2018 / 02

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DOI: 10.24075/brsmu.2018.018

ORIGINAL RESEARCH

Non-thermal atmospheric-pressure plasma in the anti-age therapy of facial skin

Shemshuk MI1, Korotky VN1, Serov DN2, Kochetkov MA2, Stenko AG3, Korotkiy NG1
About authors

1 Department of Dermatology and Venerology, Faculty of General Medicine,
Pirogov Russian National Research University, Moscow

2 Moscow Research and Medical Center of Dermatology and Cosmetology, Moscow

3 Institute of Plastic Surgery and Cosmetology, Moscow

Correspondence should be addressed: Vladimir Korotky
Leninsky 117, bl. 6, Moscow; moc.liamg@knkbkv

Received: 2018-03-15 Accepted: 2018-03-22 Published online: 2018-06-23
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  1. Zouboulis C, Makrantonaki E. Clinical aspect and molecular diagnostics of skin aging. Clinics in dermatology, 2011; 29: 3–14.
  2. Borhunova EN, Taganov FV. Novaya kosmetologia. Mikroskopicheskoe izmenenie koghi pri starenii. M.: ID “Kosmetica i meditsina”, 2017; s. 74–102.
  3. Asher B. Kosmetologicheskie protseduri v oblasti litsa. In'ektsionnie metody v kosmetologii. Izd. «MEDpress-Inform», 2014; s. 179–215.
  4. Trufanov VD, Kogan EA, Yutskovskaya JaA, Faizulina NM, Ivanov SYu. Radiovolni visokoy chastoti – innovatsionnii podhod k korrektsii vozrastnih izmenenii koghi; klinicheskoe, immunogistohimicheskoe issledovanie. STM. 2016; 8 (1); 106– 16.
  5. Margolina A, Aernandes E. Novaya kosmetologiya. M.: ID «Kosmetika i meditsina», 2015.
  6. Saromitskaya AN. Sochetannoe primenenie fraktsionirovannogo fototermoliza i botylinoterapii v korrektsii gipertroficheskih i keloidnih rubtsovyh deformatsij koghi. М.: ID «Kosmetica i meditsina», 2016; s. 278–86.
  7. Heinlin J, Morfill G, Landthaler M, Stolz W, Isbary G, Zimmermann J, Shimizu T, Karrer S. Plasma medicine: possible applications in dermatology. JDDG. 2010; 12: 968–976.
  8. Okazaki Y, Wang Y, Tanaka H, et al. Direct exposure of non- equilibrium atmospheric pressure plasma confers simultaneous oxidative and ultraviolet modifications in biomolecules. J Clin Biochem Nutr. 2014; 55: 207–15.
  9. Brehmer F, Haenssle HA, Daeschlein G, Ahmed R, Pfeiffer S, Gorlitz A, et al. Alleviation of chronic venous leg ulcers with a hand- held dielectric barrier discharge plasma generator (PlasmaDerm(®) VU-2010): results of monocentric, two-armed, open, prospective, randomized and controlled trial (NCTO1415622). J Eur Acad Dermatol Venereol. 2015; 29(1): 148–55.
  10. Haertel B, von Woedtke Th, Weltmann K-D, Lindequist U. Non- Thermal Atmospheric-Pressure Plasma Possible Application in Wound Healing. Biol Therapeutics. 2014; 22: 477–90.
  11. Akishev Y. Atmospheric pressure non-thermal plasma sterilization of microorganisms in liquids and on the surfaces. Pure and Applied Chemistry. 2008; 80 (9): 1953–69.
  12. Laroussi M, Kong M, Morfill G, Stolz W (eds). Plasma medicine: application of low-temperature gas plasmas in medicine and biology. Cambridge University Press, 2012.
  13. Korotky VN. Nizkotemperaturnaya atmosfernaya plasma v dermatologii. Klinicheskaya dermatologiya i venerologiya. 2017; 16 (5): 4–11.
  14. Toyokuni S. The origin and future of oxidative stress pathology: from the recognition of carcinogenesis as an iron addiction with ferroptosis-resistance to non-thermal plasma therapy. Pathol Int. 2016; 66: 245–59.
  15. Hybertson BM, Gao B, Bose SK, McCord JM. Oxidative stress in health and disease: the therapeutic potential of Nrf2 activation. Mol Aspects Med 2011; 32: 234–46.
  16. Uttara B, Singh AV, Zamboni P, Mahajan RT. Oxidative stress and neurodegenerative diseases: a review of upstream and downstream antioxidant therapeutic options. Curr Neuropharmacol. 2009; 7: 65–74.
  17. Yousfi M, Merbahi N, Pathak A, Eichwald O. Low-temperature plasmas at atmospheric pressure: toward new pharmaceutical treatments in medicine. Fundamental & Clinical Pharmacology. 2014; 28: 123–35.
  18. Kalghatgi S, Friedman G, Fridman A, Clyne AM. Endothelial cell proliferation is enhanced by low dose non-thermal plasma through fibroblast growth factor-2 release. Ann Biomed Eng. 2010; 38: 748–57.
  19. Kalghatgi S, Kelly CM, Cerchar E, Torabi B, Alekseev O, Fridman A, et al. Effects of non-thermal plasma on mammalian cells. PLoS ONE. 2011; 6: e16270.
  20. Moureau M, Orange N, Feuilloley MGL. Non-thermal plasma technologies: new tools for bio-decontamination. Biotechnol Adv. 2008; 26: 610–17.
  21. Shimizu T, Zimmermann JL, Morfill GE. The bactericidal effect of surface micro-discharge plasma under different ambient conditions. New Journal of Physics 2011; 13: 1–7.
  22. Ermolaeva SA, Varfolomeev AF, Chernukha MY, Yurov DS, Vasiliev MM, Kaminskaya AA, et al. Bactericidal effects of non- thermal argon plasma in vitro, in biofilms and in the animal model of infected wounds. J Med Microbiol. 2011; 60: 75–83.
  23. Ehlbeck J, Schnabel U, Polak M, Winter J, von Woedtke Th, Brandenburg R, et al. Low temperature atmospheric pressure plasma sources for microbial decontamination. J Phys D: Appl Phys. 2011; 44: 013002.
  24. Lademann O, Kramer A, Richter H, Patzelt A, Meinke MC, et al. Skin disinfection by plasma-tissue interaction: comparison of the effectivity of tissue-tolerable plasma and a standard antiseptic. Skin Pharmacol Physiol. 2011; 24: 284–88.
  25. Maisch T, Shimizu T, Li Y-F, Heinlin J, Karrer S, Morfill G, et al. Decolonisation of MRSA, S. aures and E. Coli by cold-atmospheric plasma using a porcine skin model in vitro. PLoS ONE. 2012; 7: e34610.
  26. Daeschlein G, Scholz S, Emmert S, von Podewils S, Haase H, von Woedtke Th. Plasma medicine in dermatology: basic antimicrobial efficacy testing as prerequisite to clinical plasma therapy. Plasma Med. 2012; 2 (1–3): 33–69.
  27. Daeschlein G, Napp M, von Podewils S, Lutze S, Emmert S., Lange A, et al. In vitro susceptibility of multidrug resistant skin and wound pathogens against low temperature atmospheric pressure plasma jet (APPJ) and dielectric barrier discharge plasma (DBD). Plasma Process Polymers. 2014; 11: 175–183.
  28. Bekeschus S, Masur K, Kolata J, Wende K, Schmidt A, Bundscherer L, et al. Human mononuclear cell survival and proliferation is modulated by cold atmospheric plasma jet. Plasma Process Polym. 2013; 10: 706–13.
  29. Korotky VN. Vozmoghnosti primenenija kholodnoy amosernoy plazmy v onkologii (obzor literatury). Sibirskiy onkologicheskiy ghurnal. 2018; 17 (1): 72–81.
  30. Bezuglii AP, Bikbulatova NN, Shuginina EA, Belkov PA, Habutdinova NR. Ul’trazvukovoe issledovanie koghi v praktike vracha-kosmetologa. Vestnik Dermatologii I venerologii. 2011; 3: 142–152.
  31. Bezuglii AP, Potekaev NN, Sapoghnikova YuA. Ul'trazvukovoe skanirovanie visokogo razresheniya v dermatologii i meditsinskoi kosmetologii. Eksperimental'naya i klinicheskaya dermatovenerologiya. 2014; 2: 20–25.
  32. Bibinov N, Knake N, Bahre H, Awakowicz P, von der Gathen VS. Spectroscopic characterization of an atmospheric pressure μ-jet plasma source. J Phys D: Appl Phys. 2011; 44 (34): 345204.
  33. Heuer K, Hoffmanns MA, Demir E, Baldus S, Volkmar CM, Röhle M, et al. The topical use of non-thermal dielectric barrier discharge (DBD): nitric oxide related effects on human skin. Nitric Oxide. 2015; 44: 52–60.
  34. Kisch T, Helmke A, Schleusser S, Song J, Liodaki E, Stang FH, Mailaender P, Kraemer R. Improvement of cutaneous microcirculation by cold atmospheric plasma (CAP): results of a controlled, prospective cohort study. Microvasc Res. 2016; 104: 55–62.
  35. Kisch T, Schleusser S, Helmke A, Mauss KL, Wenzel ET, Hasemann B, et al. The repetitive use of non-thermal dielectric barrier discharge plasma boosts cutaneous micro- circulatory effects. Microvasc Res. 2016; 106: 8–13.
  36. Borchardt T, Ernst J, Helmke A, Tanyeli M, Schilling AF, Felmerer G, et al. Effect of direct cold atmospheric plasma (diCAP) on microcirculation of intact skin in a controlled mechanical environment. Microcirculation. 2017; 24: e12399.
  37. Blanpain C, Fuchs E. Epidermal homeostasis: a balancing act of stem cells in the skin. Nat Rev Mol Cell Biol. 2009; 10: 207–17.