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. Desai; Raja 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

doi:10.1038/s41586-024-07586-8

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. Desai

Raja 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

Cornell University
The WorldQuant Initiative for Quantitative Prediction
Metavisionairies
NASA Ames Research Center
National and Kapodistrian University of Athens
Buck Institute for Research on Aging
University of Pennsylvania
Colorado State University
University of Malta
Embry-Riddle Aeronautical University
Mito-Act Research Consortium
Universidad de los Andes Chile
Center of Interventional Medicine for Precision and Advanced Cellular Therapy
Southwest Research Institute
Harvard University
Seed Health
University of Zurich
Universidad San Francisco de Quito
Cornell University
Stanford University School of Medicine
Universidad Austral
KTH Royal Institute of Technology
ANYg Labs
Zagazig University
Georgia Institute of Technology
Future of Life Institute
Paracelsus Private Medical University
Hospital Gmünd
Texas AandM University
Iowa State University
Space Research Within Reach
Baylor College of Medicine
University of Colorado Boulder
California Institute of Technology
University of California at Irvine
Georgetown University
Medical University of Gdansk
University of Tsukuba
BioAstra, Inc
Stanford University
University of Texas Medical Branch at Galveston
KBR, Inc
Wake Forest University
NASA Johnson Space Center
Bioastra
Ursa Biotechnology Corporation
Boulder
King Faisal Specialist Hospital and Research Centre
University College London
Davis School of Gerontology, University of Southern California
University of Toronto Faculty of Medicine
Toronto General Hospital Research Institute
University of Maryland, Baltimore
Keck School of Medicine of USC
LLC
Space Exploration Technologies Corporation
Broad Institute

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43 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 original	Inglés
Páginas (desde-hasta)	995-1008
Número de páginas	14
Publicación	Nature
Volumen	632
N.º	8027
DOI	https://doi.org/10.1038/s41586-024-07586-8
Estado	Publicada - 29 ago. 2024

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Mason, C. E., Green, J., Adamopoulos, K. I., Afshin, E. E., Baechle, J. J., Basner, M., Bailey, S. M., Bielski, L., Borg, J., Borg, J., Broddrick, J. T., Burke, M., Caicedo, A., Castañeda, V., Chatterjee, S., Chin, C. R., Church, G., Costes, S. V., De Vlaminck, I., ... Beheshti, A. (2024). A second space age spanning omics, platforms and medicine across orbits. Nature, 632(8027), 995-1008. https://doi.org/10.1038/s41586-024-07586-8

@article{e28e38dfb94f47c4b1b5e2f954e62db3,

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

abstract = "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 {\textquoteleft}second space age{\textquoteright}. 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.",

author = "Mason, \{Christopher E.\} and James Green and Adamopoulos, \{Konstantinos I.\} and Afshin, \{Evan E.\} and Baechle, \{Jordan J.\} and Mathias Basner and Bailey, \{Susan M.\} and Luca Bielski and Josef Borg and Joseph Borg and Broddrick, \{Jared T.\} and Marissa Burke and Andr{\'e}s Caicedo and Ver{\'o}nica Casta{\~n}eda and Subhamoy Chatterjee and Chin, \{Christopher R.\} and George Church and Costes, \{Sylvain V.\} and \{De Vlaminck\}, Iwijn and Desai, \{Rajeev I.\} and Raja Dhir and Diaz, \{Juan Esteban\} and Etlin, \{Sofia M.\} and Zachary Feinstein and David Furman and Garcia-Medina, \{J. Sebastian\} and Francine Garrett-Bakelman and Stefania Giacomello and Anjali Gupta and Amira Hassanin and Nadia Houerbi and Iris Irby and Emilia Javorsky and Peter Jirak and Jones, \{Christopher W.\} and Kamal, \{Khaled Y.\} and Kangas, \{Brian D.\} and Fathi Karouia and Kim, \{Jang Keun\} and Kim, \{Joo Hyun\} and Kleinman, \{Ashley S.\} and Try Lam and Lawler, \{John M.\} and Lee, \{Jessica A.\} and Limoli, \{Charles L.\} and Alexander Lucaci and Matthew MacKay and McDonald, \{J. Tyson\} and Melnick, \{Ari M.\} and Cem Meydan and Jakub Mieczkowski and Masafumi Muratani and Deena Najjar and Othman, \{Mariam A.\} and Overbey, \{Eliah G.\} and Vera Paar and Jiwoon Park and Paul, \{Amber M.\} and Adrian Perdyan and Jacqueline Proszynski and Reynolds, \{Robert J.\} and Ronca, \{April E.\} and Kate Rubins and Ryon, \{Krista A.\} and Sanders, \{Lauren M.\} and Glowe, \{Patricia Savi\} and Yash Shevde and Schmidt, \{Michael A.\} and Scott, \{Ryan T.\} and Bader Shirah and Karolina Sienkiewicz and Sierra, \{Maria A.\} and Keith Siew and Theriot, \{Corey A.\} and Tierney, \{Braden T.\} and Kasthuri Venkateswaran and Hirschberg, \{Jeremy Wain\} and Walsh, \{Stephen B.\} and Claire Walter and Winer, \{Daniel A.\} and Min Yu and Luis Zea and Jaime Mateus and Afshin Beheshti",

note = "Publisher Copyright: {\textcopyright} Springer Nature Limited 2024.",

year = "2024",

month = aug,

day = "29",

doi = "10.1038/s41586-024-07586-8",

language = "Ingl{\'e}s",

volume = "632",

pages = "995--1008",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

number = "8027",

}

Mason, CE, Green, J, Adamopoulos, KI, Afshin, EE, Baechle, JJ, Basner, M, Bailey, SM, Bielski, L, Borg, J, Borg, J, Broddrick, JT, Burke, M, Caicedo, A, Castañeda, V, Chatterjee, S, Chin, CR, Church, G, Costes, SV, De Vlaminck, I, Desai, RI, Dhir, R, Diaz, JE, Etlin, SM, Feinstein, Z, Furman, D, Garcia-Medina, JS, Garrett-Bakelman, F, Giacomello, S, Gupta, A, Hassanin, A, Houerbi, N, Irby, I, Javorsky, E, Jirak, P, Jones, CW, Kamal, KY, Kangas, BD, Karouia, F, Kim, JK, Kim, JH, Kleinman, AS, Lam, T, Lawler, JM, Lee, JA, Limoli, CL, Lucaci, A, MacKay, M, McDonald, JT, Melnick, AM, Meydan, C, Mieczkowski, J, Muratani, M, Najjar, D, Othman, MA, Overbey, EG, Paar, V, Park, J, Paul, AM, Perdyan, A, Proszynski, J, Reynolds, RJ, Ronca, AE, Rubins, K, Ryon, KA, Sanders, LM, Glowe, PS, Shevde, Y, Schmidt, MA, Scott, RT, Shirah, B, Sienkiewicz, K, Sierra, MA, Siew, K, Theriot, CA, Tierney, BT, Venkateswaran, K, Hirschberg, JW, Walsh, SB, Walter, C, Winer, DA, Yu, M, Zea, L, Mateus, J & Beheshti, A 2024, 'A second space age spanning omics, platforms and medicine across orbits', Nature, vol. 632, n.º 8027, pp. 995-1008. https://doi.org/10.1038/s41586-024-07586-8

TY - JOUR

T1 - A second space age spanning omics, platforms and medicine across orbits

AU - Mason, Christopher E.

AU - Green, James

AU - Adamopoulos, Konstantinos I.

AU - Afshin, Evan E.

AU - Baechle, Jordan J.

AU - Basner, Mathias

AU - Bailey, Susan M.

AU - Bielski, Luca

AU - Borg, Josef

AU - Borg, Joseph

AU - Broddrick, Jared T.

AU - Burke, Marissa

AU - Caicedo, Andrés

AU - Castañeda, Verónica

AU - Chatterjee, Subhamoy

AU - Chin, Christopher R.

AU - Church, George

AU - Costes, Sylvain V.

AU - De Vlaminck, Iwijn

AU - Desai, Rajeev I.

AU - Dhir, Raja

AU - Diaz, Juan Esteban

AU - Etlin, Sofia M.

AU - Feinstein, Zachary

AU - Furman, David

AU - Garcia-Medina, J. Sebastian

AU - Garrett-Bakelman, Francine

AU - Giacomello, Stefania

AU - Gupta, Anjali

AU - Hassanin, Amira

AU - Houerbi, Nadia

AU - Irby, Iris

AU - Javorsky, Emilia

AU - Jirak, Peter

AU - Jones, Christopher W.

AU - Kamal, Khaled Y.

AU - Kangas, Brian D.

AU - Karouia, Fathi

AU - Kim, Jang Keun

AU - Kim, Joo Hyun

AU - Kleinman, Ashley S.

AU - Lam, Try

AU - Lawler, John M.

AU - Lee, Jessica A.

AU - Limoli, Charles L.

AU - Lucaci, Alexander

AU - MacKay, Matthew

AU - McDonald, J. Tyson

AU - Melnick, Ari M.

AU - Meydan, Cem

AU - Mieczkowski, Jakub

AU - Muratani, Masafumi

AU - Najjar, Deena

AU - Othman, Mariam A.

AU - Overbey, Eliah G.

AU - Paar, Vera

AU - Park, Jiwoon

AU - Paul, Amber M.

AU - Perdyan, Adrian

AU - Proszynski, Jacqueline

AU - Reynolds, Robert J.

AU - Ronca, April E.

AU - Rubins, Kate

AU - Ryon, Krista A.

AU - Sanders, Lauren M.

AU - Glowe, Patricia Savi

AU - Shevde, Yash

AU - Schmidt, Michael A.

AU - Scott, Ryan T.

AU - Shirah, Bader

AU - Sienkiewicz, Karolina

AU - Sierra, Maria A.

AU - Siew, Keith

AU - Theriot, Corey A.

AU - Tierney, Braden T.

AU - Venkateswaran, Kasthuri

AU - Hirschberg, Jeremy Wain

AU - Walsh, Stephen B.

AU - Walter, Claire

AU - Winer, Daniel A.

AU - Yu, Min

AU - Zea, Luis

AU - Mateus, Jaime

AU - Beheshti, Afshin

PY - 2024/8/29

Y1 - 2024/8/29

N2 - 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.

AB - 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.

UR - https://www.scopus.com/pages/publications/85193306680

U2 - 10.1038/s41586-024-07586-8

DO - 10.1038/s41586-024-07586-8

M3 - Artículo

C2 - 38862027

AN - SCOPUS:85193306680

SN - 0028-0836

VL - 632

SP - 995

EP - 1008

JO - Nature

JF - Nature

IS - 8027

ER -

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

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