Abstract
The disadvantage of liners materials is the difficulty of biofilm control. It was compared an experimental dentifrice contained Ricinus communis, with commercials dentifrices as antibiofilm activity against microorganisms on denture liner. Six hundred specimens were distributed in 5 groups (n=18/ microorganism): water; experimental dentifrice; specific dentifrice for denture and two conventional dentifrices against C. albicans; C. glabrata; S. mutans; S. aureus; E. coli. Each group had a negative (n=5; without contamination) and positive control (n=15/ microorganism; without cleaning). The antibiofilm activity was evaluated by the method of biofilm formation in triplicate. The specimens were contaminated in a standard way and incubated. After that, manual brushing was performed (60 s), washed with PBS, immersed in liquid culture medium for resuspension and sowing in solid medium. The results (mean of triplicates) were expressed in CFU/mL. The data was submitted to Shapiro-Wilk, ANOVA and Tukey test (p<0.05). The specific dentifrice (1.27±1.20) was the most effective against S. mutans, followed by conventional (Trihydral, 3.13±0.88; Colgate, 2.16±2.02) and experimental (3.81±1.37) dentifrices, which were similar to each other (p=0.008). All of them were different from water (4.79±1.42). The specific (0.21±0.21) and experimental (0.36±0.25) dentifrices were similar against S. aureus, with a higher mean of CFU when compared to conventional (Colgate, 0.06±0.13), which was more efficient (p=0.000). For C. albicans, C. glabrata and E. coli, all dentifrices were similar to water (p=0.186). It was concluded, that the experimental dentifrice was effective against S. aureus and had not efficacy against Candida spp.; S. mutans; E. coli, as occurred with the commercials dentifrices.
Highlights
The complete dentures are fabricated with heatpolymerized acrylic resin which has higher modulus of elasticity (2400 MPa) than the support tissues (1.25 to 5.0 MPa) [1]
Dentures bases can become reservoir of microorganisms related to the development of local and systemic diseases, as bacterial endocarditis, aspiration pneumoniae, intestinal infection and chronic obstructive pulmonary disease [4]
Specific products for dentures have been developed, with emphasis on products based on Ricinus communis, which is a vegetable derived from Castor plant (Ricinus communis; division Magnoliophyta, class Magnoliopside, sub-class Rosidae, order Euforbiales, family Euforbiaceae), native from Africa, commonly found in tropical climates areas and warm temperate regions, like Brazil
Summary
The complete dentures are fabricated with heatpolymerized acrylic resin which has higher modulus of elasticity (2400 MPa) than the support tissues (1.25 to 5.0 MPa) [1]. The experimental dentifrice based on Ricinus communis at 10% showed similar results to the specific dentifrice for dentures, keeping the resilient material properties (abrasiveness, hardness and color stability) within acceptable values [9]. The material was handled of dentures, low abrasiveness dentifrices should be used according to manufacturer’s instructions, inserted in the and specific products for hygiene of relining prostheses mold and the assembly was pressed with another glass plate should be developed. The sterilization of the specimens was performed using disinfection of specific microorganisms, the objective ethylene oxide
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