The influence of artificial salivary pH on nickel ion release and the surface morphology of stainless steel bracket-nickel-titanium archwire combinations

Ida Bagus Narmada; Natalya Tantri Sudarno; Achmad Sjafei; Yuli Setiyorini

doi:10.20473/j.djmkg.v50.i2.p80-85

Authors

Ida Bagus Narmada
ida-b-n@fkg.unair.ac.id
Faculty of Dental Medicine, Universitas Airlangga, Surabaya
Natalya Tantri Sudarno Faculty of Dental Medicine, Universitas Airlangga, Surabaya
Achmad Sjafei Faculty of Dental Medicine, Universitas Airlangga, Surabaya
Yuli Setiyorini Faculty of Technology Industry, Sepuluh Nopember Institute of Technology, Surabaya

Vol. 50 No. 2 (2017): June 2017

Articles

June 30, 2017

Downloads

PDF

Abstract
How to Cite
Author Biographies
Metrics
References
License

Background: In the oral cavity, orthodontic appliances come into contact with saliva which may cause corrosion capable of changing their surface morphology due to the release of metal ions. Surface roughness can influence the effectiveness of tooth movement. One of the ions possibly released when body fluid comes into contact with brackets and archwire is nickel ion (Ni). Ni, one of the most popular components of orthodontic appliances, is, however, a toxic element that could potentially increase the likelihood of health problems such as allergic responses during treatment. Purpose: The purpose of this study was to investigate the effect of different artificial salivary pH on the ions released and the surface morphology of stainless steel (SS) brackets-nickel-titanium (NiTi) and archwire combinations. Methods: Brackets and archwires were analyzed by an Energy Dispersive X-Ray Detector System (EDX) to determine their composition, while NiTi archwire compound was examined by means of X-ray Diffraction (XRD). The immersion test was performed at artificial salivary pH levels of 4.2; 6.5; and 7.6 at 37°C for 28 days. Ni ion release measurement was performed using an Atomic Absorption Spectroscopy (AAS). Surface morphology was analyzed by means of a Scanning Electron Microscopy (SEM). Results: The chemical composition of all orthodontic appliances contained Ni element. In addition, XRD was depicted phases not only NiTi but also Ni, Titanium, Silicon and Zinc Oleate. The immersion test showed that the highest release of Ni ions occured at a pH of 4.2, with no significant difference at various levels of pH (p=.092). There were surface morphology changes in the orthodontic appliances. It was revealed that at a pH of 4.2, the surfaces of orthodontic appliances become unhomogenous and rough compared to those at other pH concentrations. Conclusion: The reduction of pH in the artificial saliva increases the amount of released Ni ions, as well as causing changes to the surface morphology of brackets and archwires.

Narmada, I. B., Sudarno, N. T., Sjafei, A., & Setiyorini, Y. (2017). The influence of artificial salivary pH on nickel ion release and the surface morphology of stainless steel bracket-nickel-titanium archwire combinations. Dental Journal, 50(2), 80–85. https://doi.org/10.20473/j.djmkg.v50.i2.p80-85

Download Citation

Bilgic F, Gelgor IE, Celebi AA. Malocclusion prevalence and orthodontic treatment need in central Anatolian adolescents compared to European and other nations’ adolescents. Dental Press J Orthod. 2015; 20(6): 75–81.

Quintão CCA, Portella HIV. Orthodontic wires : knowledge ensures clinical optimization. Dental Press J Orthod. 2009; 14(6): 144–57.

Heravi F, Mokhber N, Shayan E. Galvanic corrosion among different combination of orthodontic archwires and stainless steel brackets. J Dent Mater Tech. 2014; 3(3): 118–22.

de Menezes LM, Quintão CCA. The release of ions from metallic orthodontic appliances. Semin Orthod. 2010; 16(4): 282–92.

Noble J, Ahing SI, Karaiskos NE, Wiltshire WA. Nickel allergy and orthodontics, a review and report of two cases. Br Dent J. 2008; 204(6): 297–300.

Rahilly G, Price N. Current products and practice: Nickel allergy and orthodontics. J Orthod. 2003; 30(2): 171–4.

Sfondrini MF, Cacciafesta V, Maffia E, Massironi S, Scribante A, Alberti G, Biesuz R, Klersy C. Chromium release from new stainless steel, recycled and nickel-free orthodontic brackets. Angle Orthod. 2009; 79(2): 361–7.

Faccioni F, Franceschetti P, Cerpelloni M, Fracasso ME. In vivo study on metal release from fixed orthodontic appliances and DNA damage in oral mucosa cells. Am J Orthod Dentofac Orthop. 2003; 124(6): 687–94.

Kuhta M, Pavlin D, Slaj M, Varga S, Lapter-Varga M, Slaj M. Type of archwire and level of acidity: effects on the release of metal ions from orthodontic appliances. Angle Orthod. 2009; 79(1): 102–10.

Ağaoğlu G, Arun T, Izgi B, Yarat A, Izgü B. Nickel and chromium levels in the saliva and serum of patients with fixed orthodontic appliances. Angle Orthod. 2001; 71(5): 375–9.

Sheikh T, Ghorbani M, Tahmasbi S, Yaghoubnejad Y. Galvanic corrosion of orthodontic brackets and wires in acidic artificial saliva: part II. J Dent Sch. 2015; 33(1): 88–97.

Huang H-H, Wang C-C, Chiu S-M, Wang J-F, Liaw Y-C, Lee T-H, Chen F-L. Corrosion behavior of titanium-containing orthodontic archwires in artificial saliva : effects of fluoride ions and plasma immersion ion implantation treatment. Chinese Dent J. 2005; 24(3): 134–40.

Agarwal P, Upadhyay U, Tandon R, Kumar S. Nickel allergy and orthodontics. Asian J Oral Heal Allied Sci. 2011; 1(1): 61–3.

Gopinath A, Admala NR, Srinivas D. Comparison of metal ion release from different bracket archwire combination. J Res Adv Dent. 2013; 2(1): 58–64.

Swathi R. Effects of nickel leaching from orthodontic appliances in the oral cavity : A review. IOSR J Dent Med Sci. 2014; 13(7): 28–9.

House K, Sernetz F, Dymock D, Sandy JR, Ireland AJ. Corrosion of orthodontic appliances—should we care? Am J Orthod Dentofac Orthop. 2008; 133(4): 584–92.

Mikulewicz M, Chojnacka K, Woźniak B, Downarowicz P. Release of metal ions from orthodontic appliances: an in vitro study. Biol Trace Elem Res. 2012; 146(2): 272–80.

Perinetti G, Contardo L, Ceschi M, Antoniolli F, Franchi L, Baccetti T, Di Lenarda R. Surface corrosion and fracture resistance of two nickel-titanium-based archwires induced by fluoride, pH, and thermocycling. An in vitro comparative study. Eur J Orthod. 2012; 34(1): 1–9.

Nayak RS, Khanna B, Pasha A, Vinay K, Narayan A, Chaitra K. Evaluation of nickel and chromium ion release during fixed orthodontic treatment using inductively coupled plasma-mass spectrometer: An in vivo study. J Int oral Heal. 2015; 7(8): 14–20.

Abbreviation	Secondary document
Dent J (Majalah Kedokt Gigi)	77
Dental Journal (Majalah Kedokteran Gigi)	52
Dent J (Maj Ked Gigi)	38
Dent J limit to Dent J (Majalah Kedokt Gigi)	317

Citation indices	All	Since 2019
Citations	5048	3165
h-index	25	20
i10-index	121	77

The influence of artificial salivary pH on nickel ion release and the surface morphology of stainless steel bracket-nickel-titanium archwire combinations

Authors

Downloads

Ida Bagus Narmada, Faculty of Dental Medicine, Universitas Airlangga, Surabaya

Natalya Tantri Sudarno, Faculty of Dental Medicine, Universitas Airlangga, Surabaya

Achmad Sjafei, Faculty of Dental Medicine, Universitas Airlangga, Surabaya

Yuli Setiyorini, Faculty of Technology Industry, Sepuluh Nopember Institute of Technology, Surabaya

Downloads

Most read articles by the same author(s)

Login

Journal Policies

Templates

Join as Reviewers

SJR

Indexed in

Citedness

Visitors

Partners

Address

Contact Info: