Overview of Metal Ions Released from Fixed Orthodontic Appliance: In Vitro Studies
DOI:
https://doi.org/10.51699/ijhsms.v2i10.2644Abstract
Intraoral fixed orthodontic appliances are frequently used in the clinical practice of dentistry. They are made from alloys containing different metals at various percentages. The use of these appliances leads to the long-term exposure of patients to these materials, and the potential toxic effects of this exposure raises concerns about patient safety. Thus, the biocompatibility (corrosion behaviour and toxicity) of these materials has to be evaluated prior to clinical use. In the present report, the most recent studies in the scientific literature examining metal ion release from orthodontic appliances and the toxic effects of these ions have been reviewed with a special focus on cytotoxicity and genotoxicity. Previous studies suggest that a case-by-case safety evaluation is required to take into account the increasing variability of materials, their composition and the manufacturing processes. Moreover, in vitro toxicity studies in regard to metal release, cytotoxicity and genotoxicity are still scarce. Therefore, in vitro monitoring studies are needed to establish cause-effect relationships between metal ion release and biomarkers of cytotoxicity and genotoxicity. Further investigations could be performed to elucidate the toxic mechanisms involved in the observed effects with a special emphasis on oxidative damage.
Downloads
References
Al-Nassar, D. B., Ahmed, A. S. and Salih, Y. A. (2019) Nickel Ions Release from Orthodontic Retention Wires after Dental Bleaching. Indian Journal of Public Health Research & Development. Prof.(Dr) RK Sharma, 10(10), p. 880–884.
Almasry, R., Косырева, Т., Skalny, A., Katbeh, I., Abakeliya, K., Birukov, А. and Kamgang, W. (2022) Nickel ions release from orthodontic wires into the oral cavity during orthodontic treatment. Endodontics Today, 20, p. 79–84.
Amini, F., Asadi, E., Hakimpour, D. and Rakhshan, A. (2019) Salivary Nickel and Chromium Levels in Orthodontic Patients with and Without Periodontitis: a Preliminary Historical Cohort Study. Biological Trace Element Research. Humana Press Inc., 191(1), p. 10–15.
Arun, A. V and Mahesh, C. M. (2019) Chemical and biological evaluation of different commercially available metal orthodontic brackets-An invitro study. Group, 1(70.28), p. 3–70.
Azizi, A., Jamilian, A., Nucci, F., Kamali, Z., Hosseinikhoo, N. and Perillo, L. (2016) Release of metal ions from round and rectangular NiTi wires. Progress in orthodontics, 17(1), p. 10.
Behroozi, Z., Danaei, S. M., Sardarian, Ali Reza, Moshkelghosha, V. and Sardarian, Ahmad Reza (2016) Evaluation of the corrosion of five different bracket-archwire combination: An in-vitro analysis using inductively coupled plasma mass spectrometry. Journal of Dentistry. Shiraz University of Medical Sciences, 17(3 Suppl), p. 262.
Butt, M., Mengal, N., Journal, M. A.-P. A. F. M. and 2020, undefined (2020) A comparison of nickel ion release in saliva between orthodontic and non-orthodontic patients. pafmj.org, 70(2), p. 328–360.
Chitra, P., Prashantha, G., Orthodontists, A. R. the W. F. of and 2019, U. (2019) Long-term evaluation of metal ion release in orthodontic patients using fluoridated oral hygiene agents: An in vivo study. Elsevier.
Currò, G. and Bilello, G. (2020) Quantitative and Qualitative in vivo Analysis of Metal Residuals in the Saliva of Subjects with and without Fixed Orthodontic Appliances. BIOMEDICAL JOURNAL OF SCIENTIFIC & TECHNICAL RESEARCH. US, 1(26), p. 19617–19621.
Faleh, A., Nahidh, M., Nourie, N., Abdullah, A. and Hassan, A. (2020) In-vitro evaluating the effect of different mouthwashes on the ions released from orthodontic bondable molar tubes. researchgate.net, 25(02).
Fróis, A., Mendes, A., Pereira, S., Coatings, C. L.- and 2022, U. (2022) Metal Release and Surface Degradation of Fixed Orthodontic Appliances during the Dental Levelling and Aligning Phase: A 12-Week Study. mdpi.com.
Furlan, T. P. R., Barbosa, J. A. and Basting, R. T. (2018) Nickel, copper, and chromium release by CuNi-titanium orthodontic archwires is dependent on the pH media. Journal of International Oral Health, 10(5), p. 224.
Ganidis, C., Nikolaidis, A. K., Gogos, C. and Koulaouzidou, E. A. (2022) Determination of metal ions release from orthodontic archwires in artificial saliva using inductively coupled plasma-optical emission spectrometer (ICP-OES). Main Group Chemistry. IOS Press, Preprint(Preprint), p. 1–12.
Habar, E., Science, F. T.-J. of D. and 2020, undefined (2020) The difference of corrosion resistance between NiTi archwires and NiTi with additional cooper archwires in artificial saliva. researchgate.net, 5(2), p. 120–123.
Haleem, R., Shafiai, N. A. A. and Noor, S. N. F. M. (2021) Metal ions leachables from fake orthodontic braces incubated in simulated body fluid. BMC Oral Health. BioMed Central, 21(1), p. 1–7.
Hamad, D. K. and Hassan, B. A. (2018) Evaluation of Salivary Nickel, Chromium and Iron Ions in Patients Treated with Fixed Orthodontic Appliances in Vivo Study: in vivo study. Erbil Dental Journal (EDJ), 1(2), p. 109–116.
Hameed, H., JOURNAL, D. A.-G.-M. D. and 2019, undefined (2019) Effects of air abrasive polishing on chromium ion release from different metal self-ligating orthodontic brackets. iasj.net, p. 1.
Heravi, F., Abbaszadegan, M. R., Merati, M., Hasanzadeh, N., Dadkhah, E. and Ahrari, F. (2013) DNA damage in oral mucosa cells of patients with fixed orthodontic appliances. Journal of dentistry (Tehran, Iran), 10(6), p. 494.
Hussain, H. D., Ajith, S. D. and Goel, P. (2016) Nickel release from stainless steel and nickel titanium archwires–An in vitro study. Journal of oral biology and craniofacial research, 6(3), p. 213–218.
Hussain, S., Khan, S., Gul, S., Pividori, M. I. and Del Pilar Taboada Sotomayor, M. (2016) A novel core@shell magnetic molecular imprinted nanoparticles for selective determination of folic acid in different food samples. Reactive and Functional Polymers. Elsevier, 106, p. 51–56.
Jafari, K., Rahimzadeh, S. and Hekmatfar, S. (2019) Nickel ion release from dental alloys in two different mouthwashes. Journal of Dental Research, Dental Clinics, Dental Prospects. Tabriz University of Medical Sciences, 13(1), p. 19.
Jamshidi, S., Rahmati Kamel, M., Mirzaie, M., Sarrafan, A., Khafri, S. and Parsian, H. (2018) Evaluation of scalp hair nickel and chromium level changes in patients with fixed orthodontic appliance: a one-year follow-up study. Acta Odontologica Scandinavica, 76(1), p. 1–5.
Jurela, A., Verzak, Ž., Brailo, V., Škrinjar, I., Sudarević, K. and Janković, B. (2018) Salivary electrolytes in patients with metallic and ceramic orthodontic brackets. Acta Stomatologica Croatica. University of Zagreb: School of Dental Medicine, 52(1), p. 32.
Kosayadiloka, K., … N. T.-K. E. and 2017, U. (2017) Metal ion release and cytotoxicity of titanium orthodontic miniscrews. Trans Tech Publ.
Kovac, V., Poljsak, B., Bergant, M., Scancar, J., Mezeg, U. and Primozic, J. (2022) Differences in Metal Ions Released from Orthodontic Appliances in an In Vitro and In Vivo Setting. Coatings. MDPI, 12(2), p. 190.
Kovač, V., Bergant, M., Ščančar, J., Primožič, J., Jamnik, P. and Poljšak, B. (2021) Causation of Oxidative Stress and Defense Response of a Yeast Cell Model after Treatment with Orthodontic Alloys Consisting of Metal Ions. Antioxidants. MDPI, 11(1), p. 63.
Małkiewicz, K., Sztogryn, M., Mikulewicz, M., Wielgus, A., Kamiński, J. and Wierzchoń, T. (2018) Comparative assessment of the corrosion process of orthodontic archwires made of stainless steel, titanium-molybdenum and nickel-titanium alloys. Archives of civil and mechanical engineering. Springer, 18, p. 941–947.
Mihardjanti, M., … N. I.-J. of P. and 2017, undefined (2017) Nickel and chromium ion release from stainless steel bracket on immersion various types of mouthwashes. iopscience.iop.org, 884, p. 12107.
Mirhashemi, A. H., Jahangiri, S. and Kharrazifard, M. J. (2018) Release of nickel and chromium ions from orthodontic wires following the use of teeth whitening mouthwashes. Progress in Orthodontics.
Mirhashemi, A., Jahangiri, S. and Kharrazifard, M. (2018) Release of nickel and chromium ions from orthodontic wires following the use of teeth whitening mouthwashes. Progress in orthodontics. Springer, 19(1), p. 4.
Mobeen, N., Duraisamy, S., Graduate, P. and Mobeen, D. (2022) Evaluation of the Ion release from nanoparticles coated orthodontic brackets - In vitro Study. International Journal of Orthodontic Rehabilitation. MM Publishers, 13(3), p. 10–21.
Moeen, F. (2020) Effects of Various Mouthwashes on the Orthodontic Nickel-Titanium Wires: Corrosion Analysis. JPDA, 29(01).
Moghadam, M. G., Hoshyar, R., Mikulewicz, M., Chojnacka, K., Bjørklund, G., Pen, J. J., Azadi, N. A., et al. (2019) Biomonitorization of metal ions in the serum of Iranian patients treated with fixed orthodontic appliances in comparison with controls in eastern Iran. Environmental Science and Pollution Research. Springer, 26(32), p. 33373–33386.
Mortazavi, S. M. J., Paknahad, M., Khaleghi, I. and Eghlidospour, M. (2018) Effect of radiofrequency electromagnetic fields (RF-EMFS) from mobile phones on nickel release from orthodontic brackets: An in vitro study. International orthodontics. Elsevier, 16(3), p. 562–570.
Mudjari, S., Achmad, M., … M. S.-… em O. e and 2019, U. (2019) Nickel and chromium ion levels in hair and gingival crevicular fluid with the corrosion of brackets in orthodontic patients: a longitudinal study. SciELO Brasil.
Natarajan, P. V. and . N. (2022) Impact of Fluoride Mouthwash on Nickel ion Release from Orthodontic Brackets: An In-vitro Study. JOURNAL OF CLINICAL AND DIAGNOSTIC RESEARCH. JCDR Research and Publications, p. undefined-undefined.
Polychronis, G., Al Jabbari, Y. S., Eliades, T. and Zinelis, S. (2018) Galvanic coupling of steel and gold alloy lingual brackets with orthodontic wires: Is corrosion a concern?. The Angle Orthodontist. Edward H. Angle Society of Orthodontists, 88(4), p. 450–457.
Quadras, D., Nayak, U., … N. K.-D. research and 2019, U. (2019) In vivo study on the release of nickel, chromium, and zinc in saliva and serum from patients treated with fixed orthodontic appliances. ncbi.nlm.nih.gov.
Quadras, D. D., Krishna Nayak, U. S., Kumari, N. S., Priyadarshini, H. R., Gowda, S., Fernandes, B. and Pujari, P. (2018) In vivo study on release of nickel, chromium, and zinc and DNA damage in buccal mucosa cells from patients treated with fixed orthodontic appliances. Journal of Indian Orthodontic Society. SAGE Publications Sage India: New Delhi, India, 52(2), p. 115–119.
Riyam Haleem, Maha Mohammed, N. M. (2023) PERIODONTAL AND GINGIVA ALTERATIONS DURING ORTHODONTIC THERAPY. Acadimicia Globa: inderscience research, 4(1), p. 106–109.
Shetti, S. S., Shirkhande, A., Kagi, V. A., Fulari, S. G., Nanjannawar, L. G., Agrawal, J. M. and Golgire, S. (2022) The effect of different mouth washes on metallic ions release from silver-soldered and laser-welded orthodontic attachments. A comparative in vitro study. Dental Research Journal. Wolters Kluwer -- Medknow Publications, 19, p. 27.
Shruthi, D., Patil, G., Clinical, D. P.-C. and 2020, U. (2017) Comparative evaluation of ion release in bonded and nonbonded stainless steel brackets with use of different mouthwashes: An In vitro study. ncbi.nlm.nih.gov.
Soni, J., Goje, S., Kulkarni, N., Shyagali, T. R. and Bhayya, D. P. (2018) Evaluation of determinants for the nickel release by the standard orthodontic brackets. International Orthodontics. Elsevier, 16(1), p. 31–41.
de Souza Schacher, H. R. and de Menezes, L. M. (2020) Metal ion quantification in the saliva of patients with lingual arch appliances using silver solder, laser, or TIG welding. Clinical Oral Investigations. Springer, 24, p. 2109–2120.
Tahmasbi, S., Ghorbani, M., Sheikh, T. and Yaghoubnejad, Y. (2019) Galvanic corrosion and ion release from different orthodontic brackets and wires in acidic artificial saliva. Journal of Dental School, Shahid Beheshti University of Medical Sciences, 32(1), p. 37–44.
Velasco-Ibáñez, R., Lara-Carrillo, E., Morales-Luckie, R. A., Romero-Guzmán, E. T., Toral-Rizo, V. H., Ramírez-Cardona, M., García-Hernández, V., et al. (2020) Evaluation of the release of nickel and titanium under orthodontic treatment. Scientific Reports. Nature Publishing Group, 10(1), p. 1–10.
Wajahat, M., Moeen, F., Husain, S. W., Siddique, S. and Khurshid, Z. (2020) Effects of Various Mouthwashes on the Orthodontic Nickel-Titanium Wires: Corrosion Analysis. Journal of the Pakistan Dental Association. Journal of Pakistan Dental Association, 29(01), p. 30–37.
Wendl, Brigitte, Wiltsche, H., Lankmayr, E., Winsauer, H., Walter, A., Muchitsch, A., Jakse, N., et al. (2017) Metal release profiles of orthodontic bands, brackets, and wires: an in vitro study. Journal of Orofacial Orthopedics/Fortschritte der Kieferorthopädie. Springer, 78(6), p. 494–503.
Wendl, B., Wiltsche, H., Lankmayr, E., Winsauer, H., Walter, A., Muchitsch, A., Jakse, N., et al. (2017) Metal release profiles of orthodontic bands, brackets, and wires: an in vitro studySchwermetallfreisetzungsprofile aus kieferorthopädischen Bändern Brackets und Drähten: Eine In-vitro-Untersuchung. Journal of Orofacial Orthopedics / Fortschritte der Kieferorthopädie. Springer, 78(6), p. 494–503.
Wepner, L., Färber, H. A., Jaensch, A., Weber, A., Heuser, F., Keilig, L., Singer, L., et al. (2021) In vitro ion release of wires in removable orthodontic appliances. mdpi.com.
Yanisarapan, T., Thunyakitpisal, P. and Chantarawaratit, P. (2018) Corrosion of metal orthodontic brackets and archwires caused by fluoride-containing products: Cytotoxicity, metal ion release and surface roughness. Orthodontic Waves. Taylor & Francis, 77(2), p. 79–89.
Zhang, C., Sun, X., Zhao, S., Yu, W. and Sun, D. (2014) Susceptibility to corrosion and in vitro biocompatibility of a laser-welded composite orthodontic arch wire. Annals of biomedical engineering, 42(1), p. 222–230.
Oral complications associated with metal ion release from oral piercings: a systematic review M. Masood1 • L. J. Walsh1 • S. Zafar European Archives of Paediatric Dentistry
Riyam Haleem 1, Maha Mohammed 1, Noor Mousa
PERIODONTAL AND GINGIVA ALTERATIONS DURING ORTHODONTIC THERAPY, Academicia Globe Inderscience research Volume 4, Issue 1, Jan., 2023
