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Effect of repeated immersion solution cycles on the color stability of denture tooth acrylic resins
Silva, Paulo Maurício Batista da; Acosta, Emílio José Tabaré Rodríguez; Jacobina, Matheus; Pinto, Luciana de Rezende; Porto, Vinícius Carvalho.
Affiliation
  • Silva, Paulo Maurício Batista da; University of São Paulo. Bauru School of Dentistry. Department of Prosthodontics. Bauru. BR
  • Acosta, Emílio José Tabaré Rodríguez; University of São Paulo. Bauru School of Dentistry. Department of Prosthodontics. Bauru. BR
  • Jacobina, Matheus; University of São Paulo. Bauru School of Dentistry. Department of Prosthodontics. Bauru. BR
  • Pinto, Luciana de Rezende; University of São Paulo. Bauru School of Dentistry. Department of Prosthodontics. Bauru. BR
  • Porto, Vinícius Carvalho; University of São Paulo. Bauru School of Dentistry. Department of Prosthodontics. Bauru. BR
J. appl. oral sci ; J. appl. oral sci;19(6): 623-627, Nov.-Dec. 2011. tab
Article in En | LILACS | ID: lil-610877
Responsible library: BR1.1
ABSTRACT

OBJECTIVE:

Chemical solutions have been widely used for disinfection of dentures, but their effect on color stability of denture tooth acrylic resins after repeated procedures is still unclear. The aim of this in vitro study was to evaluate whether repeated cycles of chemical disinfectants affected the color stability of two denture tooth acrylic resins. MATERIAL AND

METHODS:

Sixty disc-shaped specimens (40 mm x 3 mm) were fabricated from two different brands (Artiplus and Trilux) of denture tooth acrylic resin. The specimens from each brand (n=30) were randomly divided into 6 groups (n=5) and immersed in the following solutions distilled water (control group) and 5 disinfecting solutions (1 percent sodium hypochlorite, 2 percent sodium hypochlorite, 5.25 percent sodium hypochlorite, 2 percent glutaraldehyde, and 4 percent chlorhexidine gluconate). Tooth color measurements were made by spectrophotometry. Before disinfection, the initial color of each tooth was recorded. Further color measurements were determined after subjecting the specimens to 7, 21, 30, 45, 60, and 90 immersion cycles in each tested solution. Color differences (ΔE*) were determined using the CIE L*a*b* color system. Data were analyzed using two-way repeated measures analysis of variance (ANOVA) followed by Tukey tests. The significance level was set at 5 percent.

RESULTS:

There were statistically significant differences in ΔE* among the 5 disinfectants and water during the 90 cycles of immersion for both denture tooth acrylic resins. Distilled water promoted the greatest color change in both denture tooth acrylic resins, nevertheless none of tested disinfectants promoted ΔE* values higher than 1.0 on these acrylic materials during the 90 cycles of disinfection.

CONCLUSIONS:

Repeated immersion cycles in disinfecting solutions alter ΔE* values, however these values do not compromise the color of the tested denture tooth acrylic resins because they are imperceptible to the human eye.
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Full text: 1 Index: LILACS Main subject: Acrylic Resins / Prosthesis Coloring / Dental Disinfectants / Denture, Complete / Immersion Type of study: Clinical_trials / Evaluation_studies Limits: Humans Language: En Journal: J. appl. oral sci Journal subject: ODONTOLOGIA Year: 2011 Type: Article / Project document

Full text: 1 Index: LILACS Main subject: Acrylic Resins / Prosthesis Coloring / Dental Disinfectants / Denture, Complete / Immersion Type of study: Clinical_trials / Evaluation_studies Limits: Humans Language: En Journal: J. appl. oral sci Journal subject: ODONTOLOGIA Year: 2011 Type: Article / Project document