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Abstrakty
Objective: The objective was to perform a systematic literature review to report the state of the art on the topic of transparent orthodontic archwires. Methods: The inclusion criteria: (1) transparent or translucent orthodontic wire, (2) production method presented, (3) physical properties tested. The exclusion criteria: (1) coated esthetic archwires, (2) repetitive publications without language limitations. Databases searched: Medline (via PubMed), Scopus, Embase and Ovid (from 1970.01.01 to 2016.02.01). Additional hand search was performed. The manual search was performed in selected orthodontic journals: American Journal of Orthodontic and Orthopedics, Angle Orthodontist, European Journal of Orthodontics (from 1995 to 2016.02.01). Results: Among 342 papers, 22 were selected for systematic review and divided into two groups: those commercially available on the market and those in research and development stage. The drawbacks associated with mechanical properties limit their widespread clinical use. Conclusions: The papers reported different materials presenting different characteristics by various methodology. For this reason it was difficult to objectively compare obtained results. Characterization of translucent archwires properties has shown that further studies are required to confirm the usefulness of this type of wires, also in clinical practice.
Czasopismo
Rocznik
Tom
Strony
651--657
Opis fizyczny
Bibliogr. 30 poz., rys., tab.
Twórcy
autor
- Department of Dentofacial Orthopeadics and Orthodontics, Division of Facial Abnormalities, Medical University of Wrocław, Krakowska 26, 50-425 Wrocław, Poland
autor
- Wrocław University of Science and Technology, Łukasiewicza 5, 50-371 Wrocław, Poland
autor
- Medical University of Wrocław, Pasteura 1, 50-367 Wrocław, Poland
autor
- Department of Advanced Material Technologies, Faculty of Chemistry, Wrocław University of Science and Technology, Smoluchowskiego 25, 50-372 Wrocław, Poland
Bibliografia
- [1] R.P. Kusy, Orthodontic biomaterials: from the past to the present, Angle Orthodontist 72 (6) (2002) 501–512.
- [2] M. Mikulewicz, K. Chojnacka, P. Wołowiec, Release of metal ions from fixed orthodontic appliance: an in vitro study in continuous flow system, Angle Orthodontist 84 (1) (2014) 140–148.
- [3] C.J. Burstone, S.A. Liebler, A.J. Goldberg, Polyphenylene polymers as esthetic orthodontic archwires, American Journal of Orthodontics and Dentofacial Orthopedics 139 (4 Suppl) (2011) e391–e398.
- [4] M. Totino, A. Riccio, M. Leo, L. Arcuri, L. Cerroni, G. Pasquantonio, R. Condò, Aesthetic orthodontic Archwires: the state of Art, Oral & Implantology 7 (4) (2014) 115–122.
- [5] S. Yamagata, T. Akasaka, M. Uo, N. Ushijima, Y. Nodasaka, J. Iida, F. Watari, Preparation and properties of thermoplastic-resin-based nanocomposites for the development of esthetic orthodontic wires, Nano Biomedicine 1 (2) (2009) 151–158.
- [6] A. Valiathan, S. Dhar, Fiber reinforced composite arch-wires in orthodontics: function meets esthetics, Trends in Biomaterials and Artificial Organs 20 (1) (2006) 16–19.
- [7] K. Fujihara, K. Teo, R. Gopal, P.L. Loh, V.K. Ganesh, S. Ramakrishna, K.W.C. Foong, C.L. Chew, Fibrous composite materials in dentistry and orthopaedics: review and applications, Composites Science and Technology 64 (6) (2004) 775–788.
- [8] S. Yamagata, J. Iida, T. Imai, F. Watari, M. Kobayashi, The development of the esthetic orthodontic wire, Zairyo to Kankyo 51 (2002) 555–560.
- [9] I.-H. Kim, H.-S. Park, Y.K. Kim, K.-H. Kim, T.-Y. Kwon, Comparative short-term in vitro analysis of mutans streptococci adhesion on esthetic, nickel-titanium, and stainless-steel arch wires, Angle Orthodontist 84 (4) (2014) 680–686.
- [10] J.H. Chang, D.W. Berzins, J.E. Pruszynski, R.W. Ballard, The effect of water storage on the bending properties of esthetic, fiber-reinforced composite orthodontic archwires, Angle Orthodontist 84 (3) (2014) 417–423.
- [11] C.K. Chang, K. Foong, N.H. Gandedkar, Y.H. Chan, C.L. Chew, A new esthetic fiber-reinforced polymer composite resin archwire: a comparative atomic force microscope (AFM) and field-emission scanning electron microscope (FESEM) study, Progress in Orthodontics 15 (2014) 39.
- [12] J. Spendlove, D.W. Berzins, J.E. Pruszynski, R.W. Ballard, Investigation of force decay in aesthetic, fibre-reinforced composite orthodontic archwires, European Journal of Orthodontics 37 (1) (2015) 43–48.
- [13] D.L. Da Silva, C.T. Mattos, M.V. De Araújo, A.C. De Oliveira Ruellas, Color stability and fluorescence of different orthodontic esthetic archwires, Angle Orthodontist 83 (1) (2013) 127–132.
- [14] S.M. Hammad, E.E. Al-Wakeel, E. Gad, Mechanical properties and surface characterization of translucent composite wire following topical fluoride treatment, Angle Orthodontist 82 (1) (2012) 8–13.
- [15] R.W. Ballard, N.K. Sarkar, M.C. Irby, P.C. Armbruster, D.W. Berzins, Three-point bending test comparison of fiber-reinforced composite archwires to nickel-titanium archwires, Orthodontics (Chic.) 13 (1) (2012) 46–51.
- [16] K.F. Lim, K.K. Lew, S.L. Toh, Bending stiffness of two aesthetic orthodontic archwires: an in vitro comparative study, Clinical Materials 16 (2) (1994) 63–71.
- [17] Y. Tanimoto, T. Inami, M. Yamaguchi, N. Nishiyama, K. Kasai, Preparation, mechanical, and in vitro properties of glass fiber-reinforced polycarbonate composites for orthodontic application, Journal of Biomedical Material Research, Part B, Applied Biomaterials 103 (4) (2015) 743–750.
- [18] T. Inami, Y. Tanimoto, N. Minami, M. Yamaguchi, K. Kasai, Color stability of laboratory glass-fiber-reinforced plastics for esthetic orthodontic wires, Korean Journal of Orthodontics 45 (3) (2015) 130–135.
- [19] T. Inami, Y. Tanimoto, M. Yamaguchi, Y. Shibata, N. Nishiyama, K. Kasai, Surface topography, hardness, and frictional properties of GFRP for esthetic orthodontic wires, Journal of Biomedical Material Research, Part B, Applied Biomaterials 104 (1) (2016) 88–95.
- [20] M. Maekawa, Z. Kanno, T. Wada, T. Hongo, H. Doi, T. Hanawa, T. Ono, M. Uo, Mechanical properties of orthodontic wires made of super engineering plastic, Dental Material Journal 34 (1) (2015) 114–119.
- [21] J.C. Varela, M. Velo, E. Espinar, J.M. Llamas, E. Rúperez, J.M. Manero, F. Javier Gil, Mechanical properties of a new thermoplastic polymer orthodontic archwire, Material Science and Engineering C: Material for Biological Applications 42 (2014) 1–6.
- [22] J.A. Goldberg, S.A. Liebler, C.J. Burstone, Viscoelastic properties of an aesthetic translucent orthodontic wire, European Journal of Orthodontics 33 (6) (2011) 673–678.
- [23] V. Cacciafesta, M.F. Sfondrini, A. Lena, A. Scribante, P.K. Vallittu, L.V. Lassila, Force levels of fiber-reinforced composites and orthodontic stainless steel wires: a 3-point bending test, American Journal of Orthodontics and Dentofacial Orthopeadics 133 (3) (2008) 410–413.
- [24] Z.M. Huang, R. Gopal, K. Fujihara, S. Ramakrishna, P.L. Loh, W.C. Foong, V.K. Ganesh, C.L. Chew, Fabrication of a new composite orthodontic archwire and validation by a bridging micromechanics model, Biomaterials 24 (17) (2003) 2941– 2953.
- [25] N. Suwa, F. Watari, S. Yamagata, J. Iida, M. Kobayashi, Static-dynamic friction transition of FRP esthetic orthodontic wires on various brackets by suspension-type friction test, Journal of Biomedical Material Research Part B: Applied Biomaterials 67 (2) (2003) 765–771.
- [26] S.W. Zufall, R.P. Kusy, Stress relaxation and recovery behavior of composite orthodontic archwires in bending, European Journal of Orthodontics 22 (1) (2000) 1–12.
- [27] T. Imai, F. Watari, S. Yamagata, M. Kobayashi, K. Nagayama, Y. Toyoizumi, S. Nakamura, Mechanical properties and aesthetics of FRP orthodontic wire fabricated by hot drawing, Biomaterials 19 (23) (1998) 2195–2200.
- [28] T. Imai, S. Yamagata, F. Watari, M. Kobayashi, K. Nagayama, H. Toyoizumi, M. Uga, S. Nakamura, Temperature- dependence of the mechanical properties of FRP orthodontic wire, Dental Materials Journal 18 (2) (1999) 167– 175.
- [29] T. Imai, F. Watari, S. Yamagata, M. Kobayashi, K. Nagayama, S. Nakamura, Effects of water immersion on mechanical properties of new esthetic orthodontic wire, American Journal of Orthodontics and Dentofacial Orthopaedics 116 (5) (1999) 533–538.
- [30] F. Watari, S. Yamagata, T. Imai, S. Nakamura, M. Kobayashi, The fabrication and properties of aesthetic FRP wires for use in orthodontics, Journal of Material Science 33 (23) (1998) 5661–5664.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2a8216a9-a3fc-49e9-a99c-2b49c42c1ad4