Vojnosanitetski pregled 2022 Volume 79, Issue 4, Pages: 400-404
https://doi.org/10.2298/VSP191206116S
Full text (
283 KB)
Challenges, standards and prospects in the therapy of orthodontic traction of impacted maxillary canine: A surgical phase
Selaković Jovana (University of Novi Sad, Faculty of Medicine, Clinic for Dentistry of Vojvodina, Novi Sad, Serbia)
Mirković Siniša (University of Novi Sad, Faculty of Medicine, Clinic for Dentistry of Vojvodina, Novi Sad, Serbia)
Drobac Milan 
(University of Novi Sad, Faculty of Medicine, Clinic for Dentistry of Vojvodina, Novi Sad, Serbia), milan.drobac@mf.uns.ac.rs
Petrović Đorđe (University of Novi Sad, Faculty of Medicine, Clinic for Dentistry of Vojvodina, Novi Sad, Serbia)
Vučinić Predrag (University of Novi Sad, Faculty of Medicine, Clinic for Dentistry of Vojvodina, Novi Sad, Serbia)
Ivić Stojan (University of Novi Sad, Faculty of Medicine, Clinic for Dentistry of Vojvodina, Novi Sad, Serbia)
Keywords: adhesives, cuspid, oral surgical procedures, orthodontics, tooth, impacted
Show references
Proffit WR, Fields HW, Jr. Sarver DM. Orthodontics. 4th ed. Zagreb: Slap; 2009. (translation into Croatian)
Liversidge HM. Tooth eruption and timing. In: Irish JD, Scott GR, editors. A companion to dental anthropology. Hoboken, New Jersey: John Wiley & Sons, 2015. p. 159-71.
Simić S, Pavlović J, Nikolić PV, Vujačić A, Vukičević V, Jovanović R. The prevalence of peg-shaped and missing lateral incisors with maxillary impacted canines. Vojnosanit Pregl 2019; 76(1): 61-6.
Becker A, Chaushu S. Etiology of maxillary canine impaction: a review. Am J Orthod Dentofacial Orthop 2015; 148(4): 557-67.
Becker A. Orthodontic Treatment of Impacted Teeth. 3rd ed. Oxford (United Kingdom): Wiley-Blackwell; 2012.
Mason C, Papadakou P, Roberts GJ. The radiographic localization of impacted maxillary canines: a comparison of methods. Eur J Orthod 2001; 23(1): 25-34.
Al Fawzan AA, Alruwaithi M, Alsadoon S. Prevalence of Maxillary Canine Impaction in Orthodontics At Eastern Riyadh Specialized Dental Center. IOSR J Dent Med Sci 2017; 16(1) 72-4.
Naoumova J, Kürol J, Kjellberg H. Extraction of the deciduous canine as an interceptive treatment in children with palatally displaced canines - part II: possible predictors of success and cutoff points for a spontaneous eruption. Eur J Orthod 2015; 37(2): 219-29.
Hunt NP. Direct traction applied to unerupted teeth using the acid-etch technique. Br J Orthod 1977; 4(4): 211-2.
McBride LJ. Traction - a surgical/orthodontic procedure. Am J Orthod 1979; 76(3): 287-99.
Chaushu S, Kaczor-Urbanowicz K, Zadurska M, Becker A. Predisposing factors for severe incisor root resorption associated with impacted maxillary canines. Am J Orthod Dentofacial Orthop 2015; 147(1): 52-60.
Sheth S. A Comparison of Radiation Dose Absorbed During Localization of Bilateral Impacted Canines: Periapical Radiographic Techniques Versus Small-Volume Cone Beam Computed Tomography [dissertation]. New York: Stony Brook University, School of Dental Medicine; 2018.
Ericson S, Kurol J. Early treatment of palatally erupting maxillary canines by extraction of the primary canines. Ericson S, Kurol J. Early treatment of palatally erupting maxillary canines by extraction of the primary canines. Eur J Orthod 1988; 10(4): 283-95.
Liuk IW, Olive RJ, Griffin M, Monsour P. Maxillary lateral incisor morphology and palatinally displaced canines: A case-controlled cone-beam volumetric topography study. Am J Dentofacial Orthop 2013; 143(4): 522-6.
Mihailović B, Duka M, Lazić Z, Mladenović D, Vujičić B, Miladinović M. Computer-aided technologies in diagnostics and therapy of impacted teeth. Vojnosanit Pregl 2011; 68(4): 353-8. (Serbian)
Majstorović NV, Živković SP, Glišić BR. Dental arch monitoring by splines fitting error during orthodontic treatment using 3D digital models. Vojnosanit Pregl 2019; 76(3): 233-40.
Ramegowda S, Khillon N. Evaluation and assessment of maxillary lateral incisor in cases of palatally impacted canines - A CBCT Study. Indian J Orthodontic Dentofac Res 2016; 2(2): 39-42.
Yerragudi NVM, Prabhu TV, Mendonca N. Use of cone beam computed tomography in the preoperative evaluation of impacted teeth: a prospective study. Int J Sci Res 2019; 8(6): 30-3.
Kokich VG, Mathews DP. Orthodontic and surgical therapy of impacted canines. Zagreb: Quinressence Publishing Co; 2014. (Croatian)
Mirković S, Šarčev I, Bajkin B, Tadić A, Đurđević Mirković T. Orthodontic-surgical therapy of retained upper canine. Med Pregl 2012; 65(5-6): 233-7. (Serbian)
Becker A, Zogakis I, Luchian I, Chaushu S. Surgical exposure of impacted canines: Open or closed surgery? Semin Orthod 2016; 22(1): 27-33.
Becker A, Chaushu S. Surgical treatment of impacted canines: what the orthodontist would like the surgeon to know. Oral Maxillofac Surg Clin North Am 2015; 27(3): 449-58.
Frazier-Bowers SA, Long S, Tucker M. Primary failure of eruption and other eruption disorders - Considerations for management by the orthodontist and oral surgeon. Semin Orthod 2016; 22(1): 34-44.
Becker A, Abramovitz I, Chaushu S. Failure of treatment of impacted canines associated with invasive cervical root resorption. Angle Orthod 2013; 83(5): 870-6.
Miletić V, Santini A. Dental adhesive systems. Belgrade: Faculty of Dentistry, University of Belgrade; 2012. (Serbian)
Varga S, Šlaj M. New/Modern Adhesive Systems in Orthodontics. Acta Stomat Croat 2005; 39(4): 465-70. (Croatian)
Olsen MB. The effect of phosphoric acid etch in conjuction with self-etching primer on enamel surfaces and resultant or thodontic bracket bond strength. [dissertation]. Kansas City, USA: University of Missouri, School of Dentistry; 2013.
Cantanhede de Sá RB, Oliveira Carvalho A, Puppin-Rontani RM, Ambrosano GM, Nikaido T, Tagami J, et al. Effects of water storage on bond strength and dentin sealing ability promoted by adhesive systems. J Adhes Dent 2012; 14(6): 543-9.
Van Meerbeek B, De Munck J, Yoshida Y, Inoue S, Vargas M, Vijay P, et al. Adhesion to Enamel and Dentin. Operat Dent 2003; 28(3): 215-35.
Blanchard PY, Kerbrat JB, Paulus C, Saint-Pierre F. Management of impacted cuspid - July 2015. Rev Stomatol Chir Maxillofac Chir Orale 2015; 116(6): 331-5. (French)
Hattar S, Hatamleh MM, Sawair F, Al-Rabab'ah M. Bond strength of self-adhesive resin cements to tooth structure. Saudi Dent J 2015; 27(2): 70-4.
Cobanoglu N, Unlu N, Ozer FF, Blatz MB. Bond Strength of Self-etch Adhesives After Saliva Contamination at Different Application Steps. Oper Dent 2013; 38(5): 505-11.
Prasad M, Mohamed S, Nayak K, Shetty SK, Talapaneni AK. Effect of moisture, saliva, and blood contamination on the shear bond strength of brackets bonded with a conventional bonding system and self-etched bonding system. J Nat Sci Biol Med 2014; 5(1): 123-9.
Oonsombat C, Bishara SE, Ajoluni R. The effect of blood contamination on the shear bond strength of orthodontic brackets with the use of a new self-etch primer. Am J Orthod Dentofacial Orthop 2003; 123(5): 547-50.
Sfondrini MF, Cacciafesta V, Scribante A, De Angelis M, Klersy C. Effect of blood contamination on shear bond strength of brackets bonded with conventional and self-etching primers. Am J Orthod Dentofacial Orthop 2004; 125(3): 357-60.
Kirihara M, Inoue G, Nikaido T, Ikeda M, Sadr A, Tagami J. Effect of fluoride concentration in adhesives on morphology of acid-base resistant zones. Dent Mater J 2013; 32: 578-84.
Ansari MY, Agarwal DK, Gupta A, Bhattacharya P, Ansar J, Bhandari R. Shear Bond Strength of Ceramic Brackets with Different Base Designs: Comparative In-vitro Study. J Clin Diagn Res 2016; 10(11): ZC64-ZC68.
Vera C. Use of microscrews in the traction of impacted maxillary canines. Rev Estomatol Altiplano 2017; 4(1): 11-8. (Spanish)