citations

Abstract

We are rapidly approaching a future in which cancer patient digital twins will reach their potential to predict cancer prevention, diagnosis, and treatment in individual patients. This will be realized based on advances in high performance computing, computational modeling, and an expanding repertoire of observational data across multiple scales and modalities. In 2020, the US National Cancer Institute, and the US Department of Energy, through a trans-disciplinary research community at the intersection of advanced computing and cancer research, initiated team science collaborative projects to explore the development and implementation of predictive Cancer Patient Digital Twins. Several diverse pilot projects were launched to provide key insights into important features of this emerging landscape and to determine the requirements for the development and adoption of cancer patient digital twins. Projects included exploring approaches to using a large cohort of digital twins to perform deep phenotyping and plan treatments at the individual level, prototyping self-learning digital twin platforms, using adaptive digital twin approaches to monitor treatment response and resistance, developing methods to integrate and fuse data and observations across multiple scales, and personalizing treatment based on cancer type. Collectively these efforts have yielded increased insights into the opportunities and challenges facing cancer patient digital twin approaches and helped define a path forward. Given the rapidly growing interest in patient digital twins, this manuscript provides a valuable early progress report of several CPDT pilot projects commenced in common, their overall aims, early progress, lessons learned and future directions that will increasingly involve the broader research community.

Original language	English (US)
Article number	1007784
Journal	Frontiers in Digital Health
Volume	4
DOIs	https://doi.org/10.3389/fdgth.2022.1007784
State	Published - Oct 6 2022

All Science Journal Classification (ASJC) codes

Medicine (miscellaneous)
Biomedical Engineering
Health Informatics
Computer Science Applications

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10.3389/fdgth.2022.1007784

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Stahlberg, E. A., Abdel-Rahman, M., Aguilar, B., Asadpoure, A., Beckman, R. A., Borkon, L. L., Bryan, J. N., Cebulla, C. M., Chang, Y. H., Chatterjee, A., Deng, J., Dolatshahi, S., Gevaert, O., Greenspan, E. J., Hao, W., Hernandez-Boussard, T., Jackson, P. R., Kuijjer, M., Lee, A., ... Zervantonakis, I. (2022). Exploring approaches for predictive cancer patient digital twins: Opportunities for collaboration and innovation. Frontiers in Digital Health, 4, Article 1007784. https://doi.org/10.3389/fdgth.2022.1007784

@article{15ef464d6d4b42098d56289ae44b97c4,

title = "Exploring approaches for predictive cancer patient digital twins: Opportunities for collaboration and innovation",

abstract = "We are rapidly approaching a future in which cancer patient digital twins will reach their potential to predict cancer prevention, diagnosis, and treatment in individual patients. This will be realized based on advances in high performance computing, computational modeling, and an expanding repertoire of observational data across multiple scales and modalities. In 2020, the US National Cancer Institute, and the US Department of Energy, through a trans-disciplinary research community at the intersection of advanced computing and cancer research, initiated team science collaborative projects to explore the development and implementation of predictive Cancer Patient Digital Twins. Several diverse pilot projects were launched to provide key insights into important features of this emerging landscape and to determine the requirements for the development and adoption of cancer patient digital twins. Projects included exploring approaches to using a large cohort of digital twins to perform deep phenotyping and plan treatments at the individual level, prototyping self-learning digital twin platforms, using adaptive digital twin approaches to monitor treatment response and resistance, developing methods to integrate and fuse data and observations across multiple scales, and personalizing treatment based on cancer type. Collectively these efforts have yielded increased insights into the opportunities and challenges facing cancer patient digital twin approaches and helped define a path forward. Given the rapidly growing interest in patient digital twins, this manuscript provides a valuable early progress report of several CPDT pilot projects commenced in common, their overall aims, early progress, lessons learned and future directions that will increasingly involve the broader research community.",

author = "Stahlberg, {Eric A.} and Mohamed Abdel-Rahman and Boris Aguilar and Alireza Asadpoure and Beckman, {Robert A.} and Borkon, {Lynn L.} and Bryan, {Jeffrey N.} and Cebulla, {Colleen M.} and Chang, {Young Hwan} and Ansu Chatterjee and Jun Deng and Sepideh Dolatshahi and Olivier Gevaert and Greenspan, {Emily J.} and Wenrui Hao and Tina Hernandez-Boussard and Jackson, {Pamela R.} and Marieke Kuijjer and Adrian Lee and Paul Macklin and Subha Madhavan and McCoy, {Matthew D.} and {Mohammad Mirzaei}, Navid and Talayeh Razzaghi and Rocha, {Heber L.} and Leili Shahriyari and Ilya Shmulevich and Stover, {Daniel G.} and Yi Sun and Tanveer Syeda-Mahmood and Jinhua Wang and Qi Wang and Ioannis Zervantonakis",

note = "Publisher Copyright: 2022 Stahlberg, Abdel-Rahman, Aguilar, Asadpoure, Beckman, Borkon, Bryan, Cebulla, Chang, Chatterjee, Deng, Dolatshahi, Gevaert, Greenspan, Hao, Hernandez-Boussard, Jackson, Kuijjer, Lee, Macklin, Madhavan, McCoy, Mohammed Mirzaei, Razzaghi, Rocha, Shahriyari, Shmulevich, Stover, Sun, Syeda-Mahmood, Wang, Wang and Zervantonakis.",

year = "2022",

month = oct,

day = "6",

doi = "10.3389/fdgth.2022.1007784",

language = "English (US)",

volume = "4",

journal = "Frontiers in Digital Health",

issn = "2673-253X",

publisher = "Frontiers Media SA",

}

Stahlberg, EA, Abdel-Rahman, M, Aguilar, B, Asadpoure, A, Beckman, RA, Borkon, LL, Bryan, JN, Cebulla, CM, Chang, YH, Chatterjee, A, Deng, J, Dolatshahi, S, Gevaert, O, Greenspan, EJ, Hao, W, Hernandez-Boussard, T, Jackson, PR, Kuijjer, M, Lee, A, Macklin, P, Madhavan, S, McCoy, MD, Mohammad Mirzaei, N, Razzaghi, T, Rocha, HL, Shahriyari, L, Shmulevich, I, Stover, DG, Sun, Y, Syeda-Mahmood, T, Wang, J, Wang, Q & Zervantonakis, I 2022, 'Exploring approaches for predictive cancer patient digital twins: Opportunities for collaboration and innovation', Frontiers in Digital Health, vol. 4, 1007784. https://doi.org/10.3389/fdgth.2022.1007784

TY - JOUR

T1 - Exploring approaches for predictive cancer patient digital twins

T2 - Opportunities for collaboration and innovation

AU - Stahlberg, Eric A.

AU - Abdel-Rahman, Mohamed

AU - Aguilar, Boris

AU - Asadpoure, Alireza

AU - Beckman, Robert A.

AU - Borkon, Lynn L.

AU - Bryan, Jeffrey N.

AU - Cebulla, Colleen M.

AU - Chang, Young Hwan

AU - Chatterjee, Ansu

AU - Deng, Jun

AU - Dolatshahi, Sepideh

AU - Gevaert, Olivier

AU - Greenspan, Emily J.

AU - Hao, Wenrui

AU - Hernandez-Boussard, Tina

AU - Jackson, Pamela R.

AU - Kuijjer, Marieke

AU - Lee, Adrian

AU - Macklin, Paul

AU - Madhavan, Subha

AU - McCoy, Matthew D.

AU - Mohammad Mirzaei, Navid

AU - Razzaghi, Talayeh

AU - Rocha, Heber L.

AU - Shahriyari, Leili

AU - Shmulevich, Ilya

AU - Stover, Daniel G.

AU - Sun, Yi

AU - Syeda-Mahmood, Tanveer

AU - Wang, Jinhua

AU - Wang, Qi

AU - Zervantonakis, Ioannis

N1 - Publisher Copyright: 2022 Stahlberg, Abdel-Rahman, Aguilar, Asadpoure, Beckman, Borkon, Bryan, Cebulla, Chang, Chatterjee, Deng, Dolatshahi, Gevaert, Greenspan, Hao, Hernandez-Boussard, Jackson, Kuijjer, Lee, Macklin, Madhavan, McCoy, Mohammed Mirzaei, Razzaghi, Rocha, Shahriyari, Shmulevich, Stover, Sun, Syeda-Mahmood, Wang, Wang and Zervantonakis.

PY - 2022/10/6

Y1 - 2022/10/6

N2 - We are rapidly approaching a future in which cancer patient digital twins will reach their potential to predict cancer prevention, diagnosis, and treatment in individual patients. This will be realized based on advances in high performance computing, computational modeling, and an expanding repertoire of observational data across multiple scales and modalities. In 2020, the US National Cancer Institute, and the US Department of Energy, through a trans-disciplinary research community at the intersection of advanced computing and cancer research, initiated team science collaborative projects to explore the development and implementation of predictive Cancer Patient Digital Twins. Several diverse pilot projects were launched to provide key insights into important features of this emerging landscape and to determine the requirements for the development and adoption of cancer patient digital twins. Projects included exploring approaches to using a large cohort of digital twins to perform deep phenotyping and plan treatments at the individual level, prototyping self-learning digital twin platforms, using adaptive digital twin approaches to monitor treatment response and resistance, developing methods to integrate and fuse data and observations across multiple scales, and personalizing treatment based on cancer type. Collectively these efforts have yielded increased insights into the opportunities and challenges facing cancer patient digital twin approaches and helped define a path forward. Given the rapidly growing interest in patient digital twins, this manuscript provides a valuable early progress report of several CPDT pilot projects commenced in common, their overall aims, early progress, lessons learned and future directions that will increasingly involve the broader research community.

AB - We are rapidly approaching a future in which cancer patient digital twins will reach their potential to predict cancer prevention, diagnosis, and treatment in individual patients. This will be realized based on advances in high performance computing, computational modeling, and an expanding repertoire of observational data across multiple scales and modalities. In 2020, the US National Cancer Institute, and the US Department of Energy, through a trans-disciplinary research community at the intersection of advanced computing and cancer research, initiated team science collaborative projects to explore the development and implementation of predictive Cancer Patient Digital Twins. Several diverse pilot projects were launched to provide key insights into important features of this emerging landscape and to determine the requirements for the development and adoption of cancer patient digital twins. Projects included exploring approaches to using a large cohort of digital twins to perform deep phenotyping and plan treatments at the individual level, prototyping self-learning digital twin platforms, using adaptive digital twin approaches to monitor treatment response and resistance, developing methods to integrate and fuse data and observations across multiple scales, and personalizing treatment based on cancer type. Collectively these efforts have yielded increased insights into the opportunities and challenges facing cancer patient digital twin approaches and helped define a path forward. Given the rapidly growing interest in patient digital twins, this manuscript provides a valuable early progress report of several CPDT pilot projects commenced in common, their overall aims, early progress, lessons learned and future directions that will increasingly involve the broader research community.

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UR - http://www.scopus.com/inward/citedby.url?scp=85140287308&partnerID=8YFLogxK

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VL - 4

JO - Frontiers in Digital Health

JF - Frontiers in Digital Health

M1 - 1007784

ER -

Exploring approaches for predictive cancer patient digital twins: Opportunities for collaboration and innovation

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