Atmosferik Basınç Soğuk Plazmanın Diş Hekimliğindeki Uygulamaları
Year 2021,
Volume: 2 Issue: 1, 1 - 9, 02.07.2021
Süleyman Korkut Balcı
,
Sevde Nur Kutlu
,
Uğur Burak Temel
,
Ali Gulec
Abstract
Atmosferik basınç soğuk plazma teknolojisi diş hekimliğinde yeni bir alandır ve bu alanda çok sayıda çalışma yapılmıştır. Her ne kadar çalışmalar diş beyazlatma, dentin/adeziv bağlanması ve antibakteriyel etkileri üzerine yoğunlaşmış olsa da kuron/köprü protezleri, dental kök hücre farklılaşması ve yara iyileşmesi gibi diş hekimliğinin diğer alanlarında da soğuk plazmanın kullanılabilirliği araştırılmaktadır.
Bu çalışmanın amacı soğuk plazmanın diş hekimliği alanındaki uygulamaları ve son yıllarda yapılan çalışmalarla ilgili bilgi vermek, gelecek vaat eden bir yöntem olarak görülen plazmanın diş hekimliği açısından mevcut durumunu ortaya koymaktır.
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- Miletić, M., Mojsilović, S., Đorđević, I. O., Maletić, D., Puač, N., Lazović, S., ... & Bugarski, D. (2013). Effects of non-thermal atmospheric plasma on human periodontal ligament mesenchymal stem cells. Journal of physics D: Applied physics, 46(34), 345.
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- Şeker, B. K., & Ozdemır, H. Assessment of Pain Perception After Conventional Frenectomy With Application of Cold Atmospheric Plasma. age, 27(12), 2-53.
- Pekbağrıyanık, T. (2016). Serbest Dişeti Grefti Uygulamalarında Atmosferik Basınç Soğuk Plazmanın Yara İyileşmesi Üzerine Etkisinin Değerlendirilmesi. Katip Çelebi Üniversitesi Diş Hekimliği Fakültesi Periodontoloji Anabilim Dalı, Uzmanlık Tezi, 104s, İzmir.
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- Saati, K., Orumchi, A., Namdar, F., Jarrah, A., & Chiniforush, N. (2020). The effect of laser-activated bleaching with 810 nm and 980 nm diode lasers on enamel micro-hardness ve an in vitro study. Laser Physics, 30(2), 026002.
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Year 2021,
Volume: 2 Issue: 1, 1 - 9, 02.07.2021
Süleyman Korkut Balcı
,
Sevde Nur Kutlu
,
Uğur Burak Temel
,
Ali Gulec
References
- Laroussi, M. (2009). Low-temperature plasmas for medicine?. IEEE Transactions on plasma science, 37(6), 714-725.
- A. Fridman, G. Friedman, “Plazma Medicine”, Wiley, 526 pages, 2013.
- Laroussi, M. (2008). The biomedical applications of plasma: A brief history of the development of a new field of research. IEEE Transactions on plasma science, 36(4), 1612-1614.
- Abdulsamee, N. (2017). Expanded Tentacles of Cold Plasma Energy in Dentistry–Review. EC Dental Science, 11, 223-239.
- Cha, S., & Park, Y. S. (2014). Plasma in dentistry. Clinical plasma medicine, 2(1), 4-10.
- Yılmaz, F. (2017). Atmosferik Basınçlı Soğuk Plazma Güç Kaynağının Diş Beyazlatma Etkinliği, Renk Stabilitesi Ve Mine Dokusu Üzerine Etkisi. Kâtip Çelebi Üniversitesi, Sağlık Bilimleri Enstitüsü, Doktora Tezi, 164s, İzmir.
- Alqahtani, M. Q. (2014). Tooth-bleaching procedures and their controversial effects: A literature review. The Saudi dental journal, 26(2), 33-46.
- Carey, C. M. (2014). Tooth whitening: what we now know. Journal of Evidence Based Dental Practice, 14, 70-76.
- Joiner, A. (2006). The bleaching of teeth: a review of the literature. Journal of dentistry, 34(7), 412-419.
- Sun, P., Pan, J., Tian, Y., Bai, N., Wu, H., Wang, L., ... & Fang, J. (2010). Tooth whitening with hydrogen peroxide assisted by a direct-current cold atmospheric-pressure air plasma microjet. IEEE Transactions on Plasma Science, 38(8), 1892-1896.
- Wang, G., Ye, G., Yang, X., Pan, H., Sun, K., Zhang, J., & Fang, J. (2014). The efficacy, safety, stability, and mechanism of tooth whitening by a cold atmospheric pressure air plazma microjet assisted with or without hydrogen peroxide. IEEE Transactions on Plasma Science, 42(6), 1623-1628.
- Kusanagi, A., Otsuki, M., & Tagami, J. (2018). Effect of nonthermal atmospheric discharge on tooth bleaching. Asian Pacific Journal of Dentistry, 18, 7-14.
- Pan, J., Sun, P., Tian, Y., Zhou, H., Wu, H., Bai, N., ... & Fang, J. (2010). A novel method of tooth whitening using cold plazma microjet driven by direct current in atmospheric-pressure air. IEEE Transactions on Plazma Science, 38(11), 3143-3151.
- Kong, M. G., Kroesen, G., Morfill, G., Nosenko, T., Shimizu, T., Van Dijk, J., & Zimmermann, J. L. (2009). Plasma medicine: an introductory review. new Journal of Physics, 11(11), 115012.
- Choi, H. S., Kim, K. N., You, E. M., Choi, E. H., Kim, Y. H., & Kim, K. M. (2013). Tooth whitening effects by atmospheric pressure cold plazmas with different gases. Japanese Journal of Applied Physics, 52(11S), 11NF02.
- Alkahtani, R., Stone, S., German, M., & Waterhouse, P. (2020). A Review on Dental Whitening. Journal of Dentistry, 103423.
- Ritts, A. C., Li, H., Yu, Q., Xu, C., Yao, X., Hong, L., & Wang, Y. (2010). Dentin surface treatment using a non‐thermal argon plasma brush for interfacial bonding improvement in composite restoration. European journal of oral sciences, 118(5), 510-516.
- Dong, X., Li, H., Chen, M., Wang, Y., & Yu, Q. (2015). Plasma treatment of dentin surfaces for improving self-etching adhesive/dentin interface bonding. Clinical plasma medicine, 3(1), 10-16.
- Ayres, A. P., Freitas, P. H., De Munck, J., Vananroye, A., Clasen, C., Dias, C. D. S., & Van Meerbeek, B. (2018). Benefits of Nonthermal Atmospheric Plazma Treatment on Dentin Adhesion. Operative dentistry, 43(6), E288-E299.
- Zhu, X. M., Zhou, J. F., Guo, H., Zhang, X. F., Liu, X. Q., Li, H. P., & Tan, J. G. (2018). Effects of a modified cold atmospheric plazma jet treatment on resin-dentin bonding. Dental materials journal, 2017-314.
- Chen, M., Zhang, Y., Driver, M. S., Caruso, A. N., Yu, Q., & Wang, Y. (2013). Surface modification of several dental substrates by non-thermal, atmospheric plasma brush. Dental Materials, 29(8), 871-880.
- Park, C., Park, S. W., Yun, K. D., Ji, M. K., Kim, S., Yang, Y., & Lim, H. P. (2018). Effect of plazma treatment and its post process duration on shear bonding strength and antibacterial effect of dental zirconia. Materials, 11(11), 2233.
- Liu, Y., Liu, Q., Yu, Q. S., & Wang, Y. (2016). Nonthermal atmospheric plazmas in dental restoration. Journal of dental research, 95(5), 496-505.
- Han, G. J., Kim, J. H., Chung, S. N., Chun, B. H., Kim, C. K., Seo, D. G., ... & Cho, B. H. (2014). Effects of non‐thermal atmospheric pressure pulsed plasma on the adhesion and durability of resin composite to dentin. European Journal of Oral Sciences, 1.
- Wu, S., Cao, Y., & Lu, X. (2015). The state of the art of applications of atmospheric-pressure nonequilibrium plasma jets in dentistry. IEEE Transactions on Plasma Science, 44(2), 134-151. 44(2), 134-151.
- Li, Y., Sun, K., Ye, G., Liang, Y., Pan, H., Wang, G., ... & Fang, J. (2015). Evaluation of cold plasma treatment and safety in disinfecting 3-week root canal Enterococcus faecalis biofilm in vitro. Journal of endodontics, 41(8), 1325-1330.
- Pan, J., Li, Y. L., Liu, C. M., Tian, Y., Yu, S., Wang, K. L., ... & Fang, J. (2017). Investigation of cold atmospheric plasma-activated water for the dental unit waterline system contamination and safety evaluation in vitro. Plasma Chemistry and Plasma Processing, 37(4), 1091-1103.
- Šantak, V., Vesel, A., Bišćan, M., & Milošević, S. (2017). Surface treatment of human hard dental tissues with atmospheric pressure plasma jet. Plasma chemistry and plasma processing, 37(2), 401-413. 30(3), 384-391.
- Bona, A. D., Pecho, O. E., & Alessandretti, R. (2015). Zirconia as a dental biomaterial. Materials, 8(8), 4978-4991.
- Yavirach, P., Chaijareenont, P., Boonyawan, D., Pattamapun, K., Tunma, S., Takahashi, H., & Arksornnukit, M. (2009). Effects of plasma treatment on the shear bond strength between fiber-reinforced composite posts and resin composite for core build-up. Dental materials journal, 28(6), 686-682.
- Balkenhol, M., Nothdurft, F. P., Hannig, M., Schindler, A., Lehmann, A., Arnold, T., ... & Rupf, S. (2017). Bonding to zirconia ceramic: The effect of cold plasma treatment and 4-META. Clinical Plasma Medicine, 5, 8-13.
- Seker, E., Kilicarslan, M. A., Deniz, S. T., Mumcu, E., & Ozkan, P. (2015). Effect of atmospheric plasma versus conventional surface treatments on the adhesion capability between self-adhesive resin cement and titanium surface. The journal of advanced prosthodontics, 7(3), 249-256.
- Büyükakyüz, H. N., (2012). Diş ve çevre dokuları kaynaklı mezenkimal kök hücreler. İst.Dişhek.Oda Derg , 46-49.
- Miletić, M., Mojsilović, S., Đorđević, I. O., Maletić, D., Puač, N., Lazović, S., ... & Bugarski, D. (2013). Effects of non-thermal atmospheric plasma on human periodontal ligament mesenchymal stem cells. Journal of physics D: Applied physics, 46(34), 345.
- Kusakci‐Seker, B., & Demirayak‐Akdemir, M. (2020). The effect of non‐thermal atmospheric pressure plasma application on wound healing after gingivectomy. International Wound Journal.
- Şeker, B. K., & Ozdemır, H. Assessment of Pain Perception After Conventional Frenectomy With Application of Cold Atmospheric Plasma. age, 27(12), 2-53.
- Pekbağrıyanık, T. (2016). Serbest Dişeti Grefti Uygulamalarında Atmosferik Basınç Soğuk Plazmanın Yara İyileşmesi Üzerine Etkisinin Değerlendirilmesi. Katip Çelebi Üniversitesi Diş Hekimliği Fakültesi Periodontoloji Anabilim Dalı, Uzmanlık Tezi, 104s, İzmir.
- Barutcugil, Ç, Kürklü, D, Barutcugil, K , Harorlı, O. (2015). Beyazlatıcı Ağız Gargaralarının Kompozit Rezinin Yüzey Pürüzlülüğü Üzerine Etkilerinin İncelenmesi. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi, 24 (1), 33-38.
- Öngül, D, Mim, A, Şahin, H, Değer, S. (2012). Ağız Gargaralarının Restoratif Materyallerin Renk Stabilitesine Olan Etkisi. İstanbul Üniversitesi Diş Hekimliği Fakültesi Dergisi, 46 (2), 13-20.
- Berger, S. B., Cavalli, V., Martin, A. A., Soares, L. E. S., Arruda, M. A. Z., Brancalion, M. L., & Giannini, M. (2010). Effects of combined use of light irradiation and 35% hydrogen peroxide for dental bleaching on human enamel mineral content. Photomedicine and Laser Surgery, 28(4), 533-538.
- Saati, K., Orumchi, A., Namdar, F., Jarrah, A., & Chiniforush, N. (2020). The effect of laser-activated bleaching with 810 nm and 980 nm diode lasers on enamel micro-hardness ve an in vitro study. Laser Physics, 30(2), 026002.
- Kury, M., Wada, E. E., Sılva, D. P. D., Tabchoury, C. P. M., Gıannını, M., & Cavallı, V. (2020). Effect of violet LED light on in-office bleaching protocols: a randomized controlled clinical trial. Journal of Applied Oral Science, 28.
- Kury, M., Perches, C., da Silva, D. P., André, C. B., Tabchoury, C. P., Giannini, M., & Cavalli, V. (2020). Color change, diffusion of hydrogen peroxide, and enamel morphology after in‐office bleaching with violet light or nonthermal atmospheric plasma: An in vitro study. Journal of Esthetic and Restorative Dentistry, 32(1), 102-112.
- Ruivo, M. A., Nima, G., Pacheco, R. R., Lancellotti, A. C., Palma-Dibb, R. G., Faraoni, J. J., ... & Giannini, M. (2020). Changes in enamel after bleaching pre-treatment with non-thermal atmospheric plasma. Clinical Plasma Medicine, 19, 100106.
- Tüfek, E., Ayna, B. (2019). Diş Hekimliğinde Adeziv Sistemler. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi , 29 (2) , 340-349.
- Gherardi, M., Tonini, R., & Colombo, V. (2018). Plasma in dentistry: brief history and current status. Trends in biotechnology, 36(6), 583-585.
- Zhang, Y., Yu, Q., & Wang, Y. (2014). Non-thermal atmospheric plasmas in dental restoration: improved resin adhesive penetration. Journal of dentistry, 42(8), 1033-1042.
- Han, G. J., Kim, J. M., Cho, B. H., Hwang, Y., & Kim, H. Y. (2019). Improved resin‐to‐dentin bond strength and durability via non‐thermal atmospheric pressure plasma drying of etched dentin. European journal of oral sciences, 127(2), 170-178.
- Jiao, Y., Tay, F. R., Niu, L. N., & Chen, J. H. (2019). Advancing antimicrobial strategies for managing oral biofilm infections. International journal of oral science, 11(3), 1-11.
- Sladek, R. E. J., Filoche, S. K., Sissons, C. H., & Stoffels, E. (2007). Treatment of Streptococcus mutans biofilms with a nonthermal atmospheric plasma. Letters in applied microbiology, 45(3), 318-323.
- Sladek, R. E., Stoffels, E., Walraven, R., Tielbeek, P. J., & Koolhoven, R. A. (2004). Plasma treatment of dental cavities: a feasibility study. IEEE Transactions on plasma science, 32(4), 1540-1543.
- Lu, X., ao, Y., Yang, P., Xiong, Q., Xiong, Z., Xian, Y., & Pan, Y. (2009). An RC plasma device for sterilization of root canal of teeth. IEEE transactions on Plasma Science, 37(5), 668-673.
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