Does the use of a novel self-adhesive flowable composite reduce nanoleakage?
| dc.Affiliation | October University for modern sciences and Arts (MSA) | |
| dc.contributor.author | Naga A.A.E. | |
| dc.contributor.author | Yousef M. | |
| dc.contributor.author | Ramadan R. | |
| dc.contributor.author | Bahgat S.F. | |
| dc.contributor.author | Alshawwa L. | |
| dc.contributor.other | Operative Dentistry Department | |
| dc.contributor.other | Faculty of Dentistry | |
| dc.contributor.other | King Abdulaziz University | |
| dc.contributor.other | Jeddah | |
| dc.contributor.other | Saudi Arabia; Operative Dentistry Department | |
| dc.contributor.other | Modern Science and Arts University | |
| dc.contributor.other | Cairo | |
| dc.contributor.other | Egypt; Operative Dentistry Department | |
| dc.contributor.other | Dentistry Program | |
| dc.contributor.other | Batterjee Medical College | |
| dc.contributor.other | Jeddah | |
| dc.contributor.other | Saudi Arabia; Fixed Prosthodontics Department | |
| dc.contributor.other | Modern S Cience and Arts University | |
| dc.contributor.other | Cairo | |
| dc.contributor.other | Egypt; Fixed Prosthodontics Department | |
| dc.contributor.other | Dentistry Program | |
| dc.contributor.other | Batterjee Medical College | |
| dc.contributor.other | Jeddah | |
| dc.contributor.other | Saudi Arabia; Medical E Ducation Department | |
| dc.contributor.other | Faculty of Medicine | |
| dc.contributor.other | King Abdulaziz University | |
| dc.contributor.other | Jeddah | |
| dc.contributor.other | Saudi Arabia; Department of Operative Dentistry | |
| dc.contributor.other | Faculty of Dentistry | |
| dc.contributor.other | King Abdulaziz University | |
| dc.contributor.other | PO Box 80209 | |
| dc.contributor.other | Jeddah | |
| dc.contributor.other | 21589 | |
| dc.contributor.other | Saudi Arabia | |
| dc.date.accessioned | 2020-01-09T20:41:52Z | |
| dc.date.available | 2020-01-09T20:41:52Z | |
| dc.date.issued | 2015 | |
| dc.description | Scopus | |
| dc.description.abstract | Objective: The aim of the study reported here was to evaluate the performance of a self-adhesive flowable composite and two self-etching adhesive systems, when subjected to cyclic loading, in preventing the nanoleakage of Class V restorations. Methods: Wedge-shape Class V cavities were prepared (4�2�2 mm [length � width � depth]) on the buccal surfaces of 90 sound human premolars. Cavities were divided randomly into three groups (n=30) according to the used adhesive (Xeno� V [self-etching adhesive system]) and BOND-1� SF (solvent-free self-etching adhesive system) in conjunction with Artiste � Nano Composite resin, and Fusio� Liquid Dentin (self-adhesive flowable composite), consecutively. Each group was further divided into three subgroups (n=10): (A) control, (B) subjected to occlusal cyclic loading (90N for 5,000 cycles), and (C) subjected to occlusal cyclic loading (90N for 10,000 cycles). Teeth then were coated with nail polish up to 1 mm from the interface, immersed in 50% silver nitrate solution for 24 hours and tested for nanoleakage using the environmental scanning electron microscopy and energy dispersive analysis X-ray analysis. Data were statisti? cally analyzed using two-way analysis of variance and Tukey's post hoc tests (P?0.05). Results: The Fusio Liquid Dentin group showed statistically significant lower percentages of silver penetration (0.55 ?) compared with the BOND-1 SF (3.45 ?) and Xeno V (3.82 ?) groups, which were not statistically different from each other, as they both showed higher silver penetration. Conclusion: Under the test conditions, the self-adhesive flowable composite provided bet? ter sealing ability. Aging of the two tested adhesive systems, as a function of cyclic loading, increased nanoleakage. � 2015 Abo El Naga et al. | en_US |
| dc.description.uri | https://www.scimagojr.com/journalsearch.php?q=20000195083&tip=sid&clean=0 | |
| dc.identifier.doi | https://doi.org/10.2147/CCIDE.S80462 | |
| dc.identifier.doi | PubMed ID : | |
| dc.identifier.issn | 11791357 | |
| dc.identifier.other | https://doi.org/10.2147/CCIDE.S80462 | |
| dc.identifier.other | PubMed ID : | |
| dc.identifier.uri | https://t.ly/xRRGw | |
| dc.language.iso | English | en_US |
| dc.publisher | Dove Medical Press Ltd | en_US |
| dc.relation.ispartofseries | Clinical, Cosmetic and Investigational Dentistry | |
| dc.relation.ispartofseries | 7 | |
| dc.subject | Class V | en_US |
| dc.subject | Cyclic loading | en_US |
| dc.subject | Flowable composite | en_US |
| dc.subject | Nanoleakage | en_US |
| dc.subject | Self-adhesive | en_US |
| dc.title | Does the use of a novel self-adhesive flowable composite reduce nanoleakage? | en_US |
| dc.type | Article | en_US |
| dcterms.isReferencedBy | Miyasaka, T., Okamura, H., Dimensional change measurements of conventional and flowable composite resins using a laser displacement sensor (2009) Dent Mater J., 28 (5), pp. 544-551; Yazici, A.R., Celik, C., Dayangac, B., Ozgunaltay, G., Effects of different light curing units/modes on the microleakage of flowable composite resins (2008) Eur J Dent., 2, pp. 240-246; Attar, N., Tam, L.E., McComb, D., Flow, strength, stiffness and radiopacity of flowable resin composites (2003) J Can Dent Assoc., 69 (8), pp. 516-521; Kleverlaan, C.J., Feilzer, A.J., Polymerization shrinkage and contraction stress of dental resin composites (2005) Dent Mater, 21 (12), pp. 1150-1157; Qin, M., Liu, H., Clinical evaluation of a flowable resin composite and flowable compomer for preventive resin restorations (2005) Oper Dent., 30 (5), pp. 580-587; Unterbrink, G.L., Liebenberg, W.H., Flowable resin composites as "filled adhesives": Literature review and clinical recommendations (1999) Quintessence Int., 30 (4), pp. 249-257; Manhart, J., Chen, H.Y., Mehl, A., Weber, K., Hickel, R., Marginal quality and microleakage of adhesive class V restorations (2001) J Dent., 29 (2), pp. 123-130; Sensi, L.G., Marson, F.C., Monteiro, S., Jr., Baratieri, L.N., Caldeira De Andrada, M.A., Flowable composites as "filled adhesives": A microleak age study (2004) J Contemp Dent Pract., 5 (4), pp. 32-41; Jang, K.T., Chung, D.H., Shin, D., Garc�a-Godoy, F., Effect of eccentric load cycling on microleakage of Class V flowable and packable composite resin restorations (2001) Oper Dent., 26 (6), pp. 603-608; Xie, H., Zhang, F., Wu, Y., Chen, C., Liu, W., Dentine bond strength and microleakage of flowable composite, compomer and glass ionomer cement (2008) Aust Dent J., 53 (4), pp. 325-331; Braga, R.R., Hilton, T.J., Ferracane, J.L., Contraction stress of flowable composite materials and their efficacy as stress-relieving layers (2003) J am Dent Assoc., 134 (6), pp. 721-728; Chimello, D.T., Chinelatti, M.A., Ramos, R.P., Palma Dibb, R.G., In vitro evaluation of microleakage of a flowable composite in Class V restorations (2002) Braz Dent J., 13 (3), pp. 184-187; Cardoso, P.E., Braga, R.R., Carrilho, M.R., Evaluation of micro-tensile, shear and tensile tests determining the bond strength of three adhesive systems (1998) Dent Mater., 14 (6), pp. 394-398; Swift, E.J., Jr., Perdig�o J, Heymann HO. Bonding to enamel and dentin: A brief history and state of the art, 1995 (1995) Quintessence Int., 26 (2), pp. 95-110; Hannig, M., Friedrichs, C., Comparative in vivo and in vitro investigation of interfacial bond variability (2001) Oper Dent., 26 (1), pp. 3-11; Haller, B., Recent developments in dentin bonding (2000) Am J Dent, 13 (1), pp. 44-50; Osorio, R., Toledano, M., De Leonardi, G., Tay, F., Microleakage and interfacial morphology of self-etching adhesives in class V resin composite restorations (2003) J Biomed Mater Res B Appl Biomater., 66 (1), pp. 399-409; El-Badrawy, W., Hafez, R.M., El Naga, A.I., Ahmed, D.R., Nanoleakage for Self-Adhesive Resin Cements used in Bonding CAD/CAD Ceramic Material to Dentin (2011) Eur J Dent., 5 (3), pp. 281-290; Eick, J.D., Welch, F.H., Polymerization shrinkage of posterior composite resins and its possible influence on postoperative sensitivity (1986) Quintessence Int., 17 (2), pp. 103-111; Krejci, I., Lutz, F., Marginal adaptation of Class V restorations using different restorative techniques (1991) J Dent., 19 (1), pp. 24-32; Sano, H., Shono, T., Takatsu, T., Hosoda, H., Microporous dentin zone beneath resin-impregnated layer (1994) Oper Dent., 19 (2), pp. 59-64; Andia-Merlin, R.Y., Garone-Netto, N., Arana-Chavez, V.E., SEM evaluation of the interaction between a three-step adhesive and dentin (2001) Oper Dent., 26 (5), pp. 440-444; Vaidyanathan, T.K., Vaidyanathan, J., Recent advances in the theory and mechanism of adhesive resin bonding to dentin: A critical review (2009) J Biomed Mater Res B Appl Biomater., 88 (2), pp. 558-578; Eick, J.D., Gwinnett, A.J., Pashley, D.H., Robinson, S.J., Current concepts on adhesion to dentin (1997) Crit Rev Oral Biol Med., 8 (3), pp. 306-335; Li, H., Burrow, M.F., Tyas, M.J., Nanoleakage patterns of four dentin bonding systems (2000) Dent Mater., 16 (1), pp. 48-56; Sano, H., Takatsu, T., Ciucchi, B., Horner, J.A., Matthews, W.G., Pashley, D.H., Nanoleakage: Leakage within the hybrid layer (1995) Oper Dent., 20 (1), pp. 18-25; Dhanyakumar, S., Comparative evaluation of micro-shear bond strength of adhesive resins to coronal dentin versus dentin at floor of pulp chamber - an in vitro study (2006) J Conserv Dent., 9 (4), pp. 123-130; Tay, F.R., Pashley, D.H., Aggressiveness of contemporary self-etching systems. I: Depth of penetration beyond dentin smear layers (2001) Dent Mater., 17 (4), pp. 296-308; Hegde, M.N., Hegde, P., Chandra, C.R., Morphological evaluation of new total etching and self etching adhesive system interfaces with dentin (2012) J Conserv Dent., 15 (2), pp. 151-155; Vichi, A., Margvelashvili, M., Goracci, C., Papacchini, F., Ferrari, M., Bonding and sealing ability of a new self-adhering flowable composite resin in class I restorations (2013) Clin Oral Invest., 17 (6), pp. 1497-1506; Eliades, G., Vougiouklakis, G., Palaghias, G., Heterogeneous distribution of single-bottle adhesive monomers in the resin-dentin interdiffusion zone (2001) Dent Mater., 17 (4), pp. 277-283; Koliniotou-Koumpia, E., Kouros, P., Koumpia, E., Helvatzoglou-Antoniades M. Shear bond strength of a "solvent-free" adhesive versus contemporary adhesive systems (2014) Brazilian Journal of Oral Sciences, 13 (1), pp. 64-69; Yoshida, Y., Nagakane, K., Fukuda, R., Comparative study on adhesive performance of functional monomers (2004) J Dent Res., 83 (6), pp. 454-458; Sadeghi, M., An in vitro microleakage study of class V cavities restored with a new self-adhesive flowable composite resin versus different flowable materials (2012) Dent Res J (Isfahan), 9 (4), pp. 460-465; Bektas, O.O., Eren, D., Akin, E.G., Akin, H., Evaluation of a self-adhering flowable composite in terms of micro-shear bond strength and micro leakage (2013) Acta Odontol Scand., 71 (3-4), pp. 541-546; Poss, S.D., Utilization of a new self-adhering flowable composite resin (2010) Dent Today., 29 (4), pp. 104-105; Kerr, S.D.S., (2010), http://www.kerrdental.com/cms-filesystem-action/KerrDental-products-techinfo/vertiseflow_techbulletin_34929b.pdf, Vertise Flow: Self-Adhering Flowable Composite . Technical Bulletin. Orange, CA: Kerr Sybron Dental Specialties January; Ameri, H., Chasteen, J.E., Ghavamnasiri, M., Maghami, A., Effect of load cycling on nanoleakage of butt joint and beveled occlusal enamel margins in Class V composite resin restorations (2010) Revista de Cl�nica e Pesquisa Odontol�gica, 6 (3), pp. 231-237. , [Journal of dental clinics and research]; McCoy, G., The etiology of gingival erosion (1982) J Oral Implantol., 10 (3), pp. 361-362; Darendeliler, S., Darendeliler, H., Kinoglu, T., Analysis of a central maxillary incisor by using a three dimensional finite element method (1992) J Oral Rehabil., 19 (4), pp. 371-383; Van Meerbeek, B., Braem, M., Lambrechts, P., Vanherle, G., Evaluation of two dentin adhesives in cervical lesions (1993) J Prosthet Dent., 70 (4), pp. 308-314; Miranda, W.G., Jr., Nunes, M.F., Cardoso, P.E., Santos, J.F., Microleakage of condensable composite resins combined with a flowable composite (1999) J Dent Res., 78. , special issue:Abstract 1603:306; Bedran-de-Castro, A.K., Pereira, P.N., Pimenta, L.A., Thompson, J.Y., Effect of thermal and mechanical load cycling on nanoleakage of Class II restorations (2004) J Adhes Dent., 6 (1), pp. 221-226; Radovic, I., Vulicevic, Z.R., Garc�a-Godoy, F., Morphological evaluation of 2- and 1-step self-etching system interfaces with dentin (2006) Oper Dent., 31 (6), pp. 710-718; Van Meerbeek, B., Peumans, M., Poitevin, A., Relationship between bond-strength tests and clinical outcomes (2010) Dent Mater., 26 (2), pp. e100-e121; Li, H., Burrow, M.F., Tyas, M.J., The effect of load cycling on the nanoleak age of dentin bonding systems (2002) Dent Mater., 18 (2), pp. 111-119; Yuan, Y., Shimada, Y., Ichinose, S., Tagami, J., Qualitative analysis of adhesive interface nanoleakage using FE-SEM/EDS (2007) Dent Mater., 23 (5), pp. 561-569; Ibarra, G., Johnson, G.H., Geurtsen, W., Vargas, M.A., Microleakage of porcelain veneer restorations bonded to enamel and dentin with a new self-adhesive resin-based dental cement (2007) Dent Mater., 23 (2), pp. 218-225; Pioch, T., Staehle, H.J., Duschner, H., Garc�a-Godoy, F., Nanoleakage at the composite-dentin interface: A review (2001) Am J Dent, 14 (4), pp. 252-258; Fu, J., Kakuda, S., Pan, F., Bonding performance of a newly developed step-less all-in-one system on dentin (2013) Dent Mater J., 32 (2), pp. 203-211; Juloski, J., Goracci, C., Rengo, C., Enamel and dentin bond strength of new simplified adhesive materials with and without preliminary phosphoric acid-etching (2012) Am J Dent., 25 (4), pp. 239-243; Garcia, R.N., Morelli, A.E., Giongo, B.M., Bonding performance of a self-adhering flowable composite to substrates used in direct technique (2013) Revista Sul-Brasileira de Odontologia, 10 (4), pp. 343-349. , South Brazilian dentistry journal; Vichi, A., Goracci, C., Ferrari, M., Clinical study of the self-adhering flowable composite resin Vertise Flow in Class I restorations: Six-month follow-up (2011) International Dentistry (South Africa), 2 (1), pp. 44-51; Rengo, C., Goracci, C., Juloski, J., Influence of phosphoric acid etching on microleakage of a self-etch adhesive and a self-adhering composite (2012) Aust Dent J., 57 (2), pp. 220-226; G�n�lol, N., Ertan Erta?, E., Yilmaz, A., �ankaya, S., Effect of thermal aging on microleakage of current flowable composite resins (2014) J Dent Sci., , Epub June 5; Nikolaenko, S.A., Lohbauer, U., Roggendorf, M., Petschelt, A., Dasch, W., Frankenberger, R., Influence of C-factor and layering technique on microtensile bond strength to dentin (2004) Dent Mater., 20, pp. 579-585; Tsai, P.C., Meyers, I.A., Walsh, L.J., Depth of cure and surface microhardness of composite resin cured with blue LED curing lights (2004) Dent Mater., 20 (4), pp. 364-369; Mobarak, E., Seyam, R., Interfacial nanoleakage and bonding of self- adhesive systems cured with a modified-layering technique to dentin of weakened roots (2013) Oper Dent., 38 (5), pp. E154-E165; Pereira, P.N., Okuda, M., Nakajima, M., Sano, H., Tagami, J., Pashley, D.H., Relationship between bond strengths and nanoleakage: Evaluation of a new assessment method (2001) Am J Dent., 14 (2), pp. 100-104; Lee, T.Y., Cho, B.H., Son, H.H., The nanoleakage patterns of different dentin adhesive systems (2003) Taehan Ch'ikwa Pojon Hakhoe Chi, 28 (2), pp. 169-177. , Journal of Korean Academy of Conservative Dentistry; Tay, F.R., Pashley, D.H., Yoshiyama, M., Two modes of nanoleakage-expression in single-step adhesives (2002) J Dent Res., 81 (7), pp. 472-476; Hashimoto, M., Ohno, H., Sano, H., Kaga, M., Oguchi, H., Degradation patterns of different adhesives and bonding procedures (2003) J Biomed Mater Res B Appl Biomater., 66 (1), pp. 324-330; Tay, F.R., King, N.M., Chan, K.M., Pashley, D.H., How can nanoleakage occur in self-etching adhesive systems that demineralize and infiltrate simultaneously? (2002) J Adhes Dent., 4 (4), pp. 255-269; Ferreira, J.C., Pires, P.T., Azevedo, A.F., Oliveira, S.A., Melo, P.R., Silva, M.J., Influence of solvents and composition of etch-and-rinse and self-etch adhesive systems on the nanoleakage within the hybrid layer (2013) J Contemp Dent Pract., 14 (4), pp. 691-699; Spencer, P., Wang, Y., Adhesive phase separation at the dentin interface under wet bonding conditions (2002) J Biomed Mater Res, 62 (3), pp. 447-456; Tay, F.R., Gwinnett, J.A., Wei, S.H., Micromorphological spectrum from overdrying to overwetting acid-conditioned dentin in water-free acetone-based, single-bottle primer/adhesives (1996) Dent Mater., 12 (4), pp. 236-244; Kubo, S., Yokota, H., Sata, Y., Hayashi, Y., The effect of flexural load cycling on the microleakage of cervical resin composites (2001) Oper Dent., 26 (5), pp. 451-459; Swathi, L., Akkala, S.R., Thomas, T., Veronica. Nanoleakage evaluation of a silorane based, nanohybrid and giomer composites - an in-vitro study (2014) International Organization of Scientific Research Journal of Dental and Medical Sciences., 13 (1), pp. 62-64; Yamazaki, P.C., Bedran-Russo, K.B., Pereira, P.N.R., The effect of load cycling on nanoleakage of deproteinized resin/dentin interfaces as a function of time (2004) Dent Mater., 24 (7), pp. 867-873; Mandras, R.S., Retief, D.H., Russell, C.M., The effects of thermal and occlusal stresses on the microleakage of the Scotchbond 2 dentinal bonding system (1991) Dent Mater., 7 (1), pp. 63-70 | |
| dcterms.source | Scopus |