RESUMO
Introduction and Aim: Performing endodontic treatment in an immature permanent tooth that has experienced trauma or carious exposure can pose challenges. The root canals in these teeth are typically open and fragile, making instrumentation and obturation difficult. Traditional apexification, which involves placing calcium hydroxide paste in the root canal for a specified period to induce the formation of a calcified barrier, has been a long-standing approach. While it is a widely used method, leaving the paste in the root for extended periods can weaken it due to the paste's hygroscopic properties and the proteolytic activities of calcium hydroxide. As a result, researchers have been exploring alternative treatments that allow for the full development of immature teeth. Revascularization has emerged as one such alternative, with a variety of treatment protocols documented in scientific literature. Description of the Case: This case report, for the first time, describes the use of NeoPutty MTA® and triple antibiotics paste for revascularization in a young female child on a carious, exposed lateral incisor with opex apex with success. Conclusion: The revascularization process attempted on the infected tooth met with success and closure of apex was noticed in a short period of time.
RESUMO
Aim: Mineral trioxide aggregate (MTA) is a relatively new versatile dental material. MTA has many advantages as well as disadvantages. To reduce most of the drawbacks of MTA, a premixed bioceramic MTA, NeoPutty MTA, was introduced in 2020. In this study, we assessed the antimicrobial activity of the newer MTA, NeoPutty MTA. We modified NeoPutty MTA and compared both against Enterococcus faecalis, Staphylococcus aureus, Pseudomonas aeruginosa, and Escherichia coli. Materials and Methods: Using the agar diffusion method, NeoPutty MTA was tested for antibacterial activity against the above-mentioned microorganisms. A base layer of Petri plates was done using Muller-Hinton agar for S. aureus, E. coli, and P. aeruginosa and brain heart infusion agar for E. faecalis. A total of 32 plates were employed; the plates were divided randomly into four test groups having eight plates each, so microorganisms were tested eight times. Three cavities were made in agar and filled with freshly mixed materials after 24 h. A pour plate seeded the microorganisms. The plates were pre-incubated for 2 h at room temperature and incubated at 37°C for 24 h. An independent observer measured the inhibition zone diameters. Results: NeoPutty MTA, when tested alone, did not show much antibacterial activity against E. faecalis, S. aureus, and E. coli but had significant antimicrobial activity against P. aeruginosa when used at different concentrations. Modified NeoPutty (NeoPutty with antibiotics added individually) showed significant antibacterial activity against these microorganisms, as seen by the zone of inhibition of these bacteria. Conclusion: Modified NeoPutty with antibiotics has a better antimicrobial effect than NeoPutty MTA.