Effect of using nano and micro airborne abrasive particles on bond strength of implant abutment to prosthesis

(2015) Effect of using nano and micro airborne abrasive particles on bond strength of implant abutment to prosthesis. Brazilian dental journal. pp. 50-5. ISSN 1806-4760 (Electronic) 0103-6440 (Linking)

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Abstract

Connecting prostheses to the implant abutments has become a concern and achieving a satisfactory retention has been focused in cement-retention prostheses recently. Sandblasting is a method to make a roughened surface for providing more retention. The aim of this study was to compare effects of nano and micro airborne abrasive particles (ABAP) in roughening surface of implant abutments and further retention of cemented copings. Thirty Xive abutments and analogues (4.5 D GH1) were mounted vertically in self-cured acrylic blocks. Full metal Ni-Cr copings with a loop on the top were fabricated with appropriate marginal adaptation for each abutment. All samples were divided into 3 groups: first group (MPS) was sandblasted with 50 microm Al2O3 micro ABAP, second group (NSP) was sandblasted with 80 nm Al2O3 nano ABAP, and the third group (C) was assumed as control. The samples were cemented with provisional cement (Temp Bond) and tensile bond strength of cemented copings was evaluated by a universal testing machine after thermic cycling. The t test for independent samples was used for statistical analysis by SPSS software (version 15) at the significant level of 0.05. Final result showed significant difference among all groups (p<0.001) and MPS manifested the highest mean retention (207.88 +/- 45.61 N) with significant difference among other groups (p<0.001). The control group showed the lowest bond strength as predicted (48.95 +/- 10.44 N). Using nano or micro ABAP is an efficient way for increasing bond strengths significantly, but it seems that micro ABAP was more effective.

Item Type: Article
Keywords: *Air Abrasion, Dental *Dental Abutments Dental Bonding/*methods Dental Cements/*chemistry *Dental Implants Dental Materials/chemistry *Dental Prosthesis Retention Dental Stress Analysis Microscopy, Electron, Scanning Nanoparticles/chemistry Particle Size Surface Properties Tensile Strength
Page Range: pp. 50-5
Journal or Publication Title: Brazilian dental journal
Journal Index: Pubmed
Volume: 26
Number: 1
Identification Number: https://doi.org/10.1590/0103-6440201300173
ISSN: 1806-4760 (Electronic) 0103-6440 (Linking)
Depositing User: مهندس مهدی شریفی
URI: http://eprints.mui.ac.ir/id/eprint/5913

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