Effect of Various Etching Techniques on Shear Strength of Newer Generation Composites.

Aim: To evaluate the effect of lasers on the shear bond strength of Giomer and G-aenial flo composite using three different etching techniques. Materials and Methods: 60 Samples (extracted human premolar teeth) are cut horizontally using a diamond disk to expose a flat occlusal surface involving enamel and dentin. On exposed occlusal surfaces, etching is done by various methods. These were divided into six groups of ten samples each as follows: group I (acid etched for Giomer), group II (acid etched for G-aenial flo composite), group III (laser etched for Giomer), group IV (Laser etched for G-aenial flo composite), group V (air abrasion etched for Giomer), group VI (Air abrasion etched for G-aenial flo composite). Then, restorative material is placed and cured with light for 20 seconds. The samples were thermocycled to simulate the oral environment. The samples were subjected to a universal testing machine for bond strength testing at a cross-head speed of 3 mm/min until the restoration will fracture. Results: The intergroup comparison between both the materials using Student's t-test gives insignificant results. The intergroup comparison between different etching techniques using two-way ANOVA tests gives insignificant results. Conclusion: Within the limitation of this study, it can be concluded that Giomer and G-aenial flo composite achieved the same shear bond strength in all the etching techniques.

Evaluation of Sealing Ability of MTA Flow, Biodentine and Pro-Root MTA to Seal the Furcal Perforation with and without Internal Matrix- An In vitro Study.

Introduction: Endodontic mistakes, also known as procedural accidents, are those bad events that occur during treatment, some of which are attributable to a lack of attention to detail and others of which are completely unforeseeable. The second most frequent reason for root canal failure is perforation. Aims and Objective: The current in vitro study's objective was to assess the furcal perforation's potential to be sealed with and without internal matrix by MTA flow, Biodentine, and pro-root MTA. Materials and Methods: 60 samples were allocated into six groups at random (10 each). In intact permanent mandibular first and second teeth, furcal perforation sites were made and sealed with various materials. Following perforation sealing, the specimens' capacity for sealing was evaluated using the dye penetration method. Result: The current study's findings indicated that Group 2 has the least amount of microleakage and Group 5 has the most. Conclusion: Biodentine has excellent sealing capabilities and can be utilised to heal furcation perforations with or without internal matrix.