Research Articles

In Vitro Comparison of the Curing Depth of a Nanohybrid Resin Photoactivated by Halogen Light Versus led Light

Vol. 14 No. 26 (2018)
Published: 2017-10-13
Ana Gabriela Guerrero Bravo
Raúl Edison Chumi Terán
Aim: To compare the curing depth of a nanohybrid resin photoactivated by halogen light versus
led light according to iso 4049.
 
Materials and methods: Current cross-sectional, descriptive, comparative laboratory method. A speci-
men former was used. A strip of celluloid was placed on the base of the specimen former, on which the
resin z 350 xt (3 m), shade a 2 and enamel was put. The height of the specimen former was overfilled, and
a second strip of celluloid was placed on top. The resin was photoactivated by a conventional halogen
lamp and a third-generation led lamp. The specimen was removed from the former and the material
in a plastic state without polymerization was removed with a spatula. The height of the cured material
was measured with the digital micrometer (t304b.w-1220) at an accuracy of +0.01 mm. This test was
performed three times and the average value of the curing depth was obtained. When dividing it by
two, the curing depth was obtained according to iso 4049. Statistical normality tests (Kolmogorov-Smirnov(a) and Shapiro-Wilk) and nonparametric tests (Mann-Whitney) were performed to check if the values follow a normal distribution. The Student’s t test was used to determine if there is a statistically significant difference between the results.
 
Results: The minimum curing depth value was obtained with the halogen lamp (2.23 mm), unlike
photoactivation by led lamp (2.32 mm).
 
Conclusion: There are significant differences in the curing depth of a resin when photopolymerized by
halogen light versus led light.
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How to Cite

In Vitro Comparison of the Curing Depth of a Nanohybrid Resin Photoactivated by Halogen Light Versus led Light. (2017). Revista Nacional de Odontología, 14(26). https://doi.org/10.16925/od.v13i26.2042

Rodríguez D, Pereira N. Evolución y tendencias ac-tuales de las resinas. Acta Odontológica Venezolana [Internet]. 2008;46(3):1-19. Disponible en: http://www.actaodontologica.com/ediciones/2008/3/evo-lucion_tendencias_resinas_compuestas.asp.

Hervas A, Martínez MA, Cabanes J, Amaya E, Fos Galve P. Resinas compuestas. Revisión de los mate-riales e indicaciones clínicas. Med Oral Patol Oral Cir Bucal. 2006;11(2):215-20.

Pires H. Comparação de dois sistemas de fotoati-vação de resinas compostas, led e lâmpada halógena: avaliação através de dureza em amostras de resina composta [tesis]. [Bauru]: Universidade de São Pau-lo; 2005. doi: http://dx.doi.org/10.11606/D.25.2005.tde-05092005-103811.

Ilie N, Hickel R. Quality of curing in relation to hardness, degree of cure and polymerization depth measured on a nano-hybrid composite. Am J Dent [Internet]. 2007;20(4):263-8. Disponible en: http://www.ncbi.nlm.nih.gov/pubmed/17907492.

Carvalho Chain M, Baratieri LN. Restauraciones es-téticas con resinas compuestas en dientes posterio-res. Bogotá: Editorial Médica Panamericana; 2001.

Krämer N, Lohbauer U, García-Godoy F, Franken-berger R. Light curing of resin-based composites in the led era. Am J Dent [Internet]. 2008;21(3):135-42. Disponible en: http://www.ncbi.nlm.nih.gov/pubmed/18686762.

Hiroyuki A, Takahito K, Koichi F, Hideo T, Sei-ji B. Effect of inhomogeneity of light from light curing units on the surface hardness of composite resin. Dent Mater J [Internet]. 2008;27(1):21-8. Disponible en: http://www.ncbi.nlm.nih.gov/pub-med/18309608.

Yap A, Soh M. Curing efficacy of a new genera-tion high-power led lamp. Oper Dent [Internet]. 2005;30(6):758-63. Disponible en: http://www.ncbi.nlm.nih.gov/pubmed/16382599.

Tarle Z, Knezevic A, Demoli N, Meniga A, Sutaloa J, Unterbrink G, et al. Comparison of composite curing parameters: Effects of light source and curing mode on conversion, temperature rise and polymerization shrinkage. Oper Dent. 2006;31(2):219-26. doi: http://dx.doi.org/10.2341/05-15.

Nomoto R, McCabe J, Hirano S. Comparison of halogen, plasma and led curing units. Oper Dent. 2004;29(3):287-94.

Sakaguchi RL, Douglas WH, Peters MC. Curing light performance and polymerization of composite restorative materials. J Dent. 1992;20(3):183-8.

Veiga de Melo M, Ribeiro M, Rabelo J, Candi-do dos Reis A, Orbegoso V. Influencia de las unidades de curado led y luz halógena sobre la resistencia compresiva de las resinas compuestas. Acta Odontol Venez [Internet]. 2007 [citado 2016 jul 6]; 45(2):209-12. Disponible en: http://www.scielo.org.ve/scielo.php?script=sci_arttex-t&pid=S0001-63652007000200014&lng=es.

Rueggeberg FA. State-of-the-art: Dental photocur-ing — A review. Dent Mater. 2011;27(1):39-52.

Santini A. Current status of visible light activation units and the curing of light-activated resin-ba-sed composite materials. Dent Update. 2010;37(4):214-27.

Kopperud H, Johnsen G, Lamolle S, Kleven IS, Wel-lendorf H, Haugen HJ. Effect of short led lamp ex-posure on wear resistance, residual monomer and degree of conversion for filtek z250 and tetricevo-ceram composites. Dent Mater. 2013;29(8):824-34. doi: http://dx.doi.org/10.1016/j.dental.2013.04.022.

Caro M, Aizencop D, Ehrmantraut M. Profundidad de curado de resinas compuestas fluidas activadas con luz halógena y led a través de distintos espe-sores de resina compuesta indirecta. Rev Dent Chile [Internet]. 2014 [citado 2015 jul 16]; 105(3):20-3. Disponible en: http://www.revistadentaldechile.cl/temas%20noviembre%202014/pdf/profundidad_de_curado_web.pdf.

Varanes Y, Autran F, Álvarez R, Gil-Mur F. De-terminación de la profundidad de curado y propiedades mecánicas de composites dentales fo-topolimerizables experimentales. rcoe [Internet]. 2005 [citado 2016 jul 7]; 10(2):161-70. Disponible en: http://scielo.isciii.es/scielo.php?script=sci_art-text&pid=S1138-123X2005000200003.

Shortal AC, Palin WM, Burtscher P. Refractive in-dex mismatch and monomer reactivity. J Dent Res. 2008;87(2):84-8.

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