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Plasma Medicine

Publicou 4 edições por ano

ISSN Imprimir: 1947-5764

ISSN On-line: 1947-5772

SJR: 0.216 SNIP: 0.263 CiteScore™:: 1.4 H-Index: 24

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Effect of Transient Spark Disinfection on Various Endodontics-Relevant Bacteria

Volume 9, Edição 2, 2019, pp. 121-128
DOI: 10.1615/PlasmaMed.2019032357
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RESUMO

The in vitro efficacy of transient spark disinfection was examined on different types of bacteria that are relevant in endodontics, in particular Enterococcus faecalis. A device was constructed so that it could be inserted down to the apex of prepared root canals and could be applied in conventional, regenerative, and reparative endodontics. Starting with a bacterial load of 0.2 mL of undiluted 109-bacteria/mL spread on a Petri dish, 3-min treatment led to a 106-CFU/cm2 reduction in bacterial load over a surface area relevant to root canal treatment.

Referências
  1. Fridman A. Plasma chemistry. Cambridge, UK: Cambridge University Press; 2008.

  2. Isbary G, Morfill G, Schmidt HU, Georgi M, Ramrath K, Heinlin J, Karrer S, Landthaler M, Shimizu T, Steffes B, Bunk W, Monetti R, Zimmermann JL, Pompl R, Stolz W. A first prospective randomized controlled trial to decrease bacterial load using cold atmospheric argon plasma on chronic wounds in patients. Br J Dermatol. 2010;163(1):78-82.

  3. Keidar M, Shashurin A, Volotskova O, Ann Stepp M, Srinivasan P, Sandler A, Trink B. Cold atmospheric plasma in cancer therapy. Phys Plasmas. 2013;20(5):057101.

  4. Metelmann H-R, Nedrelow DS, Seebauer C, Schuster M, von Woedtke T, Weltmann K-D, Kindler S, Metelmann P-H, Finkelstein S E, Von Hoff DD, Podmelle F. Head and neck cancer treatment and physical plasma. Clin Plasma Med. 2015;3(1):17-23.

  5. Haapasalo M, Shen Y, Wang Z, Gao Y. Irrigation in endodontics. Br Dent J. 2014;216(6):299-303.

  6. Zhu WC, Gyamfi J, Niu LN, Schoeffel GJ, Liu SY, Santarcangelo F, Khan S, Tay KC-Y, Pashley DH, Tay FR. Anatomy of sodium hypochlorite accidents involving facial ecchymosis-a review. J Dent. 2013;41(11):935-48.

  7. Guivarc'h M, Ordioni U, Ahmed HMA, Cohen S, Catherine JH, Bukiet F. Sodium hypochlorite accident: a systematic review. J Endod. 2017;43(1):16-24.

  8. Goswami M, Chhabra N, Kumar G, Verma M, Chhabra A. Sodium hypochlorite dental accidents. Paediatr Int Child Health. 2014 Feb 6;34(1):66-9.

  9. Alkahtani A, Alkahtany SM, Anil S. An in vitro evaluation of the cytotoxicity of varying concentrations of sodium hypochlorite on human mesenchymal stem cells. J Contemp Dent Pract. 2014;15(4):473-81.

  10. Spangberg L, Engstrom B, Langeland K. Biologic effects of dental materials. Oral Surg, Oral Med Oral Pathol. 1973;36(6):856-71.

  11. Mehdipour O, Kleier DJ, Averbach RE. Anatomy of sodium hypochlorite accidents. Compend Contin Educ Dent. 2007;28(10):544-6, 548, 550.

  12. Ng Y-L, Mann V, Rahbaran S, Lewsey J, Gulabivala K. Outcome of primary root canal treatment: systematic review of the literature. Part 1: effects of study characteristics on probability of success. Int Endod J. 2007;40(12):921-39.

  13. Sum CP, Neo J, Kishen A. What we leave behind in root canals after endodontic treatment: some issues and concerns. Aust Endod J. 2005;31(3):94-100.

  14. Goree J, Liu B, Drake D, Stoffels E. Killing of S. mutans bacteria using a plasma needle at atmospheric pressure. IEEE Trans Plasma Sci. 2006;34(4):1317.

  15. Laroussi M, Karakas E, Hynes W. Influence of cell type, initial concentration, and medium on the inactivation efficiency of low-temperature plasma. IEEE Trans Plasma Sci. 2011;39(11 pt. 1):2960-1.

  16. Schaudinn C, Jaramillo D, Freire MO, Sedghizadeh PP, Nguyen A, Webster P, Costerton JW, Jiang C. Evaluation of a nonthermal plasma needle to eliminate ex vivo biofilms in root canals of extracted human teeth. Int Endod J. 2013;46(10):930-7.

  17. Ureyen Kaya B, Kececi AD, Guldas HE, Qetin ES, Ozturk T, Oksuz L, Bozduman F. Efficacy of endodontic applications of ozone and low-temperature atmospheric pressure plasma on root canals infected with Enterococcus faecalis. Lett Appl Microbiol. 2014;58(1):8-15.

  18. Jiang C, Chen MT, Schaudinn C, Gorur A, Vernier PT, Costerton JW, Jaramillo DE, Sedghizadeh PP, Gundersen MA. Pulsed atmospheric-pressure cold plasma for endodontic disinfection. IEEE Trans Plasma Sci. 2009;37(7 pt. 2):1190-5.

  19. Wang R, Zhou H, Sun P, Wu H, Pan J. The effect of an atmospheric pressure, DC nonthermal plasma microjet on tooth root canal, dentinal tubules infection and reinfection prevention. Plasma Med. 2011;1(2):143-55.

  20. Ballout H, Hertel M, Doehring J, Kostka E, Hartwig S, Paris S, Preissner S. Effects of plasma jet, dielectric barrier discharge, photodynamic therapy and sodium hypochlorite on infected curved root canals. J Biophotonics. 2018;11(3):e201700186.

  21. Lu X, Cao Y, Yang P, Xiong Q, Xiong Z, Xian Y, Pan Y. An RC plasma device for sterilization of root canal of teeth. IEEE Trans Plasma Sci. 2009;37(5):668-73.

  22. Bhardwaj SB. Role of Enterococci faecalis in failure of endodontic treatment. Int J Curr Microbiol Appl Sci. 2013;2(8):272-7.

  23. Ledernez L, Bruch R, Altenburger M, Bergmann M, Urban G. Transient spark for bacterial cleaning of dental microcavities. Plasma Med. 2019;9(1):39-48.

  24. Mann MS, Schnabel U, Weihe T, Weltmann K-D, von Woedtke T. A reference technique to compare the antimicrobial properties of atmospheric pressure plasma sources. Plasma Med. 2015;5(1):27-47.

CITADO POR
  1. Bergmann M., Ledernez L., Altenburger M., Kaufmann A., Gros T., Engesser F., Buerkin E., Ambijet Treatment for Periimplantitis, 2022 IEEE International Conference on Plasma Science (ICOPS), 2022. Crossref

  2. Bergmann M. E., Wieland Tobias, Straub V. , Engesser F. , Buerkin E. , Altenburger M. J., Urban G. A., Ledernez Loïc, Transient Spark Coating for Dentistry , Plasma Medicine, 12, 1, 2022. Crossref

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