Araştırma Makalesi
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Evaluation of the effects of preform arch wires on dental arch by 3D model analysis

Yıl 2021, Cilt: 38 Sayı: 3, 75 - 80, 01.09.2021
https://doi.org/10.17214/gaziaot.789600

Öz

Objective: The aim of this study was to evaluate the effects of preform arch wires used in fixed orthodontic treatments on the lower and upper dental arch-forms with three-dimensional (3D) model analysis.

Materials and Method: This study consisted of pre-treatment (T0) and post-treatment (T1) dental models of 46 patients who had minimal anterior crowding (approximately 3 mm) on the lower and upper arch, and treated in Gazi University, Faculty of Dentistry, Department of Orthodontics. Dental models were scanned using 3Shape R700 3D Scanner and the data was imported into the 3Shape ortho analyzer software program in the form of STL image files. Upper and lower inter-canine, inter-1. bicuspid, inter-2. bicuspid, inter-molar distances, canine and molar depth measurements were performed. Calculation of the area for maxilla was measured between the mucogingival junction of all teeth and the distal points of the 1st molar teeth. Kolmogorov-Smirnov test was used to check the normality. Descriptive statistics were presented as means and standard deviations. Paired t-test was used to compare two dependent groups. The level of significance was taken as 0.05.


Results:
Significant increases were observed in all parameters except canine depth in the maxilla and inter-canine width during treatment. The highest increase in the maxilla was observed in the inter-1. bicuspid with a value of 2.6 mm (p<0.001). On the other hand, the highest increase in the mandible was observed in the inter-2. bicuspid dimension with a value of 2.45 mm (p<0.001). The increase in maxillary area was significant with an average of 81.69 mm2 (p<0.001). The increase in molar depth was determined as 0.5 mm for both maxilla and mandible (p<0.001).

Conclusion: Ni-Ti leveling arches, which are selected in accordance with the pre-treatment arch form of the patients, cause significant increases in the transversal direction in both the maxilla and mandible.

Kaynakça

  • Ricketts RM. A detailed consideration of the line of occlusion. Angle Orthod 1978;48:274-82.
  • Felton JM, Sinclair PM, Jones DL, Alexander RG. A computerized analysis of the shape and stability of mandibular arch form. Am J Orthod Dentofacial Orthop 1987;92:478-83.
  • Raberin M, Laumon B, Martin JL, Brunner F. Dimensions and form of dental arches in subjects with normal occlusions. Am J Orthod Dentofacial Orthop 1993;104:67-72.
  • Knoot B. Longitudinal study of dental arch widths at four stage of dentition. Angle orthod 1972;42:387-94.
  • Braun S, Hnat WP, Leschinsky R, Legan HL. An evaluation of the shape of some popular nickel titanium alloy preformed arch wires. Am J Orthod Dentofacial Orthop 1999;116:1-12.
  • Oda S, Arai K, Nakahara R. Commercially available archwire forms compared with normal dental arch forms in a Japanese population. Am J Orthod Dentofacial Orthop 2010;137:520-7.
  • Braun S, Hnat WP, Fender DE, Legan HL. The form of the human dental arch. Angle Orthod 1998;68:29-36.
  • Triviño T, Siqueira DF, Scanavini MA. A new concept of mandibular dental arch forms with normal occlusion. Am J Orthod Dentofacial Orthop 2008;133:15-22.
  • Germec-Cakan D, Taner TU, Akan S. Arch-width and perimeter changes in patients with borderline Class I malocclusion treated with extractions or without extractions with air-rotor stripping. Am J Orthod Dentofacial Orthop 2010;137:731-7.
  • Cho MY, Choi JH, Lee SP, Baek SH. Three-dimensional analysis of the tooth movement and arch dimension changes in Class I malocclusions treated with first premolar extractions: a guideline for virtual treatment planning. Am J Orthod Dentofacial Orthop 2010;138:747-57.
  • Kook YA, Nojima K, Moon HB, McLaughlin RP, Sinclair PM. Comparison of arch forms between Korean and North American white populations. Am J Orthod Dentofacial Orthop 2004;126:680-6.
  • Kim KY, Bayome M, Kim K, Han SH, Kim Y, Baek SH, et al. Three-dimensional evaluation of the relationship between dental and basal arch forms in normal occlusion. Korean J Orthod 2011;41: 288-96.
  • Akyalcin S, Erdinc AE, Dincer B, Nanda RS. Do long-term changes in relative maxillary arch width affect buccal-corridor ratios in extraction and nonextraction treatment? Am J Orthod Dentofacial Orthop 2011;139:356-61.
  • Herzog C, Konstantonis D, Konstantoni N, Eliades T. Arch-width changes in extraction vs nonextraction treatments in matched Class I borderline malocclusions. Am J Orthod Dentofacial Orthop 2017;151:735-43.
  • Kim E, Gianelly AA. Extraction vs nonextraction: arch widths and smile esthetics. Angle Orthod 2003;73:354-8.
  • Sousa MV, Vasconcelos EC, Janson G, Garib D, Pinzan A. Accuracy and reproducibility of 3-dimensional digital model measurements. Am J Orthod Dentofacial Orthop 2012;142:269-73.
  • Verma RK, Singh SP, Verma S, Kumar V, Bhupali NR, Arora S. Comparison of reliability, validity, and accuracy of linear measurements made on pre-and posttreatment digital study models with conventional plaster study models. J Orthodont Sci 2019;8:18.
  • Andrews LF, Andrews WA. The syllabus of the Andrews orthodontic philosophy. 9th ed. San Diego, CA: L.F. Andrews Foundation; 2001.
  • Strang RHW. Factors associated with successful orthodontic treatment. Am J Orthod 1952:38;790-800.
  • Interlandi S. New method for establishing arch form. J Clin Orthod 1978;12:843-5.
  • Boley JC, Mark JA, Sachdeva RC, Buschang PH. Long-term stability of Class I premolar extraction treatment. Am J Orthod Dentofacial Orthop 2003;124:277-87.
  • de la Cruz A, Sampson P, Little RM, Artun J, Shapiro PA. Long-term changes in arch form after orthodontic treatment and retention. Am J Orthod Dentofacial Orthop 1995;107:518-30.
  • Benkli YA, Büyük SK, Koşgin S. Alt çene ön bölge çapraşıklığa sahip olgularda iki farklı braket sisteminin kısa dönem etkilerinin değerlendirilmesi. Yeditepe J Dent 2019;15(2):152-8.
  • Generali C, Primozic J, Richmond S, Bizzarro M, Flores-Mir C, Ovsenik M, et al. Three-dimensional evaluation of the maxillary arch and palate in unilateral cleft lip and palate subjects using digital dental casts. Eur J Orthod 2017;39:641-5.
  • Primožič J, Perinetti G, Richmond S, Ovsenik M. Three-dimensional longitudinal evaluation of palatal vault changes in growing subjects. Angle Orthod 2012;82:632-6.
  • Primožič J, Perinetti G, Contardo L, Ovsenik M. Diagnostic performance of 3-dimensional evaluation of palatal vault changes in assessing successful treatment of constricted maxilla in growing subjects. Am J Orthod Dentofacial Orthop 2013;143:42-9.
  • Bizzarro M, Generali C, Maietta S, Martorelli M, Ferrillo M, Flores-Mir C, et al. Association between 3D palatal morphology and upper arch dimensions in buccally displaced maxillary canines early in mixed dentition. Eur J Orthod 2018;40:592-6.

Preform ark tellerinin dental arklar üzerine etkilerinin 3D model analizi ile değerlendirilmesi

Yıl 2021, Cilt: 38 Sayı: 3, 75 - 80, 01.09.2021
https://doi.org/10.17214/gaziaot.789600

Öz

Amaç: Çalışmanın amacı, sabit ortodontik tedavilerde kullanılan prefabrik ark tellerinin maksiller ve mandibular çene dental ark formu üzerine etkilerinin 3-boyutlu (3D) olarak değerlendirilmesidir.

Gereç ve Yöntem: Çalışmaya Gazi Üniversitesi Diş Hekimliği Fakültesi Ortodonti Anabilim Dalında tedavi görmüş maksilla ve mandibulada yaklaşık 3 mm olmak üzere minimal çapraşıklığa sahip olan 46 bireyin tedavi başı (T0) ve tedavi sonu (T1) dental modelleri dahil edildi. Dental alçı modelleri 3Shape R700 3D Scanner ile taranarak STL görüntü dosyaları şeklinde, 3Shape ortho analyzer software programına aktarıldı. 3D görüntüler üzerinde maksilla ve mandibula için inter-kanin, inter-1. premolar, inter-2. premolar, inter-molar mesafeler, kanin derinliği, molar derinliği ölçümleri yapıldı. Maksilla için ayrıca alan hesaplanması tüm dişlerin mukogingival birleşim hattı ile distalde 1. molar dişlerin distal noktaları arasındaki alan için yapıldı. Normallik varsayımının incelenmesinde Kolmogorov-Smirnov testi kullanıldı. Tanımlayıcı istatistikler, ortalama ve standart sapmalar şeklinde sunuldu. Bağımlı iki grubun karşılaştırılmasında eşleştirilmiş t-testi kullanıldı. Anlamlılık düzeyi için sınır 0.05 olarak alındı.

Bulgular: Maksillada kanin derinliği, mandibulada ise inter-kanin genişlik haricinde tüm değerlerde tedavi ile anlamlı artışlar görüldü. Maksillada en fazla artış 2.6 mm ile 1.premolar dişler arasında izlenirken, mandibulada 2.45 mm ile 2.premolar dişler arasında izlendi (p<0.001). Maksiller alan artışı ise ortalama 81.69 mm2 ile anlamlı bulundu (p<0.001). Molar derinlik artışı hem maksilla hem de mandibula için 0.5 mm olarak tespit edildi (p<0.001).

Sonuç: Hastaların tedavi başı ark formuna uygun olarak seçilen Ni-Ti seviyeleme arkları hem maksilla hem de mandibulada transversal yönde anlamlı artışlara sebep olmaktadır.

Kaynakça

  • Ricketts RM. A detailed consideration of the line of occlusion. Angle Orthod 1978;48:274-82.
  • Felton JM, Sinclair PM, Jones DL, Alexander RG. A computerized analysis of the shape and stability of mandibular arch form. Am J Orthod Dentofacial Orthop 1987;92:478-83.
  • Raberin M, Laumon B, Martin JL, Brunner F. Dimensions and form of dental arches in subjects with normal occlusions. Am J Orthod Dentofacial Orthop 1993;104:67-72.
  • Knoot B. Longitudinal study of dental arch widths at four stage of dentition. Angle orthod 1972;42:387-94.
  • Braun S, Hnat WP, Leschinsky R, Legan HL. An evaluation of the shape of some popular nickel titanium alloy preformed arch wires. Am J Orthod Dentofacial Orthop 1999;116:1-12.
  • Oda S, Arai K, Nakahara R. Commercially available archwire forms compared with normal dental arch forms in a Japanese population. Am J Orthod Dentofacial Orthop 2010;137:520-7.
  • Braun S, Hnat WP, Fender DE, Legan HL. The form of the human dental arch. Angle Orthod 1998;68:29-36.
  • Triviño T, Siqueira DF, Scanavini MA. A new concept of mandibular dental arch forms with normal occlusion. Am J Orthod Dentofacial Orthop 2008;133:15-22.
  • Germec-Cakan D, Taner TU, Akan S. Arch-width and perimeter changes in patients with borderline Class I malocclusion treated with extractions or without extractions with air-rotor stripping. Am J Orthod Dentofacial Orthop 2010;137:731-7.
  • Cho MY, Choi JH, Lee SP, Baek SH. Three-dimensional analysis of the tooth movement and arch dimension changes in Class I malocclusions treated with first premolar extractions: a guideline for virtual treatment planning. Am J Orthod Dentofacial Orthop 2010;138:747-57.
  • Kook YA, Nojima K, Moon HB, McLaughlin RP, Sinclair PM. Comparison of arch forms between Korean and North American white populations. Am J Orthod Dentofacial Orthop 2004;126:680-6.
  • Kim KY, Bayome M, Kim K, Han SH, Kim Y, Baek SH, et al. Three-dimensional evaluation of the relationship between dental and basal arch forms in normal occlusion. Korean J Orthod 2011;41: 288-96.
  • Akyalcin S, Erdinc AE, Dincer B, Nanda RS. Do long-term changes in relative maxillary arch width affect buccal-corridor ratios in extraction and nonextraction treatment? Am J Orthod Dentofacial Orthop 2011;139:356-61.
  • Herzog C, Konstantonis D, Konstantoni N, Eliades T. Arch-width changes in extraction vs nonextraction treatments in matched Class I borderline malocclusions. Am J Orthod Dentofacial Orthop 2017;151:735-43.
  • Kim E, Gianelly AA. Extraction vs nonextraction: arch widths and smile esthetics. Angle Orthod 2003;73:354-8.
  • Sousa MV, Vasconcelos EC, Janson G, Garib D, Pinzan A. Accuracy and reproducibility of 3-dimensional digital model measurements. Am J Orthod Dentofacial Orthop 2012;142:269-73.
  • Verma RK, Singh SP, Verma S, Kumar V, Bhupali NR, Arora S. Comparison of reliability, validity, and accuracy of linear measurements made on pre-and posttreatment digital study models with conventional plaster study models. J Orthodont Sci 2019;8:18.
  • Andrews LF, Andrews WA. The syllabus of the Andrews orthodontic philosophy. 9th ed. San Diego, CA: L.F. Andrews Foundation; 2001.
  • Strang RHW. Factors associated with successful orthodontic treatment. Am J Orthod 1952:38;790-800.
  • Interlandi S. New method for establishing arch form. J Clin Orthod 1978;12:843-5.
  • Boley JC, Mark JA, Sachdeva RC, Buschang PH. Long-term stability of Class I premolar extraction treatment. Am J Orthod Dentofacial Orthop 2003;124:277-87.
  • de la Cruz A, Sampson P, Little RM, Artun J, Shapiro PA. Long-term changes in arch form after orthodontic treatment and retention. Am J Orthod Dentofacial Orthop 1995;107:518-30.
  • Benkli YA, Büyük SK, Koşgin S. Alt çene ön bölge çapraşıklığa sahip olgularda iki farklı braket sisteminin kısa dönem etkilerinin değerlendirilmesi. Yeditepe J Dent 2019;15(2):152-8.
  • Generali C, Primozic J, Richmond S, Bizzarro M, Flores-Mir C, Ovsenik M, et al. Three-dimensional evaluation of the maxillary arch and palate in unilateral cleft lip and palate subjects using digital dental casts. Eur J Orthod 2017;39:641-5.
  • Primožič J, Perinetti G, Richmond S, Ovsenik M. Three-dimensional longitudinal evaluation of palatal vault changes in growing subjects. Angle Orthod 2012;82:632-6.
  • Primožič J, Perinetti G, Contardo L, Ovsenik M. Diagnostic performance of 3-dimensional evaluation of palatal vault changes in assessing successful treatment of constricted maxilla in growing subjects. Am J Orthod Dentofacial Orthop 2013;143:42-9.
  • Bizzarro M, Generali C, Maietta S, Martorelli M, Ferrillo M, Flores-Mir C, et al. Association between 3D palatal morphology and upper arch dimensions in buccally displaced maxillary canines early in mixed dentition. Eur J Orthod 2018;40:592-6.
Toplam 27 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Diş Hekimliği
Bölüm Özgün Araştırma Makalesi
Yazarlar

Gamze Metin Gürsoy

Sevil Akkaya

Yayımlanma Tarihi 1 Eylül 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 38 Sayı: 3

Kaynak Göster

APA Metin Gürsoy, G., & Akkaya, S. (2021). Preform ark tellerinin dental arklar üzerine etkilerinin 3D model analizi ile değerlendirilmesi. Acta Odontologica Turcica, 38(3), 75-80. https://doi.org/10.17214/gaziaot.789600
AMA Metin Gürsoy G, Akkaya S. Preform ark tellerinin dental arklar üzerine etkilerinin 3D model analizi ile değerlendirilmesi. Acta Odontol Turc. Eylül 2021;38(3):75-80. doi:10.17214/gaziaot.789600
Chicago Metin Gürsoy, Gamze, ve Sevil Akkaya. “Preform Ark Tellerinin Dental Arklar üzerine Etkilerinin 3D Model Analizi Ile değerlendirilmesi”. Acta Odontologica Turcica 38, sy. 3 (Eylül 2021): 75-80. https://doi.org/10.17214/gaziaot.789600.
EndNote Metin Gürsoy G, Akkaya S (01 Eylül 2021) Preform ark tellerinin dental arklar üzerine etkilerinin 3D model analizi ile değerlendirilmesi. Acta Odontologica Turcica 38 3 75–80.
IEEE G. Metin Gürsoy ve S. Akkaya, “Preform ark tellerinin dental arklar üzerine etkilerinin 3D model analizi ile değerlendirilmesi”, Acta Odontol Turc, c. 38, sy. 3, ss. 75–80, 2021, doi: 10.17214/gaziaot.789600.
ISNAD Metin Gürsoy, Gamze - Akkaya, Sevil. “Preform Ark Tellerinin Dental Arklar üzerine Etkilerinin 3D Model Analizi Ile değerlendirilmesi”. Acta Odontologica Turcica 38/3 (Eylül 2021), 75-80. https://doi.org/10.17214/gaziaot.789600.
JAMA Metin Gürsoy G, Akkaya S. Preform ark tellerinin dental arklar üzerine etkilerinin 3D model analizi ile değerlendirilmesi. Acta Odontol Turc. 2021;38:75–80.
MLA Metin Gürsoy, Gamze ve Sevil Akkaya. “Preform Ark Tellerinin Dental Arklar üzerine Etkilerinin 3D Model Analizi Ile değerlendirilmesi”. Acta Odontologica Turcica, c. 38, sy. 3, 2021, ss. 75-80, doi:10.17214/gaziaot.789600.
Vancouver Metin Gürsoy G, Akkaya S. Preform ark tellerinin dental arklar üzerine etkilerinin 3D model analizi ile değerlendirilmesi. Acta Odontol Turc. 2021;38(3):75-80.