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http://dx.doi.org/10.14347/kadt.2013.35.1.001

Concentration of elemental ions released from non-precious dental casting alloys  

Sakong, Joon (Department of Preventive Medicine, College of Medicine, Yeungnam University)
Park, Soo-Chul (Department of Dental Technology, Gimcheon University)
Publication Information
Journal of Technologic Dentistry / v.35, no.1, 2013 , pp. 1-17 More about this Journal
Abstract
Purpose: This study was to assess the extents of the release of metals from the non-precious alloys used for dental casting by measuring the differences in the extents of the release of metals by types of alloys, pH level and elapsed time. Methods: Uniform-sized specimens(10 each) were prepared according to the Medical Device Standard of the Korea Food and Drug Administration(2010) and International Standard Organization(ISO22674, 2006), using four types of alloys(one type of Ni-Cr and one type of Co-Cr used for fixed prosthesis, and one type of Ni-Cr and one type of Co-Cr used for removable prosthesis). A total of 12 metal-release tests were performed at one-day, three-day, and two-week intervals, for up to 20 weeks. The metal ions were quantified using an Inductively Coupled Plasma-Atomic Emission Spectrometer. Results: The results showed that the extent of corrosion was higher in the ascending order of Jdium-$100^{(R)}$, Bellabond-$Plus^{(R)}$, Starloy-$C^{(R)}$, and Biosil-$F^{(R)}$. The lower the pH and the longer the elapsed time were, the greater the increase in metal corrosion. At pH 2.4, the release of Ni from Jdium-$100^{(R)}$, a Ni-Cr alloy, was up to 15 times greater than the release of Co from the Co-Cr alloy from two weeks over time, indicating that the Ni-Cr alloy is more susceptible to corrosion than the Co-Cr alloy. Conclusion: It is recommended that Co-Cr alloy, which is highly resistant to corrosion, be used for making dental prosthesis with a non-precious alloy for dental casting, and that non-precious alloy prosthesis be designed in such a way as to minimize the area of its oral exposure. For patients with non-precious alloy prostheses, a test of the presence or absence of periodontal tissue inflammation or allergic reaction around the prosthesis should be performed via regular examination, and education on the good management of the prosthesis is needed.
Keywords
non-precious dental casting alloy; metal release; Ni-Cr; Co-Cr;
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1 Morris HF, Mane M, Stoffer W, Weir D. Casting alloys: the materials and the clinical effect. National Institute of Dental Research 6(9): 28-31, 1992.
2 National Institute Of Dental Research. Workshop: biocompatibility of metals in dentistry. J Am Assoc 109(3): 469-471, 1984.
3 Napangkangas R, Raustia A. Twenty-year follwup of metal-ceramic single crown: a retrospective study. Int J Prosthodont 21(4): 307-311, 2008.
4 Richter G, Geier J. Dentalwerkstoffe -Problemsubstanzen in der allergologischen Diagnostik? Teil II: Patchtestdiagnostik und Relevanzbewertung bei ausgewahlten Dentalwerkstoffgruppen. Der Hautarzt 47(11): 844-849, 1996.   DOI
5 Reuling N, Pohl-Reuling B, Keil M. Histomorphometrical studies on the histocompatibility of dental alloys. Dtsch Zahn arztl Z 46(3): 215-219, 1991.
6 Rincic N, Celebic A, BaucicI, Stipetic J, Prohic E, Miko S. The Release of Ions from the Base Co-Cr-Mo Casting Alloy in vitro into the Phosphate Buffer at pH 6.0. Acta Stomat Croat 37(1): 13-16, 2003.
7 Stipetic J, Celebic A, BaucicI, Rincic N, Catic A, Baucic M, The Release of Nickel Ions from Three Different Dental Casting Alloys, Acta Stomat Croat 36(4); 389-395, 2002.
8 Schmalz G, Garhammer P, Hiller KA, Reitinger T. Metal content of biopsies from the neighborhood of casting alloys. J Dent Res 78: 236, 1999.
9 Taggart WH. A new and accurate method of making gold inlays. Dent Cosmos 49: 1117, 1907.
10 Trombelli L, Virgur A, Corazza M, Lucci R. Systemic contact dermatitis from an orthodontic appliance. Contact Dermatitis 27 (4): 259, 1992.   DOI   ScienceOn
11 Temesvari E, Racz I. Nickel sensitivity from dental prosthesis. Contact Dermatitis 18(1): 50-51, 1988.   DOI   ScienceOn
12 Veien NK, Borchorst E, Hattel T, Laurberg G. Stomatitis or systemically induced contact dermatitis from metal wire in orthodontic materials. Contact Dermatitis 30(4): 210-213, 1994.   DOI   ScienceOn
13 Wataha JC, Lockwood PE, Schedle A, Noda M, Bouillaguet S. Ag, Cu, Hg and Ni ions alter the metabolism of human monocytes during extended low-dose exposures. J Oral Rehabil 29(2): 133-139, 2002.   DOI   ScienceOn
14 Wataha JC, Lockwood PE, Khajotia SS, Turner R. Effect of pH on element release from dental casting alloys. J Prosthet Dent 80(6): 691-698, 1998.   DOI   ScienceOn
15 Wataha JC, Lockwood PE. Release of elements from dental casting alloys into cell-culture medium over 10 months. Dent Mater 14(2): 158-163, 1998.   DOI   ScienceOn
16 Wataha JC. Craig Robert G. Hanks CT, Precision of and new methods for testing in vitro alloy cytotoxicity. Dent Mater 8(1): 65-70, 1992.   DOI   ScienceOn
17 Wataha JC, Craig RG, Hanks CT. The release of elements of dental casting alloys into cellculture medium. J Dent Res 70(6): 1014-1018, 1991.   DOI   ScienceOn
18 Faccioni F, Franceschetti P, Cerpelloni M, Fracasso ME. In vivo study on metal release from fixed orthodontic appliances and DNA damage in oral mucosal cells. Am J Orthod Dentofacial Orthop 124(6): 687-694, 2003.   DOI   ScienceOn
19 Franz G: The frequency of allergy against dental materials. Abstract 19, International Congress on Biomaterials in Stomatology. Pretoria 1981.
20 Geis-Gerstorfer J, Sauer KH, Passler K. Ion release from Ni-Cr-Mo and Co-Cr-Mo casting alloys. Int J Prosthodont 4(2): 152-158, 1991.
21 Gjerdet NR, Erichsen ES, Remlo HE, Evjen G. Nickel and iron in saliva of patients with fixed orthodontic appliances. Acta Odontol Scan 49(2): 73-78, 1991.   DOI   ScienceOn
22 Hamano H. Fundamental studies on biological effects of dental metals-nikel dissolution, toxicity and distribution in cultured cells. Kokubyo Gakkai Zasshi 59(2): 456-478, 1992.   DOI   ScienceOn
23 International Standards Organization. Dentistry -Metallic materials for fixed and removable restorations and appliances. ISO 22674, 2006.
24 International Standards Organization. Dental metallic materials-corrosion test methods, was applied to provide test methods. ISO 10271, 2001.
25 Jiang J, Rong X, Wang X. GFAAS Determination of Ni in Artificial Saliva Eroded from Ni-Cr Alloy Dental Crown. Physical Testing and Chemical Analysis Part B Chemical Analysis 45(1): 112-113, 2009.
26 International Standards Organization. Biological evaluation of medical devices - Part 5: Tests for In Vitro Cytotoxicity. ISO 10993-5, 1999.
27 International Standards Organization. Water for analytical laboratory use - Specification and test methods. ISO 3696, 1987.
28 Jacobsen N. Epithelial-like cells in culture derived from human gingiva: response to nickel. European Journal of Oral Sciences 85(7): 567-574, 1977.   DOI   ScienceOn
29 Kerosuo H, Kanerva L. Systemic contact dermatitis caused by nickel in a stainless steel orthodontic appliance. Contact Dermatitis 36(2): 112-113, 1997.
30 Khamis E, Seddik M. Corrosion evaluation of recasting non-precious dental cast alloys. Int Dent J 45(3): 209-217, 1995.
31 Lygre GB, Gjerdet NR, Gronningsaeter AG, Bjorkman L. Reporting on adverse reactions to dental materials-.intraoral observations at a clinical follow-up. Community Dent Oral Epidemiol 31(3): 200-206, 2003.   DOI   ScienceOn
32 Limberger F, Lenz E. Biological examination of cobalt and nickel-based alloys in comparison of implantalt and nicin aniltl expandments. Quintessenz 42(10): 1635-1647, 1991.
33 McGlynn W. The Importance of Food pH in Commercial Canning Operations. Food Technology Fact sheet FAPC-118: 1-8, 2010.
34 Medical Devices Standards and Specifications. Some revised Notice(No.2010-36). Korea Food & Drug Administration, 2010.
35 Moneret-Vautrin DA, Burnel D, Sainte-Laudy J, Beaudouin E, Croizier A. Allergy to nickel in dental alloys. Eur Ann Allergy Clin Immunol 36(8): 311-312, 2004.
36 Bumgardner JD, Lucas LC. Cellular Response to Metallic Ions Released from Nickel-Chromium Dental Alloys. J Dent Res 74(8): 1521-1527, 1995.   DOI   ScienceOn
37 Craig RG, O'brien WJ, Powers JM. Dental materials, properties and manipulation. St. Louis, Toronto, London: The C. V. Mosby Company, 1983.
38 Bumgardner JD, Lucas LC. Corrosion and cell culture evaluation of nickel-chromium dental casting alloys. J Appl Biomater 5(3): 203-213, 1994.   DOI   ScienceOn
39 Choi YJ, Yook JI, Chung MK. Cytotoxicity of dental cast base metal alloys on human oral keratinocytes. J Korean Acad Prosthodont 37(6): 717-728, 1999.
40 Craig RG, Hanks CT. Cytotoxicity of experimental casting alloys evaluated by cell culture tests. J Dent Res 69(8): 1539-1542, 1990.   DOI   ScienceOn
41 Elshahawy WM, Watanabe I, Koike M. Elemental ion release from four different fixed prosthodontic materials. Dent Mater 25(8): 976-981, 2009a.   DOI   ScienceOn
42 Elshahawy WM, Watanabe I, Kramer P. In vitro cytotoxicity evaluation of elemental ions released from different prosthodontic materials. Dent Mater 25(12): 1551-1555, 2009b.   DOI   ScienceOn
43 Evans EJ, Thomas IT. The in vitro toxicity of cobalt-chrome-molybdenum alloy and its constituent metals. Biomaterials 7(1): 25-29, 1986.   DOI   ScienceOn