The use of three recycling methods for rebonding of ceramic brackets
Yousef, M., Ismail, H., Marzouk, E., Shelib, M. (2015). The use of three recycling methods for rebonding of ceramic brackets. EKB Journal Management System, 47(June 2015), 35-53. doi: 10.21608/eos.2015.78726
Mohamed Yousef; Hanan Ismail; Eiman Marzouk; Mostafa Shelib. "The use of three recycling methods for rebonding of ceramic brackets". EKB Journal Management System, 47, June 2015, 2015, 35-53. doi: 10.21608/eos.2015.78726
Yousef, M., Ismail, H., Marzouk, E., Shelib, M. (2015). 'The use of three recycling methods for rebonding of ceramic brackets', EKB Journal Management System, 47(June 2015), pp. 35-53. doi: 10.21608/eos.2015.78726
Yousef, M., Ismail, H., Marzouk, E., Shelib, M. The use of three recycling methods for rebonding of ceramic brackets. EKB Journal Management System, 2015; 47(June 2015): 35-53. doi: 10.21608/eos.2015.78726

The use of three recycling methods for rebonding of ceramic brackets

Egyptian Orthodontic Journal
Article 3, Volume 47, June 2015, June 2015, Page 35-53  XML PDF (961.46 K)
Document Type: Original Article
DOI: 10.21608/eos.2015.78726
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Authors
Mohamed Yousef* 1; Hanan Ismailorcid 1; Eiman Marzouk1; Mostafa Shelib2
1Orthodontics department, Faculty of Dentistry, Alexandria University
2Biomaterial, Faculty of Dentistry, Alexandria University
Abstract
Objective: The aim of this study was to compare the
effect of three recycling methods – Tribochemical silica coating
combined with silane, conventional sandblasting combined with
silane, and heat application combined with silane – on the shear
bond strength of rebonded ceramic bracket compared to newly
bonded brackets. Materials and Methods: Sixty chemically
retentive ceramic bracket (inspire ICE) were divided into four
groups (15 in each group): Control new brackets (without silane),
sandblasting using 50 2m aluminum oxide + silane, sandblasting
using 302m silica coated aluminum oxide (Tribochemical silica) and heat treatment + silane. All brackets were thermocycled 5000 times between 5 ºC and 55ºC. Shear force was applied to the enamel-adhesive interface until debonding. Results: The highest bond strength was found in the heat + silane group and the new control brackets (19.5 and 19.2 MPa, respectively) followed by the silica coated aluminum oxide + silane (11.8 MPa). Recycling using 50 2m aluminum oxide + silane resulted in significantly low bond strength (1.5 MPa). Conclusion: No significant difference in the SBS between heat treated group followed by silane application and 302m silica coated sandblasted group. Reconditioning with 302m silica coated sandblast is a promising method as it is chair-side time-effective and show good comparable SBS to that of new brackets.
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