In vitro analysis of the capacity of solutions containing fluoride and/or trimetaphosphate in the remineralization of dentin and in the inhibition of the activity of dentin matrix metalloproteinases

Objective: The aim of this study was to investigate the anti-proteolytic potential against MMP-2 and MMP-9 and the ability to induce dentin remineralization, through solutions containing different concentrations of TMP (in its cyclic form), different concentrations of F and TMP / F association. Methods: Root dentin blocks (6mmx4mmx2mm, n = 130) were selected and randomly divided into 13 groups / experimental solutions (n = 10): 1) Placebo (without F / TMP); 2) 0.3% hydrolyzed TMP; 3) 1% hydrolyzed TMP; 4) 3% hydrolyzed TMP; 5) 0.3% TMP; 6) 1% TMP; 7) 3% TMP; 8) 250 ppm F; 9,500 ppm F; 10) 1100 ppm F; 11) 250 ppm F associated with 0.3% TMP; 12) 500 ppm F associated with 1% TMP and 13) 1100 ppm F associated with 3% TMP. The evaluation of the anti-proteolytic potential of experimental solutions against dentin matrix metalloproteinases (- 2 and -9) was carried out by means of zymographic analysis. For mechanical analysis, three areas were determined for each specimen: 1- control (without treatment); 2- demineralized (artificial caries); 3- treated (demineralized and subjected to pH cycling for 7 days, and treated for 1 min with the experimental solutions). The dentin specimens were analyzed for the percentage of recovery of superficial hardness (% SHR), in cross-sectional hardness (% CSHR) and by computed microtomography (ΔIMC). For the hardness and Micro-CT data, the results were analyzed by repeated measures ANOVA followed by the Student-Newman-Keuls test (p <0.05). Results: The zymographic analysis showed that 1100 ppm F + 3% TMP promoted complete inhibition of gelatinolytic activity (MMP-2; MMP-9). The groups with non-hydrolyzed TMP showed a remineralizing effect (% SHR and % CSHR) superior to the hydrolyzed groups. The 1100F + TMP group promoted the highest % SHR and % CSHR among all groups (p <0.001), being 15.4 and 10.5%, respectively, higher than the 1100F group. The groups containing 1100F and 1100F + 3% TMP showed higher mineral concentration. Conclusion: Based on the results, 3% TMP acts as an antiproteolytic agent against dentinal matrix metalloproteinases. In addition, when supplemented with 1100F, 3% TMP enhances remineralization, significantly increasing the mechanical properties of the treated dentin. Treatments with non-hydrolyzed TMP and associated with F greater than fluoridated solutions without TMP. Clinical significance: Thus, a potential preventive and therapeutic strategy can be considered in the dental clinic, mainly in the treatment of root caries, as well as for the preventive method of initial lesions of dental caries or in the pretreatment of dentin, using them as agents cross-linker in restorative procedures. (AU)