Shear bond strength of orthodontic fluoride releasing color change adhesive: an in vitro study
DOI:
https://doi.org/10.33448/rsd-v11i8.30222Keywords:
Orthodontics; Dental Bonding; Fluorine; Shear strength.Abstract
Objective: To assess, in vitro, the shear bond strength and the adhesive remnant index (ARI) of brackets bonded with TransbondTM Plus Color Change adhesive. Design: Laboratory study of shear bond strength. Setting: Orthodontic brackets were bonded on bovine teeth and submitted to a mechanical shear test. Methods: Forty-five bovine teeth were randomly divided into three groups for orthodontic bracket bonding with Transbond™ XT adhesive light cured for 10 seconds (group XT10) and TransbondTM Plus Color Change light cured for 5 seconds (CC05 group) and 10 seconds (CC10 group). The specimens were submitted to a mechanical shear test and the enamel was examined under the stereoscopic microscope to determine the ARI. Results: There was no significant difference in shear strength between the groups, considering adhesive type (p = 0.137) and polymerization time (p = 0.958). According to the ARI scale, 86.7 % of the teeth in CC10 and CC05 groups presented more than half of the adhesive left on them, while in XT10 group 73.3 % of the teeth presented less than half of the adhesive left on them, and this difference was significant. Conclusion: The use of the TransbondTM Plus Color Change adhesive resulted in a non-significant reduction in the shear bond strength and in a greater adhesive/bracket interface failure when compared to TransbondTM XT.
References
Ǻrtun, J. & Bergland, S. (1984). Clinical trials with crystal growth conditioning as an alternative to acid-etch enamel pretreatment. American Journal of Orthodontics, 85, 333-340.
Bhushan, R., Shruti, S., Prasanth, P. S., Afzal, F. T., Saheer, A. & Chandran, T. (2021). Assessment of the effectiveness of different fluoride-releasing bonding agents on prevention of enamel demineralization around orthodontic bracket: an in vitro study. Journal of Contemporary Dental Practice, 22, 1130-1134.
Bishara, S. E., Ajlouni, R. & Oonsombat, C. (2003). Evaluation of a new curing light on the shear bond strength of orthodontic brackets. Angle Orthodontist, 73, 431-435.
Buschang, P. H., Chastain, D., Keylor, C. L., Crosby, D. & Julien, K. C. (2019). Incidence of white spot lesions among patients treated with clear aligners and traditional braces. Angle Orthodontist, 89, 359-364.
Devi, V. R. S., Anand, M. K., Venkateswaran, S., Iyer, K. S. & Krishnaswamy, N. R. (2015). Comparison of shear bond strength of self-etching fluoride releasing adhesives with and without pumice prophylaxis. Indian Journal of Dental Research, 26, 390-395.
Faltermeier, A., Behr, M., Rosentritt, M., Reicheneder, C. & Mussig, D. (2007). An in vitro comparative assessment of different enamel contaminants during bracket bonding. European Journal of Orthodontics, 29, 559-563.
Faustova, M. O., Ananieva, M. M., Basarab, Y. O., Dobrobolska, O. V., Vovk, I. M. & Loban, G. A. (2018). Bacterial factors of cariogenicity (literature review). Wiadomości Lekarskie, 71, 378-382.
Fleming, P. S., Eliades, T., Katsaros, C. & Pandis, N. (2013). Curing lights for orthodontic bonding: a systematic review and meta-analysis. American Journal of Orthodontics and Dentofacial Orthopedics, 143, S92-S103.
Fox, N. A., McCabe, J. F. & Buckley, J. G. (1994). A critique of bond strength testing in orthodontics. British Journal of Orthodontics, 21, 33-43.
Gupta, S. P. & Shrestha, B. K. (2018). Shear bond strength of a bracket-bonding system cured with a light-emitting diode or halogen-based light-curing unit at various polymerization times. Clinical, Cosmetic and Investigational Dentistry, 10, 61-67.
Imani, M. M., Aghajani, F., Momeni, N. & Akhoundi, M. S. A. (2018). Effect of cyclic loading on shear bond strength of orthodontic brackets: an in vitro study. Journal of Dentistry, 15, 351-357.
Khoroushi, M. & Kachuie, M. (2017). Prevention and treatment of white spot lesions in orthodontic patients. Contemporary Clinical Dentistry, 8, 11-19.
Kimura, T., Dunn, W. J. & Taloumis, L. J. (2004). Effect of fluoride varnish on the in vitro bond strength of orthodontic brackets using a self-etching primer system. American Journal of Orthodontics and Dentofacial Orthopedics, 125, 351-356.
Kobayashi, Y., Ota, S. & Endo, T. (2021). Shear bond strength of orthodontic brackets bonded with resin coating material. Dental Materials Journal, 40, 1284-1289.
Lamper, T., Ilie, N., Huth, K. C., Rudzki, I., Wichelhaus, A. & Paschos, E. (2014). Self-etch adhesives for the bonding of orthodontic brackets: faster, stronger, safer? Clinical Oral Investigation, 18, 313-319.
Malkoç, S., Uysal, T., Uşümez, S., Işman, E. & Baysal, A. (2010). In-vitro assessment of temperature rise in the pulp during orthodontic bonding. American Journal of Orthodontics and Dentofacial Orthopedics, 137, 379-383.
Manfred, L., Covell, D. A., Crowe, J. J., Tufekci, E. & Mitchell, J. C. (2013). A novel biomimetic orthodontic bonding agent helps prevent white spot lesions adjacent to brackets. Angle Orthodontist, 83, 97-103.
Maurya, R., Tripathi, T. & Rai, P. (2011). New generation of color bonding: A comparative in vitro study. Indian Journal of Dental Research, 22, 733-734.
Mavropoulos, A., Staudt, C. B., Kiliaridis, S. & Krejci, I. (2005). Light curing time reduction: in vitro evaluation of new intensive light-emitting diode curing units. European Journal of Orthodontics, 27, 408-412.
Mojtahedzadeh, F., Akhoundi, M. S. A. & Noroozi, H. (2006). Comparison of wire loop and shear blade as the 2 most common methods for testing orthodontic shear bond strength. American Journal of Orthodontics and Dentofacial Orthopedics, 130, 385-357.
Nascimento, P. L. M. M., Fernandes, M. T. G., Figueiredo, F. E. D. & Faria e Silva, A. L. (2016). Fluoride-releasing materials to prevent white spot lesions around orthodontic brackets: a systematic review. Brazilian Dental Journal, 27, 101-107.
Oesterle, L. J., Shellhart, W. C. & Belanger, G. K. (1998). The use of bovine enamel in bonding studies. American Journal of Orthodontics and Dentofacial Orthopedics, 114, 514-519.
Pascotto, R. C., Navarro, M. F., Capelozza Filho, L. & Cury, J. A. (2004). In vivo effect of a resin modified glass ionomer cement on enamel demineralization around orthodontic brackets. American Journal of Orthodontics and Dentofacial Orthopedics, 125, 36-41.
Pseiner, B. C., Freudenthaler, J., Jonke, E. & Bantleon, H. (2010). Shear bond strength of fluoride-releasing orthodontic bonding and composite materials. European Journal of Orthodontics, 32, 268-273.
Raji, S. H., Banimostafaee, H. & Hajizadeh, F. (2014). Effects of fluoride release from orthodontic bonding materials on nanomechanical properties of the enamel around orthodontic brackets. Dental Research Journal, 11, 67-73.
Santos, B. M., Pithon, M. M., Ruellas, A. C. O. & Sant’anna, E. F. (2010). Shear bond strength of brackets bonded with hydrophilic and hydrophobic bond systems under contamination. Angle Orthodontist, 80, 963-967.
Sonesson, M., Brechter, A., Abdulraheem, S., Lindman, R. & Twetman, S. (2020). Fluoride varnish for the prevention of white spot lesions during orthodontic treatment with fixed appliances: a randomized controlled trial. European Journal of Orthodontics, 42, 326-330.
Türkkahraman, H., Adanir, N., Gungor, A. Y. & Alkis, H. (2010). In vitro evaluation of shear bond strengths of colour change adhesives. European Journal of Orthodontics, 32, 571-574.
Tuürkkahraman, H. & Küçükesmen, H. C. (2005). Orthodontic bracket shear bond strengths produced by two high-power light-emitting diode modes and halogen light. Angle Orthodontist, 75, 854-857.
Yadala, C., Gaddam, R., Arya, S., Baburamreddy, K. V., Raju, V. R. & Varma, P. K. (2015). Comparison of shear bond strength of three self-etching adhesives: an in-vitro study. Journal of International Oral Health, 7, 53-57.
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Copyright (c) 2022 Marcio José da Silva Campos; Rodrigo Cesar Santiago; Giovanni Cerrone Júnior; Carolina de Sá Werneck; Jocimara Domiciano Fartes de Almeida Campos; Flávio Narciso de Carvalho; Robert Willer Farinazzo Vitral; Luciana Andrea Salvio
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