Cimentos biocerâmicos em endodontia: revisão integrativa
DOI:
https://doi.org/10.33448/rsd-v9i8.6439Palavras-chave:
Cimentos dentários; Canal radicular; Endodontia.Resumo
Introdução: Os cimentos endodônticos desempenham papel importante no êxito terapêutico. As propriedades dos biocerâmicos representam grandes avanços, visando suprir as necessidades dos demais materiais disponíveis no mercado. Objetivo: Realizar uma revisão de literatura sobre as propriedades e características dos cimentos biocerâmicos. Metodologia: Foi realizada uma revisão de literatura integrativa, através de busca na base de dados Medline (Medical Literature Analysis and Retrievel System Online). Os descritores utilizados para busca foram "bioceramic", "endodontic sealer” e "endodontic treatment". Os critérios de inclusão foram artigos publicados nos últimos dez anos, de 2010 a 2020, estudos laboratoriais e clínicos, no idioma inglês e publicados na íntegra. Foram excluídos artigos duplicados, revisões de literatura, estudos com apenas o resumo disponível, dissertações, monografias e teses. Resultados: Após a busca dos artigos, 50 artigos sobre cimentos biocerâmicos foram incluídos na revisão de literatura. Os artigos tinham como objetivos de estudo as propriedades químicas, físicas e biológicas, além da adaptação marginal, vedamento apical e o comportamento dos materiais frente ao retratamento. Conclusão: Pode-se concluir que a utilização dos cimentos biocerâmicos apresenta aspectos favoráveis e promissores, embora mais estudos clínicos precisem ser realizados.
Referências
Arikatla, S. K., Chalasani, U., Mandava, J., & Yelisela, R. K. (2018). Interfacial adaptation and penetration depth of bioceramic endodontic sealers. Journal of conservative dentistry: JCD, 21(4), 373.
Asawaworarit, W., Yachor, P., Kijsamanmith, K., & Vongsavan, N. (2016). Comparison of the apical sealing ability of calcium silicate-based sealer and resin-based sealer using the fluid-filtration technique. Medical Principles and Practice, 25(6), 561-565.
Bajwa, N. K., Jingarwar, M. M., & Pathak, A. (2015). Single visit apexification procedure of a traumatically injured tooth with a novel bioinductive material (Biodentine). International journal of clinical pediatric dentistry, 8(1), 58.
Ballullaya, S. V., Vinay, V., Thumu, J., Devalla, S., Bollu, I. P., & Balla, S. (2017). Stereomicroscopic dye leakage measurement of six different root canal sealers. Journal of clinical and diagnostic research: JCDR, 11(6), ZC65.
Bidar, M., Sadeghalhoseini, N., Forghani, M., & Attaran, N. (2014). Effect of the smear layer on apical seals produced by two calcium silicate-based endodontic sealers. Journal of oral science, 56(3), 215-219.
Borkar, S. A., & Ataide, I. (2015). Biodentine pulpotomy several days after pulp exposure: Four case reports. Journal of conservative dentistry: JCD, 18(1), 73.
Candeiro, G. T. D. M., Lavor, A. B., Lima, I. T. D. F., Vasconcelos, B. C. D., Gomes, N. V., Iglecias, E. F., & Gavini, G. (2019). Penetration of bioceramic and epoxy-resin endodontic cements into lateral canals. Brazilian oral research, 33.
Caron, G., Azérad, J., Faure, M. O., Machtou, P., & Boucher, Y. (2014). Use of a new retrograde filling material (Biodentine) for endodontic surgery: two case reports. International journal of oral science, 6(4), 250-253.
Carti, O., & Oznurhan, F. A. T. İ. H. (2017). Evaluation and comparison of mineral trioxide aggregate and biodentine in primary tooth pulpotomy: Clinical and radiographic study. Nigerian Journal of Clinical Practice, 20(12), 1604-1609.
Carvalho, C. N., Grazziotin-Soares, R., de Miranda Candeiro, G. T., Martinez, L. G., de Souza, J. P., Oliveira, P. S., ... & Gavini, G. (2017). Micro push-out bond strength and bioactivity analysis of a bioceramic root canal sealer. Iranian endodontic journal, 12(3), 343.
Dalmia, S., Gaikwad, A., Samuel, R., Aher, G., Gulve, M., & Kolhe, S. (2018). Antimicrobial Efficacy of Different Endodontic Sealers against Enterococcus faecalis: An In vitro Study. Journal of International Society of Preventive & Community Dentistry, 8(2), 104–109.
De‐Deus, G., Canabarro, A., Alves, G. G., Marins, J. R., Linhares, A. B. R., & Granjeiro, J. M. (2012). Cytocompatibility of the ready‐to‐use bioceramic putty repair cement iRoot BP Plus with primary human osteoblasts. International endodontic journal, 45(6), 508-513.
El Sayed, M. A. A. M., & Al Husseini, H. (2018). Apical dye leakage of two single-cone root canal core materials (hydrophilic core material and gutta-percha) sealed by different types of endodontic sealers: An in vitro study. Journal of conservative dentistry: JCD, 21(2), 147.
Gandhi, B., & Halebathi-Gowdra, R. (2017). Comparative evaluation of the apical sealing ability of a ceramic based sealer and MTA as root-end filling materials–An in-vitro study. Journal of clinical and experimental dentistry, 9(7), e901.
Ghabraei, S., Bolhari, B., Yaghoobnejad, F., & Meraji, N. (2017). Effect of intra-canal calcium hydroxide remnants on the push-out bond strength of two endodontic sealers. Iranian endodontic journal, 12(2), 168.
Giacomino, C. M., Wealleans, J. A., Kuhn, N., & Diogenes, A. (2019). Comparative biocompatibility and osteogenic potential of two bioceramic sealers. Journal of Endodontics, 45(1), 51-56.
Gritti, G. C., Cavalcante, S. I. A., Maia-Filho, E. M., Bauer, J., Bandeca, M. C., Gavini, G., & Carvalho, C. N. (2017). Effect of rewetting solutions on micropush-out dentin bond strength of new bioceramic endodontic material. Brazilian Oral Research, 31.
Guo, Y. J., Du, T. F., Li, H. B., Shen, Y., Mobuchon, C., Hieawy, A., ... & Haapasalo, M. (2016). Physical properties and hydration behavior of a fast-setting bioceramic endodontic material. BMC Oral Health, 16(1), 23.
Güven, E. P., Yalvac, M. E., Kayahan, M. B., Sunay, H., SahIn, F., & Bayirli, G. (2013). Human tooth germ stem cell response to calcium-silicate based endodontic cements. Journal of Applied Oral Science, 21(4), 351-357.
Hegde, S., Sowmya, B., Mathew, S., Bhandi, S. H., Nagaraja, S., & Dinesh, K. (2017). Clinical evaluation of mineral trioxide aggregate and biodentine as direct pulp capping agents in carious teeth. Journal of conservative dentistry: JCD, 20(2), 91.
Jang, Y. E., Lee, B. N., Koh, J. T., Park, Y. J., Joo, N. E., Chang, H. S., ... & Hwang, Y. C. (2014). Cytotoxicity and physical properties of tricalcium silicate-based endodontic materials. Restorative dentistry & endodontics, 39(2), 89-94.
Jiang, S., Wu, H., & Zhang, C. F. (2016). Partial pulpotomy of immature teeth with apical periodontitis using bioceramics and mineral trioxide aggregate: a report of three cases. Chin J Dent Res, 19(2), 115-120.
Jung, J., Kim, S., Kim, E., & Shin, S. J. (2020). Volume of Voids in Retrograde Filling: Comparison between Calcium Silicate Cement Alone and Combined with a Calcium Silicate–based Sealer. Journal of Endodontics, 46(1), 97-102.
Kakoura, F., & Pantelidou, O. (2018). Retreatability of root canals filled with Gutta percha and a novel bioceramic sealer: A scanning electron microscopy study. Journal of conservative dentistry: JCD, 21(6), 632.
Leal, F., De‐Deus, G., Brandão, C., Luna, A. S., Fidel, S. R., & Souza, E. M. (2011). Comparison of the root‐end seal provided by bioceramic repair cements and White MTA. International endodontic journal, 44(7), 662-668.
Leal, F., De-Deus, G., Brandao, C., Luna, A., Souza, E., & Fidel, S. (2013). Similar sealability between bioceramic putty ready-to-use repair cement and white MTA. Brazilian dental journal, 24(4), 362-366.
Lei, Y., Yang, Y. T., & Zhan, Y. (2019). Evaluation of bioceramic putty repairment in primary molars pulpotomy. Beijing da xue xue bao. Yi xue ban= Journal of Peking University. Health sciences, 51(1), 70-74.
López-García, S., Pecci-Lloret, M. R., Guerrero-Gironés, J., Pecci-Lloret, M. P., Lozano, A., Llena, C., Rodríguez-Lozano, F. J., & Forner, L. (2019). Comparative Cytocompatibility and Mineralization Potential of Bio-C Sealer and TotalFill BC Sealer. Materials (Basel, Switzerland), 12(19), 3087.
Madhuri, G. V., Varri, S., Bolla, N., Mandava, P., Akkala, L. S., & Shaik, J. (2016). Comparison of bond strength of different endodontic sealers to root dentin: An in vitro push-out test. Journal of conservative dentistry: JCD, 19(5), 461.
Mendes, A. T., Silva, P. B. D., Só, B. B., Hashizume, L. N., Vivan, R. R., Rosa, R. A. D., ... & Só, M. V. R. (2018). Evaluation of physicochemical properties of new calcium silicate-based sealer. Brazilian dental journal, 29(6), 536-540.
Mestieri, L. B., Gomes-Cornélio, A. L., Rodrigues, E. M., Salles, L. P., Bosso-Martelo, R., Guerreiro-Tanomaru, J. M., & Tanomaru-Filho, M. (2015). Biocompatibility and bioactivity of calcium silicate-based endodontic sealers in human dental pulp cells. Journal of Applied Oral Science, 23(5), 467-471.
Nabeel, M., Tawfik, H. M., Abu-Seida, A. M., & Elgendy, A. A. (2019). Sealing ability of Biodentine versus ProRoot mineral trioxide aggregate as root-end filling materials. The Saudi dental journal, 31(1), 16-22.
Oltra, E., Cox, T. C., LaCourse, M. R., Johnson, J. D., & Paranjpe, A. (2017). Retreatability of two endodontic sealers, EndoSequence BC Sealer and AH Plus: a micro-computed tomographic comparison. Restorative dentistry & endodontics, 42(1), 19-26.
Özcan, E., Capar, I. D., Çetin, A. R., Tunçdemir, A. R., & Aydınbelge, H. A. (2012). The effect of calcium silicate‐based sealer on the push‐out bond strength of fibre posts. Australian dental journal, 57(2), 166-170.
Palma, P. J., Marques, J. A., Falacho, R. I., Correia, E., Vinagre, A., Santos, J. M., & Ramos, J. C. (2019). Six-month color stability assessment of two calcium silicate-based cements used in regenerative endodontic procedures. Journal of functional biomaterials, 10(1), 14.
Pawar, S. S., Pujar, M. A., & Makandar, S. D. (2014). Evaluation of the apical sealing ability of bioceramic sealer, AH plus & epiphany: An in vitro study. Journal of conservative dentistry: JCD, 17(6), 579.
Razmi, H., Bolhari, B., Dashti, N. K., & Fazlyab, M. (2016). The effect of canal dryness on bond strength of bioceramic and epoxy-resin sealers after irrigation with sodium hypochlorite or chlorhexidine. Iranian endodontic journal, 11(2), 129.
Savadkouhi, S. T., & Fazlyab, M. (2016). Discoloration potential of endodontic sealers: A brief review. Iranian Endodontic Journal, 11(4), 250.
Shi, S., Bao, Z. F., Liu, Y., Zhang, D. D., Chen, X., Jiang, L. M., & Zhong, M. (2016). Comparison of in vivo dental pulp responses to capping with iR oot BP Plus and mineral trioxide aggregate. International endodontic journal, 49(2), 154-160.
Shi, S., Zhang, D. D., Chen, X., Bao, Z. F., & Guo, Y. J. (2015). Apical sealing ability of bioceramic paste and mineral trioxide aggregate retrofillings: a dye leakage study. Iranian Endodontic Journal, 10(2), 99.
Shinbori, N., Grama, A. M., Patel, Y., Woodmansey, K., & He, J. (2015). Clinical outcome of endodontic microsurgery that uses EndoSequence BC root repair material as the root-end filling material. Journal of Endodontics, 41(5), 607-612.
Shokouhinejad, N., Hoseini, A., Gorjestani, H., & Shamshiri, A. R. (2013). The effect of different irrigation protocols for smear layer removal on bond strength of a new bioceramic sealer. Iranian Endodontic Journal, 8(1), 10.
Shokouhinejad, N., Nekoofar, M. H., Ashoftehyazdi, K., Zahraee, S., & Khoshkhounejad, M. (2014). Marginal adaptation of new bioceramic materials and mineral trioxide aggregate: a scanning electron microscopy study. Iranian Endodontic Journal, 9(2), 144.
Shokouhinejad, N., Nekoofar, M. H., Razmi, H., Sajadi, S., Davies, T. E., Saghiri, M. A., ... & Dummer, P. M. H. (2012). Bioactivity of EndoSequence root repair material and bioaggregate. International endodontic journal, 45(12), 1127-1134.
Singh, G., Gupta, I., Elshamy, F. M., Boreak, N., & Homeida, H. E. (2016). In vitro comparison of antibacterial properties of bioceramic-based sealer, resin-based sealer and zinc oxide eugenol based sealer and two mineral trioxide aggregates. European journal of dentistry, 10(03), 366-369.
Sinha, N., Singh, B., & Patil, S. (2014). Cone beam-computed topographic evaluation of a central incisor with an open apex and a failed root canal treatment using one-step apexification with Biodentine™: A case report. Journal of Conservative Dentistry: JCD, 17(3), 285.
Sockalingam, S. N. M. P., Awang Talip, M. S. A. A., & Zakaria, A. S. I. (2018). Maturogenesis of an Immature Dens Evaginatus Nonvital Premolar with an Apically Placed Bioceramic Material (EndoSequence Root Repair Material®): An Unexpected Finding. Case reports in dentistry, 2018.
Soni, H. K. (2016). Biodentine pulpotomy in mature permanent molar: A case report. Journal of clinical and diagnostic research: JCDR, 10(7), ZD09.
Souza, M. T., Silva, M. D., & Carvalho, R. Integrative review: what is it? How to do it? Einstein (Sao Paulo). 2010; 8: 102-6.
Suzuki, Y., Hayashi, M., Tanabe, N., Yasukawa, T., Hirano, Y., Takagi, S., ... & Ogiso, B. (2015). Effect of a novel fluorapatite-forming calcium phosphate cement with calcium silicate on osteoblasts in comparison with mineral trioxide aggregate. Journal of Oral Science, 57(1), 25-30.
Taşdemir, T., Er, K., Çelik, D., Tahan, E., Serper, A., Ceyhanli, K. T., & Yeşilyurt, C. (2014). Bond strength of calcium silicate-based sealers to dentine dried with different techniques. Medical Principles and Practice, 23(4), 373-376.
Troiano, G., Perrone, D., Dioguardi, M., Buonavoglia, A., Ardito, F., & MUZIO, L. L. (2018). In vitro evaluation of the cytotoxic activity of three epoxy resin-based endodontic sealers. Dental materials journal, 37(3), 374-378.
Uzunoglu, E., Yilmaz, Z., Sungur, D. D., & Altundasar, E. (2015). Retreatability of root canals obturated using gutta-percha with bioceramic, MTA and resin-based sealers. Iranian endodontic journal, 10(2), 93.
Wang, Y., Liu, S., & Dong, Y. (2018). In vitro study of dentinal tubule penetration and filling quality of bioceramic sealer. Plos one, 13(2), e0192248.
Zaki, D. Y., Zaazou, M. H., Khallaf, M. E., & Hamdy, T. M. (2018). In vivo comparative evaluation of periapical healing in response to a calcium silicate and calcium hydroxide based endodontic sealers. Open access Macedonian journal of medical sciences, 6(8), 1475.
Zhou, W., Zheng, Q., Tan, X., Song, D., Zhang, L., & Huang, D. (2017). Comparison of mineral trioxide aggregate and iRoot BP plus root repair material as root-end filling materials in endodontic microsurgery: a prospective randomized controlled study. Journal of endodontics, 43(1), 1-6.
Downloads
Publicado
Como Citar
Edição
Seção
Licença
Copyright (c) 2020 Douglas Ferreira da Silva, Lívia Luiza Carvalho da Silva, Camilla Tavares Barros Wanderley, Rafaela Andrade de Vasconcelos
Este trabalho está licenciado sob uma licença Creative Commons Attribution 4.0 International License.
Autores que publicam nesta revista concordam com os seguintes termos:
1) Autores mantém os direitos autorais e concedem à revista o direito de primeira publicação, com o trabalho simultaneamente licenciado sob a Licença Creative Commons Attribution que permite o compartilhamento do trabalho com reconhecimento da autoria e publicação inicial nesta revista.
2) Autores têm autorização para assumir contratos adicionais separadamente, para distribuição não-exclusiva da versão do trabalho publicada nesta revista (ex.: publicar em repositório institucional ou como capítulo de livro), com reconhecimento de autoria e publicação inicial nesta revista.
3) Autores têm permissão e são estimulados a publicar e distribuir seu trabalho online (ex.: em repositórios institucionais ou na sua página pessoal) a qualquer ponto antes ou durante o processo editorial, já que isso pode gerar alterações produtivas, bem como aumentar o impacto e a citação do trabalho publicado.
