Effect of radiant exposure and UV accelerated aging on physicochemical and mechanical properties of composite resins

Cuevas-Suárez, C.E.; Meereis, C.T.W.; D’Accorso, N.; Macchi, R.; Ancona-Meza, A.L.; Zamarripa-Calderón, E.

doi:10.1590/1678-7757-2018-0075

Navegar

Documento Últimos Documentos Autor FCEN - Año Autor FCEN - Revista Año - Revista Revista - Año SubjectPcEn Colores Type

Colección

Artículo

Cuevas-Suárez, C.E.; Meereis, C.T.W.; D’Accorso, N.; Macchi, R.; Ancona-Meza, A.L.; Zamarripa-Calderón, E. "Effect of radiant exposure and UV accelerated aging on physicochemical and mechanical properties of composite resins" (2019) Journal of Applied Oral Science. 27

https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_16787757_v27_n_p_CuevasSuarez

Estamos trabajando para incorporar este artículo al repositorio

Consulte el artículo en la página del editor

Consulte la política de Acceso Abierto del editor

Abstract:

Currently, there is no consensus in terms of defining the minimum radiant exposure values necessary for achieving adequate properties of composite resin. In addition, the long-term influence that radiant exposure has on the properties of composite resins is still questionable. Objective: The objective of this study was to evaluate the effect of radiant exposure and UV accelerated aging on the physico-chemical and mechanical properties of micro-hybrid and nanofilled composite resins. Material and Methods: A nanofilled (Filtek Supreme; 3M ESPE) and a micro-hybrid composite resin (Filtek Z250; 3M ESPE) were investigated under different radiant exposures (3.75, 9, and 24 J/cm2) and UV accelerated aging protocols (0, 500, 1000, and 1500 aging hours). The degree of conversion (DC), flexural strength (FS), modulus (M), water sorption (WS), and solubility (WL) were evaluated. The results obtained were analyzed using two-way ANOVA and Tukey’s test. Comparisons were performed using a significance level of a=0.05. Results: The DC, FS, and M were found to be significantly influenced by both radiant exposure and accelerated aging time. The DC and EM increased with radiant exposure in the no-aging group (0-hour aging) for both micro-hybrid and nanofilled composites, whereas no correlation was found after accelerated aging protocols. WS and WL of micro-hybrid and nanofilled composite resins were scarcely affected by radiant exposure (p>0.05), whereas they were significantly reduced by accelerated aging (p<0.001). Conclusions: Although increasing radiant exposure affected the degree of conversion and mechanical properties of micro-hybrid and nanofilled composites, no influence on the hydrolytic degradation of the material was observed. In contrast, UV accelerated aging affected both the physico-chemical and mechanical properties of the composites. © 2019, Bauru School of Dentistry, University of Sao Paulo. All rights reserved.

Registro:

Documento:	Artículo
Título:	Effect of radiant exposure and UV accelerated aging on physicochemical and mechanical properties of composite resins
Autor:	Cuevas-Suárez, C.E.; Meereis, C.T.W.; D’Accorso, N.; Macchi, R.; Ancona-Meza, A.L.; Zamarripa-Calderón, E.
Filiación:	Universidad Autónoma del Estado de Hidalgo, Instituto de Ciencias de la Salud, Área Académica de Odontología, Pachuca de Soto, Mexico Universidade Federal dos Vales do Jequitinhonha e Mucuri, Programa de Pós-Graduação em Odontologia, Diamantina, Minas Gerais, Brazil Universidad de Buenos Aires, Facultad de Ciencias Exactas y Naturales, Departamento de Química Orgánica, Buenos Aires, Argentina Universidad de Buenos Aires, Facultad de Odontología, Departamento de Materiales Dentales, Buenos Aires, Argentina
Palabras clave:	Aging; Composite resins; Polymerization; Filtek Supreme; resin; resin cement; water; analysis of variance; chemistry; dental curing light; evaluation study; infrared spectroscopy; materials testing; phase transition; photochemistry; polymerization; radiation dose; radiation response; reference value; scanning electron microscopy; solubility; surface property; time factor; ultraviolet radiation; Analysis of Variance; Composite Resins; Curing Lights, Dental; Flexural Strength; Materials Testing; Microscopy, Electron, Scanning; Phase Transition; Photochemical Processes; Polymerization; Radiation Dosage; Reference Values; Solubility; Spectroscopy, Fourier Transform Infrared; Surface Properties; Time Factors; Ultraviolet Rays; Water
Año:	2019
Volumen:	27
DOI:	http://dx.doi.org/10.1590/1678-7757-2018-0075
Título revista:	Journal of Applied Oral Science
Título revista abreviado:	J. Appl. Oral Sci.
ISSN:	16787757
CAS:	water, 7732-18-5; Composite Resins; Filtek Supreme; Filtek Z250; Water
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_16787757_v27_n_p_CuevasSuarez

Referencias:

Ferracane, J.L., Composite resin - state of the art (2011) Dent Mater., 27 (1), pp. 29-38
Randolph, L.D., Palin, W.M., Leloup, G., Leprince, J.G., Filler characteristics of modern dental composite resins and their influence on physicomechanical properties (2016) Dent Mater., 32 (12), pp. 1586-1599
Leprince, J.G., Palin, W.M., Hadis, M.A., Devaux, J., Leloup, G., Progress in dimethacrylate-based dental composite technology and curing efficiency (2013) Dent Mater., 29 (2), pp. 139-156
Erickson, R.L., Barkmeier, W.W., Halvorson, R.H., Curing characteristics of a composite - part 1: Cure depth relationship to conversion, hardness and radiant exposure (2014) Dent Mater., 30 (6), pp. e125-e133
Wydra, J.W., Cramer, N.B., Stansbury, J.W., Bowman, C.N., The reciprocity law concerning light dose relationships applied to BisGMA/TEGDMA photopolymers: Theoretical analysis and experimental characterization (2014) Dent Mater., 30 (6), pp. 605-612
Selig, D., Haenel, T., Hausnerová, B., Moeginger, B., Labrie, D., Sullivan, B., Examining exposure reciprocity in a resin based composite using high irradiance levels and real-time degree of conversion values (2015) Dent Mater., 31 (5), pp. 583-593
Guimarães, G.F., Marcelino, E., Cesarino, I., Vicente, F.B., Grandini, C.R., Simões, R.P., Minimization of polymerization shrinkage effects on composite resins by the control of irradiance during the photoactivation process (2018) J Appl Oral Sci., 26, p. e20170528
Rueggeberg, F.A., Giannini, M., Arrais, C.A., Price, R.B., Light curing in dentistry and clinical implications: A literature review (2017) Braz Oral Res., 31, p. e61
Vandewalle, K.S., Ferracane, J.L., Hilton, T.J., Erickson, R.L., Sakaguchi, R.L., Effect of energy density on properties and marginal integrity of posterior composite resin restorations (2004) Dent Mater., 20 (1), pp. 96-106
Beolchi, R.S., Moura-Netto, C., Palo, R.M., Torres, C.R., Pelissier, B., Changes in irradiance and energy density in relation to different curing distances (2015) Braz Oral Res., 29 (1), pp. 1-7
Hahnel, S., Henrich, A., Bürgers, R., Handel, G., Rosentritt, M., Investigation of mechanical properties of modern dental composites after artificial aging for one year (2010) Oper Dent., 35 (4), pp. 412-419
(2006) ASTM G154 - 16 standard practice for operating fluorescent ultraviolet (UV) lamp apparatus for exposure of nonmetallic materials, , Pennsylvania: ASTM
(2009) International Organization for Standarization, , ISO 4049:2009:Dentistry polymer based restorative materials. Geneva: ISO
Daugherty, M.O., Lien, W., Mansell, M.R., Risk, D.L., Savett, D.A., Vandewalle, K.S., Effect of high-intensity curing lights on the polymerization of bulkfill composites (2018) Dent Mater, 34 (10), pp. 1531-1541. , 2018
Leprince, J.G., Hadis, M., Shortall, A.C., Ferracane, J.L., Devaux, J., Leloup, G., Photoinitiator type and applicability of exposure reciprocity law in filled and unfilled photoactive resins (2011) Dent Mater., 27 (2), pp. 157-164
Calheiros, F.C., Daronch, M., Rueggeberg, F.A., Braga, R.R., Degree of conversion and mechanical properties of a BisGMA:TEGDMA composite as a function of the applied radiant exposure (2008) J Biomed Mater Res B Appl Biomater., 84 (2), pp. 503-509
Najafi, H., Akbari, B., Najafi, F., Abrishamkar, A., Ramedani, A., Yazdanpanah, A., Evaluation of relationship among filler amount, degree of conversion, and cytotoxicity: Approaching performance enhancement novel design for dental Bis-GMA/UDMA/TEGDMA composite (2017) Int J Polym Mater Polym Biomater., 66 (16), pp. 844-852
Germscheid, W., de Gorre, L.G., Sullivan, B., O’Neill, C., Price, R.B., Labrie, D., Post-curing in dental resin-based composites (2018) Dent Mater., 34 (9), pp. 1367-1377
Matyjaszewski, K., Davis, T.P., (2003) Handbook of radical polymerization, , New York: Wiley
Scherzer, T., VUV-induced photopolymerization of acrylates (2012) Macromol Chem Phys., 213 (3), pp. 324-334
Boeira, P.O., Meereis, C.T., Cuevas-Suárez, C.E., Almeida, S.M., Piva, E., Lima, G.S., Coumarin-based iodonium hexafluoroantimonate as an alternative photoinitiator for experimental dental adhesives resin (2017) Appl Adhes Sci., 5 (1), p. 2
Cook, W.D., Chen, F., Enhanced photopolymerization of dimethacrylates with ketones, amines, and iodonium salts: The CQ system (2011) J Polym Sci Part A Polym Chem., 49 (23), pp. 5030-5041
Esteves, R.A., Boaro, L.C., Gonçalves, F., Campos, L.M., Silva, C.M., Rodrigues-Filho, L.E., Chemical and mechanical properties of experimental dental composites as a function of formulation and postcuring thermal treatment (2018) Biomed Res Int., p. 9845427. , 2018
Pavlinec, J., Moszner, N., Dark reactions of free radicals trapped in densely crosslinked polymer networks after photopolymerization (2003) J Appl Polym Sci., 89 (3), pp. 579-588
Achilias, D.S., Karabela, M.M., Sideridou, I.D., Thermal degradation and isoconversional kinetic analysis of light-cured dimethacrylate copolymers (2010) J Therm Anal Calorim., 99 (3), pp. 917-923
Guimarães, T., Schneider, L.F., Braga, R.R., Pfeifer, C.S., Mapping camphorquinone consumption, conversion and mechanical properties in methacrylates with systematically varied CQ/amine compositions (2014) Dent Mater., 30 (11), pp. 1274-1279
Ferracane, J.L., Resin-based composite performance: Are there some things we can’t predict? (2013) Dent Mater, 29 (1), pp. 51-58
Stansbury, J.W., Dimethacrylate network formation and polymer property evolution as determined by the selection of monomers and curing conditions (2012) Dent Mater., 28 (1), pp. 13-22
Kaisarly, D., Gezawi, M.E., Polymerization shrinkage assessment of dental composite resins: A literature review (2016) Odontology., 104 (3), pp. 257-270
Yap, A.U., Teoh, S.H., Comparison of flexural properties of composite restoratives using the ISO and mini-flexural tests (2003) J Oral Rehabil., 30 (2), pp. 171-177
Cardenas, A., Siqueira, F., Rocha, J., Szesz, A., Anwar, M., El-Askary, F., Influence of conditioning time of universal adhesives on adhesive properties and enamel-etching pattern (2016) Oper Dent., 41 (5), pp. 481-490
Santos, S.G., Moysés, M.R., Alcântara, C.E., Ribeiro, J.C., Ribeiro, J.G., Flexural strength of a composite resin light cured with different exposure modes and immersed in ethanol or distilled water media (2012) J Conserv Dent., 15 (4), pp. 333-336
Ferracane, J.L., Hygroscopic and hydrolytic effects in dental polymer networks (2006) Dent Mater., 22 (3), pp. 211-222
Song, F., Koo, H., Ren, D., Effects of material properties on bacterial adhesion and biofilm formation (2015) J Dent Res., 94 (8), pp. 1027-1034
Jones, C.S., Billington, R.W., Pearson, G.J., The in vivo perception of roughness of restorations (2004) Br Dent J., 196 (1), pp. 42-45
Oliveira, D.C., Menezes, L.R., Gatti, A., Correr Sobrinho, L., Ferracane, J.L., Sinhoreti, M.A., Effect of nanofiller loading on cure efficiency and potential color change of model composites (2016) J Esthet Restor Dent., 28 (3), pp. 171-177

Citas:

---------- APA ----------

Cuevas-Suárez, C.E., Meereis, C.T.W., D’Accorso, N., Macchi, R., Ancona-Meza, A.L. & Zamarripa-Calderón, E. (2019) . Effect of radiant exposure and UV accelerated aging on physicochemical and mechanical properties of composite resins. Journal of Applied Oral Science, 27.
http://dx.doi.org/10.1590/1678-7757-2018-0075

---------- CHICAGO ----------

Cuevas-Suárez, C.E., Meereis, C.T.W., D’Accorso, N., Macchi, R., Ancona-Meza, A.L., Zamarripa-Calderón, E. "Effect of radiant exposure and UV accelerated aging on physicochemical and mechanical properties of composite resins" . Journal of Applied Oral Science 27 (2019).
http://dx.doi.org/10.1590/1678-7757-2018-0075

---------- MLA ----------

Cuevas-Suárez, C.E., Meereis, C.T.W., D’Accorso, N., Macchi, R., Ancona-Meza, A.L., Zamarripa-Calderón, E. "Effect of radiant exposure and UV accelerated aging on physicochemical and mechanical properties of composite resins" . Journal of Applied Oral Science, vol. 27, 2019.
http://dx.doi.org/10.1590/1678-7757-2018-0075

---------- VANCOUVER ----------

Cuevas-Suárez, C.E., Meereis, C.T.W., D’Accorso, N., Macchi, R., Ancona-Meza, A.L., Zamarripa-Calderón, E. Effect of radiant exposure and UV accelerated aging on physicochemical and mechanical properties of composite resins. J. Appl. Oral Sci. 2019;27.
http://dx.doi.org/10.1590/1678-7757-2018-0075