Metrika

  • citati u SCIndeksu: [1]
  • citati u CrossRef-u:[2]
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:10
  • preuzimanja u poslednjih 30 dana:9

Sadržaj

članak: 1 od 2  
Back povratak na rezultate
2019, vol. 8, br. 1, str. 78-85
Savremeni stomatološki materijali
aUniverzitet u Nišu, Medicinski fakultet, Stomatološka klinika
bUniverzitet u Nišu, Tehnološki fakultet, Leskovac

e-adresakosticmilena76@gmail.com
Ključne reči: akrilati; dentalne keramike; kompoziti
Sažetak
Vraćanje morfofunkcionalnog kapaciteta destruisanih i nadoknada izgubljenih zuba predstavlja izazov za sintezu novih delotvornijih materijala i poboljšanje onih koji su već na tržištu. Cilj rada bio je da se na osnovu podataka iz literature i objavljenih rezultata istraživanja prikažu prednosti i nedostaci savremenih akrilatnih polimera, zubne keramike i kompozita. Izbor adekvatnog materijala od krucijalnog je značaja za izradu bilo kog, pa i stomatološkog proizvoda. Sinteza novih materijala i razvoj novih tehnoloških procedura ubrzale su napredak stomatološke struke, te današnje zubne nadoknade verno imitiraju prirodne zube i u potpunosti mogu da obavljaju njima namenjenu funkciju.
Reference
Abbas, G., Fleming, G., Harrington, E., Shortall, A., Burke, F. (2003) Cuspal movement and microleakage in premolar teeth restored with a packable composite cured in bulk or in increments. Journal of Dentistry, 31(6): 437-444
Ali, A., Bates, J.F., Reynolds, A.J., Walker, D.M. (1986) The burning mouth sensation related to the wearing of acrylic dentures: an investigation. British Dental Journal, 161(12): 444-447
Arima, T., Murata, H., Hamada, T. (1995) Properties of highly cross-linked autopolymerizing reline acrylic resins. Journal of Prosthetic Dentistry, 73(1): 55-59
Austin, A.T., Basker, R.M. (1980) The level of residual monomer in acrylic denture base materials with particular reference to a modified method of analysis. British Dental Journal, 149(10): 281-286
Bajraktarova-Valjakova, E., Korunoska-Stevkovska, V., Kapusevska, B., Gigovski, N., Bajraktarova-Misevska, C., Grozdanov, A. (2018) Contemporary Dental Ceramic Materials, A Review: Chemical Composition, Physical and Mechanical Properties, Indications for Use. Open Access Macedonian Journal of Medical Sciences, 6(9): 1742-1755
Barclay, S., Forsyth, A., Felix, D., Watson, I. (1999) Case report — Hypersensitivity to denture materials. British Dental Journal, 187(7): 350-352
Barron, D.J., Schuster, G.S., Caughman, G.B., Lefebvre, C.A. (1993) Biocompatibility of visible light-polymerized denture base resins. Int J Prosthodont, 6, 495-501
Bartolini, J.A., Murchison, D.F., Wofford, D.T., Sarkar, N.K. (2000) Degree of conversion in denture base materials for varied polymerization techniques. J Oral Rehabil, 27: 488-493
Bayraktar, G., Duran, O., Bural, C., Guvener, B. (2004) Effects of water storage of E-glass fiber reinforced denture base polymers on residual methyl methacrylate content. Journal of Biomedical Materials Research, 70B(1): 161-166
Bhola, al R. (2010) Biocompatible denture polymers-A review. Trends Biomater Artif Organs, 23, 129-136
Blagojevic, V., Murphy, V. M. (1999) Microwave polymerization of denture base materials. A comparative study. Journal of Oral Rehabilitation, 26(10): 804-808
Boeckler, A., Morton, D., Poser, S., Dette, K. (2008) Release of dibenzoyl peroxide from polymethyl methacrylate denture base resins: An in vitro evaluation. Dental Materials, 24(12): 1602-1607
Bona, A., Pecho, O., Alessandretti, R. (2015) Zirconia as a Dental Biomaterial. Materials, 8(8): 4978-4991
Bowen, R.L., Marjenhoff, W.A. (1992) Dental Composites/Glass Ionomers: the Materials. Advances in Dental Research, 6(1): 44-49
Bragança, S.R., Bergmann, C.P. (2003) A view of whitewares mechanical strength and microstructure. Ceramics International, 29(7): 801-806
Campanha, N.H., Pavarina, A.C., Giampaolo, E.T., Machado, A.L., Carlos, I.Z., Vergani, C.E. (2006) Citotoxicity of hard chairside reline resins: Effect of microwave irradiation and water bath postpolymerization and water bath postpolymerization treatments. Int J Prosthodont, 19, 195-201
Caughman, W., Caughman, G.B., Shiflett, R.A., Rueggeberg, F., Schuster, G.S. (1991) Correlation of cytotoxicity, filler loading and curing time of dental composites. Biomaterials, 12(8): 737-740
Chikara, O., Masanobu, K., Toshiki, M. (2009) Bioactive ceramicbased materials with designed reactivity for bone tissue regeneration. J R Soc Interface, 6, S349-S360
Crocker, J. (2002) Clinical use of a new metalfree restorative technology. Dent Today, 21, 68-72
da Silva, L.H., de Castro, H.L., Tango, R.N., de Paes, J.A.T.J., Kimpara, E.T. (2010) Evaluation of flexural resistance of a denture base acrylic resin reinforced with glass fiber and with composite resin. Eur J Prosthodont Restor Dent, 18, 107-110
della Bona, A., Mecholsky, J.J. Jr., Anusavice, K.J. (2004) Fracture behavior of lithia disilicate- and leucite-based ceramics. Dental Materials, 20(10): 956-962
Denry, I., Kelly, J. (2008) State of the art of zirconia for dental applications. Dental Materials, 24(3): 299-307
Denry, I., Kelly, J.R. (2014) Emerging Ceramic-based Materials for Dentistry. Journal of Dental Research, 93(12): 1235-1242
Doǧan, A., Bek, B., Çevik, N.N., Usanmaz, A. (1995) The effect of preparation conditions of acrylic denture base materials on the level of residual monomer, mechanical properties and water absorption. Journal of Dentistry, 23(5): 313-318
Ferracane, J.L., Mitchem, J.C., Condon, J.R., Todd, R. (1997) Wear and Marginal Breakdown of Composites with Various Degrees of Cure. Journal of Dental Research, 76(8): 1508-1516
Ferracane, J.L. (2011) Resin composite—State of the art. Dental Materials, 27(1): 29-38
Fradeani, M., Redemagni, M. (2002) An 11 year clinical evaluation of leucite reinforced glass-ceramic crowns: a retrospective study. Quintessence Int, 33, 503-510
Frazer, R.Q., Byron, R.T., Osborne, P.B., West, K.P. (2005) PMMA: an essential material in medicine and dentistry. Journal of Long-Term Effects of Medical Implants, 15(6): 629-639
Garoushi, S., Säilynoja, E., Vallittu, P.K., Lassila, L. (2013) Physical properties and depth of cure of a new short fiber reinforced composite. Dental Materials, 29(8): 835-841
Gawkrodger, D.J. (2005) Investigation of reactions to dental materials. British Journal of Dermatology, 153(3): 479-485
Giordano, R.A. (2002) CAD/CAM: overview of machines and materials. J Mass Dent Soc, 51, 12-15
Gonçalves, F., Pfeifer, C.S., Ferracane, J.L., Braga, R.R. (2008) Contraction Stress Determinants in Dimethacrylate Composites. Journal of Dental Research, 87(4): 367-371
Graham, B.S., Jones, D.W., Sutow, E.J. (1991) An in vivo and in vitro Study of the Loss of Plasticizer from Soft Polymer-gel Materials. Journal of Dental Research, 70(5): 870-873
Guazzato, M., Albakry, M., Swain, M.V., Ironside, J. (2002) Mechanical properties of In-Ceram Alumina and InCeram Zirconia. Int J Prosthodont, 15, 339-346
Guazzato, M., Albakry, M., Ringer, S.P., Swain, M.V. (2004) Strength, fracture toughness and microstructure of a selection of all-ceramic materials. Part I. Pressable and alumina glass-infiltrated ceramics. Dental Materials, 20(5): 441-448
Hashimoto, Y., Tanaka, J., Suzuki, K., Nakamura, M. (2007) Cytocompatibility of a Tissue Conditioner Containing Vinyl Ester as a Plasticizer. Dental Materials Journal, 26(6): 785-791
Heffernan, M.J., Aquilino, S.A., Diaz-Arnold, A.M., Haselton, D.R., Stanford, C.M., Vargas, M.A. (2002) Relative translucency of six all-ceramic systems. Part II: Core and veneer materials. Journal of Prosthetic Dentistry, 88(1): 10-15
Höland, W. (1997) Biocompatible and bioactive glass-ceramics — state of the art and new directions. Journal of Non-Crystalline Solids, 219(): 192-197
Jorge, J.H., Giampaolo, E.T., Vergani, C.E., Pavarina, A.C., Machado, A.L., Carlos, I.Z. (2009) Effect of microwave postpolymerization treatment and of storage time in water on the cytotoxicity of denture base and reline acrylic resins. Quintessence Int, 40, 93-100
Jorge, J.H., Giampaolo, E.T., Vergani, C.E., Machado, A.L., Pavarina, A.C., Carlos, I.Z. (2004) Citotoxicity of denture base resins: Effect of water bath and microwave postpolymerization heat treatments. Int J Prosthodont, 17(3): 340-4
Jorge, J.H., Giampaolo, E.T., Vergani, C.E., Machado, A.L., Pavarina, A.C., Carlos, I.Z. (2006) Effect of post-polymerization heat treatments on the cytotoxicity of two denture base acrylic resins. Journal of Applied Oral Science, 14(3): 203-207
Kalra, S., Singh, A., Gupta, M., Chadha, V. (2012) Ormocer: An aesthetic direct restorative material; An in vitro study comparing the marginal sealing ability of organically modified ceramics and a hybrid composite using an ormocer-based bonding agent and a conventional fifth-generation bonding agent. Contemporary Clinical Dentistry, 3(1): 48-53
Kelly, J., Nishimura, I., Campbell, S.D. (1996) Ceramics in dentistry: Historical roots and current perspectives. Journal of Prosthetic Dentistry, 75(1): 18-32
Kim, K., Ong, J.L., Okuno, O. (2002) The effect of filler loading and morphology on the mechanical properties of contemporary composites. Journal of Prosthetic Dentistry, 87(6): 642-649
Kirmali, O. (2012) Dental ceramics used in dentistry. Cumhuriyet Dental Journal, 17, 316-324
Koda, T., Tsuchiya, H., Yamauchi, M., Ohtani, S., Takagi, N., Kawano, J. (1990) Leachability of denture-base acrylic resins in artificial saliva. Dental Materials, 6(1): 13-16
Kostic, M., Krunic, N., Nikolic, L., Nikolic, V., Najman, S., Kostic, I., Rajkovic, J., Manic, M., Petkovic, D. (2011) Testing of residual monomer content reduction possibility on acrilic resins quality. Hemijska industrija, 65(2): 171-177
Kostic, M., Nikolic, L., Nikolic, V., Petkovic, D., Igic, M., Krunic, N., Manic, M., Gligorijevic, N., Radenkovic, G. (2018) Effects of water boiling, microwave, and water bath post-polymerization on mechanical properties of acrylic denture resins. Chemical Industry, 72(3): 129-137
Kostic, M., Igic, M., Jevtovic-Stoimenov, T., Pejcic, A., Pesic, S.J. (2019) Determination of Salivary Myeloperoxidase, Immunoglobulin E and Tumor Necrosis Factor Alpha after Complete Denture Insertion. Medical Principles and Practice
Kostić, M., Krunić, N., Najman, S., Rajković, J., Igić, M., Petrović, M., Janošević, P. (2014) Examination of adherence of dental acrylic polymers in vivo. Acta stomatologica Naissi, vol. 30, br. 70, str. 1383-1392
Kostić, M., Najman, S., Najdanović, J., Krunić, N., Kostić, I. (2012) Application of direct contact test in evaluation of cytotoxicity of acrylic denture base resins. Acta medica Medianae, vol. 51, br. 1, str. 66-72
Kostić, M., Krunić, N., Nikolić, L., Nikolić, V., Najman, S., Kocić, J. (2009) Residual monomer content determination in some acrylic denture base materials and possibilities of its reduction. Vojnosanitetski pregled, vol. 66, br. 3, str. 223-227
Krunić, N., Kostić, M., Anđelković, M. (2007) Akrilati - još uvek nezamenljivi materijali u stomatološkoj protetici. Acta stomatologica Naissi, vol. 23, br. 56, str. 749-754
Lefebvre, C.A., Schuster, G.S. (1994) Biocompatibility of visible light-cured resin systems in prosthodontics. Journal of Prosthetic Dentistry, 71(2): 178-185
Leggat, P.A., Kedjarune, U. (2011) Toxicity of methyl methacrylate in dentistry. International Dental Journal, 53(3): 126-131
Leprince, J.G., Palin, W.M., Vanacker, J., Sabbagh, J., Devaux, J., Leloup, G. (2014) Physico-mechanical characteristics of commercially available bulk-fill composites. Journal of Dentistry, 42(8): 993-1000
Lung, C.Y.K., Darvell, B.W. (2007) Methyl methacrylate monomer–polymer equilibrium in solid polymer. Dental Materials, 23(1): 88-94
Mihaela, R.C.R.M., i dr. (2000) The effect of heat- and auto-polymerized denture base polymers on clonogenicity, apoptosis, and necrosis in fibroblasts: denture base polymers induce apoptosis and necrosis. Acta Odontologica Scandinavica, 58(5): 217-228
Mörmann, W.H., Stawarczyk, B., Ender, A., Sener, B., Attin, T., Mehl, A. (2013) Wear characteristics of current aesthetic dental restorative CAD/CAM materials: Two-body wear, gloss retention, roughness and Martens hardness. Journal of the Mechanical Behavior of Biomedical Materials, 20(): 113-125
Mudarra, M., Dı́az-Calleja, R., Belana, J., Cañadas, J.C., Diego, J.A., Sellarès, J., Sanchis, M.J. (2004) Sublinear dispersive conductivity in polymethyl methacrylate at temperatures above the glass transition. Polymer, 45(8): 2737-2742
Palin, W., Fleming, G., Burke, F., Marquis, P., Randall, R. (2005) The influence of short and medium-term water immersion on the hydrolytic stability of novel low-shrink dental composites. Dental Materials, 21(9): 852-863
Peutzfeldt, A. (1997) Resin composites in dentistry: the monomer systems. European Journal of Oral Sciences, 105(2): 97-116
Pfeifer, C.S., Shelton, Z.R., Braga, R.R., Windmoller, D., Machado, J.C., Stansbury, J.W. (2011) Characterization of dimethacrylate polymeric networks: A study of the crosslinked structure formed by monomers used in dental composites. European Polymer Journal, 47(2): 162-170
Pisani, M., L. M. Segundo, A., M. F. Leite, V., F. de Souza, R., A. M. R. da Silva, M., H. L. da Silva, C. (2013) Electromyography of masticatory muscles after denture relining with soft and hard denture liners. Journal of Oral Science, 55(3): 217-224
Quinn, J.B., Sundar, V., Lloyd, I.K. (2003) Influence of microstructure and chemistry on the fracture toughness of dental ceramics. Dental Materials, 19(7): 603-611
Raigrodski, A.J. (2004) Contemporary materials and technologies for all-ceramic fixed partial dentures: A review of the literature. Journal of Prosthetic Dentistry, 92(6): 557-562
Ruyter, I.E., Øysaed, H. (2004) Conversion in denture base polymers. Journal of Biomedical Materials Research, 16(5): 741-754
Sadamori, S., Kotani, H., Hamada, T. (1992) The usage period of dentures and their residual monomer contents. Journal of Prosthetic Dentistry, 68(2): 374-376
Shlosberg, S.R., i dr. (1989) Microwave energy polymerization of poly(methyl methacrylate) denture base resin. Int J Prosthodont, 2, 453-458
Sideridou, I.D., Karabela, M.M., Vouvoudi, E.Ch. (2008) Dynamic thermomechanical properties and sorption characteristics of two commercial light cured dental resin composites. Dental Materials, 24(6): 737-743
Silva, L.H.D., Lima, E.D., Miranda, R.B.D.P., Favero, S.S., Lohbauer, U., Cesar, P.F. (2017) Dental ceramics: a review of new materials and processing methods. Brazilian Oral Research, 31(suppl 1): e58
Sipahi, C., Ozen, J., Ugur, U.A., Dalkiz, M., Beydemir, B. (2006) The effect of two fibre impregnation methods on the cytotoxicity of a glass and carbon fibre-reinforced acrylic resin denture base material on oral epithelial cells and fibroblasts. Journal of Oral Rehabilitation, 33(9): 666-673
Takahara, K., Saito, H., Inoue, T. (1999) Physical aging in poly(methyl methacrylate) glass: densification via density fluctuation. Polymer, 40(13): 3729-3733
Takamata, T., Setcos, J.C. (1989) Resin denture bases: review of accuracy and methods of polymerization. Int J Prosthodont, 2, 555-562
Tinschert, J., Schulze, K.A., Natt, G., Latzke, P., Heussen, N., Spiekermann, H. (2008) Clinical behavior of zirconia-based fixed partial dentures made of DC-Zirkon: 3-year results. Int J Prosthodont, 21, 217-222
Tsuchiya, H., Hoshino, Y., Tajima, K., Takagi, N. (1994) Leaching and cytotoxicity of formaldehyde and methyl methacrylate from acrylic resin denture base materials. Journal of Prosthetic Dentistry, 71(6): 618-624
Uchida, K., Hirasawa, T. (2000) Studies on light-emitting diodes based light curing unit. Japanese Journal of Academy for Dental Engineering report, 14(1), 25-30
Urban, V.M., Machado, A.L., Oliveira, R.V., Vergani, C.E., Pavarina, A.C., Cass, Q.B. (2007) Residual monomer of reline acrylic resins. Effect of water-bath and microwave postpolymerization treatments. Dental Materials, 23(3): 363-368
Vallittu, P. K., Ekstrand, K. (1999) In vitro cytotoxicity of fibre-polymethyl methacrylate composite used in dentures. Journal of Oral Rehabilitation, 26(8): 666-671
Vallittu, P.K., Miettinen, V., Alakuijala, P. (1995) Residual monomer content and its release into water from denture base materials. Dental Materials, 11(5-6): 338-342
Vergani, C.E., Seo, R.S., Pavarina, A.C., dos Santos, N.R.J.M. (2005) Flexural strength of autopolymerizing denture reline resins with microwave postpolymerization treatment. Journal of Prosthetic Dentistry, 93(6): 577-583
Von, S.P. V., Carlson, P., Nilner, K. (2005) All-ceramic fixed partial dentures designed according to the DC-ZirkonR technique. A 2-year clinical study. Journal of Oral Rehabilitation, 32(3): 180-187
Weinmann, W., Thalacker, C., Guggenberger, R. (2005) Siloranes in dental composites. Dental Materials, 21(1): 68-74
Yilmaz, H., Aydin, C., Gul, B.E. (2007) Flexural strength and fracture toughness of dental core ceramics. Journal of Prosthetic Dentistry, 98(2): 120-128
Yoshii, E. (1997) Cytotoxic effects of acrylates and methacrylates: Relationships of monomer structures and cytotoxicity. Journal of Biomedical Materials Research, 37(4): 517-524
Živko-Babić, J., Ivaniš, T., Mehulic, K., Predanicgapšparac, H. (1994) Pregled pojedinih keramickih sustava. i dio: povijesni razvoj keramike. Acta Stomatol Croat, 28, 217-221
Živko-Babić, J., Ivaniš, T., Mehulic, K., Predanicgapšparac, H. (1995) Pregled pojedinih keramickih sustava. II dio: sastav i svojstva. Acta Stomatol Croat, 29, 55-62
 

O članku

jezik rada: engleski
vrsta rada: pregledni članak
DOI: 10.5937/SavTeh1901078K
objavljen u SCIndeksu: 08.07.2019.