ABSTRACT
Effect of non-thermal atmospheric pressure plasma and ErCr YSGG LASER activation of three fluoride varnishes on surface re-mineralization of enamel A SEM-EDX analysisBackground: Dental remineralization is the process of transporting minerals from the surrounding environment (i.e., saliva and biofilm) into partially demineralized tooth structures. Remineralization can be induced by professional therapies such as fluoride-based treatments that have the highest level of supporting evidence. High-intensity LASER and nonthermal atmospheric pressure plasma therapy have been known to increase the resistance of enamel to demineralization by surface modification. Aim: The aim of the study was to evaluate and compare the surface remineralization of enamel using ErCr:YSGG LASER and nonthermal atmospheric pressure plasma (NTP) activation with three different fluoride varnishes. Methodology: Sixty-eight extracted premolars were used which were sectioned mesiodistally to obtain 135 specimens and artificial caries were induced on the experimental surface. They were then randomly divided into three groups (n = 45): MI Varnish (GC Japan), Vanish Varnish (3M ESPE), and Embrace Varnish (Pulpdent). After varnish application, these groups were further divided into three subgroups based on the activation therapy used. Fifteen samples from each group were treated with ErCr:YSGG LASER, 15 samples with NTP, and 15 samples were the control that did not undergo activation. After 9 days of pH cycling, the mean ion concentration of the surface calcium and phosphate ions was recorded using FEG-SEM and EDX analysis. The data were statistically analyzed. Results: One-way ANOVA and post hoc Tukey test accepting P < 0.05 were performed for comparisons between all analyses groups. Vanish Varnish showed a higher Ca/P ratio in LASER, NTP, and control subgroups, followed by MI Varnish and Embrace Varnish. ErCr:YSGG LASER therapy showed an improved Ca/P ratio in all varnishes than NTP therapy and control. Conclusion: ErCr:YSGG LASER therapy showed positive effects toward improving the Ca/P, followed by NTP therapy as compared to control in all three varnishes indicating their role in enhancing the effects of remineralization. Vanish Varnish showed a higher Ca/P ratio indicating better remineralization post activation.
ABSTRACT
Background: Composites are the widely used restorative materials, and over the year, newer restorative composites have been introduced to eliminate the drawbacks of previous ones. The recent advance in restorative dentistry is bioactive restorative materials. However, bacterial plaque formation on these restorations is the primary reason for secondary caries. Aims and objectives: The purpose of this study was to do the comparative evaluation of bioactive restorative composites (Beautifil Flow Plus, Activa BioACTIVE, and Filtek Z250 XT as control) for their antibacterial efficacy under in vitro conditions. Materials and Method: Thirty material blocks were used for this evaluation. Antibacterial efficacy was checked against Streptococcus mutans and observed under confocal laser scanning microscopy. Results: The results showed that Activa BioACTIVE shows maximum number of dead bacteria on the material surface compared to other groups. Conclusion: It can be concluded as it has maximum antibacterial efficacy among tested materials.
ABSTRACT
Microorganisms are the common aetiological factors in initiation as well as perpetuation of periapical and pulpal diseases. Microbial leakage is a cardinal aetiology behind endodontic treatment failure. The success of root canal treatment is greatly influenced by antimicrobial potential of the dental material used in endodontic procedures which plays an important role in creating a hermetic seal to prevent egress of bacteria into root canal from periapical region. METHODSThe three cements MTA, Biodentine and EndoSequence were made into pellets to test their antimicrobial action on the growth of Enterococcus faecalis (ATCC 29212); method used was agar diffusion test. RESULTSAt 24-hour study interval, EndoSequence showed the greatest zone of inhibition of 10.6 mm against Enterococcus faecalis (ATCC 29212) compared to Biodentine with zone of inhibition of 5.5 mm and MTA with the zone of inhibition of 5 mm. EndoSequence showed highest antimicrobial efficacy at 36-hours and 72-hours study intervals by mean inhibition zone of 11 mm against Enterococcus faecalis compared to that of Biodentine (6 mm) and MTA (5.6 mm) respectively with a p value of less than 0.05 which is highly significant. The antimicrobial activity of EndoSequence was very strong compared to Biodentine and MTA against Enterococcus faecalis (ATCC 29212). CONCLUSIONSMicroorganisms play pivotal role in the initiation as well as perpetuation of periapical and pulpal diseases. Microbial leakage is a cardinal aetiology behind endodontic treatment failure. The success of the root canal treatment is greatly influenced by antimicrobial potential of the dental material used in endodontic procedures which plays an important role in creating a hermetic seal to prevent egress of bacteria into root canal from periapical region.