Demonstration for cold atmospheric pressure plasma jet operation and antibacterial action in microgravity

Demonstration for cold atmospheric pressure plasma jet operation and antibacterial action in microgravity

Cold atmospheric pressure plasma (ionized gas) is an innovative medical tool for the treatment of infected wounds thanks to its potential to inactivate drug-resistant microorganisms and promote tissue regeneration and vascularization. The low power consumption, compactness, and versatility of Cold A...

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Veröffentlicht in:NPJ microgravity 2024-07, Vol.10 (1), p.74-9, Article 74
Hauptverfasser: Rouillard, A., Escot Bocanegra, P., Stancampiano, A., Dozias, S., Lemaire, J., Pouvesle, J. M., Robert, E., Brulé-Morabito, F., Demasure, M., Rouquette, S.
Format: Artikel
Sprache:eng
Schlagworte:
631/326
639/766/1960
Antimicrobial activity
Applied Microbiology
Atmospheric pressure
Bacteria
Biomedical and Life Sciences
Biotechnology
Cameras
Classical and Continuum Physics
Cold
Drug resistance
Engineering Sciences
Experiments
Helium
Immunology
Life Sciences
Medical equipment
Medical innovations
Medical research
Microgravity
Plasma
Plasmas
Power consumption
Space Exploration and Astronautics
Space Sciences (including Extraterrestrial Physics
Space stations
Vascularization
Weightlessness
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Zusammenfassung:Cold atmospheric pressure plasma (ionized gas) is an innovative medical tool for the treatment of infected wounds thanks to its potential to inactivate drug-resistant microorganisms and promote tissue regeneration and vascularization. The low power consumption, compactness, and versatility of Cold Atmospheric Pressure Plasma (CAPP) devices make them an ideal tool for risk mitigation associated with human spaceflights. This work presents results in microgravity on the operability of CAPP and its antimicrobial effect. The experiments carried out in parabolic flights make it possible to optimize the treatment conditions (i.e., the distance, the gas mixture) and to obtain the rapid inactivation (
ISSN:2373-8065
2373-8065
DOI:10.1038/s41526-024-00408-1