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Original Research

Open Access

Energy Dispersive X-Ray Spectroscopy Evaluation of Demineralized Human Enamel after Titanium Tetrafluoride Application

  • Alcântara PCC1
  • Alexandria AK1,*,
  • Souza IPR1
  • Maia LC1

1the Department of Pediatric Dentistry and Orthodontics, School of Dentistry, Universidade Federal do Rio de Janeiro, Rio de Janeiro, RJ, Brazil.

DOI: 10.17796/jcpd.39.2.778531q560886x5r Vol.39,Issue 2,March 2015 pp.124-127

Published: 01 March 2015

*Corresponding Author(s): Alexandria AK E-mail: adilis.alexandria@gmail.com

Abstract

Evaluate the presence of a titanium dioxide layer after application of titanium tetrafluoride on human permanent tooth enamel. Study design: The sample consisted of unerupted third molars. After the removal of the roots, each tooth was mesiodistally divided into 2 fragments, one reserved for the experimental group and the other for the control group. Before the treatments the fragments were artificially demineralized. The experimental group (n=5) received an application of 4% titanium tetrafluoride, for one minute and the control group (n=5) did not receive any treatment. The samples were sputter-coated with a 20-30nm gold layer as the energy dispersive x-ray spectrometer analysis was carried out in a scanning electron microscope and the results were descriptively analyzed. Results: The titanium dioxide layer was present on all experimental samples with a titanium peak varying between 6.82 and 26.37%. This layer was not found in the control group. Fluoride and calcium fluoride precipitates were present in the samples treated with titanium tetrafluoride. Conclusion: Titanium dioxide layer was formed after one titanium tetrafluoride application, but it was not uniform. Further studies should be carried out so that both the morphology and thickness of such layers can be better understood.

Keywords

Titanium; Dental caries; Dental Enamel; Calcium Fluoride

Cite and Share

Alcântara PCC,Alexandria AK,Souza IPR,Maia LC. Energy Dispersive X-Ray Spectroscopy Evaluation of Demineralized Human Enamel after Titanium Tetrafluoride Application. Journal of Clinical Pediatric Dentistry. 2015. 39(2);124-127.

References

1. Hicks J, Garcia-Godoy F, Flaitz C. Biological factors in dental caries: role of remineralization and fluoride in the dynamic process of demineralization and remineralization (part 3). J Clin Pediatr Dent; 28:203-214. 2004.

2. Seppa L. Fluoride varnishes in caries prevention. Med Princ Pract;13:307- 311. 2004.

3. ten Cate JM. Current concepts on the theories of the mechanism of action of fluoride. Acta Odontol Scand;57:325-329. 1999.

4. Scheifele E, Studen-Pavlovich D, Markovic N. Practitioner’s guide to fluo - ride. Dent Clin North Am;46:831-846. 2002.

5. Altenburger MJ, Schirrmeister JF, Wrbas KT, Klasser M, Hellwig E. Fluoride uptake and remineralisation of enamel lesions after weekly application of differently concentrated fluoride gels. Caries Res;42:312-318. 2008.

6. Maia LC, de Souza IP, Cury JA. Effect of a combination of fluoride dentifrice and varnish on enamel surface rehardening and fluoride uptake in vitro. Eur J Oral Sci;111:68-72. 2003.

7. Shrestha BM, Mundorff SA, Bibby BG. Enamel dissolution. I. Effects of various agents and titanium tetrafluoride. J Dent Res;51:1561-1566. 1972.

8. Mundorff SA, Little MF, Bibby BG. Enamel dissolution. II. Action of tita - nium tetrafluoride. J Dent Res;51:1567-1571. 1972.

9. Sen BH, Buyukyilmaz T. The effect of 4% titanium tetrafluoride solution on root canal walls--a preliminary investigation. J Endod;24:239-243. 1998.

10. Vieira A, Ruben JL, Huysmans MC. Effect of titanium tetrafluoride, amine fluoride and fluoride varnish on enamel erosion in vitro. Caries Res;39:371- 379. 2005.

11. Nobrega CB, Fujiwara FY, Cury JA, Rosalen PL. TiF4 varnish - A 19 F-NMR Stability Study and Enamel Reactivity Evaluation. Chem Pharm Bull;56:139-141. 2008.

12. Wefel JS, Harless JD. The effect of topical fluoride agents on fluoride uptake and surface morphology. J Dent Res;60:1842-1848. 1981.

13. Wei SH, Soboroff DM, Wefel JS. Effects of titanium tetrafluoride on human enamel. J Dent Res;55:426-431. 1976.

14. Chevitarese AB, Chevitarese O, Chevitarese LM, Dutra PB. Titanium pene - tration in human enamel after TiF4 application. J Clin Pediatr Dent;28:253- 256. 2004.

15. Petersson LG, Twetman S, Dahlgren H, Norlund A, Holm AK, Nordenram G et al. Professional fluoride varnish treatment for caries control: a system - atic review of clinical trials. Acta Odontol Scand;62:170-176. 2004.

16. Marinho VC. Cochrane reviews of randomized trials of fluoride therapies for preventing dental caries. Eur Arch Paediatr Dent;10:183-191. 2009.

17. Hubbard MJ. Correlated light and scanning electron microscopy of artificial carious lesions. J Dent Res;61:14-19. 1982.

18. White DJ. The application of in vitro models to research on demineraliza - tion and remineralization of the teeth. Adv Dent Res;9:175-193.1995.

19. Arends J, Christoffersen J. The nature of early caries lesions in enamel. J Dent Res;65:2-11. 1986.

20. Moreno EC, Zahradnik RT. Chemistry of enamel subsurface demineraliza - tion in vitro. J Dent Res; 53:226-235. 1974.

21. Buyukyilmaz T, Ogaard B, Rolla G. The resistance of titanium tetra - fluoride-treated human enamel to strong hydrochloric acid. Eur J Oral Sci;105:473-477. 1997.

22. Nassur C, Alexandria AK, Pomarico L, de Sousa VP, Cabral LM, Maia LC. Characterization of a new TiF(4) and beta-cyclodextrin inclusion complex and its in vitro evaluation on inhibiting enamel demineralization. Arch Oral Biol;58:239-247. 2013.

23. Gu Z, Li J, Soremark R. Influence of tooth surface conditions on enamel fluoride uptake after topical application of TiF4 in vitro. Acta Odontol Scand;54:279-281. 1996.

24. Ribeiro CC, Gibson I, Barbosa MA. The uptake of titanium ions by hydroxyapatite particles-structural changes and possible mechanisms. Biomaterials;27:1749-1761. 2006.

25. Buslaev Y. A. DDS, Ragsdale R. O. Hydrolysis of Titanium Tetrafluoride. lnorganic Chemistry;06:2208-2212 .1967.

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