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The laboratory comparison of shear bond strength and microscopic assessment of failure modes for a glass-ionomer cement and dentin bonding systems combined with silver nanoparticles

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: More than half of the cavity restorations are replaced due to bacterial microleakage. A need for disinfection agents arises. Application of silver nanoparticles (AgNPs) may be beneficial, yet their impact on the adhesives’ shear bond strength to dentin remains unknown. Methods: The aim was to assess the shear bond strength to dentin of different dental materials combined with AgNPs. Failure modes were also examined using SEM/FIB, SEM/EDS and endodontic microscopes. Results: The results showed no impact of AgNPs addition to dental materials in terms of shear bond strength to dentin. A change of the failure mode of the self-etch bonding system, Clearfil SE Bond, combined with AgNPs was observed. The new failure modes depended upon the order of application of the materials onto dentin. Conclusions: The microscopic evaluation of the samples showed the presence of AgNPs agglomerations gathered on the dentin’s surface. AgNPs connection with self-etching dentin bonding system may have a serious clinical impact.
Rocznik
Strony
59--70
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
  • Warsaw Medical University, Paediatric Dentistry Department, Warsaw, Poland
autor
  • Zhermapol Sp. z o.o., Warsaw, Poland
  • Instrumental Analysis Laboratory, Faculty of Chemistry, Nicolaus Copernicus University, Toruń, Poland
autor
  • Warsaw Medical University, The Department of Prosthetic Dentistry, Warsaw, Poland
  • Warsaw Medical University, Paediatric Dentistry Department, Warsaw, Poland
Bibliografia
  • [1] AHN S.-J., LEE S.-J., KOOK J.-K., LIM B.-S., Experimental antimicrobial orthodontic adhesives using nanofillers and silver nanoparticles, Dent. Mater., 2009, Vol. 25, 206–213.
  • [2] BURGER K.M., COOLEY R.L., GARCIA-GODOY F., Effect of thermocycling times on dentin bond strength, J. Esthet. Dent., 1992, Vol. 4(6), 197–198.
  • [3] BURGERS R., EIDT A., FRANKENBERGER R., The anti-adherence activity and bactericidal effect of microparticulate silver additives in composite resin materials, Arch. Oral Biol., 2009, Vol. 54, 595–601.
  • [4] CHENG L., ZHANG K., WEIR M.D., MELO M.A.S., ZHOU X., XU H.H.K., Nanotechnology strategies for antibacterial and remineralizing composites and adhesives to tackle dental caries, Nanomed. (Lond)., 2015, Vol. 10(4), 627–641.
  • [5] DAS NEVES P.B.A., AGNELLI J.A.M., KURACHI C., DE SOUZA C.W.O., Addition of silver nanoparticles to composite resin: effect on physical and bactericidal properties in vitro, Braz. Dent. J., 2014, Vol. 25(2), 141–145.
  • [6] DURNER J., STOJANOVIC M., URCAN E., Influence of silver nano-particles on monomer elution from light-cured composites, Dent. Mater., 2011, Vol. 27, 631–363.
  • [7] ELKASSAS D.W., FAWZI E.M., EL ZOHAIRY A., The effect of cavity disinfectants on the micro-shear bond strength of dentin adhesives, Eur. J. Dent., 2014, Vol. 8, 184–190.
  • [8] FARAH R., ELZEKY M., An in vitro comparison of marginal microleakage of four groups of temporary cements in provisional crowns, Int. J. Adv. Res., 2015, Vol. 3(3), 778–787.
  • [9] GALLER K., HILLER K.A., ETTL T., SCHMALZ G., Selective influence of dentin thickness upon cytotoxicity of dentin contacting materials, J. Endod., 2005, Vol. 31, 396–399.
  • [10] HAMOUDA I.M., Current perspectives of nanoparticles in medical and dental biomaterials, J. Biomed. Res., 2012, Vol. 26(3), 143–151.
  • [11] KOYUTURK A.E., SENGUN A., OZER F., SENER Y., GOKALP A., Shear bond strengths of self-etching adhesives to cariesaffected dentin on the gingival wall, Dent. Mater. J., 2006, Vol. 25(1), 59–65.
  • [12] LARA H.H., GARZA-TREVIÑO E.N., IXTEPAN-TURRENT L., SINGH D.K., Silver NPs are broad-spectrum bactericidal and virucidal compounds, J. Nanobiotech, 2011, 9, 30.
  • [13] LOPES G.C., CARDOSO P.C., VIEIRA L.C.C., BARATIERI L.N., RAMPINELLI K., COSTA G., Shear bond strength of acetonebased one-bottle adhesive systems, Braz. Dent. J., 2006, Vol. 17(1), 39–43.
  • [14] LÜHRS A.-K., GUHR S., SCHILKE R., BORCHERS L., GEURTSEN W., GÜNAY H., Shear bond strength of self-etch adhesives to enamel with additional phosphoric acid etching, Oper. Dent., 2008, Vol. 33(2), 155–162.
  • [15] ŁUCZAJ-CEPOWICZ E., MARCZUK-KOLADA G., ZALEWSKA A., PAWIŃSKA M., LESZCZYŃSKA K., Antibacterial activity of selected glass ionomer cements, Postepy Hig. Med. Dosw., 2014, Vol. 68, 23–28.
  • [16] MACKIEWICZ A., OLCZAK-KOWALCZYK D., Microscopic evaluation of surface topography and chemical composition of Nanocare Gold, J. Stoma., 2014, Vol. 6(67), 826–840.
  • [17] MARCZUK-KOLADA G., JAKONIUK P., MYSTKOWSKA J., ŁUCZAJ-CEPOWICZ E., WASZKIEL D., DĄBROWSKI J.R., LESZCZYŃSKA K., Fluoride release and antibacterial activity of selected dental materials, Postępy Hig. Med. Dosw., 2006, Vol. 60, 416–420.
  • [18] MOREIRA LANZA C.R., DE SOUZA COSTA C.A., FURLAN M., ALÉCIO A., HEBLING J., Transdentinal diffusion and cytotoxicity of self-etching adhesive systems, Cell Biol. Toxicol., 2009, Vol. 25, 533–543.
  • [19] PALLESEN U., VAN DIJKEN J.W.V., HALKEN J., HALLOSTEN A.- L., HÖIGAARD R., A prospective 8-year follow-up of posterior resin composite restorations in permanent teeth of children and adolescents in Public Dental Health Service: reasons for replacement, Clin. Oral. Invest., 2014, Vol. 18, 819–827.
  • [20] RATHKE A., ALT A., GAMBIN N., HALLER B., Dentin diffusion of HEMA released from etch-and-rinse and self-etch bonding systems, Eur. J. Oral Sci., 2007, Vol. 115, 510–516.
  • [21] SHARMA V., NAINAN M.T., SHIVANNA V., The effect of cavity disinfectants on the sealing ability of dentin bonding system: An in vitro study, J. Conserv. Dent., 2009, Vol. 12(3), 109–113.
  • [22] SOARES C.J., PEREIRA C.A., PEREIRA J.C., SANTANA F.R., PRADO C.J., Effect of chlorhexidine application on microtensile bond strength to dentin, Oper. Dent., 2008, Vol. 33(2), 183–188.
  • [23] SOKOŁOWSKI J., SZYNKOWSKA M.I., KLECZEWSKA J., KOWALSKI Z., SOBCZAK-KUPIEC A., PAWLACZYK A., SOKOŁOWSKI K., ŁUKOMSKA-SZYMAŃSKA M., Evaluation of resin composites modified with nanogold and nanosilver, Acta Bioeng. Biomech., 2014, Vol. 16(1), 51–61.
  • [24] SOKOŁOWSKI K., SZYNKOWSKA M.I., PAWLACZYK A., ŁUKOMSKA-SZYMAŃSKA M., SOKOŁOWSKI J., The impact of nanosilver addition on element ions release form light-cured dental composite and compomer into 0.9% NaCl, Acta Biochim. Pol., 2014, Vol. 61(2), 317–323.
  • [25] TEDESCO T.K., SOARES F.Z., GRANDE R.H., FILHO L.E., ROCHA RDE O., Effect of cariogenic challenge on bond strength of adhesive systems to sound and demineralized primary and permanent enamel, J. Adhes. Dent., 2014, Vol. 16(5), 421–428.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-19777c77-9f8e-4590-ae05-a5f3c405dd29
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