An in-vitro Investigation into the Use of a Single Component Self-etching Primer Adhesive System for Orthodontic Bonding: A Pilot Study

Abstract

Objective

This pilot study assessed force to debond (N); time, and site of bond failure of a single component self-etching primer (SEP) and adhesive system, Ideal 1 (GAC International Inc., USA) and compared it with the conventional acid etch and rinse regimen using 37% o-phosphoric acid solution and either Transbond^TM XT (3M Unitek) or Ideal 1 adhesive.

Design

In vitro laboratory study

Setting

Bristol Dental Hospital, UK. Sept 2003-Sept 2004

Material and Methods

Nine groups of 20 premolars were bonded using metal orthodontic brackets using three protocols: (1) 37% o-phosphoric acid etch and Transbond^TM XT adhesive; (2) 37% o-phosphoric acid and Ideal 1 adhesive; (3) Ideal 1 SEP and Ideal 1 adhesive. Force to debond and locus of bond failure were determined at three time intervals.

Results

Enamel pre-treatment prior to bonding, namely SEP versus conventional etching had no significant effect on the median force to debond with the Ideal 1 adhesive. Similarly, when the enamel was conventionally etched, the adhesive type, namely Ideal 1 or Transbond^TM XT, had no significant effect on the measured force to debond. However, there appeared to be differences in the locus of bond failure: failure predominated at the enamel/adhesive interface for the Transbond^TM XT conventional etch group and at adhesive/bracket interface for the Ideal 1 SEP and adhesive group and the Ideal 1 adhesive conventional etch group.

Conclusion

These results suggested that the complete Ideal 1 SEP and adhesive system might be successful in vivo leading therefore to a clinical trial. However, implications for clean up time are discussed and improvements to in vitro study designs are advised.

Keywords

Brackets bond strength orthodontics self-etching primers

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References

Buonocore

A simple method of increasing adhesion of acrylic filling materials to enamel surfaces. J Dent Res 1955; 34: 849–53.

Newman

, Snyder

, Wilson

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

Nordenvall

, Brannstrom

, Malmgren

Etching of deciduous teeth and young and old permanent teeth. A comparison between 15 and 60 seconds of etching. Am J Orthod 1980; 78: 99–108.

Barkmeier

, Gwinnett

, Shaffer

Effects of enamel etching time on bond strength and morphology. J Clin Orthod 1985; 16: 36–37.

Kinch

, Taylor

, Warltier

, Oliver

, Newcombe

A clinical trial comparing the failure rates of directly bonded brackets using etch times of 15 or 60 seconds. Am J Orthod Dentofacial Orthop 1988; 94: 476–83.

Bin Abdullah

, Rock

. The effect of etch time and debond interval upon the shear bond strength on metallic orthodontic brackets. Br J Orthod 1996; 23: 121–24.

Gardner

, Hobson

Variations in acid-etch patterns with different acids and etch times. Am J Orthod Dentofacial Orthop 2001; 120: 64–67.

Wang

, Lu

Bond strengths with various etching times on young permanent teeth. Am J Orthod Dentofacial Orthop 1991; 100: 72–79.

Gange

Present state of bonding. J Clin Orthod 1995; 7: 429–36.

10.

Hoos

Clinical findings using a self-etching primer. Dent Today 1999; 18: 102–03

11.

Fritz

, Diedrich

, Finger

Self-etching primers – an alternative to the conventional acid etch technique?

J Orofac Orthop 2001; 3: 238–45.

12.

Kaaden

, Powers

, Friedl

, Schmalz

Bond strength of self-etching adhesives to dental hard tissues. Clin Oral Invest 2002; 6: 155–60.

13.

Kiremitci

, Yalcin

, Gokalp

Bonding to enamel and dentin using self-etching adhesive systems. Quintessence Int 2004; 35: 367–70.

14.

Bishara

, Gordon

, VonWald

, Olson

Effect of an acidic primer on shear bond strength of orthodontic brackets. Am J Orthod Dentofacial Orthop 1998; 114: 243–47.

15.

Bishara

, Ajlouni

, Laffoon

, Warren

Effect of a fluoride-releasing self-etch acidic primer on the shear bond strength of orthodontic brackets. Angle Orthod 2002; 72: 199–202.

16.

Aljubouri

, Millett

, Gilmour

Laboratory evaluation of a self etching primer for orthodontic bonding. Eur J Orthod 2003; 25: 411–15.

17.

Korbmacher

, Klocke

, Huck

, Kahl-Nieke

Enamel conditioning for orthodontic bonding with a single-step bonding agent. J Orofac Orthop 2002; 63: 463–71.

18.

Arnold

, Combe

, Warford

Bonding of stainless steel brackets to enamel with a new self-etching primer. Am J Orthod Dentofacial Orthop 2002; 122: 274–76.

19.

Larmour

, Stirrups

An ex vivo assessment of a bonding technique using a self-etching primer. J Orthod 2003; 30: 225–28.

20.

Buyukilmaz

, Usumez

, Karaman

Effect of self-etching primers on bond strength – are they reliable?

Angle Orthod 2003; 73: 64–70.

21.

Dorminey

, Dunn

, Taloumis

Shear bond strength of orthodontic brackets bonded with a modified 1-step etchant-and-primer technique. Am J Orthod Dentofacial Orthop 2003; 124: 410–13.

22.

Bishara

, Oonsombat

, Ajlouni

, Laffoon

Comparison of the SBS of 2 self-etch primer/adhesive systems. Am J Orthod Dentofacial Orthop 2004; 125: 348–50.

23.

Fox

, McCabe

Buckley

. A critique of bond strength testing in Orthodontics. Br J Orthod 1994; 21: 33–43.

24.

Årtun

, Bergland

Clinical trials with crystal growth conditioning as an alternative to acid-etch enamel pre-treatment. Am J Orthod 1984; 85: 333–40.

25.

Buzzitta

, Hallgren

, Powers

Bond strength of orthodontic direct-bonding cement-bracket systems as studied in vitro. Am J Orthod Dentofacial Orthop 1982; 81: 87–92.

26.

Sharma-Sayal

, Rossouw

, Kulkarni

, Titley

. The influence of orthodontic bracket base design on shear bond strength. Am J Orthod Dentofacial Orthop 2003; 124: 74–82.

27.

Bishara

, VonWald

, Olsen

, Laffoon

Effect of time on the shear bond strength of glass Ionomer and composite orthodontic adhesives. Am J Orthod Dentofacial Orthop 1999; 116: 616–20.

28.

Yamada

, Hayakawa

, Kasai

Effect of using self-etching primer for bonding orthodontic brackets. Angle Orthod 2002; 72: 558–64.

29.

Cacciafesta

, Sfondrini

, De Angelis

, Scribante

, Klersy

Effect of water and saliva contamination on shear bond strength of brackets bonded with conventional, hydrophilic, and self-etching primers. Am J Orthod Dentofacial Orthop 2003; 123: 633–40.

30.

Bishara

, VonWald

, Laffoon

, Warren

Effect of a self-etch primer/adhesive on the shear bond strength of orthodontic brackets. Am J Orthod Dentofacial Orthop. 2001; 119: 621–24.

31.

Zeppieri

, Chung

, Mante

Effect of saliva on shear bond strength of an orthodontic adhesive used with moisture-insensitive and self-etching primers. Am J Orthod Dentofacial Orthop 2003; 124: 414–19.

32.

Katona

Stresses developed during clinical debonding of stainless steel orthodontic brackets. Angle Orthod 1997; 67: 39–46.

33.

Barry

GRP

A clinical investigation of the effects of omission of pumice prophylaxis on band and bond failure. Br J Orthod 1995; 22: 245–48.

34.

Ireland

, Sherriff

The effect of pumicing on the in vivo use of a resin modified glass poly (alkenoate) cement and a conventional no-mix composite for bonding orthodontic brackets. J Orthod 2002; 29: 217–20.