In vitro anti-erosive property of a mint containing bioactive ingredients.

ABSTRACT

PURPOSE: To evaluate the in vitro protective effect of a mint formulation containing (-)-epigallocatechin-3-gallate (EGCg-mint) on root dentin exposed to a highly erosive environment in the presence and absence of proteolytic challenge. METHODS: Root dentin specimens were subjected to an erosion-remineralization cycling model (6×/day; 5 days) that included 5-minute immersion in 1% citric acid and 60-minute immersion in remineralization solution (RS). At the remineralization half-time, the specimens were treated (n= 20) with EGCg-mint, RS (negative control) or sodium fluoride (1,000 ppm of NaF; positive control). Half of the specimens were kept overnight in RS (pH cycling) and the other half in RS with Clostridium histolyticum collagenase (pH-proteolytic cycling). Erosion depth was measured using optical profilometry and data analyzed by two-way ANOVA and Tukey tests (α= 0.05). RESULTS: Under pH-cycling, NaF resulted in statistically lower erosion depth compared to EGCg-mint (P= 0.020) and RS (P= 0.005). Under pH-proteolytic cycling, EGCg-mint and NaF significantly decreased the tissue loss (erosion depth, P< 0.001) compared to the RS. The EGCg-mint exhibited an anti-erosion property on root dentin under a proteolytic challenge. NaF presented an anti-erosion property regardless of the erosive cycling model. CLINICAL SIGNIFICANCE: The anti-erosive action of an over-the-counter mint, containing active ingredients, including epigallocatechin-3-gallate, is likely by the protective mechanisms of the dentin extracellular matrix.