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Your search keyword '"Babdor, Joël"' showing total 13 results
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13 results on '"Babdor, Joël"'

1. Beyond Low Earth Orbit: Biological Research, Artificial Intelligence, and Self-Driving Labs

Author

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

Subjects
Quantitative Biology - Other Quantitative Biology, Computer Science - Machine Learning
Abstract

Space biology research aims to understand fundamental effects of spaceflight on organisms, develop foundational knowledge to support deep space exploration, and ultimately bioengineer spacecraft and habitats to stabilize the ecosystem of plants, crops, microbes, animals, and humans for sustained multi-planetary life. To advance these aims, the field leverages experiments, platforms, data, and model organisms from both spaceborne and ground-analog studies. As research is extended beyond low Earth orbit, experiments and platforms must be maximally autonomous, light, agile, and intelligent to expedite knowledge discovery. Here we present a summary of recommendations from a workshop organized by the National Aeronautics and Space Administration on artificial intelligence, machine learning, and modeling applications which offer key solutions toward these space biology challenges. In the next decade, the synthesis of artificial intelligence into the field of space biology will deepen the biological understanding of spaceflight effects, facilitate predictive modeling and analytics, support maximally autonomous and reproducible experiments, and efficiently manage spaceborne data and metadata, all with the goal to enable life to thrive in deep space., Comment: 28 pages, 4 figures

Published
2021

2. Beyond Low Earth Orbit: Biomonitoring, Artificial Intelligence, and Precision Space Health

Author

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

Subjects
Quantitative Biology - Other Quantitative Biology, Computer Science - Machine Learning
Abstract

Human space exploration beyond low Earth orbit will involve missions of significant distance and duration. To effectively mitigate myriad space health hazards, paradigm shifts in data and space health systems are necessary to enable Earth-independence, rather than Earth-reliance. Promising developments in the fields of artificial intelligence and machine learning for biology and health can address these needs. We propose an appropriately autonomous and intelligent Precision Space Health system that will monitor, aggregate, and assess biomedical statuses; analyze and predict personalized adverse health outcomes; adapt and respond to newly accumulated data; and provide preventive, actionable, and timely insights to individual deep space crew members and iterative decision support to their crew medical officer. Here we present a summary of recommendations from a workshop organized by the National Aeronautics and Space Administration, on future applications of artificial intelligence in space biology and health. In the next decade, biomonitoring technology, biomarker science, spacecraft hardware, intelligent software, and streamlined data management must mature and be woven together into a Precision Space Health system to enable humanity to thrive in deep space., Comment: 31 pages, 4 figures

Published
2021

3. Neuropilin-1 cooperates with PD-1 in CD8+ T cells predicting outcomes in melanoma patients treated with anti-PD1

Author

Rossignol, Julien, Belaid, Zakia, Fouquet, Guillemette, Guillem, Flavia, Rignault, Rachel, Milpied, Pierre, Renand, Amédée, Coman, Tereza, D’Aveni, Maud, Dussiot, Michael, Colin, Elia, Levy, Jonathan, Carvalho, Caroline, Goudin, Nicolas, Cagnard, Nicolas, Côté, Francine, Babdor, Joel, Bhukhai, Kanit, Polivka, Laura, Bigorgne, Amélie E., Halse, Héloise, Marabelle, Aurélien, Mouraud, Séverine, Lepelletier, Yves, Maciel, Thiago T., Rubio, Marie-Thérèse, Heron, Delphine, Robert, Caroline, Girault, Isabelle, Lebeherec, Doris, Scoazec, Jean-Yves, Moura, Ivan, Condon, Louise, Weimershaus, Mirjana, Pages, Franck, Davoust, Jean, Gross, David, and Hermine, Olivier

Published
2022
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8. Innate Immune Signals Induce Anterograde Endosome Transport Promoting MHC Class I Cross-Presentation

Author

Weimershaus, Mirjana, primary, Mauvais, François-Xavier, additional, Saveanu, Loredana, additional, Adiko, Cézaire, additional, Babdor, Joël, additional, Abramova, Anastasia, additional, Montealegre, Sebastian, additional, Lawand, Myriam, additional, Evnouchidou, Irini, additional, Huber, Katharina Julia, additional, Chadt, Alexandra, additional, Zwick, Markus, additional, Vargas, Pablo, additional, Dussiot, Michael, additional, Lennon-Dumenil, Ana Maria, additional, Brocker, Thomas, additional, Al-Hasani, Hadi, additional, and van Endert, Peter, additional

Published
2018
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9. Impaired Transferrin Receptor Palmitoylation and Recycling in Neurodegeneration with Brain Iron Accumulation

Author

Drecourt, Anthony, primary, Babdor, Joël, additional, Dussiot, Michael, additional, Petit, Floriane, additional, Goudin, Nicolas, additional, Garfa-Traoré, Meriem, additional, Habarou, Florence, additional, Bole-Feysot, Christine, additional, Nitschké, Patrick, additional, Ottolenghi, Chris, additional, Metodiev, Metodi D., additional, Serre, Valérie, additional, Desguerre, Isabelle, additional, Boddaert, Nathalie, additional, Hermine, Olivier, additional, Munnich, Arnold, additional, and Rötig, Agnès, additional

Published
2018
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11. Post-paralysis tyrosine kinase inhibition with masitinib abrogates neuroinflammation and slows disease progression in inherited amyotrophic lateral sclerosis

Author

Trias, Emiliano, primary, Ibarburu, Sofía, additional, Barreto-Núñez, Romina, additional, Babdor, Joël, additional, Maciel, Thiago T., additional, Guillo, Matthias, additional, Gros, Laurent, additional, Dubreuil, Patrice, additional, Díaz-Amarilla, Pablo, additional, Cassina, Patricia, additional, Martínez-Palma, Laura, additional, Moura, Ivan C., additional, Beckman, Joseph S., additional, Hermine, Olivier, additional, and Barbeito, Luis, additional

Published
2016
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12. Additional file 1: of Post-paralysis tyrosine kinase inhibition with masitinib abrogates neuroinflammation and slows disease progression in inherited amyotrophic lateral sclerosis

Author

Trias, Emiliano, Ibarburu, Sofía, Barreto-Núñez, Romina, Babdor, Joël, Thiago Maciel, Guillo, Matthias, Gros, Laurent, Dubreuil, Patrice, Díaz-Amarilla, Pablo, Cassina, Patricia, Martínez-Palma, Laura, Moura, Ivan, Beckman, Joseph, Hermine, Olivier, and Barbeito, Luis

Subjects
3. Good health
Abstract

Figures S1. Masitinib inhibited microgliosis along the degenerating spinal cord. Figure S2. Masitinib treatment after paralysis onset increased survival of SOD1G93A female and male rats. (DOCX 700 kb)

13. Additional file 1: of Post-paralysis tyrosine kinase inhibition with masitinib abrogates neuroinflammation and slows disease progression in inherited amyotrophic lateral sclerosis

Author

Trias, Emiliano, Ibarburu, Sofía, Barreto-Núñez, Romina, Babdor, Joël, Thiago Maciel, Guillo, Matthias, Gros, Laurent, Dubreuil, Patrice, Díaz-Amarilla, Pablo, Cassina, Patricia, Martínez-Palma, Laura, Moura, Ivan, Beckman, Joseph, Hermine, Olivier, and Barbeito, Luis

Subjects
3. Good health
Abstract

Figures S1. Masitinib inhibited microgliosis along the degenerating spinal cord. Figure S2. Masitinib treatment after paralysis onset increased survival of SOD1G93A female and male rats. (DOCX 700 kb)

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