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Awakowicz, P.; Bibinov, N.; Born, M.; Busse, B.; Gesche, R.; Helmke, A.; Kaemling, A.; Kolb‐Bachofen, V.; Kovacs, R.; Kuehn, S.; Liebmann, J.; Mertens, N.; Niemann, U.; Oplaender, C.; Porteanu, H.‐E.; Scherer, J.; Suschek, C.; Vioel, W.; Wandke, D.

Biological Stimulation of the Human Skin Applying HealthPromoting Light and Plasma Sources

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  • Medientyp: E-Artikel
  • Titel: Biological Stimulation of the Human Skin Applying HealthPromoting Light and Plasma Sources
  • Beteiligte: Awakowicz, P.; Bibinov, N.; Born, M.; Busse, B.; Gesche, R.; Helmke, A.; Kaemling, A.; Kolb‐Bachofen, V.; Kovacs, R.; Kuehn, S.; Liebmann, J.; Mertens, N.; Niemann, U.; Oplaender, C.; Porteanu, H.‐E.; Scherer, J.; Suschek, C.; Vioel, W.; Wandke, D.
  • Erschienen: Wiley, 2009
  • Erschienen in: Contributions to Plasma Physics, 49 (2009) 9, Seite 641-647
  • Sprache: Englisch
  • DOI: 10.1002/ctpp.200910068
  • ISSN: 0863-1042; 1521-3986
  • Entstehung:
  • Anmerkungen:
  • Beschreibung: AbstractIn the frame of BMBF project “BioLiP”, new physical treatment techniques aiming at medical treatment of the human skin have been developed. The acronym BioLiP stands for “Desinfektion, Entkeimung und biologische Stimulation der Haut durch gesundheitsfördernde Licht‐ und Plasmaquellen” (Disinfection, germ reduction and biological stimulation of the human skin by health promoting light and plasma sources). A source applying a low‐temperature dielectric barrier discharge plasma (DBD) has been investigated on its effectiveness for skin disinfection and stimulation of biological material. Alternatively an atmospheric plasma source consisting of a microwave resonator combined with a solid state power oscillator has been examined. This concept which allows for a compact and efficient design avoiding external microwave power supply and matching units has been optimized with respect to nitrogen monoxide (NO) production in high yields. In both cases various application possibilities in the medical and biological domain are opened up. Light sources in the visible spectral range have been investigated with respect to the proliferation of human cell types. Intensive highly selective blue light sources based on LED technology can slow down proliferation rates without inducing toxic effects which offers new opportunities for treatments of so‐called hyperproliferative skin conditions (e.g. with psoriasis or in wound healing) using UV‐free light. (© 2009 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)