Abstract
Evaluated the effect of CPP-ACP/NaF and xylitol/NaF varnishes in reduce erosion and progression of erosion. Forty enamel blocks were divided into four groups (n=10): G1=CPP-ACP/NaF varnish (MI varnishTM); G2=xylitol/NaF varnish (Profluorid®); G3=NaF varnish (Duraphat®, positive control) and G4=deionized water (MilliQ®, negative control). Samples were immersed in Sprite ZeroTM (pH 2.58, 4x/day, 3 days), in between immersions, the specimens stayed in artificial saliva. After 3 days of erosion, the eroded area was divided in two (half of one received an additional varnish layer while the other half repeated the same 3-day erosion cycle). The 3D, non-contact profilometry technique was used to determinate tooth structure loss (TSL) and surface roughness (SR). Scanning electron microscopy (SEM) and 3D images were utilized to evaluate the topography of the samples. Mann-Whitney, one-way ANOVA and Tukey tests were used (significance level of 0.05%). SEM and 3D images were descriptively evaluated. After 3 or 6 days of erosion, all tested varnishes were better than G4 (p<0.05) for TSL and SR. In addition, G1 had lower values for TSL than G3 (p<0.05) after 3 days of erosion. Under SEM and 3D images observation, all groups presented porosity, irregularities and depressions on the surface enamel after 3 and 6 days of erosion, more pronounced in G4. An application of topical NaF varnishes was effective in reducing TSL and enamel roughness after erosion challenges, being the CCP-ACP/NaF varnish more effective than NaF varnish and water after 3 days of erosion.
Highlights
Nowadays, tooth erosion is widely evident, due an increase in its prevalence, mainly in children and adolescents [1]
After 3 days of erosion, all tested varnishes had a protective effect against erosion because all of them statistically differed from the negative control (p
3 days of erosion (6 days in total) all treatment groups protected against tooth structure loss (TSL) in comparison with the negative control (p=0.001 for G1 and G2;p=0.004 for G3), showed capacity to protect against the progression of erosion
Summary
Tooth erosion is widely evident, due an increase in its prevalence, mainly in children and adolescents [1]. With each new erosion process this surface will suffer greatest impact with a fast progression of tissue loss and a visible defect can become apparent [2]. Several methods, such as the use of professional topical fluorides, have been proposed to prevent or slow the progression of dental erosion and its consequences [3,4,5,6,8]. Other agents, such as casein phosphopeptideamorphous calcium phosphate (CPP-ACP) and xylitol have been studied to protect against erosive wear
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