Biomimetic Dentistry and Protocol for the Reconstruction of Large Cavities with Polyethylene Fibers
Abstract
Biomimetic dentistry aims to reproduce the aesthetics of a natural tooth, so that the restorations look as close as possible to tooth enamel, but in addition to that it gives great advantages, starting because it uses the adhesion of new materials as the main factor that at the same time can help give stability to each restoration, thus avoiding unnecessary wear and dental reconstructions without being guided by principles of conventional dentistry such as, “Extension for prevention”. Biomimetic dentistry has used various materials to improve and ensure the success of treatments, among them are polyethylene fibers which provide adhesive strength, especially in extensive cavities where the options were to place crowns that cause excessive wear on the tooth. Currently, it is taken into account to use caries-revealing ink to only wear away affected dental tissue and place reinforcement with polyethylene fibers, which will help with reconstruction.
Downloads
References
Espinoza Cárdenas JA, Delgado-Gaete A, Astudillo-Rubio D, & Maldonado-Torres K. Introducción a una odontología biomimética: reporte de un caso. Odontol. Act [Internet] 2022; 7(2): 89–97. https://doi.org/10.31984/oactiva.v7i2.772
Hurtado Montero WA. Aplicaciones De La Fibra De Polietileno En Restauraciones Dentales [Tesis de licenciatura]. Ecuador: Universidad De Guayaquil Facultad De Odontología; 2021. Disponible en: http://repositorio.ug.edu.ec/bitstream/redug/51690/1/3636HURTADOwelington.pdf
Starr D, Nejad M, Scott D. The Protocols of Biomimetic Restorative Dentistry 2002 to 2027. Odontol. Act [Internet]. 2017; 13(6): 64-72. https://www.nejadinstitute.com/wp-content/uploads/2019/12/The_Protocols_of_Biomimetic_Restorative_Dentistry_2002_to_2017.pdf
Calatrava Oramas LA. Biomimética: una vía para romper paradigmas. Odontol. Act Venezolana [Internet]. 2016; 54(1). https://www.actaodontologica.com/ediciones/2016/1/art-15/
Camps Alemany I. La evolución de la adhesión a dentina. Av Odontoestomatol [Internet]. 2004; 20(1): 11–7. https://scielo.isciii.es/scielo.php?script=sci_arttext&pid=S0213-12852004000100002
Wellington H. Aplicaciones de la fibra de polietileno en restauraciones dentales [Tesis de licenciatura]. Ecuador: Universidad De Guayaquil Facultad De Odontología; 2021. Disponible en: http://repositorio.ug.edu.ec/bitstream/redug/51690/1/3636HURTADOwelington.pdf
Kulgawczuk O, Rosa D, Tessier J, Aredes J. Sellado dentinario inmediato en la práctica de la prostodoncia. RAAO [Internet]. 2021; 65(2): 43-48. Disponible en: https://www.ateneoodontologia.org.ar/articulos/lxv01/articulo05.pdf
Maestri Fernández-Concha RS. Sellado dentinario inmediato y resing coating como técnicas de protección dentinaria [Tesis de especialidad]. Lima; Universidad Peruana de Ciencias Aplicadas; 2019. Disponible en: https://repositorioacademico.upc.edu.pe/bitstream/handle/10757/626166/Maestri%20FC.pdf?sequence=9&isAllowed=y
Vamasa. Tiras de ribbond [Internet]. Vamasa Health Innovation; 2022. Disponible en: https://vamasa.com.mx/producto/tiras-de-fibra-ribbond/
Ornia Gonzales AM. Composite Reforzado Con Fibras, Utilización Como Retención En Ortodoncia [Tesis de maestría]. Universidad De Oviedo Máster Universitario De Ortodoncia Y Ortopedia Dentofacial; 2015. Disponible en: https://digibuo.uniovi.es/dspace/bitstream/handle/10651/30910/Ornia.pdf? sequence=6&isAllowed=y
KerrLab. Construct. A guide for using the Construct Pretreated Reinforcing Fiber System [Internet]. KerrLab Sybron Dental Specialties. Disponible en: https://bmet.ewh.org/bitstream/handle/20.500.12091/3383/Construct_Bk.pdf?sequence=1&isAllowed=y
Angelus®. Interlig. Fibra de Refuerzo. [Internet]. Angelus; 2016. Disponible en: https://angelus.ind.br/assets/uploads/2020/09/Perfil-Tecnico-Cientifico-Interlig.pdf
Polydentia SA. Fiber-Splint, thin fiber-glass band [Internet]. Switzerland: Polydentia SA; 2016. Disponible en: https://polydentia.ch/download/de/shien/fiber_splint/ifu_fiber_splint.pdf
GC Latinoamérica. Ever X Posterior. Acerca de. Indicaciones. Ventajas [Internet]. 2023. Disponible en: http://gclatinamerica.com/descripcion/everx_posterior
Solis J. Instagram [Internet]. ¿Cómo reforzar un diente endodónticamente [Publicación]; 28 de noviembre de 2022. Disponible en: https://www.instagram.com/p/Clhs-DfODfk/?igshid=YmMyMTA2M2Y=
Kerr Corporation. OptiBond-FL_IFU [Internet]. Kerr Corporation; 2023. Disponible en: https://www.kerrdental.com/kerr-restoratives/optibond-fl-filled-light-cure-total-etch-dental-adhesive
Sáry T, Garoushi S, Braunitzer G, Alleman D, Volom A & Fráter M. Fracture behaviour of MOD restorations reinforced by various fibre-reinforced techniques – An in vitro study. J Mech Behav Biomed Mater, [Interenet] 2019; 98: 348–356. https://doi.org/10.1016/j.jmbbm.2019.07.006
Miao Y, Liu T, Lee W, Fei X, Jiang G & Jiang Y. Fracture resistance of palatal cusps defective premolars restored with polyethylene fiber and composite resin. Dent Mater J [Internet] 2016; 35(3): 498–502. doi: 10.4012/dmj.2015-394.
Garlapati TG, Krithikadatta J & Natanasabapathy V. Fracture resistance of endodontically treated teeth restored with short fiber composite used as a core material—An in vitro study. J Prosthodont. Res. [Internet] 2017; 61(4): 464–470. https://doi.org/10.1016/j.jpor.2017.02.001
Copyright (c) 2023 Lizeth B. Maldonado-Solis, Debanhi S. Ramirez-Lopez, Carlos D. Peña-Uraga, Ana J. Monjarás-Ávila, Carlos E. Cuevas-Suaréz
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
