Biomonitoring and precision health in deep space supported by artificial intelligence

Ryan T. Scott; Lauren M. Sanders; Erik L. Antonsen; Jaden J.A. Hastings; Seung min Park; Graham Mackintosh; Robert J. Reynolds; Adrienne L. Hoarfrost; Aenor Sawyer; Casey S. Greene; Benjamin S. Glicksberg; Corey A. Theriot; Daniel C. Berrios; Jack Miller; Joel Babdor; Richard Barker; Sergio E. Baranzini; Afshin Beheshti; Stuart Chalk; Guillermo M. Delgado-Aparicio; Melissa Haendel; Arif A. Hamid; Philip Heller; Daniel Jamieson; Katelyn J. Jarvis; John Kalantari; Kia Khezeli; Svetlana V. Komarova; Matthieu Komorowski; Prachi Kothiyal; Ashish Mahabal; Uri Manor; Hector Garcia Martin; Christopher E. Mason; Mona Matar; George I. Mias; Jerry G. Myers; Charlotte Nelson; Jonathan Oribello; Patricia Parsons-Wingerter; R. K. Prabhu; Amina Ann Qutub; Jon Rask; Amanda Saravia-Butler; Suchi Saria; Nitin Kumar Singh; Michael Snyder; Frank Soboczenski; Karthik Soman; David Van Valen; Kasthuri Venkateswaran; Liz Warren; Liz Worthey; Jason H. Yang; Marinka Zitnik; Sylvain V. Costes

doi:10.1038/s42256-023-00617-5

Biomonitoring and precision health in deep space supported by artificial intelligence

Ryan T. Scott, Lauren M. Sanders, Erik L. Antonsen, Jaden J.A. Hastings, Seung min Park, Graham Mackintosh, Robert J. Reynolds, Adrienne L. Hoarfrost, Aenor Sawyer, Casey S. Greene, Benjamin S. Glicksberg, Corey A. Theriot, Daniel C. Berrios, Jack Miller, Joel Babdor, Richard Barker, Sergio E. Baranzini, Afshin Beheshti, Stuart Chalk, Guillermo M. Delgado-AparicioMelissa Haendel, Arif A. Hamid, Philip Heller, Daniel Jamieson, Katelyn J. Jarvis, John Kalantari, Kia Khezeli, Svetlana V. Komarova, Matthieu Komorowski, Prachi Kothiyal, Ashish Mahabal, Uri Manor, Hector Garcia Martin, Christopher E. Mason, Mona Matar, George I. Mias, Jerry G. Myers, Charlotte Nelson, Jonathan Oribello, Patricia Parsons-Wingerter, R. K. Prabhu, Amina Ann Qutub, Jon Rask, Amanda Saravia-Butler, Suchi Saria, Nitin Kumar Singh, Michael Snyder, Frank Soboczenski, Karthik Soman, David Van Valen, Kasthuri Venkateswaran, Liz Warren, Liz Worthey, Jason H. Yang, Marinka Zitnik, Sylvain V. Costes

Research output: Contribution to journal › Review article › peer-review

Abstract

Human exploration of deep space will involve missions of substantial distance and duration. To effectively mitigate health hazards, paradigm shifts in astronaut health systems are necessary to enable Earth-independent healthcare, rather than Earth-reliant. Here we present a summary of decadal recommendations from a workshop organized by NASA on artificial intelligence, machine learning and modelling applications that offer key solutions toward these space health challenges. The workshop recommended various biomonitoring approaches, biomarker science, spacecraft/habitat hardware, intelligent software and streamlined data management tools in need of development and integration to enable humanity to thrive in deep space. Participants recommended that these components culminate in a maximally automated, autonomous and intelligent Precision Space Health system, to monitor, aggregate and assess biomedical statuses.

Original language	English (US)
Pages (from-to)	196-207
Number of pages	12
Journal	Nature Machine Intelligence
Volume	5
Issue number	3
DOIs	https://doi.org/10.1038/s42256-023-00617-5
State	Published - Mar 2023
Externally published	Yes

ASJC Scopus subject areas

Software
Human-Computer Interaction
Computer Vision and Pattern Recognition
Computer Networks and Communications
Artificial Intelligence

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10.1038/s42256-023-00617-5

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Scott, R. T., Sanders, L. M., Antonsen, E. L., Hastings, J. J. A., Park, S. M., Mackintosh, G., Reynolds, R. J., Hoarfrost, A. L., Sawyer, A., Greene, C. S., Glicksberg, B. S., Theriot, C. A., Berrios, D. C., Miller, J., Babdor, J., Barker, R., Baranzini, S. E., Beheshti, A., Chalk, S., ... Costes, S. V. (2023). Biomonitoring and precision health in deep space supported by artificial intelligence. Nature Machine Intelligence, 5(3), 196-207. https://doi.org/10.1038/s42256-023-00617-5

Scott, RT, Sanders, LM, Antonsen, EL, Hastings, JJA, Park, SM, Mackintosh, G, Reynolds, RJ, Hoarfrost, AL, Sawyer, A, Greene, CS, Glicksberg, BS, Theriot, CA, Berrios, DC, Miller, J, Babdor, J, Barker, R, Baranzini, SE, Beheshti, A, Chalk, S, Delgado-Aparicio, GM, Haendel, M, Hamid, AA, Heller, P, Jamieson, D, Jarvis, KJ, Kalantari, J, Khezeli, K, Komarova, SV, Komorowski, M, Kothiyal, P, Mahabal, A, Manor, U, Garcia Martin, H, Mason, CE, Matar, M, Mias, GI, Myers, JG, Nelson, C, Oribello, J, Parsons-Wingerter, P, Prabhu, RK, Qutub, AA, Rask, J, Saravia-Butler, A, Saria, S, Singh, NK, Snyder, M, Soboczenski, F, Soman, K, Van Valen, D, Venkateswaran, K, Warren, L, Worthey, L, Yang, JH, Zitnik, M & Costes, SV 2023, 'Biomonitoring and precision health in deep space supported by artificial intelligence', Nature Machine Intelligence, vol. 5, no. 3, pp. 196-207. https://doi.org/10.1038/s42256-023-00617-5

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abstract = "Human exploration of deep space will involve missions of substantial distance and duration. To effectively mitigate health hazards, paradigm shifts in astronaut health systems are necessary to enable Earth-independent healthcare, rather than Earth-reliant. Here we present a summary of decadal recommendations from a workshop organized by NASA on artificial intelligence, machine learning and modelling applications that offer key solutions toward these space health challenges. The workshop recommended various biomonitoring approaches, biomarker science, spacecraft/habitat hardware, intelligent software and streamlined data management tools in need of development and integration to enable humanity to thrive in deep space. Participants recommended that these components culminate in a maximally automated, autonomous and intelligent Precision Space Health system, to monitor, aggregate and assess biomedical statuses.",

author = "Scott, {Ryan T.} and Sanders, {Lauren M.} and Antonsen, {Erik L.} and Hastings, {Jaden J.A.} and Park, {Seung min} and Graham Mackintosh and Reynolds, {Robert J.} and Hoarfrost, {Adrienne L.} and Aenor Sawyer and Greene, {Casey S.} and Glicksberg, {Benjamin S.} and Theriot, {Corey A.} and Berrios, {Daniel C.} and Jack Miller and Joel Babdor and Richard Barker and Baranzini, {Sergio E.} and Afshin Beheshti and Stuart Chalk and Delgado-Aparicio, {Guillermo M.} and Melissa Haendel and Hamid, {Arif A.} and Philip Heller and Daniel Jamieson and Jarvis, {Katelyn J.} and John Kalantari and Kia Khezeli and Komarova, {Svetlana V.} and Matthieu Komorowski and Prachi Kothiyal and Ashish Mahabal and Uri Manor and {Garcia Martin}, Hector and Mason, {Christopher E.} and Mona Matar and Mias, {George I.} and Myers, {Jerry G.} and Charlotte Nelson and Jonathan Oribello and Patricia Parsons-Wingerter and Prabhu, {R. K.} and Qutub, {Amina Ann} and Jon Rask and Amanda Saravia-Butler and Suchi Saria and Singh, {Nitin Kumar} and Michael Snyder and Frank Soboczenski and Karthik Soman and {Van Valen}, David and Kasthuri Venkateswaran and Liz Warren and Liz Worthey and Yang, {Jason H.} and Marinka Zitnik and Costes, {Sylvain V.}",

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AU - Mackintosh, Graham

AU - Reynolds, Robert J.

AU - Hoarfrost, Adrienne L.

AU - Sawyer, Aenor

AU - Greene, Casey S.

AU - Glicksberg, Benjamin S.

AU - Theriot, Corey A.

AU - Berrios, Daniel C.

AU - Miller, Jack

AU - Babdor, Joel

AU - Barker, Richard

AU - Baranzini, Sergio E.

AU - Beheshti, Afshin

AU - Chalk, Stuart

AU - Delgado-Aparicio, Guillermo M.

AU - Haendel, Melissa

AU - Hamid, Arif A.

AU - Heller, Philip

AU - Jamieson, Daniel

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AU - Komorowski, Matthieu

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AU - Saravia-Butler, Amanda

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AU - Singh, Nitin Kumar

AU - Snyder, Michael

AU - Soboczenski, Frank

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AU - Van Valen, David

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Biomonitoring and precision health in deep space supported by artificial intelligence

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