6 results on '"Cialdai F"'
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2. Hydrogel mechanical properties in altered gravity.
- Author
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Mišković V, Greco I, Minetti C, Cialdai F, Monici M, Gazzi A, Marcellino J, Samad YA, Delogu LG, Ferrari AC, and Iorio CS
- Abstract
Exposure to altered gravity influences cellular behaviour in cell cultures. Hydrogels are amongst the most common materials used to produce tissue-engineering scaffolds, and their mechanical properties play a crucial role in cell-matrix interaction. However, little is known about the influence of altered gravity on hydrogel properties. Here we study the mechanical properties of Poly (ethylene glycol) diacrylate (PEGDA) and PEGDA incorporated with graphene oxide (GO) by performing tensile tests in micro and hypergravity during a Parabolic flight campaign, and by comparing them to the same tests performed in Earth gravity. We show that gravity levels do not result in a statistically significant difference in Young's modulus., (© 2024. The Author(s).)
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- 2024
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3. How to obtain an integrated picture of the molecular networks involved in adaptation to microgravity in different biological systems?
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Willis CRG, Calvaruso M, Angeloni D, Baatout S, Benchoua A, Bereiter-Hahn J, Bottai D, Buchheim JI, Carnero-Diaz E, Castiglioni S, Cavalieri D, Ceccarelli G, Chouker A, Cialdai F, Ciofani G, Coppola G, Cusella G, Degl'Innocenti A, Desaphy JF, Frippiat JP, Gelinsky M, Genchi G, Grano M, Grimm D, Guignandon A, Herranz R, Hellweg C, Iorio CS, Karapantsios T, van Loon J, Lulli M, Maier J, Malda J, Mamaca E, Morbidelli L, Osterman A, Ovsianikov A, Pampaloni F, Pavezlorie E, Pereda-Campos V, Przybyla C, Rettberg P, Rizzo AM, Robson-Brown K, Rossi L, Russo G, Salvetti A, Risaliti C, Santucci D, Sperl M, Tabury K, Tavella S, Thielemann C, Willaert R, Monici M, and Szewczyk NJ
- 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., (© 2024. The Author(s).)
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- 2024
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4. How are cell and tissue structure and function influenced by gravity and what are the gravity perception mechanisms?
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Davis T, Tabury K, Zhu S, Angeloni D, Baatout S, Benchoua A, Bereiter-Hahn J, Bottai D, Buchheim JI, Calvaruso M, Carnero-Diaz E, Castiglioni S, Cavalieri D, Ceccarelli G, Choukér A, Cialdai F, Ciofani G, Coppola G, Cusella G, Degl'Innocenti A, Desaphy JF, Frippiat JP, Gelinsky M, Genchi G, Grano M, Grimm D, Guignandon A, Hahn C, Hatton J, Herranz R, Hellweg CE, Iorio CS, Karapantsios T, van Loon JJWA, Lulli M, Maier J, Malda J, Mamaca E, Morbidelli L, van Ombergen A, Osterman A, Ovsianikov A, Pampaloni F, Pavezlorie E, Pereda-Campos V, Przybyla C, Puhl C, Rettberg P, Rizzo AM, Robson-Brown K, Rossi L, Russo G, Salvetti A, Santucci D, Sperl M, Tavella S, Thielemann C, Willaert R, Szewczyk N, and Monici M
- 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., (© 2024. The Author(s).)
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- 2024
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5. How do gravity alterations affect animal and human systems at a cellular/tissue level?
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Cialdai F, Brown AM, Baumann CW, Angeloni D, Baatout S, Benchoua A, Bereiter-Hahn J, Bottai D, Buchheim JI, Calvaruso M, Carnero-Diaz E, Castiglioni S, Cavalieri D, Ceccarelli G, Choukér A, Ciofani G, Coppola G, Cusella G, Degl'Innocenti A, Desaphy JF, Frippiat JP, Gelinsky M, Genchi G, Grano M, Grimm D, Guignandon A, Hahn C, Hatton J, Herranz R, Hellweg CE, Iorio CS, Karapantsios T, van Loon J, Lulli M, Maier J, Malda J, Mamaca E, Morbidelli L, van Ombergen A, Osterman A, Ovsianikov A, Pampaloni F, Pavezlorie E, Pereda-Campos V, Przybyla C, Puhl C, Rettberg P, Risaliti C, Rizzo AM, Robson-Brown K, Rossi L, Russo G, Salvetti A, Santucci D, Sperl M, Strollo F, Tabury K, Tavella S, Thielemann C, Willaert R, Szewczyk NJ, and Monici M
- 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., (© 2023. Springer Nature Limited.)
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- 2023
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6. Robot-assisted surgery in space: pros and cons. A review from the surgeon's point of view.
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Pantalone D, Faini GS, Cialdai F, Sereni E, Bacci S, Bani D, Bernini M, Pratesi C, Stefàno P, Orzalesi L, Balsamo M, Zolesi V, and Monici M
- Abstract
The target of human flight in space has changed from permanence on the International Space Station to missions beyond low earth orbit and the Lunar Gateway for deep space exploration and Missions to Mars. Several conditions affecting space missions had to be considered: for example the effect of weightlessness and radiations on the human body, behavioral health decrements or communication latency, and consumable resupply. Telemedicine and telerobotic applications, robot-assisted surgery with some hints on experimental surgical procedures carried out in previous missions, had to be considered as well. The need for greater crew autonomy in health issues is related to the increasing severity of medical and surgical interventions that could occur in these missions, and the presence of a highly trained surgeon on board would be recommended. A surgical robot could be a valuable aid but only inasfar as it is provided with multiple functions, including the capability to perform certain procedures autonomously. Space missions in deep space or on other planets present new challenges for crew health. Providing a multi-function surgical robot is the new frontier. Research in this field shall be paving the way for the development of new structured plans for human health in space, as well as providing new suggestions for clinical applications on Earth., (© 2021. The Author(s).)
- Published
- 2021
- Full Text
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