An In vitro Investigation on the Impact of Sodium Fluoride on the Color Stability of Ceramic Restorations

Authors

  • Mohammed Lutf Mohammed Al-Anesi Emirates International University image/svg+xml Author
  • Khaled Mohammed Al-Ghaffari Author
  • Khaled A AL-Haddad Author
  • Ebtihal Mohamed Madar Author
  • Ahmed Abdullah Howilah Author
  • Hassan Abdulwahab Al-Shamahy Author

DOI:

https://doi.org/10.51626/ijoh.2024.04.00041

Keywords:

Sodium Fluoride , Color Stability , Ceramic Restorations , In-Vitro Study , Yemen

Abstract

Background and Objectives: The demand for cosmetic composite materials has increased with the growing interest in cosmetic dentistry to achieve a bright white smile. The efficiency of esthetic restorative materials depends on their resistance to deterioration and longevity in the oral cavity. The purpose of this study is to evaluate the effect of sodium fluoride treatment on the color fastness of all ceramic restorations, IPS E-max Cad and IPS E-max press, knowing that both groups have low transparency. Materials and Methods: For this investigation, a total of 20 specimens (cylindrical disks) with A2 vita shade were made. Each cylindrical disk had dimensions of 10 mm in diameter and 2 mm in thickness. The specimens were split into two groups of ten each. To simulate a year of clinical exposure, all specimens were submerged in a sodium fluoride solution with a concentration of 1.0% for ten days. At baseline and ten days after immersion in the solution, the color difference of each specimen was measured using a spectrometer (Vita Easyshade). To ensure repeatable color measurement, each color measurement was made twice at random in the disk center, positioned perpendicular to the surface of the specimens and in direct contact. The values of CIE L*a*b* were noted. Results: The study found that sodium fluoride caused significant color change in E-max press discs, with a mean ΔE value of 5.11302, higher than E-max CAD grouped. The discs also showed slightly lower L* values (77.74) representing darkness compared to E-max CAD discs (79.305). The a* values indicated redness, while the b* values indicated yellowishness. Conclusions: The results of this study showed a statistically significant difference in color stability among the immersed IPS E-max press and IPS E-max CAD specimens. The IPS E-max CAD specimens showed a better color stability. On the other hand, the staining observed in the IPS E-max press was clinically noticeable. IPS E-max CAD could be a better material with less color change. Discoloration of specimens increased proportionally with sodium fluoride concentration. Keywords: Sodium Fluoride, Color Stability, Ceramic Restorations, In-Vitro Study, Yemen

Author Biographies

  • Mohammed Lutf Mohammed Al-Anesi, Emirates International University

    Mohammed Lutf Mohammed Al-Anesi

    Department of prosthodontics, Faculty of Dentistry, Emirates International University, Yemen

  • Khaled Mohammed Al-Ghaffari

    Department of Restorative and Esthetic Dentistry, Faculty of Dentistry, Sana’a University, Republic of Yemen

  • Khaled A AL-Haddad

    3Orthodontics, Pedodontics and Prevention Department Faculty of Dentistry, Sana’a University, Yemen

  • Ebtihal Mohamed Madar

    4Department of Prosthodontics, Faculty of Dentistry, Sana’a University, Yemen

  • Ahmed Abdullah Howilah

    5Departement of Basic Sciences, Faculty of Dentistry, Sana’a University, Yemen

  • Hassan Abdulwahab Al-Shamahy

    6Medical Microbiology and Clinical Immunology Department, Faculty of Medicine and Health Sciences, Sana’a University,  Yemen 

References

1. . Al wahadani A, Ajlouni R, Al Omari Q, Cobb D, Dawasn D (2002) Shade match perception of porcelain-fused-to-metal restorations com parison between dentist and patient. Am Dent Assoc 133(9): 1220 1225.

2. Burke FJT, Qualtrough AJE (1994) Aesthetic inlays: composite or ce ramic? Br Dent J 176(2): 53-60.

3. Anusavic KJ, Philip R (2003) Science of dental material. (11th edn.), Elsevier.

4. Samra AP, Pereira SK, Delgado LC, Borges CP (2008) Color stability evaluation of aesthetic restorative materials. Braz Oral Res 22(3): 205 210.

5. Alali JE, Alanazi HA, Alyousef HK, Alali OF, Alzwayyid SA (2020) Teeth discoloration removal and management: A review. Int J Med Dev Ctries 4(7): 1070-1074.

6. Lepri CP, Ribeiro M, Dibb A, Palma Dibb RG (2014) Influence of mounthrinse solutions on the color stability and microhardness of a composite resin. Int J Esthet Dent 9(2): 238-246.

7. Bagheri R, Burrow M, Tyas M (2005) Influence of food-simulating solutions and surface finish on susceptibility to staining of aesthetic re storative materials. J Dent 33(5): 389-398.

8. Soares Geraldo D, Scaramucci T, Steagall Jr W, Braga SRM, Sobral MAP (2011) Interaction between staining and degradation of a composite resin in contact with colored foods. Braz Oral Res 25(4): 369-375.

9. Baseer MA, Aloufi H, Ahmad RA, Alabdulwahab S, Khader ZB, et al. (2020) Assessment of fluoride uptake by tooth enamel from different f luoride dentifrices: A systematic. Ann Dent Spec 8(3): 1-8.

10. 10. Arnold WH, Dorow A, Langenhorst S, Gintner Z, Bánóczy J, et al. (2006) Effect of fluoride toothpastes on enamel demineralization. BMC Oral Health 6(1): 1-6. 11.

11. Walsh T, Worthington HV, Glenny AM, Marinho VC, Jeroncic A (2019) Fluoride toothpastes of different concentrations for preventing dental caries. Cochrane Database Syst Rev 3(3): CD007868

12. 12. Zero DT (2006) Dentifrices, mouthwashes, and remineralization/car ies arrestment strategies. BMC Oral Health 6 Suppl 1(Suppl 1): S9. 13.

13. De Morais Sampaio GA, Peixoto LR, de Vasconcelos Neves G, do Na scimento Barbosa D (2021) Effect of mouthwashes on color stability of composite resins: A systematic review. J Prosthet Dent 126(3): 386 392

14. American Dental Association Council on Scientific Affairs (2006) Professionally applied topical fluoride: Evidence–based clinical rec ommendations. J Am Dent Assoc 137(8): 1151-1159.

15. Mundim FM, Cruvinel DR, Garcia LdFR, Pires de Souza FdCP (2014) Effect of fluoride solutions on color and surface roughness of dental composites. RFO UPF 19(1): 77-82.

16. Butler CJ, Masri R, Driscoll CF, Thompson GA, Runyan DA, et al. (2004) Effect of fluoride and 10% carbamide peroxide on the surface roughness of low-fusing and ultra low–fusing porcelain. The J Pros thet Dent 92(2): 179-183.

17. Papagiannoulis L, Tzoutzas J, Eliades G (1997) Effect of topical flu oride agents on the morphologic characteristics and composition of resin composite restorative materials. J Prosthet Dent 77(4): 405 413.

18. Swetha R, Balaji Ganesh S, Jayalakshmi S (2021) Comparative evalu ation of colour stability of alkasite restorative material after brushing stimulation with herbal and fluoridated toothpaste-an in-vitro study. Nat Volatiles & Essent Oils 8(5): 6337-6349.

19. Pintado Palomino K, Vasconcelos CVM, Silva RJ, Fressatti ALM, Motta BJG, et al. (2016) Effect of whitening dentifrices: A dou ble-blind randomized controlled trial. Braz Oral Res 30(1): e82.

20. Land CH (1889) Porcelain restorations. Dent Cosmos 31: 191-192.

21. Ripa LW (1981) Fluoride rinsing: What dentists should know. Journal of American Dental Association 102: 477.

22. Ripa LW (1981) Fluoride rinsing: What dentists should know. Journal of American Dental Association 102: 477.

23. el-Badrawy WA, McComb D, Wood RE (1993) Effect of home –use f luoride gels on glass ionomer and composite restorations. Dent Ma terial 9(1): 63-67.

24. . Kual K, Thompson V, Kual T, Nelson S, Selvaggi R, et al. (1992) In vitro effect of topical fluorides on sealant materials. J Esthet Dent 4: 121-127.

25. . Butler CJ, Masri R, Driscoll CF, Thompson GA, Runyan DA, et al. (2004) Effect of fluoride and 10% carbmide peroxide on surface roughness of low-fusing and ultra low-fusing porcelain. J Prosthet Dent 92: 179-183.

26. Caputo A (1980) Biological implications of dental materials. Dent clin North Am 24: 331-341.

27. Wunderlich R, Yaman P (1986) The in vitro effect of topical fluoride on dental porcelain. J Prosthetic Dent 55(3): 385-388.

28. IPS e.max brochure. Ivocal Vivadent AG Technical.

29.Yilmaz CA, Turan Korkmaz, Hişam Demirköprülü, Gülfem Ergün, Yalçin Ozkan (2008) Color stability of glazed and polished dental por celain. Journal of Prosthodontics 17(1): 20-24.

30. Artopoulou II, Powers JM, Chambers MS (2010) In vitro staining ef fects of stannous fluoride and sodium fluoride on ceramic material. J Prosthet Dent 103(3): 163-169.

31.Kula K, Kula TJ (1995) The effect of topical APF foam and other flu orides on veneer porcelain surfaces. Pediatric Dent 17 (5): 356-361.

32.Copps D, Lacy A, Curtist T, Carman J (1984) Effect of topical fluoride on five low-fusing dental porcelains. J Prosthet Dent 52: 340-343.

33. . Jones DA (1985) Effects of topical fluoride preparations on glazed porcelain surfaces. J Prosthet Dent 53(4): 483-484.

34. Demirel F, Yüksel G, Muhtarogullari M, Cekiç C (2005) Effect of top ical fluorides and citric acid on heat-pressed all-ceramic material. Int J Periodontics Restorative Dent 25(3): 277-281

35.Hammad IA, Khalil AM (1994) The effect of fluoride treatments on glazed and polished ceramic surfaces. Egypt Dent J 40(3): 757-764.

36.Da Siva JD, Park SE, Weber HP, Ishikawa Nagai S (2008) Clinical per formance of a newly developed spectrophotometeric system on tooth color reproduction. J Prosthet Dent 99: 361-368

37.Yaun JCC, Brewer JD, Monaco EA, Davis EL (2007) Defining a natu ral tooth color space based on 3-dimensional shade system. J Prosthet Dent 98: 110-119.

38.Keshvad A, Hooshmand T, Asefzadeh F, Khalilinejad F, Alihemmati M, et al. (2011) Marginal gap, internal fit, and fracture load of leu cite-reinforced ceramic inlays fabricated by CEREC inLab and hot pressed techniques. J Prosthodont 20(7): 535-540.

39.Culp L, McLaren EA (2010) Lithium disilicate: the restorative materi al of multiple options. Compend Contin Educ Dent 31(9): 716-720.

40.Ozkan Y, Akyil MS (2009) Effect of colored beverages on the color stability of feldspathic porcelain subjected to various surface treat ments. Quintessence Int 40(7): e41-48.

41. Koksal T, Dikbas I (2008) Color stability of different denture teeth materials against various staining agents. Dent Mater J 27(1): 139 144.

42. .Mutlu Sagesen L, Ergün G, Ozkan Y, Bek B (2001) Color stability of different denture teeth materials: an in vitro study. J Oral Sci 43(3): 193-205.

43. Ghahramanloo A, Madani AS, Sohrabi K, Sabzevari S (2008) An evaluation of color stability of reinforced composite resin compared with dental porcelain in commonly consumed beverages. J Calif Dent Assoc 36(9): 673-680.

44. Tanriverdi FF, Belli E (1997) Color stability of three esthetic ceramic materials against to different staining agents. J Marmara Univ Dent Fac 2(4): 643-648.

45. Ertaş E, Güler AU, Yücel AC, Köprülü H, Güler E (2006) Color stabil ity of dental ceramics after immersion in different drinks. Dent Mater J 25(2): 371-376.

46. Stober T, Gilde H, Lenz P (2001) Color stability of pressable ceramic materials. Dental Master 17: 87-94.

47. . Guler AU, Yilmaz F, Kulunk T, Guler E, Kurt S (2005) Effects of differ ent drinks on stainability of ceramic restorative materials. J Prosthet Dent 94(2): 118-24.

48. Um CM, Ruyter IE (1991) Staining of ceramic veneering materials with coffee and tea. Quintessence 22(5): 377-386.

49. Bagheri R, Burrow MF, Tyas M (2005) Influence of food-simulating solutions and surface finish on susceptibility to staining of ceramic materials. J Dent 33(5): 389-398.

50. Johnson GH, Gordon GE (1999) Effects of chemical disinfectants on surface characteristics and color of three fixed prosthodontic crown materials. J Prosthet Dent 82(5): 600-607

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2024-07-07

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How to Cite

Al-Anesi, M. L. M., Al-Ghaffari, K. M., AL-Haddad, K. A., Madar, E. . M., Howilah, A. A., & Al-Shamahy, H. A. (2024). An In vitro Investigation on the Impact of Sodium Fluoride on the Color Stability of Ceramic Restorations. Emirates International University Digital Repository, 1(1). https://doi.org/10.51626/ijoh.2024.04.00041

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