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NANOPARTICLES APPLICATION AREAS IN DENTISTRY

Yıl 2014, Cilt 24, Sayı Supplement 8, 49 - 55, 11.02.2015
https://doi.org/10.17567/dfd.68750

Öz

Nano-structured materials have been receiving Nanotechnology deals with the properties of structures and their components at nanoscale (atoms and molecules) dimensions. Nano-structured materials have created a new interesting field in all sciences for continuous investigations due to their unique properties. Nanoparticles have been used as one of the most effective antibacterial agents due to their large surface area to volume ratios. Nanoparticles can be used in dentistry as oral biofilm management, caries control, remineralization, management of dentinal hypersensivity, periodontal infection, root canal disinfection. However, certain nanoparticles may be toxic to oral tissues. For this reason, the effect of nanoparticles should be investigated in future studies. Nanotechnology will change dentistry, healthcare, and human life more profoundly than many developments of the past

Kaynakça

  • Fayaz AM, Balaji K, Girila M, Yadav R, Kalaichelvan PT, Venketesan R. Biogenic synthesis of silver nano-particles and their synergistic effect with antibiotics: a study against gram-positive and gram-negative bacteria. Nanomedicine 2010;6:3-9.
  • Kavaz D. Nanoteknoloji. Nanobülten 2011;13:12-9.
  • Zhao J, Xie D. Effect of nanoparticles on wear resistance and surface hardness of a dental glass- ionomer cement. J Compos Mater 2009;43:2739
  • Kuo MC, Tsai CM, Huang JC, Chen M. PEEK Composites reinforced by nano-sized SiO2 and Al2O3 Particulates. Mater Chem Phys 2005;90:185- 95.
  • Bayram C. İmplant teknolojisine nano yaklaşımlar. Nanobülten 2011;13:8-11.
  • Ibrahim Mohamed Hamouda. Current perspectives of nanoparticles in medical and dental biomaterials. Journal of Biomedical Research, 2012;26:143-51.
  • Preeti Satheesh Kumar, Satheesh Kumar, Ravindra C. Savadi, Jins John. Nanodentistry: A paradigm shiftfrom fiction to reality. J Indian Prosthodont Soc 2011;11:1-6.
  • Dastjerdi R, Montazer M. A review on the application of inorganic nano-structured materials in the modification of textiles: Focus on anti- microbial properties. Colloids Surf B Biointerfaces 2010;5-18.
  • Kim JS, Kuk E, Yu KN, Kim JH, ParR SJ, Lee HJ. Anti-microbial effects of silver nanoparticles. Nanomed 2007; 3: 95-101.
  • Pal S, Tak YK, Song JM. Does the antibacterial activity of silver nanoparticles depend on the shape of the nanoparticle? A study of the gram- negative bacterium Escherichia coli. Appl Environ Microbiol 2007;27:1712-20.
  • Stobie N, Duffy B, McCormack DE, Colreavy J, Hidalgo M, McHale P. Prevention of Staphylococcus epidermidis biofilm formation using a low temperature phenyltriethoxysilane sol-gel coating. Biomater 2008;8:963-9. silver-doped
  • Stoimenov PK, Klinger RL, Marchin GL, Klabunde KJ. Metal oxide nanoparticles as bactericidal agents. Langmuir 2002; 18: 6679-86.
  • Waltimo T, Brunner TJ, Vollenweider M, Stark WJ, Zehnder M. Antimicrobial effect of nanometric bioactive glass J Dent Res 2007;86:754-7.
  • Türkün ŞL, Uzer Çelik E. Antibakteriyel adeziv ile uygulanan kompomer ve nanofil kompozit restorasyonların bir yıllık klinik performansı. G Ü Diş Hek Fak Derg 2007;24:1-8.
  • Gökay N, Türkün LŞ. Farklı kompozit rezin materyallerin aşınma ve sertlik özelliklerin karşılaştırmalı olarak incelenmesi. A Ü Diş Hek Fak Derg 2002;28:263-70.
  • Ulusoy N, Gökay O, Müjdeci A. Farklı kalınlıklarda uygulanan yeni geliştirilmiş üç kompozitin yüzey sertliği. A Ü Diş Hek Fak Derg 2000;27:29-35.
  • Aydin Sevnic B, Hanley L. Antibacterial activity of dental nanoparticles. J Biomed Mater Res B Appl Biomater 2010;94;22-31. zinc oxide
  • Elsaka SE, Hamouda IM, Swain MV. Titanium dioxide nanoparticles addition to a conventional glass-ionomer restorative: Influence on physical and antibacterial properties. J Dent 2011;39:589- 98.
  • Moshaverinia A, Ansari S, Moshaverinia M, Roohpour N, Darr JA, Rehman I. Effect of incorparation of hydroxyapatite and fluoroapatite nanobioceramics into conventional glass ionomer cements (GIS). Acta Biomaterialia 2008;4:432-40.
  • Moszner N, Salz U. Recent developments of new components for dental adhesives and composites. Macromol Mater Eng 2007; 292: 245-71.
  • Kawahara K, Tsuruda K, Morishita M, Uchida M. Antibacterial effect of silver-zeolite on oral bacteria under anaerobic conditions. Dent Mater 2000; 16: 452-5.
  • Mariatti M, Azizan A, See CH, Chong KF. Effect of silane-based coupling agent on the properties of silver nanoparticles filled epoxy composites. Compos Sci Technol 2007; 67: 2584-91.
  • Lee HH, Chou KS, Shih ZW. Effect of nano-sized silver particles on the resistivity of polymeric conductive adhesives. Inter J Adhes Adhes 2005;25:437-41.
  • Beyth N, Yudovin-Farber I, Bahir R, Domb A. J, Weiss E. I. Antibacterial activity of dental composites containing quaternary ammonium polyethylenimine Streptococcus mutans. Biomaterials 2006;27:3995- 4002. against
  • Venegas SC, Palacios JM, Apella MC, Morando PJ, Blesa MA. Calcium modulate sinter actions between bacteria and hydroxyapatite. J Dent Res 2006;85:1124-8.
  • Rybachuk AV, Chekman IS, Nebesna TY. Nanotechnology and nanoparticles in dentistry. Pharmacol Pharm 2009;1:18-20
  • Fredriksson M, Astba¨ck J, Pamenius M, Arvidson K. A retrospective study of 236 patients with teeth restored by carbonfiber-reinforced epoxy resin posts. J Prosthet Dent 1998;80:151-7.
  • Meng T, Latta M. Physical properties of four acrylic denture base resins. J Contemp Dent Practise 2005;6:93-100.
  • Larson WR, Dixon DL. Aquilino SA, Clancy JM. The effect of carbon graphite fiber reinforcement on the strength of provisional crown and fixed partial denture resins. J Prosthet Dent 1991;66:816-20. 30. Ekstrand K, Ruyter IE, Wellendorf H. poly Carbon/graphite (methylmethyacrylate): properties under dry and wet conditions. J Biomed Mater Res 1987;21:1065- 80. reinforced
  • Homouda MI. Current perspectives of nanoparticles in medical and dental biomaterials. J Biomed Res 2012; 26: 143-51.
  • Lee C, Lee M, Nam K. Inhibitory effect of PMMA denture acrylic impregnated by silver nitrate and silver nano-particles for candida albicans. J Korean Chemic Soci 2008; 52: 380-6.
  • Casemiro LA, Gomes-Martins CH, Pires-de-Souza Fde C, Panzeri H. Antimicrobial and mechanical properties of acrylic resins with incorporated silver- zinc zeolite - Part 1. Gerodontology 2008;25:187- 94.
  • Kay JF. Calcium phosphate coatings for dental implants. Dent Clin North Am 1992;36:1-18.
  • Zeng HT, Lacefield WF. XPS, EDX and FTIR analysis of pulsed laser deposited calcium phosphate bioceramic coatings: the effects of various 2000;21:23-30. Biomaterials
  • Chladek G, Kasperski j, Barszczewska-Rybarek I and Żmudzki J. Sorption, solubility, bond strength and hardness of denture soft lining incorporated with nanoparticles.
  • Sci 2013;14:563-74. Int J Mol
  • Chladek, G, Mertas, A, Barszczewska–Rybarek, I, Nalewajek, T, Zmudzki, J, Król, W,
  • Lukaszczyk, J. Antifungal activity of denture soft lining material modified by silver nanoparticles-A pilot study. Int J Mol Sci2011;12:4735-44.
  • Kumar SR, Vijayalakshmi R. Nanotechnology in dentistry. Indian J Dent Res 2006;17:62-9
  • Verma SK, Prabhat KC, Goyal L, Rani M, Jain A. A critical review of the implication of nanotechnology in modern dental practice. Natl J Maxillofac Surg 2010;1:41-4.
  • Han Ying. Kiat-amnuay S, Powers JM, Zhao Y. Effect of nano-oxide concentration on the mechanical properties of a maxillofacial silicone elastomer. J Prosthet Dent 2008;100:465-73.
  • Frogley MD, Ravich D, Wagner HD. Mechanical properties elastomers. Comp Sci Technol 2003;63:1647-54.
  • Xie D, Weng Y, Guo X, Zhao J, Gregory RL, Zheng C. Preparation and evaluation of a novel glass- ionomer cement with antibacterial functions. Dent Mater 2011;27:487-96.
  • Kassaee MZ, Akhavan A, Sheikh N, Sodaga A. Antibacterial effects of a new dental acrylic resin containing silver nanoparticles. J Appli Polym Sci 2008; 110: 1699-3.
  • Ghazal M, Hedderich J, Kern M. Wear of feldspathic ceramic, nanofilled composite resin and acrylic resin artificial teeth when opposed to different antogonists. Eur J Oral Sci2008;116:585- 92.
  • Ghazal M, Albashaireh ZS, Kern M. Wear resistance of nanofilled composite and feldspathic ceramic artificial teeth. J Prosthet Dent2008;100:441-8.
  • Salahuddin N, Shehata M. Polymethylmethacrylate-montmorillonite composites: preparation, characterization and properties. Polymer. 2001;42:8379-85.
  • Lütfioğlu M. Periodontal rejenerasyon ve büyüme faktörleri. Atatürk Üniv Diş Hek Fak Derg 2007; 17:35-43.
  • J.Yang, Yao Z, Tang C, Darvell BW, Zhang H, Pan L, Liu J, Chen Z. Growth of apatite on chitosan multiwall carbon nanotube composite membranes. Appl. Surf. Sci.2009;255:8551-5.
  • Zanello LP, Zhao B, Hu H, Haddon RC. Bone cell proliferation on carbon nanotubes. Nano Lett 2006;6:562-7.
  • Freitas RA Jr. Nanodentistry. J Am Dent Assoc 2000;131:1559–66 52. Masahiro Yamada, Takeshi Ueno, Naoki Tsukimura, Takayuki Ikeda, Kaori Nakagawa, Norio Hori, Takeo Suzuki, Takahiro Ogawa. Bone integration crystalline hydroxyapatite coated on titanium implants. International Journal of Nanomedicine 2012:7 859-73. of nanopolymorphic
  • Rodrigues LR. Inhibition of bacterial adhesion on medical devices. Adv Exp Med Biol 2011;715:351
  • Kishen A, Shi Z, Shrestha A, Neoh KG. An investigation on the antibacterial and antibiofilm efficacy of cationic nanoparticulates for root canal infection. J Endod 2008; 34: 1515-20.
  • Janes KA, Calvo P, Alonso MJ. Polysaccharide colloidal particles as delivery systems for macromolecules. Adv Drug Deliv Rev 2001;47:83- 97.
  • Li X, Fan Y, Watari F. Current investigations into carbon nanotubes for biomedical application. Biomed Mater 2010;5:022001.
  • Kong LX, Peng Z, Li SD, Bartold M. Nanotechnology and its role in the management of periodontal 2006;40:184-196. Periodontol 2000
  • Derman S, Kızılbey K, Akdetse ZM. Polymeric nanoparticles. Mühendislik ve Fen Bilimleri Dergisi 2013;31;109-22.
  • Melo MA, Guedes SF, Xu HH, Rodrigues LK. Nanotechnology-based restoative materials for dental caries management. Trends Biotechnol 2013;31:459-67.
  • Borzabadi A, Borzabadi E, Edward L. Nanoparticles in orthodontics, a review of antimicrobial and anticarries applications. Acta Odontol Scand 2013;10 (basımda).
  • Ahn SJ, Lee SJ, Kook JK, Lim BS. Experimental orthodontic antimicrobial nanofillers and silver nanoparticles. Dent Mater adhesives using 2009;25:206-13.
  • Mupparapu, M. New nanophosphor scintillators for solid-state digital dental imagers. Dentomaxillofac Radiol 2006;35:475-476.
  • Giersten E. Effects of mouth rinses with triclosan, zincions, copolymer, and sodium lauryl sulphate combined with fluoride on acid formation by dental plaque in vivo, Caries Res 2004;38:430-5.
  • Allaker RP. The use of nanoparticles to control oral biofilm formation. J Dent Res 2010; 89: 1175- 1186.
  • Davis JJ, Green MLH, Hill HAO, Leung YC, Sadler PJ, Sloan J, Xavier AV, Tsang SC. The immobilization of proteins in carbon nanotubes. Inorg Chim Acta 1998;272:261-6.
  • Cui D. Advances and prospects on biomolecules functionalized carbon nanotubes. J. Nanosci Nanotechnol 2007;7:1298-1314.
  • Saengmee-anupharb S, Srikhirin T, Thaweboon B, Thaweboon S, Amornsakchai T, Dechkunakorn S, Suddhasthira T. Antimicrobial effects of silver zeolite, silver zirconium phosphate silicate and silver microorganisms. Asian Pac J Trop Biomed 2013;3:47-52. against oral
  • Seetharam R.N., Sridhar K.R., Nanotoxicity: threat posed by nanoparticles, Curr. Sci 2006;93:769- 770. 69. Nel AE, Mädler L, Velegol D, Xia T, Hoek EM, Somasundaran V, Thompson biophysicochemical interactions at the nano-bio interface. Nat. Mater 2009;8:543-57.
  • Stoimenov PK, Klinger RL, Marchin GL, Klabunde KJ. Metal oxide nanoparticles as bactericidal agents. Langmuir 2002;18:6679-86.
  • Reddy KM, Feris K, Bell J, Wingett DG, Hanley C, Punnoose A. Selective toxicity of zincoxide nanoparticles to prokaryotic and eukaryotic systems. Appl Phys Lett 2007;90:213902.
  • Zhang LL, Jiang YH, Ding YL, Povey M, York D. Investigation in to the antibacterial behaviour of suspensions of nanofluids). J. Nanopart Res 2007;9:479-89.
  • Blake DM, Maness PC, Huang Z, Wolfrum EJ, Jacoby WA, Huang J. Application of the photocatalytic chemistry of titanium dioxide to disinfection and the killing of cancer cells. Sep Purif Methods 1999;28:1-50.
  • Tian F, Cui D, Schwarz H, Estrada GG, Kobayashi H. Cytotoxicity of single-walled carbon nanotubes on 2006;20:1202-12. Toxicol In Vitro
  • Monteiro-Riviere NA, Nemanich RJ, Inman AO, Wang YY, Riviere JE. Multi-walled carbon nanotubes interactions with human epidermal keratinocytes. Toxicol Lett 2005;155:377-84.
  • Garibaldi S, Brunelli C, Bavastrello V, Ghigliotti G, Nicolini C. Carbon nanotube biocompatibility with cardiac 2006;17:391-7. Nanotechnology
  • Flahaut E, Durrieu MC, Remy-Zolghadri M, Bareille R, Baquey C. Investigation of the cytotoxicity of CCVD carbon nanotubes towards human umbilical vein endothelial cells. Carbon 2006;44:1093-9.
  • Vittorio O, Raffa V, Cuschieri A. Influence of purity and surface oxidation on cytotoxicity of multiwalled carbon nanotubes with humanneuroblastomacells. Nanomed Nanotechnol. Med 2009;5:424-31.
  • Zhang YB, Xu Y, Li ZG, Chen T, Lantz SM, Howard PC, Paule MG, Jr Slikker W, Watanabe F, Mustafa T, Biris AS, Ali SF. Mechanistic toxicity evaluation of uncoated and PEGylated single-walled carbon nanotubes in neuronal PC12 cells. ACS Nano 2011;5:7020-33.
  • Worle-Knirsch JM, Pulskamp K, Krug HF. Oops they did it again Carbon nanotubes hoax scientists in viability assays. Nano Lett 2006;6:1261-8.
  • I. Sondi, B. Salopek-Sondi, Silver nanoparticles as an antimicrobial agent:a case study on E. coli as a model for Gram-negative bacteria, J. Colloid Interface Sci 2004;275:177-82.

DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI

Yıl 2014, Cilt 24, Sayı Supplement 8, 49 - 55, 11.02.2015
https://doi.org/10.17567/dfd.68750

Öz

Nanoteknoloji,  nanoboyuttaki (atom ve molekül) yapılar ve bu yapıların içerikleriyle ilgilenir. Nanomateryaller üstün özelliklerinden dolayı tüm bilim dallarında yeni bir ilgi alanı oluşturmuştur. Nanopartiküller büyük yüzey alanı-hacim oranına sahip olduklarından dolayı  en etkili antibakteryel ajan olarak kullanılmaktadırlar. Nanopartiküller biyofilm oluşumunun önlenmesi, çürük kontrolü, remineralizasyon, periodontal enfeksiyon, kök kanal dezenfeksiyonu, dentin hassasiyetinin giderilmesi gibi diş hekimliğinin pek çok alanında kullanılmaktadırlar. Ancak bazı nanopartiküller oral dokular için toksik olabilirler. Bunun için nanopartiküllerin etkileri ile ilgili daha ileri çalışmalar yapılmalıdır. Gelecekte nanoteknoloji diş hekimliği, sağlık ve insan hayatını geçmişte yapılmış olan buluşlardan çok daha etkili bir şekilde değiştirecektir.

Kaynakça

  • Fayaz AM, Balaji K, Girila M, Yadav R, Kalaichelvan PT, Venketesan R. Biogenic synthesis of silver nano-particles and their synergistic effect with antibiotics: a study against gram-positive and gram-negative bacteria. Nanomedicine 2010;6:3-9.
  • Kavaz D. Nanoteknoloji. Nanobülten 2011;13:12-9.
  • Zhao J, Xie D. Effect of nanoparticles on wear resistance and surface hardness of a dental glass- ionomer cement. J Compos Mater 2009;43:2739
  • Kuo MC, Tsai CM, Huang JC, Chen M. PEEK Composites reinforced by nano-sized SiO2 and Al2O3 Particulates. Mater Chem Phys 2005;90:185- 95.
  • Bayram C. İmplant teknolojisine nano yaklaşımlar. Nanobülten 2011;13:8-11.
  • Ibrahim Mohamed Hamouda. Current perspectives of nanoparticles in medical and dental biomaterials. Journal of Biomedical Research, 2012;26:143-51.
  • Preeti Satheesh Kumar, Satheesh Kumar, Ravindra C. Savadi, Jins John. Nanodentistry: A paradigm shiftfrom fiction to reality. J Indian Prosthodont Soc 2011;11:1-6.
  • Dastjerdi R, Montazer M. A review on the application of inorganic nano-structured materials in the modification of textiles: Focus on anti- microbial properties. Colloids Surf B Biointerfaces 2010;5-18.
  • Kim JS, Kuk E, Yu KN, Kim JH, ParR SJ, Lee HJ. Anti-microbial effects of silver nanoparticles. Nanomed 2007; 3: 95-101.
  • Pal S, Tak YK, Song JM. Does the antibacterial activity of silver nanoparticles depend on the shape of the nanoparticle? A study of the gram- negative bacterium Escherichia coli. Appl Environ Microbiol 2007;27:1712-20.
  • Stobie N, Duffy B, McCormack DE, Colreavy J, Hidalgo M, McHale P. Prevention of Staphylococcus epidermidis biofilm formation using a low temperature phenyltriethoxysilane sol-gel coating. Biomater 2008;8:963-9. silver-doped
  • Stoimenov PK, Klinger RL, Marchin GL, Klabunde KJ. Metal oxide nanoparticles as bactericidal agents. Langmuir 2002; 18: 6679-86.
  • Waltimo T, Brunner TJ, Vollenweider M, Stark WJ, Zehnder M. Antimicrobial effect of nanometric bioactive glass J Dent Res 2007;86:754-7.
  • Türkün ŞL, Uzer Çelik E. Antibakteriyel adeziv ile uygulanan kompomer ve nanofil kompozit restorasyonların bir yıllık klinik performansı. G Ü Diş Hek Fak Derg 2007;24:1-8.
  • Gökay N, Türkün LŞ. Farklı kompozit rezin materyallerin aşınma ve sertlik özelliklerin karşılaştırmalı olarak incelenmesi. A Ü Diş Hek Fak Derg 2002;28:263-70.
  • Ulusoy N, Gökay O, Müjdeci A. Farklı kalınlıklarda uygulanan yeni geliştirilmiş üç kompozitin yüzey sertliği. A Ü Diş Hek Fak Derg 2000;27:29-35.
  • Aydin Sevnic B, Hanley L. Antibacterial activity of dental nanoparticles. J Biomed Mater Res B Appl Biomater 2010;94;22-31. zinc oxide
  • Elsaka SE, Hamouda IM, Swain MV. Titanium dioxide nanoparticles addition to a conventional glass-ionomer restorative: Influence on physical and antibacterial properties. J Dent 2011;39:589- 98.
  • Moshaverinia A, Ansari S, Moshaverinia M, Roohpour N, Darr JA, Rehman I. Effect of incorparation of hydroxyapatite and fluoroapatite nanobioceramics into conventional glass ionomer cements (GIS). Acta Biomaterialia 2008;4:432-40.
  • Moszner N, Salz U. Recent developments of new components for dental adhesives and composites. Macromol Mater Eng 2007; 292: 245-71.
  • Kawahara K, Tsuruda K, Morishita M, Uchida M. Antibacterial effect of silver-zeolite on oral bacteria under anaerobic conditions. Dent Mater 2000; 16: 452-5.
  • Mariatti M, Azizan A, See CH, Chong KF. Effect of silane-based coupling agent on the properties of silver nanoparticles filled epoxy composites. Compos Sci Technol 2007; 67: 2584-91.
  • Lee HH, Chou KS, Shih ZW. Effect of nano-sized silver particles on the resistivity of polymeric conductive adhesives. Inter J Adhes Adhes 2005;25:437-41.
  • Beyth N, Yudovin-Farber I, Bahir R, Domb A. J, Weiss E. I. Antibacterial activity of dental composites containing quaternary ammonium polyethylenimine Streptococcus mutans. Biomaterials 2006;27:3995- 4002. against
  • Venegas SC, Palacios JM, Apella MC, Morando PJ, Blesa MA. Calcium modulate sinter actions between bacteria and hydroxyapatite. J Dent Res 2006;85:1124-8.
  • Rybachuk AV, Chekman IS, Nebesna TY. Nanotechnology and nanoparticles in dentistry. Pharmacol Pharm 2009;1:18-20
  • Fredriksson M, Astba¨ck J, Pamenius M, Arvidson K. A retrospective study of 236 patients with teeth restored by carbonfiber-reinforced epoxy resin posts. J Prosthet Dent 1998;80:151-7.
  • Meng T, Latta M. Physical properties of four acrylic denture base resins. J Contemp Dent Practise 2005;6:93-100.
  • Larson WR, Dixon DL. Aquilino SA, Clancy JM. The effect of carbon graphite fiber reinforcement on the strength of provisional crown and fixed partial denture resins. J Prosthet Dent 1991;66:816-20. 30. Ekstrand K, Ruyter IE, Wellendorf H. poly Carbon/graphite (methylmethyacrylate): properties under dry and wet conditions. J Biomed Mater Res 1987;21:1065- 80. reinforced
  • Homouda MI. Current perspectives of nanoparticles in medical and dental biomaterials. J Biomed Res 2012; 26: 143-51.
  • Lee C, Lee M, Nam K. Inhibitory effect of PMMA denture acrylic impregnated by silver nitrate and silver nano-particles for candida albicans. J Korean Chemic Soci 2008; 52: 380-6.
  • Casemiro LA, Gomes-Martins CH, Pires-de-Souza Fde C, Panzeri H. Antimicrobial and mechanical properties of acrylic resins with incorporated silver- zinc zeolite - Part 1. Gerodontology 2008;25:187- 94.
  • Kay JF. Calcium phosphate coatings for dental implants. Dent Clin North Am 1992;36:1-18.
  • Zeng HT, Lacefield WF. XPS, EDX and FTIR analysis of pulsed laser deposited calcium phosphate bioceramic coatings: the effects of various 2000;21:23-30. Biomaterials
  • Chladek G, Kasperski j, Barszczewska-Rybarek I and Żmudzki J. Sorption, solubility, bond strength and hardness of denture soft lining incorporated with nanoparticles.
  • Sci 2013;14:563-74. Int J Mol
  • Chladek, G, Mertas, A, Barszczewska–Rybarek, I, Nalewajek, T, Zmudzki, J, Król, W,
  • Lukaszczyk, J. Antifungal activity of denture soft lining material modified by silver nanoparticles-A pilot study. Int J Mol Sci2011;12:4735-44.
  • Kumar SR, Vijayalakshmi R. Nanotechnology in dentistry. Indian J Dent Res 2006;17:62-9
  • Verma SK, Prabhat KC, Goyal L, Rani M, Jain A. A critical review of the implication of nanotechnology in modern dental practice. Natl J Maxillofac Surg 2010;1:41-4.
  • Han Ying. Kiat-amnuay S, Powers JM, Zhao Y. Effect of nano-oxide concentration on the mechanical properties of a maxillofacial silicone elastomer. J Prosthet Dent 2008;100:465-73.
  • Frogley MD, Ravich D, Wagner HD. Mechanical properties elastomers. Comp Sci Technol 2003;63:1647-54.
  • Xie D, Weng Y, Guo X, Zhao J, Gregory RL, Zheng C. Preparation and evaluation of a novel glass- ionomer cement with antibacterial functions. Dent Mater 2011;27:487-96.
  • Kassaee MZ, Akhavan A, Sheikh N, Sodaga A. Antibacterial effects of a new dental acrylic resin containing silver nanoparticles. J Appli Polym Sci 2008; 110: 1699-3.
  • Ghazal M, Hedderich J, Kern M. Wear of feldspathic ceramic, nanofilled composite resin and acrylic resin artificial teeth when opposed to different antogonists. Eur J Oral Sci2008;116:585- 92.
  • Ghazal M, Albashaireh ZS, Kern M. Wear resistance of nanofilled composite and feldspathic ceramic artificial teeth. J Prosthet Dent2008;100:441-8.
  • Salahuddin N, Shehata M. Polymethylmethacrylate-montmorillonite composites: preparation, characterization and properties. Polymer. 2001;42:8379-85.
  • Lütfioğlu M. Periodontal rejenerasyon ve büyüme faktörleri. Atatürk Üniv Diş Hek Fak Derg 2007; 17:35-43.
  • J.Yang, Yao Z, Tang C, Darvell BW, Zhang H, Pan L, Liu J, Chen Z. Growth of apatite on chitosan multiwall carbon nanotube composite membranes. Appl. Surf. Sci.2009;255:8551-5.
  • Zanello LP, Zhao B, Hu H, Haddon RC. Bone cell proliferation on carbon nanotubes. Nano Lett 2006;6:562-7.
  • Freitas RA Jr. Nanodentistry. J Am Dent Assoc 2000;131:1559–66 52. Masahiro Yamada, Takeshi Ueno, Naoki Tsukimura, Takayuki Ikeda, Kaori Nakagawa, Norio Hori, Takeo Suzuki, Takahiro Ogawa. Bone integration crystalline hydroxyapatite coated on titanium implants. International Journal of Nanomedicine 2012:7 859-73. of nanopolymorphic
  • Rodrigues LR. Inhibition of bacterial adhesion on medical devices. Adv Exp Med Biol 2011;715:351
  • Kishen A, Shi Z, Shrestha A, Neoh KG. An investigation on the antibacterial and antibiofilm efficacy of cationic nanoparticulates for root canal infection. J Endod 2008; 34: 1515-20.
  • Janes KA, Calvo P, Alonso MJ. Polysaccharide colloidal particles as delivery systems for macromolecules. Adv Drug Deliv Rev 2001;47:83- 97.
  • Li X, Fan Y, Watari F. Current investigations into carbon nanotubes for biomedical application. Biomed Mater 2010;5:022001.
  • Kong LX, Peng Z, Li SD, Bartold M. Nanotechnology and its role in the management of periodontal 2006;40:184-196. Periodontol 2000
  • Derman S, Kızılbey K, Akdetse ZM. Polymeric nanoparticles. Mühendislik ve Fen Bilimleri Dergisi 2013;31;109-22.
  • Melo MA, Guedes SF, Xu HH, Rodrigues LK. Nanotechnology-based restoative materials for dental caries management. Trends Biotechnol 2013;31:459-67.
  • Borzabadi A, Borzabadi E, Edward L. Nanoparticles in orthodontics, a review of antimicrobial and anticarries applications. Acta Odontol Scand 2013;10 (basımda).
  • Ahn SJ, Lee SJ, Kook JK, Lim BS. Experimental orthodontic antimicrobial nanofillers and silver nanoparticles. Dent Mater adhesives using 2009;25:206-13.
  • Mupparapu, M. New nanophosphor scintillators for solid-state digital dental imagers. Dentomaxillofac Radiol 2006;35:475-476.
  • Giersten E. Effects of mouth rinses with triclosan, zincions, copolymer, and sodium lauryl sulphate combined with fluoride on acid formation by dental plaque in vivo, Caries Res 2004;38:430-5.
  • Allaker RP. The use of nanoparticles to control oral biofilm formation. J Dent Res 2010; 89: 1175- 1186.
  • Davis JJ, Green MLH, Hill HAO, Leung YC, Sadler PJ, Sloan J, Xavier AV, Tsang SC. The immobilization of proteins in carbon nanotubes. Inorg Chim Acta 1998;272:261-6.
  • Cui D. Advances and prospects on biomolecules functionalized carbon nanotubes. J. Nanosci Nanotechnol 2007;7:1298-1314.
  • Saengmee-anupharb S, Srikhirin T, Thaweboon B, Thaweboon S, Amornsakchai T, Dechkunakorn S, Suddhasthira T. Antimicrobial effects of silver zeolite, silver zirconium phosphate silicate and silver microorganisms. Asian Pac J Trop Biomed 2013;3:47-52. against oral
  • Seetharam R.N., Sridhar K.R., Nanotoxicity: threat posed by nanoparticles, Curr. Sci 2006;93:769- 770. 69. Nel AE, Mädler L, Velegol D, Xia T, Hoek EM, Somasundaran V, Thompson biophysicochemical interactions at the nano-bio interface. Nat. Mater 2009;8:543-57.
  • Stoimenov PK, Klinger RL, Marchin GL, Klabunde KJ. Metal oxide nanoparticles as bactericidal agents. Langmuir 2002;18:6679-86.
  • Reddy KM, Feris K, Bell J, Wingett DG, Hanley C, Punnoose A. Selective toxicity of zincoxide nanoparticles to prokaryotic and eukaryotic systems. Appl Phys Lett 2007;90:213902.
  • Zhang LL, Jiang YH, Ding YL, Povey M, York D. Investigation in to the antibacterial behaviour of suspensions of nanofluids). J. Nanopart Res 2007;9:479-89.
  • Blake DM, Maness PC, Huang Z, Wolfrum EJ, Jacoby WA, Huang J. Application of the photocatalytic chemistry of titanium dioxide to disinfection and the killing of cancer cells. Sep Purif Methods 1999;28:1-50.
  • Tian F, Cui D, Schwarz H, Estrada GG, Kobayashi H. Cytotoxicity of single-walled carbon nanotubes on 2006;20:1202-12. Toxicol In Vitro
  • Monteiro-Riviere NA, Nemanich RJ, Inman AO, Wang YY, Riviere JE. Multi-walled carbon nanotubes interactions with human epidermal keratinocytes. Toxicol Lett 2005;155:377-84.
  • Garibaldi S, Brunelli C, Bavastrello V, Ghigliotti G, Nicolini C. Carbon nanotube biocompatibility with cardiac 2006;17:391-7. Nanotechnology
  • Flahaut E, Durrieu MC, Remy-Zolghadri M, Bareille R, Baquey C. Investigation of the cytotoxicity of CCVD carbon nanotubes towards human umbilical vein endothelial cells. Carbon 2006;44:1093-9.
  • Vittorio O, Raffa V, Cuschieri A. Influence of purity and surface oxidation on cytotoxicity of multiwalled carbon nanotubes with humanneuroblastomacells. Nanomed Nanotechnol. Med 2009;5:424-31.
  • Zhang YB, Xu Y, Li ZG, Chen T, Lantz SM, Howard PC, Paule MG, Jr Slikker W, Watanabe F, Mustafa T, Biris AS, Ali SF. Mechanistic toxicity evaluation of uncoated and PEGylated single-walled carbon nanotubes in neuronal PC12 cells. ACS Nano 2011;5:7020-33.
  • Worle-Knirsch JM, Pulskamp K, Krug HF. Oops they did it again Carbon nanotubes hoax scientists in viability assays. Nano Lett 2006;6:1261-8.
  • I. Sondi, B. Salopek-Sondi, Silver nanoparticles as an antimicrobial agent:a case study on E. coli as a model for Gram-negative bacteria, J. Colloid Interface Sci 2004;275:177-82.

Ayrıntılar

Birincil Dil Türkçe
Konular Diş Hekimliği
Bölüm Makaleler
Yazarlar

Perihan OYAR

Yayımlanma Tarihi 11 Şubat 2015
Yayınlandığı Sayı Yıl 2014, Cilt 24, Sayı Supplement 8

Kaynak Göster

Bibtex @derleme { ataunidfd32426, journal = {Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi}, issn = {1300-9044}, eissn = {2667-5161}, address = {}, publisher = {Atatürk Üniversitesi}, year = {2015}, volume = {24}, number = {Supplement 8}, pages = {49 - 55}, doi = {10.17567/dfd.68750}, title = {DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI}, key = {cite}, author = {Oyar, Perihan} }
APA Oyar, P. (2015). DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI . Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi , , 49-55 . DOI: 10.17567/dfd.68750
MLA Oyar, P. "DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI" . Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi 24 (2015 ): 49-55 <https://dergipark.org.tr/tr/pub/ataunidfd/issue/2525/32426>
Chicago Oyar, P. "DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI". Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi 24 (2015 ): 49-55
RIS TY - JOUR T1 - DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI AU - Perihan Oyar Y1 - 2015 PY - 2015 N1 - doi: 10.17567/dfd.68750 DO - 10.17567/dfd.68750 T2 - Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi JF - Journal JO - JOR SP - 49 EP - 55 VL - 24 IS - Supplement 8 SN - 1300-9044-2667-5161 M3 - doi: 10.17567/dfd.68750 UR - https://doi.org/10.17567/dfd.68750 Y2 - 2022 ER -
EndNote %0 Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI %A Perihan Oyar %T DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI %D 2015 %J Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi %P 1300-9044-2667-5161 %V 24 %N Supplement 8 %R doi: 10.17567/dfd.68750 %U 10.17567/dfd.68750
ISNAD Oyar, Perihan . "DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI". Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi 24 / Supplement 8 (Şubat 2015): 49-55 . https://doi.org/10.17567/dfd.68750
AMA Oyar P. DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI. Ata Diş Hek Fak Derg. 2015; 24(Supplement 8): 49-55.
Vancouver Oyar P. DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI. Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi. 2015; 24(Supplement 8): 49-55.
IEEE P. Oyar , "DİŞ HEKİMLİĞİNDE NANOPARTİKÜLLERİN KULLANIM ALANLARI", Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi, c. 24, sayı. Supplement 8, ss. 49-55, Şub. 2015, doi:10.17567/dfd.68750

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