Efecto de tres enjuagues bucales en la degradación superficial de resinas compuestas: estudio in vitro

Paola Elisabeth  Casanova Obando; María Fernanda  Taboada Alvear; David Sebastián  Flores Cuvi; Marisol  Castilla; Ana del Carmen  Armas

doi:10.47990/alop.v8i2.152

Authors

Paola Elisabeth Casanova Obando
María Fernanda Taboada Alvear
David Sebastián Flores Cuvi
Marisol Castilla
Ana del Carmen Armas

DOI:

https://doi.org/10.47990/alop.v8i2.152

Keywords:

Composite resins, mouth rinses, surface properties, loss of mass

Abstract

Aim: Evaluate the degradation of composite resins in terms of mass and roughness, when it is in contact with mouth rinses. Materials and Methods: 88 discs of nanohybrid resins Grandio (VOCO) and Filtek Z250 XT (3M), corresponded to 44 discs for each one, divided into 3 subgroups (n: 14) and 2 discs that were randomly selected as control group. They were submerged in the same mouth rinse, Listerine Zero, Coolmint, and Whitening for 21 minutes, followed by a new weighing and evaluation of the surface roughness, then they were placed in contact with artificial saliva for 12 hours, and then placed again in contact with the respective mouth rinse and also be subjected to a new evaluation of weight and roughness. Each of these cycles was executed until 1092 minutes were completed at a temperature of 37°C. Results: The roughness and weight measurements analyzed by ANOVA (p<0,001) showed no significant changes in the evaluated resins after the contact of mouth rinses, nevertheless, there was significant in relation with the time of contact. Conclusions: Mouth rinses can cause a negative effect on composite resins that increase in relation to time of contact.

References

Alkaline T, Genk G, Ceyhan Y, Bozkur F. The effect of mouthrinses on the color stability ofs onic fill and a Nano hybrid composite. J Istanbul Univ. Fac Dent. 2016; 50: 17-23.

Ferracane J. Resin composite-State of the art. Dent Mater J. 2010; 27: 29-38

Velo M, Coelho L, Basting R, Aamaral F, Franca F. Longevity of restorations in direct composite resin: Literature review. Rev Gaúch Odontol. 2016; 64: 320-326.

Rashid B, Deepak. S, Ramakrishna. S, Navid S, Shetti S, Godhane A. Mouthrinses affect color stability of composite. J Conserv Dent. 2016: 355-9.

Ajaj R, Yousef M, Naga A. Effect of different curing modes on the degree of conversion and the microhardness of different composite restorations. Dent Hypotheses. 2015; 6: 109-16.

Azebedo M, Santos, B, Bovi. A, Baggio. A, Nunes. L, Lovadino R. Effect of curing light distance and different mouthinses on the Sorption and solubility of a nanofilled composite. Eur J of Esthet Dent. 2013; 8: 88- 102.

Clerehugh, V. TUGNAIT, A. Diagnosis and management of periodontal diseases in children and adolescents. J Periodontol. 2000; 26: 146–16.

Costa, F. Fernandes. L. Moura, E. Aguiar, Y. Santos. F. Cavalcanti, A. Oral health habits, prevalence of dental caries and dental erosion in adolescents. Rev Gaúch Odontol. 2017; 65: 202-7.

Barbosa, Bernal, L. Gallego, C. Sierra M. Comparación de los efectos de tres enjuagues en el manejo de la mucositis oral secundaria al tratamiento de leucemia linfoblástica aguda en niños. Rev Fac Odontol Univ Antioq. 2009; 20.

Razooki A, Aubi I. Solubility of nanofilled versus conventional composites. Pak Oral Dental J. 2014; 34: 1.

Azebedo M, Santos B, Bovi. A, Baggio. A, Nunes L, Lovadino R. Effects of mouthwashes on knoop hardness and surface roughness of dental composites after different immersion times. Braz. Oral Res.

Sano T, Terossi G, Milori S, Colucci V, Milori C, Benitez C. The influence of mouthrinses and simulated tooth brushing on the surface roughness of a nanofilled composite resin. Braz Oral Res. 2012; 26: 209-14.

Falkensammer F, Vincent A, Wildburger A, Freudenthaler J. Color stability of different composite resin materials. J Prosthetic Dent. 2013: 378-83.

Sánchez S. ¿Son las restauraciones de resinas compuestas inertes y seguras? Revista ADM. 2010; 48(1):25-29.

Yildirim, A. Gulfem, E., Ferhan, E. Hisam, D. In vitro cytotoxity of indirect composite resins: Effect of storing in artificial saliva. Indian J Dent Res. 2010; 24: 81-86.

Jyothi K, Crasta S, Venugopal P. Effect of five commercial mouthrinses on the microhardness of a nanofilled resin composite restorative material: An in vitro study. J Conserv Dent.

Almeida G, Poskus L, Guimarães J, Silva E. The Effect of Mouthrinses on Salivary Sorption, Solubility and Surface Degradation of a Nanofilled and a Hybrid Resin Composite. Oper Dent . 2010; 35: 105-11.

Pallo, Chavez, Armas, Evaluación del grado de degradación de materiales restauradores en contacto con enjuagues bucales. Revista Científica Odontológica. 2010; 2: 14-16.

Sadaghiani L, Wilson M. Wilson N. Effect of five selected mouthrinse in surface roughness of the resin modified glass ionomer restorative materials. Dent Mater J. 2007; 23: 325-34.

Basting R. Fernandez, Bovi G, Campos I. Effects of a 10% Carbamide peroxide bleaching agent on roughness and microhardness of packable composite resins. J Esthet Restor Dent. 2005; 17: 256-23.

Milleding P, Ahlgren F, Wennerberg A, Ortengren U, Karrison S. Effects roughness of the surface of composite resin cement water storage at different periods of time. Int J Prosthodont. 2005; 22: 34-9.

Bansal K, Shashi R, Vidya S. Effect of alcoholic and non-alcoholic beverages on color stability and surface roughness of resin composite: A vitro study. J Conserv Dent. 2012; 15: 168-73.

Poggio C, Dagna A, Chiesa M, Colombo M, Scribanter A. Surface roughness of flowable resin composite eroded by acidic and alcoholic drinks. J Conserv Dent. 2012; 15: 34-38.

Evangelia C, Vouvoudi C, Theresia I, Baxevani G, Irini D. Dental dimethacrylate-based nanohybrid composite Kalore GC: Kinetic study of its light-curing. J Taibah Univ Sci. 2016; 11: 63-71

Jarquín D, Bonilla, S. Aumento de la temperatura en la superficie dental durante la foto-polimerización. Odont. Vital. 2016;25: 17-22.

Lamas C, Lara G, De la Vega A. Clareamiento dental y restauracio