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APPLICATION OF LOW TEMPERATURE ATMOSPHERIC PRESSURE PLASMA IN DENTAL MEDICINE (CROSBI ID 624760)

Prilog sa skupa u zborniku | sažetak izlaganja sa skupa

Šantak, Vedran ; Zaplotnik, Rok ; Vesel, Alenka ; Šrut Rakić, Iva ; Tarle, Zrnka ; Milošević, Slobodan APPLICATION OF LOW TEMPERATURE ATMOSPHERIC PRESSURE PLASMA IN DENTAL MEDICINE // 22nd INTERNATIONAL SCIENTIFIC MEETING ON VACUUM SCIENCE AND TECHNIQUE, PROGRAMME AND BOOK OF ABSTRACTS / Kovač, Janez ; Jakša, Gregor (ur.). Ljubljana: Društvo za vakuumsko tehniko Slovenije, 2015. str. 16-16

Podaci o odgovornosti

Šantak, Vedran ; Zaplotnik, Rok ; Vesel, Alenka ; Šrut Rakić, Iva ; Tarle, Zrnka ; Milošević, Slobodan

engleski

APPLICATION OF LOW TEMPERATURE ATMOSPHERIC PRESSURE PLASMA IN DENTAL MEDICINE

The oral cavity is a microbial habitat with over 700 species that live in harmony with the human body [1]. Hard dental tissues include dentin, cementum and enamel which makes main building material of teeth. This is a group of tissues that was subjected to various degrees of mineralization during development, which is typically in the form of hydroxyapatite. Because of their environment teeth interact continuously with physiological fluids, containing biologically important ionic species [2]. The behavior of this species can affect the solid, the environment and biological system. Recently, it was shown that low temperature atmospheric pressure plasma jet (APPJ) could be applicable to therapies in field of dental medicine [3]. The opportunity to examine and understand interactions between APPJ and hard dental tissue has not been fully exploited particularly at the fundamental level where surface science techniques can provide detailed information [4]. To asses interaction between APPJ and hard dental tissue, XPS, AFM, OES and contact angle measurements were conducted. Sample preparation for surface techniques will be discussed in sufficient detail. After the treatment with APPJ chemical, morphological and wettability changes were revealed on the surface of the dentin and enamel. This results bring APPJ closer to clinical application in dental medicine [5, 6]. [1] Pennisi E. A mouthful of microbes. Science (New York, NY). 2005 ; 307(5717):1899-901. [2] Dorozhkin S. Calcium Orthophosphates in Nature, Biology and Medicine. Materials. 2009 ; 2(2):399-498. [3] Zhu W, Becker K, Pan J, Zhang J, Fang J. Dental Applications of Atmospheric-Pressure Non-Thermal Plasmas. In: Bonitz M, Lopez J, Becker K, Thomsen H, editors. Complex Plasmas. Springer Series on Atomic, Optical, and Plasma Physics. 82: Springer International Publishing ; 2014. p. 455-85. [4] Jones FH. Teeth and bones: applications of surface science to dental materials and related biomaterials. Surface Science Reports. 2001 ; 42(3–5):75- 205. [5] Santak V, Zaplotnik R, Milosevic S, Klaric E, Tarle Z. Atmospheric Pressure Plasma Jet as an Accelerator of Toot Bleaching. Acta Stomatol Croat. 2014 ; 48(4):268-78. [6] Santak V, Zaplotnik R, Tarle Z, Milosevic S. Submitted to. Applied Spectroscopy. 2015.

dental medicine; atmospheric pressure plasma jets; hard dental tissue

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Podaci o prilogu

16-16.

2015.

objavljeno

Podaci o matičnoj publikaciji

22nd INTERNATIONAL SCIENTIFIC MEETING ON VACUUM SCIENCE AND TECHNIQUE, PROGRAMME AND BOOK OF ABSTRACTS

Kovač, Janez ; Jakša, Gregor

Ljubljana: Društvo za vakuumsko tehniko Slovenije

978-961-92989-7-8

Podaci o skupu

22nd International Scientific Meeting on Vacuum Science and technique

pozvano predavanje

21.05.2015-22.05.2015

Osilnica, Slovenija

Povezanost rada

Fizika