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3. How to obtain an integrated picture of the molecular networks involved in adaptation to microgravity in different biological systems?

Author

Willis, Craig R. G., Calvaruso, Marco, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith-Irina, Carnero-Diaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Chouker, Alexander, Cialdai, Francesca, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl’Innocenti, Andrea, Desaphy, Jean-Francois, Frippiat, Jean-Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Herranz, Raúl, Hellweg, Christine, Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Rettberg, Petra, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Risaliti, Chiara, Santucci, Daniela, Sperl, Matthias, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, Ronnie, Monici, Monica, and Szewczyk, Nathaniel J.

Published
2024
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4. How are cell and tissue structure and function influenced by gravity and what are the gravity perception mechanisms?

Author

Davis, Trent, Tabury, Kevin, Zhu, Shouan, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith-Irina, Calvaruso, Marco, Carnero-Diaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Cialdai, Francesca, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl’Innocenti, Andrea, Desaphy, Jean-Francois, Frippiat, Jean-Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack J.W.A., Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Tavella, Sara, Thielemann, Christiane, Willaert, Ronnie, Szewczyk, Nathaniel, and Monici, Monica

Published
2024
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5. How do gravity alterations affect animal and human systems at a cellular/tissue level?

Author

Cialdai, Francesca, Brown, Austin M., Baumann, Cory W., Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith-Irina, Calvaruso, Marco, Carnero-Diaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl’Innocenti, Andrea, Desaphy, Jean-Francois, Frippiat, Jean-Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Risaliti, Chiara, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Strollo, Felice, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, Ronnie, Szewczyk, Nathaniel J., and Monici, Monica

Published
2023
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9. How are cell and tissue structure and function influenced by gravity and what are the gravity perception mechanisms?

Author

Davis, Trent [0000-0001-5704-0335], Tabury, Kevin [0000-0002-8004-3718], Zhu, Shouan [0000-0002-4973-1504], Angeloni, Debora [0000-0002-3850-5392], Baatout, Sarah [0000-0001-8110-751X], Benchoua, Alexandra [0000-0002-9980-6471], Bottai, Daniele [0000-0002-7951-9512], Buchheim, Judith-Irina [0000-0003-3605-955X], Carnero-Díaz, Eugénie [0000-0002-3771-3106], Cavalieri, Duccio [0000-0001-6426-5719], Choukér, Alexander [0000-0002-0133-4104], Cialdai, Francesca [0000-0002-2290-0566], Ciofani, Gianni [0000-0003-1192-3647], Cusella, Gabriella [0000-0003-2642-3346], Degl'Innocenti, Andrea [0000-0002-5204-5601], Desaphy, Jean-Francois [0000-0001-8816-9369], Frippiat, Jean-Pol [0000-0002-4027-6269], Gelinsky, Michael [0000-0001-9075-5121], Genchi, Giada [0000-0002-2154-7991], Grano, Maria [0000-0002-7121-5899], Grimm, Daniela [0000-0002-4991-3105], Guignandon, Alain [0000-0002-0745-5417], Hatton, Jason [0000-0002-5763-2944], Herranz, Raúl [0000-0002-0246-9449], Hellweg, Christine E. [0000-0002-2223-3580], Iorio, Carlo Saverio [0000-0003-0952-0064], Karapantsios, Thodoris [0000-0001-6641-3359], van Loon, Jack JWA [0000-0001-9051-6016], Lulli, Matteo [0000-0002-8528-4094], Malda, Jos [0000-0002-9241-7676], Morbidelli, Lucia [0000-0001-8148-7049], Van Ombergen, Angelique [0000-0002-3977-4279], Osterman, Andreas [0000-0001-5435-5972], Ovsianikov, Aleksandr [0000-0001-5846-0198], Pampaloni, Francesco [0000-0003-4357-7320], Przybyla, Cyrille [0000-0001-8093-8426], Rettberg, Petra [0000-0003-4439-2395], Rizzo, Angela Maria [0000-0002-8582-0432], Robson-Brown, Kate [0000-0003-4797-8965], Rossi, Leonardo [0000-0003-4974-3860], Russo, Giorgio [0000-0003-1493-1087], Salvetti, Alessandra [0000-0002-9154-9773], Santucci, Daniela [0000-0002-4619-1290], Sperl, Matthias [0000-0001-9525-0368], Tavella, Sara [0000-0003-1478-4910], Thielemann, Christiane [0000-0002-9814-4744], Willaert, R. [0000-0002-5400-7019], Szewczyk, Nathaniel [0000-0003-4425-9746], Monici, Monica [0000-0001-6678-9241], Davis, Trent, Tabury, Kevin, Zhu, Shouan, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith-Irina, Calvaruso, Marco, Carnero-Díaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Cialdai, Francesca, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl'Innocenti, Andrea, Desaphy, Jean-Francois, Frippiat, Jean-Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack JWA, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, Van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Tavella, Sara, Thielemann, Christiane, Willaert, R., Szewczyk, Nathaniel, Monici, Monica, Davis, Trent [0000-0001-5704-0335], Tabury, Kevin [0000-0002-8004-3718], Zhu, Shouan [0000-0002-4973-1504], Angeloni, Debora [0000-0002-3850-5392], Baatout, Sarah [0000-0001-8110-751X], Benchoua, Alexandra [0000-0002-9980-6471], Bottai, Daniele [0000-0002-7951-9512], Buchheim, Judith-Irina [0000-0003-3605-955X], Carnero-Díaz, Eugénie [0000-0002-3771-3106], Cavalieri, Duccio [0000-0001-6426-5719], Choukér, Alexander [0000-0002-0133-4104], Cialdai, Francesca [0000-0002-2290-0566], Ciofani, Gianni [0000-0003-1192-3647], Cusella, Gabriella [0000-0003-2642-3346], Degl'Innocenti, Andrea [0000-0002-5204-5601], Desaphy, Jean-Francois [0000-0001-8816-9369], Frippiat, Jean-Pol [0000-0002-4027-6269], Gelinsky, Michael [0000-0001-9075-5121], Genchi, Giada [0000-0002-2154-7991], Grano, Maria [0000-0002-7121-5899], Grimm, Daniela [0000-0002-4991-3105], Guignandon, Alain [0000-0002-0745-5417], Hatton, Jason [0000-0002-5763-2944], Herranz, Raúl [0000-0002-0246-9449], Hellweg, Christine E. [0000-0002-2223-3580], Iorio, Carlo Saverio [0000-0003-0952-0064], Karapantsios, Thodoris [0000-0001-6641-3359], van Loon, Jack JWA [0000-0001-9051-6016], Lulli, Matteo [0000-0002-8528-4094], Malda, Jos [0000-0002-9241-7676], Morbidelli, Lucia [0000-0001-8148-7049], Van Ombergen, Angelique [0000-0002-3977-4279], Osterman, Andreas [0000-0001-5435-5972], Ovsianikov, Aleksandr [0000-0001-5846-0198], Pampaloni, Francesco [0000-0003-4357-7320], Przybyla, Cyrille [0000-0001-8093-8426], Rettberg, Petra [0000-0003-4439-2395], Rizzo, Angela Maria [0000-0002-8582-0432], Robson-Brown, Kate [0000-0003-4797-8965], Rossi, Leonardo [0000-0003-4974-3860], Russo, Giorgio [0000-0003-1493-1087], Salvetti, Alessandra [0000-0002-9154-9773], Santucci, Daniela [0000-0002-4619-1290], Sperl, Matthias [0000-0001-9525-0368], Tavella, Sara [0000-0003-1478-4910], Thielemann, Christiane [0000-0002-9814-4744], Willaert, R. [0000-0002-5400-7019], Szewczyk, Nathaniel [0000-0003-4425-9746], Monici, Monica [0000-0001-6678-9241], Davis, Trent, Tabury, Kevin, Zhu, Shouan, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith-Irina, Calvaruso, Marco, Carnero-Díaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Cialdai, Francesca, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl'Innocenti, Andrea, Desaphy, Jean-Francois, Frippiat, Jean-Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack JWA, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, Van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Tavella, Sara, Thielemann, Christiane, Willaert, R., Szewczyk, Nathaniel, and Monici, Monica

Abstract

Progress in mechanobiology allowed us to better understand the important role of mechanical forces in the regulation of biological processes. Space research in the field of life sciences clearly showed that gravity plays a crucial role in biological processes. The space environment offers the unique opportunity to carry out experiments without gravity, helping us not only to understand the effects of gravitational alterations on biological systems but also the mechanisms underlying mechanoperception and cell/tissue response to mechanical and gravitational stresses. Despite the progress made so far, for future space exploration programs it is necessary to increase our knowledge on the mechanotransduction processes as well as on the molecular mechanisms underlying microgravity-induced cell and tissue alterations. This white paper reports the suggestions and recommendations of the SciSpacE Science Community for the elaboration of the section of the European Space Agency roadmap “Biology in Space and Analogue Environments” focusing on “How are cells and tissues influenced by gravity and what are the gravity perception mechanisms?” The knowledge gaps that prevent the Science Community from fully answering this question and the activities proposed to fill them are discussed.

Published
2024

10. How to obtain an integrated picture of the molecular networks involved in adaptation to microgravity in different biological systems?

Author

Federal Ministry of Economics and Technology (Germany), Angeloni, Debora [0000-0002-3850-5392], Baatout, Sarah [0000-0001-8110-751X], Benchoua, Alexandra [0000-0002-9980-6471], Bottai, Daniele [0000-0002-7951-9512], Buchheim, Judith-Irina [0000-0003-3605-955X], Carnero-Díaz, Eugénie [0000-0002-3771-3106], Castiglioni, Sara [0000-0002-8785-9891], Cavalieri, Duccio [0000-0001-6426-5719], Choukér, Alexander [0000-0002-0133-4104], Cialdai, Francesca [0000-0002-2290-0566], Ciofani, Gianni [0000-0003-1192-3647], Cusella, Gabriella [0000-0003-2642-3346], Degl'Innocenti, Andrea [0000-0002-5204-5601], Desaphy, Jean-Francois [0000-0001-8816-9369], Frippiat, Jean-Pol [0000-0002-4027-6269], Gelinsky, Michael [0000-0001-9075-5121], Genchi, Giada [0000-0002-2154-7991], Grano, Maria [0000-0002-7121-5899], Grimm, Daniela [0000-0002-4991-3105], Guignandon, Alain [0000-0002-0745-5417], Herranz, Raúl [0000-0002-0246-9449], Hellweg, Christine E. [0000-0002-2223-3580], Iorio, Carlo Saverio [0000-0003-0952-0064], Karapantsios, Thodoris [0000-0001-6641-3359], van Loon, Jack JWA [0000-0001-9051-6016], Lulli, Matteo [0000-0002-8528-4094], Malda, Jos [0000-0002-9241-7676], Morbidelli, Lucia [0000-0001-8148-7049], Osterman, Andreas [0000-0001-5435-5972], Ovsianikov, Aleksandr [0000-0001-5846-0198], Pampaloni, Francesco [0000-0003-4357-7320], Przybyla, Cyrille [0000-0001-8093-8426], Rettberg, Petra [0000-0003-4439-2395], Rizzo, Angela Maria [0000-0002-8582-0432], Robson-Brown, Kate [0000-0003-4797-8965], Rossi, Leonardo [0000-0003-4974-3860], Russo, Giorgio [0000-0003-1493-1087], Salvetti, Alessandra [0000-0002-9154-9773], Risaliti, Chiara [0000-0003-1695-0548], Santucci, Daniela [0000-0002-4619-1290], Sperl, Matthias [0000-0001-9525-0368], Tabury, Kevin [0000-0002-8004-3718], Tavella, Sara [0000-0003-1478-4910], Thielemann, Christiane [0000-0002-9814-4744], Willaert, R. [0000-0002-5400-7019], Monici, Monica [0000-0001-6678-9241], Szewczyk, Nathaniel [0000-0003-4425-9746], Willis, Craig R.G., Calvaruso, Marco, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith-Irina, Carnero-Díaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Cialdai, Francesca, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl'Innocenti, Andrea, Desaphy, Jean-Francois, Frippiat, Jean-Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack JWA, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Rettberg, Petra, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Risaliti, Chiara, Santucci, Daniela, Sperl, Matthias, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, R., Monici, Monica, Szewczyk, Nathaniel, Federal Ministry of Economics and Technology (Germany), Angeloni, Debora [0000-0002-3850-5392], Baatout, Sarah [0000-0001-8110-751X], Benchoua, Alexandra [0000-0002-9980-6471], Bottai, Daniele [0000-0002-7951-9512], Buchheim, Judith-Irina [0000-0003-3605-955X], Carnero-Díaz, Eugénie [0000-0002-3771-3106], Castiglioni, Sara [0000-0002-8785-9891], Cavalieri, Duccio [0000-0001-6426-5719], Choukér, Alexander [0000-0002-0133-4104], Cialdai, Francesca [0000-0002-2290-0566], Ciofani, Gianni [0000-0003-1192-3647], Cusella, Gabriella [0000-0003-2642-3346], Degl'Innocenti, Andrea [0000-0002-5204-5601], Desaphy, Jean-Francois [0000-0001-8816-9369], Frippiat, Jean-Pol [0000-0002-4027-6269], Gelinsky, Michael [0000-0001-9075-5121], Genchi, Giada [0000-0002-2154-7991], Grano, Maria [0000-0002-7121-5899], Grimm, Daniela [0000-0002-4991-3105], Guignandon, Alain [0000-0002-0745-5417], Herranz, Raúl [0000-0002-0246-9449], Hellweg, Christine E. [0000-0002-2223-3580], Iorio, Carlo Saverio [0000-0003-0952-0064], Karapantsios, Thodoris [0000-0001-6641-3359], van Loon, Jack JWA [0000-0001-9051-6016], Lulli, Matteo [0000-0002-8528-4094], Malda, Jos [0000-0002-9241-7676], Morbidelli, Lucia [0000-0001-8148-7049], Osterman, Andreas [0000-0001-5435-5972], Ovsianikov, Aleksandr [0000-0001-5846-0198], Pampaloni, Francesco [0000-0003-4357-7320], Przybyla, Cyrille [0000-0001-8093-8426], Rettberg, Petra [0000-0003-4439-2395], Rizzo, Angela Maria [0000-0002-8582-0432], Robson-Brown, Kate [0000-0003-4797-8965], Rossi, Leonardo [0000-0003-4974-3860], Russo, Giorgio [0000-0003-1493-1087], Salvetti, Alessandra [0000-0002-9154-9773], Risaliti, Chiara [0000-0003-1695-0548], Santucci, Daniela [0000-0002-4619-1290], Sperl, Matthias [0000-0001-9525-0368], Tabury, Kevin [0000-0002-8004-3718], Tavella, Sara [0000-0003-1478-4910], Thielemann, Christiane [0000-0002-9814-4744], Willaert, R. [0000-0002-5400-7019], Monici, Monica [0000-0001-6678-9241], Szewczyk, Nathaniel [0000-0003-4425-9746], Willis, Craig R.G., Calvaruso, Marco, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith-Irina, Carnero-Díaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Cialdai, Francesca, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl'Innocenti, Andrea, Desaphy, Jean-Francois, Frippiat, Jean-Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack JWA, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Rettberg, Petra, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Risaliti, Chiara, Santucci, Daniela, Sperl, Matthias, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, R., Monici, Monica, and Szewczyk, Nathaniel

Abstract

Periodically, the European Space Agency (ESA) updates scientific roadmaps in consultation with the scientific community. The ESA SciSpacE Science Community White Paper (SSCWP) 9, “Biology in Space and Analogue Environments”, focusses in 5 main topic areas, aiming to address key community-identified knowledge gaps in Space Biology. Here we present one of the identified topic areas, which is also an unanswered question of life science research in Space: “How to Obtain an Integrated Picture of the Molecular Networks Involved in Adaptation to Microgravity in Different Biological Systems?” The manuscript reports the main gaps of knowledge which have been identified by the community in the above topic area as well as the approach the community indicates to address the gaps not yet bridged. Moreover, the relevance that these research activities might have for the space exploration programs and also for application in industrial and technological fields on Earth is briefly discussed.

Published
2024

18. How are cell and tissue structure and function influenced by gravity and what are the gravity perception mechanisms?

Author

Zorgeenheid Orthopaedie Medisch, Orthopaedie Onderzoek, Regenerative Medicine and Stem Cells, Davis, Trent, Tabury, Kevin, Zhu, Shouan, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith Irina, Calvaruso, Marco, Carnero-Diaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Cialdai, Francesca, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl’Innocenti, Andrea, Desaphy, Jean Francois, Frippiat, Jean Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack J.W.A., Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Tavella, Sara, Thielemann, Christiane, Willaert, Ronnie, Szewczyk, Nathaniel, Monici, Monica, Zorgeenheid Orthopaedie Medisch, Orthopaedie Onderzoek, Regenerative Medicine and Stem Cells, Davis, Trent, Tabury, Kevin, Zhu, Shouan, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith Irina, Calvaruso, Marco, Carnero-Diaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Cialdai, Francesca, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl’Innocenti, Andrea, Desaphy, Jean Francois, Frippiat, Jean Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack J.W.A., Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Tavella, Sara, Thielemann, Christiane, Willaert, Ronnie, Szewczyk, Nathaniel, and Monici, Monica

Published
2024

19. How to obtain an integrated picture of the molecular networks involved in adaptation to microgravity in different biological systems?

Author

Zorgeenheid Orthopaedie Medisch, Orthopaedie Onderzoek, Regenerative Medicine and Stem Cells, Willis, Craig R.G., Calvaruso, Marco, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith Irina, Carnero-Diaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Chouker, Alexander, Cialdai, Francesca, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl’Innocenti, Andrea, Desaphy, Jean Francois, Frippiat, Jean Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Herranz, Raúl, Hellweg, Christine, Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Rettberg, Petra, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Risaliti, Chiara, Santucci, Daniela, Sperl, Matthias, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, Ronnie, Monici, Monica, Szewczyk, Nathaniel J., Zorgeenheid Orthopaedie Medisch, Orthopaedie Onderzoek, Regenerative Medicine and Stem Cells, Willis, Craig R.G., Calvaruso, Marco, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith Irina, Carnero-Diaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Chouker, Alexander, Cialdai, Francesca, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl’Innocenti, Andrea, Desaphy, Jean Francois, Frippiat, Jean Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Herranz, Raúl, Hellweg, Christine, Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Rettberg, Petra, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Risaliti, Chiara, Santucci, Daniela, Sperl, Matthias, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, Ronnie, Monici, Monica, and Szewczyk, Nathaniel J.

Published
2024

20. Exploring new space materials with ISRU and image analysis for space applications with the example of the Moon

Author

Hendrick, Patrick, Iorio, Carlo Saverio, Delplancke, Marie-Paule, Machrafi, Hatim, AlMaeeni, Sara, Godet, Stéphane, Borella, Laura, Hendrick, Patrick, Iorio, Carlo Saverio, Delplancke, Marie-Paule, Machrafi, Hatim, AlMaeeni, Sara, Godet, Stéphane, and Borella, Laura

Abstract

The harsh and challenging space environment, with the example of the Moon, poses significant obstacles to human exploration. Currently, concepts like human permanence on the Moon, and living modules made with ISRU (In - Situ Recourses Utilization) of raw material, have become less and less utopian and have instead started to be real matter, driven mainly by business plans. The spaceflight paradigm is changed by reducing the need to launch supplies from the Earth, privileging the vanguard of utilising resources in-loco.To mitigate the detrimental effects of these extreme conditions on unmanned space vehicles and human habitats, there is an urgent need to develop materials capable of withstanding such conditions. This research aims to address this need by presenting a series of novel materials specifically designed and produced for lunar and space applications. This, encompasses their production from scratch, including the utilisation of simulant lunar regolith from the highlands for a potential In-Situ Resource Utilization (ISRU) option. To validate their suitability on the Moon environment, samples of materials were incorporated into the wheels of Rashid rover, part of ELM (Emirates Lunar Mission) by MBRSC (Mohammed Bin Rashid Space Center).Prior the mission, an extensive analysis was conducted to characterize mechanical, material, and thermal properties of the materials. Furthermore, advanced detection techniques and image processing were employed to identify key features and structural integrity of the materials, after testing, characterising their reliability and durability on the Moon. The novel materials exhibited remarkable performance in terms of manufacturing techniques, thermal stability, and degradation rate.Overall, this study contributes to the ongoing efforts aimed at enabling habitats for human activity on the Moon. In the prospect of the new era of Moon exploration the utilization of in-situ resources enables humans to make use of the resources availa, Doctorat en Sciences de l'ingénieur et technologie, info:eu-repo/semantics/nonPublished

Published
2024

21. Innovative AI-Enhanced Ice Detection System Using Graphene-Based Sensors for Enhanced Aviation Safety and Efficiency.

Author

Farina, Dario, Machrafi, Hatim, Queeckers, Patrick, Dongo, Patrice D., and Iorio, Carlo Saverio

Subjects
MACHINE learning, ICE prevention & control, AERONAUTICAL safety measures, SUPPORT vector machines, K-means clustering, AIRCRAFT accidents, RANDOM forest algorithms, SUPERVISED learning
Abstract

Ice formation on aircraft surfaces poses significant safety risks, and current detection systems often struggle to provide accurate, real-time predictions. This paper presents the development and comprehensive evaluation of a smart ice control system using a suite of machine learning models. The system utilizes various sensors to detect temperature anomalies and signal potential ice formation. We trained and tested supervised learning models (Logistic Regression, Support Vector Machine, and Random Forest), unsupervised learning models (K-Means Clustering), and neural networks (Multilayer Perceptron) to predict and identify ice formation patterns. The experimental results demonstrate that our smart system, driven by machine learning, accurately predicts ice formation in real time, optimizes deicing processes, and enhances safety while reducing power consumption. This solution holds the potential for improving ice detection accuracy in aviation and other critical industries requiring robust predictive maintenance. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Water Recuperation from Regolith at Martian, Lunar & Micro-Gravity during Parabolic Flight.

Author

Farina, Dario, Machrafi, Hatim, Queeckers, Patrick, Minetti, Christophe, and Iorio, Carlo Saverio

Subjects
HYDROPHOBIC surfaces, REGOLITH, WATER supply, WATER testing, LIQUID surfaces, EXTRATERRESTRIAL resources, PARABOLIC troughs, WATER vapor
Abstract

Recent discoveries of potential ice particles and ice-cemented regolith on extraterrestrial bodies like the Moon and Mars have opened new opportunities for developing technologies to extract water, facilitating future space missions and activities on these extraterrestrial body surfaces. This study explores the potential for water extraction from regolith through an experiment designed to test water recuperation from regolith simulant under varying gravitational conditions. The resultant water vapor extracted from the regolith is re-condensed on a substrate surface and collected in liquid form. Three types of substrates, hydrophobic, hydrophilic, and grooved, are explored. The system's functionality was assessed during a parabolic flight campaign simulating three distinct gravity levels: microgravity, lunar gravity, and Martian gravity. Our findings reveal that the hydrophobic surface demonstrates the highest efficiency due to drop-wise condensation, and lower gravity levels result in increased water condensation on the substrates. The experiments aimed to understand the performance of specific substrates under lunar, Martian, and microgravity conditions, providing an approach for in-situ water recovery, which is crucial for establishing economically sustainable water supplies for future missions. To enhance clarity and readability, in this paper, "H2O" will be referred to as "water". [ABSTRACT FROM AUTHOR]

Published
2024
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23. Laser-induced graphene on cross-linked sodium alginate

Author

Vićentić, Teodora, primary, Greco, Immacolata, additional, Iorio, Carlo Saverio, additional, Miskovic, Vanja, additional, Bajuk-Bogdanovic, Danica, additional, Pasti, Igor, additional, Radulović, Katarina, additional, Klenk, Sebastian, additional, Stimpel-Lindner, Tanja, additional, Duesberg, Georg S, additional, and Spasenović, Marko, additional

Published
2023
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24. How do gravity alterations affect animal and human systems at a cellular/tissue level?

Author

Cialdai, Francesca [0000-0002-2290-0566], Angeloni, Debora [0000-0002-3850-5392], Baatout, Sarah [0000-0001-8110-751X], Benchoua, Alexandra [0000-0002-9980-6471], Bottai, Daniele [0000-0002-7951-9512], Buchheim, Judith-Irina [0000-0003-3605-955X], Carnero-Díaz, Eugénie [0000-0002-3771-3106], Castiglioni, Sara [0000-0002-8785-9891], Cavalieri, Duccio [0000-0001-6426-5719], Choukér, Alexander [0000-0002-0133-4104], Ciofani, Gianni [0000-0003-1192-3647], Cusella, Gabriella [0000-0003-2642-3346], Degl'Innocenti, Andrea [0000-0002-5204-5601], Desaphy, Jean-Francois [0000-0001-8816-9369], Frippiat, Jean-Pol [0000-0002-4027-6269], Gelinsky, Michael [0000-0001-9075-5121], Genchi, Giada [0000-0002-2154-7991], Grano, Maria [0000-0002-7121-5899], Grimm, Daniela [0000-0002-4991-3105], Guignandon, Alain [0000-0002-0745-5417], Hatton, Jason [0000-0002-5763-2944], Herranz, Raúl [0000-0002-0246-9449], Hellweg, Christine E. [0000-0002-2223-3580], Iorio, Carlo Saverio [0000-0003-0952-0064], Karapantsios, Thodoris [0000-0001-6641-3359], van Loon, Jack JWA [0000-0001-9051-6016], Lulli, Matteo [0000-0002-8528-4094], Malda, Jos [0000-0002-9241-7676], Morbidelli, Lucia [0000-0001-8148-7049], Van Ombergen, Angelique [0000-0002-3977-4279], Osterman, Andreas [0000-0001-5435-5972], Ovsianikov, Aleksandr [0000-0001-5846-0198], Pampaloni, Francesco [0000-0003-4357-7320], Przybyla, Cyrille [0000-0001-8093-8426], Rettberg, Petra [0000-0003-4439-2395], Risaliti, Chiara [0000-0003-1695-0548], Rizzo, Angela Maria [0000-0002-8582-0432], Robson-Brown, Kate [0000-0003-4797-8965], Rossi, Leonardo [0000-0003-4974-3860], Russo, Giorgio [0000-0003-1493-1087], Salvetti, Alessandra [0000-0002-9154-9773], Santucci, Daniela [0000-0002-4619-1290], Sperl, Matthias [0000-0001-9525-0368], Strollo, Felice [0000-0001-8917-5314], Tabury, Kevin [0000-0002-8004-3718], Tavella, Sara [0000-0003-1478-4910], Thielemann, Christiane [0000-0002-9814-4744], Willaert, R. [0000-0002-5400-7019], Szewczyk, Nathaniel [0000-0003-4425-9746], Monici, Monica [0000-0001-6678-9241], Cialdai, Francesca, Brown, Austin M., Baumann, Cory W., Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith-Irina, Calvaruso, Marco, Carnero-Díaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl'Innocenti, Andrea, Desaphy, Jean-Francois, Frippiat, Jean-Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack JWA, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, Van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Risaliti, Chiara, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Strollo, Felice, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, R., Szewczyk, Nathaniel, Monici, Monica, Cialdai, Francesca [0000-0002-2290-0566], Angeloni, Debora [0000-0002-3850-5392], Baatout, Sarah [0000-0001-8110-751X], Benchoua, Alexandra [0000-0002-9980-6471], Bottai, Daniele [0000-0002-7951-9512], Buchheim, Judith-Irina [0000-0003-3605-955X], Carnero-Díaz, Eugénie [0000-0002-3771-3106], Castiglioni, Sara [0000-0002-8785-9891], Cavalieri, Duccio [0000-0001-6426-5719], Choukér, Alexander [0000-0002-0133-4104], Ciofani, Gianni [0000-0003-1192-3647], Cusella, Gabriella [0000-0003-2642-3346], Degl'Innocenti, Andrea [0000-0002-5204-5601], Desaphy, Jean-Francois [0000-0001-8816-9369], Frippiat, Jean-Pol [0000-0002-4027-6269], Gelinsky, Michael [0000-0001-9075-5121], Genchi, Giada [0000-0002-2154-7991], Grano, Maria [0000-0002-7121-5899], Grimm, Daniela [0000-0002-4991-3105], Guignandon, Alain [0000-0002-0745-5417], Hatton, Jason [0000-0002-5763-2944], Herranz, Raúl [0000-0002-0246-9449], Hellweg, Christine E. [0000-0002-2223-3580], Iorio, Carlo Saverio [0000-0003-0952-0064], Karapantsios, Thodoris [0000-0001-6641-3359], van Loon, Jack JWA [0000-0001-9051-6016], Lulli, Matteo [0000-0002-8528-4094], Malda, Jos [0000-0002-9241-7676], Morbidelli, Lucia [0000-0001-8148-7049], Van Ombergen, Angelique [0000-0002-3977-4279], Osterman, Andreas [0000-0001-5435-5972], Ovsianikov, Aleksandr [0000-0001-5846-0198], Pampaloni, Francesco [0000-0003-4357-7320], Przybyla, Cyrille [0000-0001-8093-8426], Rettberg, Petra [0000-0003-4439-2395], Risaliti, Chiara [0000-0003-1695-0548], Rizzo, Angela Maria [0000-0002-8582-0432], Robson-Brown, Kate [0000-0003-4797-8965], Rossi, Leonardo [0000-0003-4974-3860], Russo, Giorgio [0000-0003-1493-1087], Salvetti, Alessandra [0000-0002-9154-9773], Santucci, Daniela [0000-0002-4619-1290], Sperl, Matthias [0000-0001-9525-0368], Strollo, Felice [0000-0001-8917-5314], Tabury, Kevin [0000-0002-8004-3718], Tavella, Sara [0000-0003-1478-4910], Thielemann, Christiane [0000-0002-9814-4744], Willaert, R. [0000-0002-5400-7019], Szewczyk, Nathaniel [0000-0003-4425-9746], Monici, Monica [0000-0001-6678-9241], Cialdai, Francesca, Brown, Austin M., Baumann, Cory W., Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith-Irina, Calvaruso, Marco, Carnero-Díaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl'Innocenti, Andrea, Desaphy, Jean-Francois, Frippiat, Jean-Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack JWA, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, Van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Risaliti, Chiara, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Strollo, Felice, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, R., Szewczyk, Nathaniel, and Monici, Monica

Abstract

The present white paper concerns the indications and recommendations of the SciSpacE Science Community to make progress in filling the gaps of knowledge that prevent us from answering the question: “How Do Gravity Alterations Affect Animal and Human Systems at a Cellular/Tissue Level?” This is one of the five major scientific issues of the ESA roadmap “Biology in Space and Analogue Environments”. Despite the many studies conducted so far on spaceflight adaptation mechanisms and related pathophysiological alterations observed in astronauts, we are not yet able to elaborate a synthetic integrated model of the many changes occurring at different system and functional levels. Consequently, it is difficult to develop credible models for predicting long-term consequences of human adaptation to the space environment, as well as to implement medical support plans for long-term missions and a strategy for preventing the possible health risks due to prolonged exposure to spaceflight beyond the low Earth orbit (LEO). The research activities suggested by the scientific community have the aim to overcome these problems by striving to connect biological and physiological aspects in a more holistic view of space adaptation effects.

Published
2023

27. Environmental Chamber Characterization of an Ice Detection Sensor for Aviation Using Graphene and PEDOT:PSS.

Author

Farina, Dario, Mazio, Marco, Machrafi, Hatim, Queeckers, Patrick, and Iorio, Carlo Saverio

Subjects
PHASE transitions, GRAPHENE, AERONAUTICAL safety measures, AIRCRAFT accidents, WEATHER, ICE prevention & control, ICE
Abstract

In the context of improving aircraft safety, this work focuses on creating and testing a graphene-based ice detection system in an environmental chamber. This research is driven by the need for more accurate and efficient ice detection methods, which are crucial in mitigating in-flight icing hazards. The methodology employed involves testing flat graphene-based sensors in a controlled environment, simulating a variety of climatic conditions that could be experienced in an aircraft during its entire flight. The environmental chamber enabled precise manipulation of temperature and humidity levels, thereby providing a realistic and comprehensive test bed for sensor performance evaluation. The results were significant, revealing the graphene sensors' heightened sensitivity and rapid response to the subtle changes in environmental conditions, especially the critical phase transition from water to ice. This sensitivity is the key to detecting ice formation at its onset, a critical requirement for aviation safety. The study concludes that graphene-based sensors tested under varied and controlled atmospheric conditions exhibit a remarkable potential to enhance ice detection systems for aircraft. Their lightweight, efficient, and highly responsive nature makes them a superior alternative to traditional ice detection technologies, paving the way for more advanced and reliable aircraft safety solutions. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Wind Tunnel Characterization of a Graphene-Enhanced PEDOT:PSS Sensing Element for Aircraft Ice Detection Systems.

Author

Farina, Dario, Mazio, Marco, Machrafi, Hatim, Queeckers, Patrick, and Iorio, Carlo Saverio

Subjects
WIND tunnels, WIND tunnel testing, ICE, AIR resistance, PHASE transitions, POLYMER electrodes
Abstract

This study details the development and validation of a graphene-based ice detection system, designed to enhance flight safety by monitoring ice accumulation on aircraft surfaces. The system employs a semiconductive polymer (PEDOT:PSS) with graphene electrodes, interpreting resistance changes to detect water impact and ice formation in real time. The sensor's performance was rigorously tested in a wind tunnel under various temperature and airflow conditions, focusing on resistance signal dependency on air temperature and phase change. The results demonstrate the sensor's ability to distinguish water droplet impacts from ice formation, with a notable correlation between resistance signal amplitude and water droplet impacts leading to ice accretion. Further analysis shows a significant relationship between air temperature and the resistance signal amplitude, particularly at lower temperatures beneficial to ice formation. This underlines the sensor's precision in varied atmospheric conditions. The system's compact design and accurate detection highlight its potential for improving aircraft ice monitoring, offering a path toward a robust and reliable ice detection system. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Detection of Ice Formation With the Polymeric Mixed Ionic‐Electronic Conductor PEDOT: PSS for Aeronautics.

Author

Dongo, Patrice D., Hakansson, Anna, Stoeckel, Marc‐Antoine, Pavlopolou, Eleni, Wang, Suhao, Farina, Dario, Queeckers, Patrick, Fabiano, Simone, Iorio, Carlo Saverio, and Crispin, Reverant

Subjects
POLYMER blends, ICE crystals, AERONAUTICS, PHASE transitions, SENSOR arrays, ICE, HYBRID solar cells, CONDUCTING polymers
Abstract

Ice formation detection is important in telecommunications and aeronautics, e.g., ice on the wings of an aircraft affects its aerodynamic performance and leads to fatal accidents. While many types of sensors exist, resistive sensors for ice detection have been poorly explored. They are however attractive because of their simplicity and the possibility to install an array of sensors on large areas to map the ice formation on wings. Hygroscopic ionic conductors have been demonstrated for resistive ice sensing but their high resistance prevents the readout of sensor arrays. In this work, mixed ionic‐electronic polymer conductors (MIEC) are considered for the first time for ice detection. The polymer blend poly(3,4‐ethylenedioxythiophene):polystyrene sulfonate (PEDOT:PSS) is solution deposited on a pair of electrodes. The sensor displays an abrupt rise in electrical resistance during the transition phase between water liquid to solid. It is proposed that the morphology and electronic transport in PEDOT are affected by the freezing event because the absorbed water in the PSS‐rich phase undergoes dilatation upon forming ice crystals. For the aeronautics application, successful tests of integration of sensing layer in pre‐preg layers of aeronautical grade and freezing detection are carried out to validate the ice detection principle. [ABSTRACT FROM AUTHOR]

Published
2023
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34. How do gravity alterations affect animal and human systems at a cellular/tissue level?

Author

Equine Musculoskeletal Biology, CS_Locomotion, Locomotion - Equine Sciences, Cialdai, Francesca, Brown, Austin M, Baumann, Cory W, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith-Irina, Calvaruso, Marco, Carnero-Diaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl'Innocenti, Andrea, Desaphy, Jean-Francois, Frippiat, Jean-Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E, Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Risaliti, Chiara, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Strollo, Felice, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, Ronnie, Szewczyk, Nathaniel J, Monici, Monica, Equine Musculoskeletal Biology, CS_Locomotion, Locomotion - Equine Sciences, Cialdai, Francesca, Brown, Austin M, Baumann, Cory W, Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith-Irina, Calvaruso, Marco, Carnero-Diaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl'Innocenti, Andrea, Desaphy, Jean-Francois, Frippiat, Jean-Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E, Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Risaliti, Chiara, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Strollo, Felice, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, Ronnie, Szewczyk, Nathaniel J, and Monici, Monica

Published
2023

35. Behaviour of biomimetic particles under acoustophoretic conditions

Author

Hendrick, Patrick, Scheid, Benoît, Iorio, Carlo Saverio, Valkenier, Hennie, Amirfazli, Alidad, Coppola, Giuseppe, Iermano, Fabio, Hendrick, Patrick, Scheid, Benoît, Iorio, Carlo Saverio, Valkenier, Hennie, Amirfazli, Alidad, Coppola, Giuseppe, and Iermano, Fabio

Abstract

It is widely acknowledged within the scientific community that studying the physical properties of cells can serve as a valuable tool in gaining insight into various diseases and their progression. Across different pathological conditions, researchers have observed distinct variations in these properties. For instance, it has been well-documented that cancer cells are typically less rigid than their healthy counterparts. As such, the potential value of isolating, recovering and studying cells or extracellular vesicles that have undergone such changes for diagnostic and prognostic purposes is incredibly significant.This dissertation presents an exploration into the utilization of an acoustofluidic chip to analyse the density and compressibility of diverse biomimetic particles, and into the capability of the chip in manipulating and sorting the particles solely based on their compressibility. To achieve the research objectives, a rigorous methodology was developed that entailed validating a numerical model to forecast the particles' and cells' behaviour under different resonator designs. The numerical model was used to design a device that could produce half-wavelength resonance or an integer multiple of that, and apply an acoustophoretic field to manipulate and sort solutions of particles. Moreover, three types of biomimetic microparticle solutions with varying compressibility conditions were created, thus simulating diverse experimental scenarios.\In this thesis, it was conducted an analysis on the behaviour of biomimetic microparticles when subjected to acoustophoretic conditions. Specifically, the research involved the use of polyethylene microbeads and biomimetic microparticles, which included Alginate, Polydimethylsiloxane (PDMS), and Giant unilamellar vesicles. To carry out the experiments, the microparticles were exposed to acoustic radiation force within a specially designed acoustofluidic chip. The study relied on the known physical properties of polyethylen, Doctorat en Sciences de l'ingénieur et technologie, info:eu-repo/semantics/nonPublished

Published
2023

36. Laser-induced graphene on cross-linked sodium alginate

Author

Vićentić, Teodora, Greco, Immacolata, Iorio, Carlo Saverio, Mišković, Vanja, Bajuk-Bogdanović, Danica, Pašti, Igor, Radulović, Katarina, Klenk, S., Stimpel-Lindner, Tanja, Duesberg, G. S., Spasenović, Marko, Vićentić, Teodora, Greco, Immacolata, Iorio, Carlo Saverio, Mišković, Vanja, Bajuk-Bogdanović, Danica, Pašti, Igor, Radulović, Katarina, Klenk, S., Stimpel-Lindner, Tanja, Duesberg, G. S., and Spasenović, Marko

Abstract

Laser-induced graphene (LIG) possesses desirable properties for numerous applications. However, LIG formation on biocompatible substrates is needed to further augment the integration of LIG-based technologies into nanobiotechnology. Here, LIG formation on cross-linked sodium alginate is reported. The LIG is systematically investigated, providing a comprehensive understanding of the physicochemical characteristics of the material. Raman spectroscopy, scanning electron microscopy with energy-dispersive x-ray analysis, x-ray diffraction, transmission electron microscopy, Fourier-transform infrared spectroscopy and x-ray photoelectron spectroscopy techniques confirm the successful generation of oxidized graphene on the surface of cross-linked sodium alginate. The influence of laser parameters and the amount of crosslinker incorporated into the alginate substrate is explored, revealing that lower laser speed, higher resolution, and increased CaCl2 content leads to LIG with lower electrical resistance. These findings could have significant implications for the fabrication of LIG on alginate with tailored conductive properties, but they could also play a guiding role for LIG formation on other biocompatible substrates.

Published
2023

37. In Space demonstration of 3D-bioprinted vascularization technique

Author

Hendrick, Patrick, Delplancke, Marie-Paule, Iorio, Carlo Saverio, Cannella, David, Delogu, Lucia Gemma LGD, Monici, Monica MM, Gelinsky, Michael MG, Bonnieu, Sebastien Vincent SVB, Greco, Immacolata, Hendrick, Patrick, Delplancke, Marie-Paule, Iorio, Carlo Saverio, Cannella, David, Delogu, Lucia Gemma LGD, Monici, Monica MM, Gelinsky, Michael MG, Bonnieu, Sebastien Vincent SVB, and Greco, Immacolata

Abstract

In the European Union, Cardio-Vascular Diseases (CVD) are the primary cause of death, accounting for nearly 37% of all deaths in 2017, which translate in 1.71 million fatalities in the. Cancer (malignant neoplasms; 25.0% of all fatalities) is the second most common cause of death. CVD encompass a wide range of medical conditions that affect the circulatory system (the heart and blood vessels), and are frequently the result of atherosclerosis, the abnormal deposition of cholesterol and fatty substances on the inner walls of a person's arteries. The most prevalent circulatory system diseases include ischaemic heart disease (heart attacks) and cerebrovascular diseases (strokes). A substantial percentage of the different cardiovascular disorders are congenital diseases, many of which are incurable and require lifetime specialized care [1]. CVD impose a significant burden on healthcare systems and government budgets. The more accurate recent statistics refer that developed countries spend about 10000$ per cardiovascular-related events. In the USA alone, the costs for tackling CVD account for more than $700 billion. The burden of CVD mortality and morbidity has a significant effect on not only healthcare systems and the quality of life of patients, but also on their productivity and that of their informal carers. Most studies on the burden of cardiovascular disease (CVD) only examine direct costs (relating to devices, technologies, services, and other resources used for the treatment and prevention of CVD). Indirect costs, those resulting from productivity gains or losses due to illness or mortality, are much less studied, despite the fact that productivity loss has a significant negative impact on CVD patients, their families, carers, and society as a whole.At present, CVDs’ treatments includes:• Organ/tissue transplantation.• Surgical replacement with synthetic materials (such as prosthetic heart valves or synthetic vascular grafts).• Concurrent medical therapy [2]Howev, Doctorat en Sciences de l'ingénieur et technologie, info:eu-repo/semantics/nonPublished

Published
2023

38. Film-wise vapour condensation on surfaces with different shapes and coatings

Author

Hendrick, Patrick, Marchuk, Igor V, Haut, Benoît, Iorio, Carlo Saverio, Glushchuk, Andrey, Mullyadzhanov, Rustam, Shishlenin, Maksim, Ermanyuk, Evgeny, Gambaryan-Roisman, Tatiana, Barakhovskaia, Ella, Hendrick, Patrick, Marchuk, Igor V, Haut, Benoît, Iorio, Carlo Saverio, Glushchuk, Andrey, Mullyadzhanov, Rustam, Shishlenin, Maksim, Ermanyuk, Evgeny, Gambaryan-Roisman, Tatiana, and Barakhovskaia, Ella

Abstract

This work is devoted to study the process of film-wise vapour condensation on surfaces with various shapes and coatings. A new experimental approach has been used to conduct condensation experiments on promising surfaces to intensify heat transfer under the influence of the selected factors: driving force or surface coating, under variable gravity conditions. A condensate retraction system, stabilising the condensate flow along a curvilinear surface, has been proposed. The introduction of the retraction system improved the condensate's stability during microgravity. However, the idea to ensure stability through special three-dimensional condenser shape arose. A one-parameter family of axisymmetric surfaces was numerically found for which the mean curvature gradient along the generatrix is constant. Such curves form surfaces that guarantee stable condensate flow under microgravity. Furthermore, it has been found that the condensate film is sufficiently thick on the proposed surface, which is an asset for experimental measurements with commonly used optical systems.To study the impact of coated surfaces on condensation process, high-quality graphene-based coatings were created by dip coating technique. Graphene caused an almost twofold increase in heat transfer intensification when the condensate thickness was comparable with the coating thickness. Therefore, the level of intensification depends on the parameters used to create the coatings. To verify the concept, the film thickness distribution on an uncoated reference condenser was compared with classical Nusselt's results. Concurrency with Nusselt's theory proves the correctness of the approach of gravity driving force only, and any deviations in film flow behaviour could be caused by the influence of the coating only.The research's results will allow the creation of effective two-phase systems for the thermal stabilisation of various heat-generating equipment, including those intended for operation in microgravity, Doctorat en Sciences de l'ingénieur et technologie, info:eu-repo/semantics/nonPublished

Published
2023

39. How do gravity alterations affect animal and human systems at a cellular/tissue level?

Author

Orthopaedie Onderzoek, Regenerative Medicine and Stem Cells, Cialdai, Francesca, Brown, Austin M., Baumann, Cory W., Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith Irina, Calvaruso, Marco, Carnero-Diaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl’Innocenti, Andrea, Desaphy, Jean Francois, Frippiat, Jean Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Risaliti, Chiara, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Strollo, Felice, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, Ronnie, Szewczyk, Nathaniel J., Monici, Monica, Orthopaedie Onderzoek, Regenerative Medicine and Stem Cells, Cialdai, Francesca, Brown, Austin M., Baumann, Cory W., Angeloni, Debora, Baatout, Sarah, Benchoua, Alexandra, Bereiter-Hahn, Juergen, Bottai, Daniele, Buchheim, Judith Irina, Calvaruso, Marco, Carnero-Diaz, Eugénie, Castiglioni, Sara, Cavalieri, Duccio, Ceccarelli, Gabriele, Choukér, Alexander, Ciofani, Gianni, Coppola, Giuseppe, Cusella, Gabriella, Degl’Innocenti, Andrea, Desaphy, Jean Francois, Frippiat, Jean Pol, Gelinsky, Michael, Genchi, Giada, Grano, Maria, Grimm, Daniela, Guignandon, Alain, Hahn, Christiane, Hatton, Jason, Herranz, Raúl, Hellweg, Christine E., Iorio, Carlo Saverio, Karapantsios, Thodoris, van Loon, Jack, Lulli, Matteo, Maier, Jeanette, Malda, Jos, Mamaca, Emina, Morbidelli, Lucia, van Ombergen, Angelique, Osterman, Andreas, Ovsianikov, Aleksandr, Pampaloni, Francesco, Pavezlorie, Elizabeth, Pereda-Campos, Veronica, Przybyla, Cyrille, Puhl, Christopher, Rettberg, Petra, Risaliti, Chiara, Rizzo, Angela Maria, Robson-Brown, Kate, Rossi, Leonardo, Russo, Giorgio, Salvetti, Alessandra, Santucci, Daniela, Sperl, Matthias, Strollo, Felice, Tabury, Kevin, Tavella, Sara, Thielemann, Christiane, Willaert, Ronnie, Szewczyk, Nathaniel J., and Monici, Monica

Published
2023

40. Characterization of Composite Freeze-Dried Aerogels with Simulant Lunar Regolith for Space Applications

Author

Borella, Laura, Rozo, Andrea, Perfetti, Claire, Iorio, Carlo Saverio, Borella, Laura, Rozo, Andrea, Perfetti, Claire, and Iorio, Carlo Saverio

Abstract

Recently, the goal of space exploration has shifted from the incognito of the solar system to the Moon. Concepts like human permanence on the Moon and thermal protective structures made with ISRU (in situ resource utilization) of raw materials have started to be implemented. By limiting the need to launch supplies from the Earth, the paradigm of spaceflight is changed, privileging the vanguard of the utilisation of resources in situ. Still, the main challenges of surviving the radiation dose and the cryogenic temperatures of the lunar night remain. Recent studies have demonstrated how innovative composite materials can help reduce the temperature stress on exploration vehicles. This research presents the material properties of aerogel insulating materials combined with LHS (lunar highlands simulant) regolith obtained by freeze frying. Organic-based aerogels with different percentages of LHS have been analysed in terms of material, morphology, and thermal properties., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2023

42. Hemivertebra Resection and Spinal Arthrodesis by Single-Stage Posterior Approach in Congenital Scoliosis and Kyphoscoliosis: Results at 9.6 Years Mean Follow-up

Author

Crostelli, Marco, Mazza, Osvaldo, Mariani, Massimo, Mascello, Dario, Tundo, Federico, and Iorio, Carlo

Subjects
Orthopedics and Sports Medicine, Surgery, Other & Special Categories
Abstract

BACKGROUND: Congenital kyphoscoliosis due to hemivertebra is generally treated surgically because of high risk of curve progression and high risk of nervous system complications. Modern posterior access surgical techniques, including total hemivertebra resection, can completely correct deformity without additional anterior access surgeries. The purpose of this study was to evaluate midterm results of hemivertebra resection and spinal arthrodesis; the hypothesis was that it is a safe, effective, and reproducible procedure. MATERIALS AND METHODS: From 2006 to 2019, hemivertebra resection and instrumented spinal arthrodesis with pedicle screws was performed on 82 patients with congenital vertebral deformities (62 scoliosis and 20 kyphoscoliosis) by posterior approach. Mean age at surgery was 8.6 years, and 22 patients were under 10 years of age. After stabilization patients have been braced for a period from 3 to 5 months. RESULTS: Mean follow-up was 9.6 years (range 1.2–12.8 years); mean kyphosis curve after surgery was reduced to 20° Cobb; and mean scoliosis curve was reduced to 11° Cobb. We experienced no major complications (postsurgical infection, instrumentation failure, severe neurological impairment, severe blood loss) at latest follow-up . CONCLUSION: We strongly advocate one-time posterior hemivertebra resection and arthrodesis as the most suitable surgical procedure for congenital scoliosis due to hemivertebra. Posterior approach interventions with pedicle screws instrumentation are less invasive than combined anterior-posterior approach interventions. We think that posterior approach procedures can lead to excellent deformity correction in both frontal and sagittal views, optimal stability, and low risk of nervous injury. CLINICAL RELEVANCE: Congenital scoliosis treatment is one of the most challeging conditions a spine surgeon has to face. We advocate that a one-stage posterior approach for hemivertebrectomy and fusion is a reliable, safe tachnique, whom excellent results remain stable at a mid/long-term follow-up. LEVEL OF EVIDENCE: Level 4.

Published
2022

46. Canadian Spine Society: 23rd Annual Scientific Conference, Wednesday, March 1 – Saturday, March 4, Fairmont Le Château Frontenac, Québec, Que., Canada.

Author

Birk, Manjot, Sidhu, Kara, Filezio, Marina Rosa, Singh, Vishwajeet, Ferri-de-Barros, Fabio, Chan, Vivien, Shumilak, Geoffrey, Nataraj, Andrew, Langston, Holly, Yee, Nicholas J., Iorio, Carlo, Shkumat, Nicholas, Rocos, Brett, Ertl-Wagner, Birgit, Lebel, David, Camp, Mark W., Dimentberg, Evan, Saran, Neil, Laflamme, Melissa, and Ouellet, Jean A.

Subjects
SPINAL surgery, LUMBAR vertebrae diseases, SPONDYLOLISTHESIS, MEDICAL personnel, PATIENTS' attitudes, MEDICAL care, CAUDA equina syndrome
Abstract

Compared with 12 months earlier, 206 patients (32.7%) said they found their current health to be "much better", 209 patients (33.1%) felt "somewhat better", 123 patients (19.5%) felt "about the same", 75 patients (11.9%) felt "somewhat worse", and 18 patients (2.9%) felt "much worse." Predictors of poor postoperative patient satisfaction in patients unde... Background A significant number of patients who undergo spine surgery have pre-existing compensation claims. The feasibility of a multidisciplinary transitional pain service in pa... Background Patients who undergo spine surgery have high rates of perioperative opioid consumption compared with patients undergoing other types of surgery, and unfortunately many opioid-naive patients going into spine surgery remain on opioids long term. Spine surgery in patients with morbid obesity: tips and tricks Background Patients with obesity are becoming more prevalent in our society, and spine surgery in patients with morbid obesity presents a challenge in several aspects. Background Cobb angle measurement is a standard method for quantification of scoliosis in patients with adolescent idiopathic scoliosis (AIS). [Extracted from the article]

Published
2023
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