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Abstract

Aim

To evaluate the shear bond strengths of adhesive pre-coated brackets (APC) and conventional uncoated brackets (Victory) cured with two different light-curing units: a conventional halogen light (Visilux 2) and a micro-xenon light (Aurys).

Setting Ex vivo study

Materials and methods

Sixty freshly extracted bovine permanent mandibular incisors were randomly assigned to one of four groups, each group consisting of 15 specimens. Two groups (one for each type of bracket) were exposed to the halogen light for 20 seconds and used as controls. The remaining two groups were cured with the micro-xenon light for 2 seconds. After 24 hours, all samples were tested in a shear mode on an Instron Machine. Analysis was by two-way ANOVA with Scheffé's test for comparisons, Kaplan–Meier survival estimates, and Cox model. The Chi-square (χ²) test was used to determine significant differences in the ARI scores.

Results

The mean shear bond strength of the uncoated brackets cured with Visilux 2 was significantly higher than those of all the other groups tested. Both groups cured with Visilux 2 produced significantly higher mean shear bond strengths than those of the corresponding groups cured with Aurys. No statistically significant differences were found between the two groups cured with Aurys.

Conclusions

Compared to halogen light-curing, the micro-xenon light enables the clinician to reduce significantly the curing time of both APC and uncoated brackets, and although significantly lower, their shear bond strengths may be clinically acceptable.

Keywords

Bond strength light-curing orthodontic bonding orthodontic brackets xenon arc light

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References

Newman

, Snyder

W H

, Wilson

., Acrylic adhesives for bonding attachments to tooth surfaces Angle Ortho 1968; 38: 12–18.

Craig

Chemistry, composition, and properties of composite resins. Dent Clin North America 1981; 25: 219–239.

Tavas

, Watts

A visible light-activated direct bonding material: an in vitro comparative study Br J Orthod 1984; 11: 33–37.

Greenlaw

, Way

, Galil

An in vitro evaluation of a visible light-cured resin as an alternative to conventional resin bonding systems. Am J Orthod Dentofacial Orthop 1989; 96: 214–220.

Wang

W N

, Meng

., A study of bond strength between light- and self-cured orthodontic resin. Am J Orthod Dentofacial Orthop 1992; 101: 350–354.

Lovius

Pendre

, Hewage

, O'Dowling

, Tomkins

A clinical trial of a light activated bonding material over an 18 month period. Br J Orthod 1987; 14: 11–20.

O'Brien

, Read

, Sandison

, Roberts

. A visible light-activated direct-bonding material: an in vivo comparative study. Am J Orthod Dentofacial Orthop 1989; 95: 348–351.

Trimpeneers

, Dermaut

L R.

A clinical trial comparing the failure rates of two orthodontic bonding systems. Am J Orthod Dentofacial Orthop 1996; 110: 547–550.

Armas

Galindo HR

, Sadowsky

, Vlachos

, Jacobson

, Wallace

An in vivo comparison between a visible light-cured bonding system and a chemically cured bonding system. Am J Orthod Dentofacial Orthop 1998; 113: 271–275.

10.

Cooper

R B

, Goss

, Hamula

, Direct bonding with light-cured adhesive precoated brackets. J Clin Orthod 1992; 26: 477–479.

11.

Lalani

, Foley

, Voth

, Banting

, Mamandras

Polymerization with the argon laser: curing time and shear bond strength. Angle Orthod 2000; 70: 28–33.

12.

Talbot

, Blankenau

, Zobitz

, Weaver

, Lohse

, Rebellato

Effect of argon laser irradiation on shear bond strength of orthodontic brackets: an in vitro study. Am J Orthod Dentofacial Orthop 2000118: 274–279.

13.

Cacciafesta

, Sfondrini

M F

, and Sfondrini

, A xenon arc light-curing unit for bonding and bleaching. J Clini Orthod, 2000; 34: 94–96.

14.

Silverman

, Cohen

Bonding with a plasma-arc curing light and resin-modified glass ionomer. J Clin Orthod 2000; 34: 233–235.

15.

Nakamichi

, Iwaku

, Fusayama

Bovine teeth as possible substitutes in the adhesion test. J Dent Res., 1983; 62: 1076–1081.

16.

Barkmeier

, Erickson

Shear bond strength of composite to enamel and dentin using Scotchbond Multi-Purpose. Am J Dent. 1994; 7: 175–179.

17.

Årtun

, Bergland

Clinical trials with crystal growth conditioning as an alternative to acid-etch enamel pretreatment, Am J Orthod., 1984; 85: 333–340.

18.

Bishara

Olsen M, Von Wald L. Comparisons of shear bond strength of precoated and uncoated brackets. Am J Orthod Dentofacial Orthop, 1997; 112: 617–621.

19.

Sunna

, Rock

W P.

An ex-vivo investigation into the bond strength of orthodontic brackets and adhesive systems. Br J Orthod 1999; 26: 47–50.

20.

Bearn

, Aird

, McCabe

. Ex vivo bond strength of adhesive precoated metallic and ceramic brackets. Br J Orthod 1995; 22: 233–236.

21.

Reynolds

. A review of direct orthodontic bonding. Br J Orthod 1975; 2: 171–178.