Seven Editora
##common.pageHeaderLogo.altText##
##common.pageHeaderLogo.altText##


Contato

  • Seven Publicações Ltda CNPJ: 43.789.355/0001-14 Rua: Travessa Aristides Moleta, 290- São José dos Pinhais/PR CEP: 83045-090
  • Contato Principal
  • Nathan Albano Valente
  • (41) 9 8836-2677
  • editora@sevenevents.com.br
  • Contato para Suporte Técnico
  • contato@sevenevents.com.br

Considerations on the "no-post" philosophy in endodontically treated teeth: A Literature Review

Januzzi MS;
Gandolfo MIL;
Zavanelli AC;
Mazaro JVQ;
Zavanelli RA

Marcella Santos Januzzi

Maria Isabela Lopes Gandolfo

Adriana Cristina Zavanelli

José Vitor Quinelli Mazaro

Ricardo Alexandre Zavanelli


Resumo

The restoration of endodontically treated teeth with great loss of tooth structure is a real challenge for dentistry, since it requires the use of materials capable of extending the coronal support and preventing the propagation of fractures. Recently, a change in the use of intraradicular retainers has emerged, creating a new "no post" concept, based on the use of glass fiber reinforced resin composites. The aim of this review is to explore in the literature whether the material, represented by EverX Posterior (GC), presents any advantage of use in comparison with other materials already described for the restoration of endodontically treated teeth. The search was conducted in the main databases, PubMed, Scopus and Web of Science, resulting in 163 articles. After exclusion of duplicates and full-text reading, 14 in vitro articles and 1 clinical article were included in the final analysis version. With regard to the data found, the new biomaterial showed higher fracture resistance in posterior teeth in most of the studies evaluated, except in comparison with indirect restorations, especially the endocrown type. In comparison with direct restorations, EverX Posterior, in a "bilayer", worked as a reinforcement for force distribution and with improved properties in the presence of retentive grooves. For the intraradicular retainers, the new biomaterial also guaranteed an improved mechanical behavior, similar to the comparison made for polyethylene and glass fibers. Thus, further clinical studies should be carried out to confirm the considerations about this philosophy.

 

DOI:https://doi.org/10.56238/interdiinovationscrese-051


Creative Commons License

Este trabalho está licenciado sob uma licença Creative Commons Attribution-NonCommercial 4.0 International License.

Copyright (c) 2023 Marcella Santos Januzzi , Maria Isabela Lopes Gandolfo, Adriana Cristina Zavanelli, José Vitor Quinelli Mazaro, Ricardo Alexandre Zavanelli

##plugins.themes.gdThemes.article.Authors##

  • Marcella Santos Januzzi
  • Maria Isabela Lopes Gandolfo
  • Adriana Cristina Zavanelli
  • José Vitor Quinelli Mazaro
  • Ricardo Alexandre Zavanelli