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Dental Uygulamalarda Kullanılan Biyomalzemeler

Year 2019, Volume: 8 Issue: 2, 145 - 153, 29.12.2019
https://doi.org/10.17100/nevbiltek.535061

Abstract

Genel
sağlık için ağız ve diş sağlığı oldukça önemlidir. Ağız ve diş hastalıkları
dünyada en yaygın görülen sağlık problemlerinin başında gelmektedir. Diş eti
hastalıkları; dişi çevreleyen ve dişi destekleyen kemiğe kadar ilerleyen,
dişeti iltihabı ve diş problemlerini kapsamaktadır. Tedavi süresince dental
birçok işlemde biyomalzeme kullanılmaktadır. Tedavinin etkinliğini değiştiren
unsurlar arasında kullanılan malzemeler, malzemelerin kalitesi ve biyo-uyumu
önem arz etmektedir. Vucüt dışarıdan yapısına katılan yabancı maddelere karşı
tepki göstermesine rağmen, dokulara göre geliştirilmiş biyouyumluluk gösteren
biyomalzemeleri kabul etmektedir. Doku ortamı içerisinde herhangi bir hasara
karşı; yüzey konfigürasyonu geliştirme, dokuyu indükleme ve inflamasyona karşı
red cevabı oluşturma, biyomalzemelerin en önemli fiziksel özellikleri
arasındadır. Bu makale de amaç, dental uygulamalarda kullanılan biyomalzemeleri
tanımlamak, sınıflandırmak ve görevlerini araştırmaktır.

References

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  • 2. Gostemeyer, G., S.R. Baker, and F. Schwendicke, Barriers and facilitators for provision of oral health care in dependent older people: a systematic review. Clin Oral Investig, 2019
  • 3. Deb, S. and S. Chana, Biomaterials in Relation to Dentistry. Front Oral Biol, 2015. 17: p. 1-12.
  • 4. Niinomi, M., Recent metallic materials for biomedical applications. Metallurgical and Materials Transactions A, 2002(33): p. 477.
  • 5. Edgerton, M. and M.J. Levine, Biocompatibility: its future in prosthodontic research. J Prosthet Dent, 1993. 69(4): p. 406-15.
  • 6. Jorge, J.R., et al., Titanium in dentistry: historical development, state of the art and future perspectives. J Indian Prosthodont Soc, 2013. 13(2): p. 71-7.
  • 7. Chen, G.Z., D.J. Fray, and T.W. Farthing, Direct electrochemical reduction of titanium dioxide to titanium in molten calcium chloride. Nature, 2000. 407(6802): p. 361-4.
  • 8. Hubalkova, H. and I. Linetskiy, New trends in prosthetic dentistry. Prague Med Rep, 2006. 107(2): p. 149-64.
  • 9. Zhang, F., et al., Preparation, microstructures, mechanical properties, and cytocompatibility of TiMn alloys for biomedical applications. J Biomed Mater Res B Appl Biomater, 2010. 94(2): p. 406-13.
  • 10. Hrabe, N.W. Characterization of cellular titanium for biomedical applications. 2010. 71-10, 6370;262.
  • 11. Juodzbalys, G., Sapragoniene, M., Wennerrberg, A, New Acid Etched Titanium Dental Implant Surface. Stomatologija, Baltic Dental and Maxillofacial Journal, 2003: p. 101-105.
  • 12. He, G., et al., Nanostructured Ti-based multi-component alloys with potential for biomedical applications. Biomaterials, 2003. 24(28): p. 5115-20.
  • 13. AB, A. ASTM F75 CoCr Alloy. 2007; Available from: http://www.arcam.com/wp-content/uploads/Arcam-ASTM-F75-Cobalt-Chrome.pdf.
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  • 15. Vincent PF, S.L., Basford KE, A comparison of the casting ability of precious and nonprecious alloys for porcelain veneering. The Journal of Prosthetic Dentistry, 1977. 37(5): p. 527-536.
  • 16. Nilo A. Sampaio, J.W.J.S., Heloisa A. Acciari, Eduardo N. Codaro Study of Ni-Cr-Mo Alloys for Fixed Dental Prostheses in an Aqueous Solution of 0.05% NAF and in Commercial Mouthwashes. International Journal of Engineering and Innovative Technology (IJEIT), 2013. 2(12).
  • 17. H, A., Biyomalzemeler. Bilim ve Teknik, 2002: p. 2-11.
  • 18. Shenoy, A. and N. Shenoy, Dental ceramics: An update. J Conserv Dent, 2010. 13(4): p. 195-203.
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  • 20. Raghavan, R.N., Ceramics in Dentistry, in Sintering of Ceramics- New Emerging TechniquesMarch 2nd 2012.
  • 21. Guido Heydecke, M.S., Michael E Razzoog, Evolution and Use of Aluminum Oxide Single-Tooth Implant Abutments: A Short Review and Presentation of Two Cases. The International journal of prosthodontics, 2001. 15(5): p. 488-93.
  • 22. Pepla, E., et al., Nano-hydroxyapatite and its applications in preventive, restorative and regenerative dentistry: a review of literature. Ann Stomatol (Roma), 2014. 5(3): p. 108-14.
  • 23. Ahmet Pasinli, R.S.A., Yapay Kemik Uygulamaları İçin Hidroksiapatit. Biyo Teknoloji Elektronik Dergisi, 2010. 1(1): p. 41-51.
  • 24. Hofmann, K.S.G.B.T.S.F.W.T.K.T., Ullmann's Encyclopedia of Industrial Chemistry2008, Ullmann’s Encyclopedia of Industrial Chemistry.
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  • 26. Depprich, R., et al., Osseointegration of zirconia implants: an SEM observation of the bone-implant interface. Head Face Med, 2008. 4: p. 25.
  • 27. Gaviria, L., et al., Current trends in dental implants. J Korean Assoc Oral Maxillofac Surg, 2014. 40(2): p. 50-60.
  • 28. Glazer, B., Restoration of endodontically treated teeth with carbon fibre posts--a prospective study. J Can Dent Assoc, 2000. 66(11): p. 613-8.
  • 29. Iviglia, G., S. Kargozar, and F. Baino, Biomaterials, Current Strategies, and Novel Nano-Technological Approaches for Periodontal Regeneration. J Funct Biomater, 2019. 10(1).
  • 30. Gautam, R., et al., Biocompatibility of polymethylmethacrylate resins used in dentistry. Journal of Biomedical Materials Research Part B-Applied Biomaterials, 2012. 100B(5): p. 1444-1450.
  • 31. Park, S.E., M. Chao, and P.A. Raj, Mechanical properties of surface-charged poly(methyl methacrylate) as denture resins. Int J Dent, 2009. 2009: p. 841431.
  • 32. Badami, V. and B. Ahuja, Biosmart materials: breaking new ground in dentistry. ScientificWorldJournal, 2014. 2014: p. 986912.
  • 33. Polat, N.T., Polimetil Metakrilat (PMMA)'ların Cam Fiberler Güçlendirilmesi. Cumhuriyet Üniversitesi, 2002. 5(1): p. 41-45.
  • 34. Arıkan, A., Silikon ve Polieter Lastik Esaslı Ölçü Materyalleri G.Ü. Dişhek. Fak. Der. , 1986. 3(1): p. 213-224.

Biomaterials in Used Dental Application

Year 2019, Volume: 8 Issue: 2, 145 - 153, 29.12.2019
https://doi.org/10.17100/nevbiltek.535061

Abstract

Oral and dental health is very important for overall
health. Oral and dental diseases are among the most common health problems in
the world. Gum diseases involve gingivitis and dental problems, extending to
the surrounding and supporting bone. During treatment, biomaterials are used in
many dental procedures. There are important factors that change the
effectiveness of the treatment like the materials that are used, the quality of
those materials, and their biocompatibility. Although the body reacts against
foreign substances that are implanted into its structure, the body accepts the
biocompatible biomaterials developed for tissues. Against any damage in the
tissue environment, improving surface configuration, inducing tissue, and
create a rejection to inflammation are among the most important physical
properties of biomaterials. The aim of this article is to identify, classify
and investigate the biomaterials used in dental practices.

References

  • 1. Lorenzo, J., M. Horowitz, and Y. Choi, Osteoimmunology: interactions of the bone and immune system. Endocr Rev, 2008. 29(4): p. 403-40.
  • 2. Gostemeyer, G., S.R. Baker, and F. Schwendicke, Barriers and facilitators for provision of oral health care in dependent older people: a systematic review. Clin Oral Investig, 2019
  • 3. Deb, S. and S. Chana, Biomaterials in Relation to Dentistry. Front Oral Biol, 2015. 17: p. 1-12.
  • 4. Niinomi, M., Recent metallic materials for biomedical applications. Metallurgical and Materials Transactions A, 2002(33): p. 477.
  • 5. Edgerton, M. and M.J. Levine, Biocompatibility: its future in prosthodontic research. J Prosthet Dent, 1993. 69(4): p. 406-15.
  • 6. Jorge, J.R., et al., Titanium in dentistry: historical development, state of the art and future perspectives. J Indian Prosthodont Soc, 2013. 13(2): p. 71-7.
  • 7. Chen, G.Z., D.J. Fray, and T.W. Farthing, Direct electrochemical reduction of titanium dioxide to titanium in molten calcium chloride. Nature, 2000. 407(6802): p. 361-4.
  • 8. Hubalkova, H. and I. Linetskiy, New trends in prosthetic dentistry. Prague Med Rep, 2006. 107(2): p. 149-64.
  • 9. Zhang, F., et al., Preparation, microstructures, mechanical properties, and cytocompatibility of TiMn alloys for biomedical applications. J Biomed Mater Res B Appl Biomater, 2010. 94(2): p. 406-13.
  • 10. Hrabe, N.W. Characterization of cellular titanium for biomedical applications. 2010. 71-10, 6370;262.
  • 11. Juodzbalys, G., Sapragoniene, M., Wennerrberg, A, New Acid Etched Titanium Dental Implant Surface. Stomatologija, Baltic Dental and Maxillofacial Journal, 2003: p. 101-105.
  • 12. He, G., et al., Nanostructured Ti-based multi-component alloys with potential for biomedical applications. Biomaterials, 2003. 24(28): p. 5115-20.
  • 13. AB, A. ASTM F75 CoCr Alloy. 2007; Available from: http://www.arcam.com/wp-content/uploads/Arcam-ASTM-F75-Cobalt-Chrome.pdf.
  • 14. Donald A.NitkinDDS, M., Evaluation of alternative alloys to type III gold for use in fixed prosthodontics. The Journal of the American Dental Association1976. 93(3): p. 622-629.
  • 15. Vincent PF, S.L., Basford KE, A comparison of the casting ability of precious and nonprecious alloys for porcelain veneering. The Journal of Prosthetic Dentistry, 1977. 37(5): p. 527-536.
  • 16. Nilo A. Sampaio, J.W.J.S., Heloisa A. Acciari, Eduardo N. Codaro Study of Ni-Cr-Mo Alloys for Fixed Dental Prostheses in an Aqueous Solution of 0.05% NAF and in Commercial Mouthwashes. International Journal of Engineering and Innovative Technology (IJEIT), 2013. 2(12).
  • 17. H, A., Biyomalzemeler. Bilim ve Teknik, 2002: p. 2-11.
  • 18. Shenoy, A. and N. Shenoy, Dental ceramics: An update. J Conserv Dent, 2010. 13(4): p. 195-203.
  • 19. Melahat ÇELİK , C.B., Gülsen BAYRAKTAR, Diş Hekimliğinde Zirkonya Uygulamaları. J Dent Fac Atatürk Uni, 2014. 8: p. 106-116.
  • 20. Raghavan, R.N., Ceramics in Dentistry, in Sintering of Ceramics- New Emerging TechniquesMarch 2nd 2012.
  • 21. Guido Heydecke, M.S., Michael E Razzoog, Evolution and Use of Aluminum Oxide Single-Tooth Implant Abutments: A Short Review and Presentation of Two Cases. The International journal of prosthodontics, 2001. 15(5): p. 488-93.
  • 22. Pepla, E., et al., Nano-hydroxyapatite and its applications in preventive, restorative and regenerative dentistry: a review of literature. Ann Stomatol (Roma), 2014. 5(3): p. 108-14.
  • 23. Ahmet Pasinli, R.S.A., Yapay Kemik Uygulamaları İçin Hidroksiapatit. Biyo Teknoloji Elektronik Dergisi, 2010. 1(1): p. 41-51.
  • 24. Hofmann, K.S.G.B.T.S.F.W.T.K.T., Ullmann's Encyclopedia of Industrial Chemistry2008, Ullmann’s Encyclopedia of Industrial Chemistry.
  • 25. Aytuğ, E.Ö., Kemik İçi Dental İmplantlarda Bağ Dokusu ve Kemik Birleşimi. G.Ü. Dişhek. Fak. Der., 1991. 3(2): p. 171-182.
  • 26. Depprich, R., et al., Osseointegration of zirconia implants: an SEM observation of the bone-implant interface. Head Face Med, 2008. 4: p. 25.
  • 27. Gaviria, L., et al., Current trends in dental implants. J Korean Assoc Oral Maxillofac Surg, 2014. 40(2): p. 50-60.
  • 28. Glazer, B., Restoration of endodontically treated teeth with carbon fibre posts--a prospective study. J Can Dent Assoc, 2000. 66(11): p. 613-8.
  • 29. Iviglia, G., S. Kargozar, and F. Baino, Biomaterials, Current Strategies, and Novel Nano-Technological Approaches for Periodontal Regeneration. J Funct Biomater, 2019. 10(1).
  • 30. Gautam, R., et al., Biocompatibility of polymethylmethacrylate resins used in dentistry. Journal of Biomedical Materials Research Part B-Applied Biomaterials, 2012. 100B(5): p. 1444-1450.
  • 31. Park, S.E., M. Chao, and P.A. Raj, Mechanical properties of surface-charged poly(methyl methacrylate) as denture resins. Int J Dent, 2009. 2009: p. 841431.
  • 32. Badami, V. and B. Ahuja, Biosmart materials: breaking new ground in dentistry. ScientificWorldJournal, 2014. 2014: p. 986912.
  • 33. Polat, N.T., Polimetil Metakrilat (PMMA)'ların Cam Fiberler Güçlendirilmesi. Cumhuriyet Üniversitesi, 2002. 5(1): p. 41-45.
  • 34. Arıkan, A., Silikon ve Polieter Lastik Esaslı Ölçü Materyalleri G.Ü. Dişhek. Fak. Der. , 1986. 3(1): p. 213-224.
There are 34 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Diğer Bölümler
Authors

Duygu Kırkık 0000-0003-1417-6915

Barış Karabulut This is me 0000-0001-5556-6237

Kübra Öztürk This is me 0000-0001-6546-7689

Sevgi Kalkanlı Taş This is me 0000-0001-5288-6040

Publication Date December 29, 2019
Acceptance Date December 27, 2019
Published in Issue Year 2019 Volume: 8 Issue: 2

Cite

APA Kırkık, D., Karabulut, B., Öztürk, K., Kalkanlı Taş, S. (2019). Dental Uygulamalarda Kullanılan Biyomalzemeler. Nevşehir Bilim Ve Teknoloji Dergisi, 8(2), 145-153. https://doi.org/10.17100/nevbiltek.535061
AMA Kırkık D, Karabulut B, Öztürk K, Kalkanlı Taş S. Dental Uygulamalarda Kullanılan Biyomalzemeler. Nevşehir Bilim ve Teknoloji Dergisi. December 2019;8(2):145-153. doi:10.17100/nevbiltek.535061
Chicago Kırkık, Duygu, Barış Karabulut, Kübra Öztürk, and Sevgi Kalkanlı Taş. “Dental Uygulamalarda Kullanılan Biyomalzemeler”. Nevşehir Bilim Ve Teknoloji Dergisi 8, no. 2 (December 2019): 145-53. https://doi.org/10.17100/nevbiltek.535061.
EndNote Kırkık D, Karabulut B, Öztürk K, Kalkanlı Taş S (December 1, 2019) Dental Uygulamalarda Kullanılan Biyomalzemeler. Nevşehir Bilim ve Teknoloji Dergisi 8 2 145–153.
IEEE D. Kırkık, B. Karabulut, K. Öztürk, and S. Kalkanlı Taş, “Dental Uygulamalarda Kullanılan Biyomalzemeler”, Nevşehir Bilim ve Teknoloji Dergisi, vol. 8, no. 2, pp. 145–153, 2019, doi: 10.17100/nevbiltek.535061.
ISNAD Kırkık, Duygu et al. “Dental Uygulamalarda Kullanılan Biyomalzemeler”. Nevşehir Bilim ve Teknoloji Dergisi 8/2 (December 2019), 145-153. https://doi.org/10.17100/nevbiltek.535061.
JAMA Kırkık D, Karabulut B, Öztürk K, Kalkanlı Taş S. Dental Uygulamalarda Kullanılan Biyomalzemeler. Nevşehir Bilim ve Teknoloji Dergisi. 2019;8:145–153.
MLA Kırkık, Duygu et al. “Dental Uygulamalarda Kullanılan Biyomalzemeler”. Nevşehir Bilim Ve Teknoloji Dergisi, vol. 8, no. 2, 2019, pp. 145-53, doi:10.17100/nevbiltek.535061.
Vancouver Kırkık D, Karabulut B, Öztürk K, Kalkanlı Taş S. Dental Uygulamalarda Kullanılan Biyomalzemeler. Nevşehir Bilim ve Teknoloji Dergisi. 2019;8(2):145-53.

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