A second space age spanning omics, platforms and medicine across orbits

Christopher E. Mason*, James Green, Konstantinos I. Adamopoulos, Evan E. Afshin, Jordan J. Baechle, Mathias Basner, Susan M. Bailey, Luca Bielski, Josef Borg, Joseph Borg, Jared T. Broddrick, Marissa Burke, Andrés Caicedo, Verónica Castañeda, Subhamoy Chatterjee, Christopher R. Chin, George Church, Sylvain V. Costes, Iwijn De Vlaminck, Rajeev I. DesaiRaja Dhir, Juan Esteban Diaz, Sofia M. Etlin, Zachary Feinstein, David Furman, J. Sebastian Garcia-Medina, Francine Garrett-Bakelman, Stefania Giacomello, Anjali Gupta, Amira Hassanin, Nadia Houerbi, Iris Irby, Emilia Javorsky, Peter Jirak, Christopher W. Jones, Khaled Y. Kamal, Brian D. Kangas, Fathi Karouia, Jang Keun Kim, Joo Hyun Kim, Ashley S. Kleinman, Try Lam, John M. Lawler, Jessica A. Lee, Charles L. Limoli, Alexander Lucaci, Matthew MacKay, J. Tyson McDonald, Ari M. Melnick, Cem Meydan, Jakub Mieczkowski, Masafumi Muratani, Deena Najjar, Mariam A. Othman, Eliah G. Overbey, Vera Paar, Jiwoon Park, Amber M. Paul, Adrian Perdyan, Jacqueline Proszynski, Robert J. Reynolds, April E. Ronca, Kate Rubins, Krista A. Ryon, Lauren M. Sanders, Patricia Savi Glowe, Yash Shevde, Michael A. Schmidt, Ryan T. Scott, Bader Shirah, Karolina Sienkiewicz, Maria A. Sierra, Keith Siew, Corey A. Theriot, Braden T. Tierney, Kasthuri Venkateswaran, Jeremy Wain Hirschberg, Stephen B. Walsh, Claire Walter, Daniel A. Winer, Min Yu, Luis Zea, Jaime Mateus, Afshin Beheshti*

*Autor correspondiente de este trabajo

    Producción científica: Contribución a una revistaArtículorevisión exhaustiva

    6 Citas (Scopus)

    Resumen

    The recent acceleration of commercial, private and multi-national spaceflight has created an unprecedented level of activity in low Earth orbit, concomitant with the largest-ever number of crewed missions entering space and preparations for exploration-class (lasting longer than one year) missions. Such rapid advancement into space from many new companies, countries and space-related entities has enabled a ‘second space age’. This era is also poised to leverage, for the first time, modern tools and methods of molecular biology and precision medicine, thus enabling precision aerospace medicine for the crews. The applications of these biomedical technologies and algorithms are diverse, and encompass multi-omic, single-cell and spatial biology tools to investigate human and microbial responses to spaceflight. Additionally, they extend to the development of new imaging techniques, real-time cognitive assessments, physiological monitoring and personalized risk profiles tailored for astronauts. Furthermore, these technologies enable advancements in pharmacogenomics, as well as the identification of novel spaceflight biomarkers and the development of corresponding countermeasures. In this Perspective, we highlight some of the recent biomedical research from the National Aeronautics and Space Administration, Japan Aerospace Exploration Agency, European Space Agency and other space agencies, and detail the entrance of the commercial spaceflight sector (including SpaceX, Blue Origin, Axiom and Sierra Space) into aerospace medicine and space biology, the first aerospace medicine biobank, and various upcoming missions that will utilize these tools to ensure a permanent human presence beyond low Earth orbit, venturing out to other planets and moons.

    Idioma originalInglés
    Páginas (desde-hasta)995-1008
    Número de páginas14
    PublicaciónNature
    Volumen632
    N.º8027
    DOI
    EstadoPublicada - 29 ago. 2024

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    © Springer Nature Limited 2024.

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