The korean journal of orthodontics (대한치과교정학회지)

The Korean Association Of Orthodontists (대한치과교정학회)
권호 표지

A Study on the labial & buccal surface contour in Korean permanent teeth using three-dimensional laser scanning

3차원 레이저 스캐너를 이용한 한국인 영구치의 순, 협측 치관 굴곡도에 관한 연구

  • 고상덕 (고상덕 치과의원) ;
  • 차경석 (단국대학교 치과대학 교정학교실)
  • Published : 2002.08.01
Download PDF
⟨ Previous Next ⟩

Abstract

Of various factors indicated for effective use of straight wire appliances, there was a great lack of studies both domestic and international about the curvatures of tooth crowns. This study was performed to investigate the labio/buccal clinical crown curvatures of Korean permanent teeth. For this study, three-dimensional laser scanning was performed on 36 dental casts with normal anatomic structures. Andrews plane and Facial axis of clinical crown (FACC) were designated as horizontal and vertical reference planes respectively. 2 or 3 lines, 1mm apart, were drawn superior, inferior, left and right of these reference planes. A three-dimensional coordinate table was made for points formed by crossing these lines, and averages of each coordinate point on the 36 dental casts were obtained. The curvature equation was made using three-dimensional coordinate points (x,y,z) and by this curvature equation, the curve ratio of each tooth was obtained. Curve ratio changes of each section of teeth were calculated by curve ratios of simplified curves. These two dimensional curves were simplified horizontally and vertically Conclusions for this study are as follows. 1. The basic data of labial and buccal clinical crown curvatures were obtained about Korean permanent teeth. 2. No significant difference was found between male and females. 3. Individual tooth characteristics 1) In maxillary central incisors, the difference in the curve ratio between the gingival and incisal sides was greater than for the other teeth. And the gingival side showed a greater curve ratio. 2) Maxillary canines showed more curvatures in the mesio-occlusal surface than the other surfaces. 3) In maxillary $1^{st}$ premolars, more curvatures were found in mesio-occlusal and disto-gingival surface, thus showing a twisted crown surface, but in maxillary $2^{nd}$ premolars, the crown curvatures of mesial and distal ends became parallel to each other. 4) No significant difference in crown curvatures was found between mandibular central and lateral incisors. 5) Occluso-gingival curvatures of mandibular$2^{nd}$ premolar turned out to be more rounded than mandibular $1^{st}$ premolars or maxillary $2^{nd}$ premolars. From the above conclusions, it can be deduced that the same bracket bases can be used for mandibular central and lateral incisors. But for maxillary $1^{st}\;and\;2^{nd}$ premolars and for mandibular $1^{st}\;and\;2^{nd}$ premolars, because crown curvatures showed significant differences, when making bracket bases there is ample reason to make bracket base curves differently for each type of tooth.

스트레이트 와이어 장치의 효율적 운영을 위해서 제시되어야 할 여러 사항 중 치관의 굴곡도에 대한 연구는 국내, 외에서 매우 미흡하다. 이에 본 연구는 한국인 영구치의 순, 협측 임상치관 굴곡도를 조사하기 위해 시행되었다 이를 위해 정상적인 해부학적 구조를 갖고있는 구강 석고모형 36쌍을 대상으로 3차원 레이저 스캐닝 하였다. Andrews plane 과 Facial axis of clinical crown(FACC)을 각각 수평 , 수직 기준선으로 설정하고, 이들로부터 상, 하 방향과 좌, 우 방향으로 각각 1m간격으로 2개 혹은 3개씩의 선을 그었다. 이들 선이 교차하는 점들에 대한 3차원적 점 좌표를 만들어 놓고 36쌍 구강 석고모형의 각각 좌표점들의 평균을 구하였다 3차원 좌표 점(x,y,z)을 이용해 곡면 방정식을 만들어 각 치아의 곡률을 구하였고, 가로, 세로 각 방향의 2차원 곡선으로 단순화시킨 곡선에서의 곡률을 구하여 치아 부위마다의 곡률 변화를 계측하여 다음과 같은 결론을 얻었다. 1. 한국인 영구치 치관의 순, 협면 굴곡도의 기초자료를 얻었다. 2. 남, 녀 간에 치관 굴곡도 차이는 없었다. 3. 개개 치아의 치관 굴곡에 대한 특성 1) 상악 중절치에서 치은쪽과 절단면쪽의 곡률 차이가 다른 치아에 비해 심하였으며, 치은쪽이 더욱 심한 곡률을 보였다. 2) 상악 견치의 치관 굴곡도는 근심-절단면쪽의 굴곡이 다른면에 비해 더 심하였다. 3) 상악 제 1소구치에서는 근심-교합면쪽과 원심-치은쪽에서의 굴곡이 더 심하여 치관 표면의 굴곡이 대각선 방향으로 서로 뒤틀린 반면, 상악 제 2소구치에서는 근심 끝과 원심 끝의 치관 표면 굴곡이 비슷하여 서로 평행하게 나타났다. 4) 하악 중절치와 하악 측절치의 치관 굴곡도에는 유의한 차이가 없었다. 5) 하악 제 2소구치의 교합면-치은쪽으로의 굴곡이 하악 제 1소구치나 상악 제 2소구치에 비하여 더 둥근 것으로 나타났다. 이상의 결과로 볼 때, 하악 중절치와 측절치는 브라켓 베이스를 같게 해도 무방하다. 그러나 상악 제 1소구치와 제 2소구치, 그리고, 하악 제 1소구치와 제 2소구치는 치관 굴곡도에 차이가 있으므로 브라켓 제작시 베이스의 굴곡을 다르게 하여야 한다.

Keywords

References

  1. AngleEH. The latest and best in orthodontic mechanism. Dent Cosmos 1928 : 70 : 1143-58
  2. AngleEH The latest and best in orthodontic mechanism. Dent Cosmos 1929 : 71 : 260-70
  3. Tweed CH. Clinical orthodontics : Analysis of second order bends, St Louis: C V Mosby 1970: 174-9
  4. Holdaway RA. Bracket angulation as applied to the edgewise appliance. Angle Orthod 1952 : 22 : 227-36
  5. Jarabak JR. Development of a treatment plan in the light of one's concept of treatment objectives. Am J Orthod 1960 : 46 : 481-513 https://doi.org/10.1016/0002-9416(60)90054-3
  6. Jarabak JR. Technique and treatment with light wire edgewise appliance : Clinical significance of bracket angulation in light wire mechanics, St Louis : C V Mosby 1972 : 388-95
  7. Andrews LF, The straight-wire appliance: Origin, Controversy, Commentary. J Clin Orthod 1976 : 10 : 99-114
  8. Creekmore TD, Dr. Thomas D. Creekmore On torque. J Clin Orthod 1979 : 13 : 305-10
  9. Sebanc J, Brantley WA, Pincsak JJ, Conover JP. Variability of effective root torque as a function of edge bevel on orthodontic arch wires. Am J Orthod 1984 : 86 : 43-51 https://doi.org/10.1016/0002-9416(84)90275-6
  10. Nikolai RJ. Bioengineering analysis of orthodontic mechanics: Behavior of Orthodontic Wire in Bending, Philadelphia: Lea & Febiger, 1985 : 233-70
  11. Andrews LF. Straight wire : The concept and appliance, San Diego: KW-Publication 1986 : 25-33, 137-22
  12. Meyer M, Nelson G. Preadjusted edgewise appliance: Theory and practice. Am J Orthod 1978 : 73 : 485-98 https://doi.org/10.1016/0002-9416(78)90239-7
  13. Germane N, Benthly Be Jr, Isaacson RJ. The morphology of canines in relation to preadjusted appliances. Angle Orthop 1990 : 60 : 49-54
  14. Germane N, Benthly Be Jr, Isaacson RJ. Three biologic variables modifying faciolingual tooth angulation by straight-wire appliance. Am J Orthod Dentofac Orthop 1989 : 96 : 312-9 https://doi.org/10.1016/0889-5406(89)90350-8
  15. Bennett JC, McLaughlin RP. Orthodontic treatmentmechanics and the readjusted appliance, London: Mosby-Wolfe 1993 : 9-10
  16. Andrews LF. The six keys to normal occlusion. Am J Orthod 1972 : 62 : 296-309 https://doi.org/10.1016/S0002-9416(72)90268-0
  17. Bennett JC, Mclaughlin RP. Orthodontic management of the dentition with the preadjusted appliance: Bracket placement, Oxford: ISIS Medical Media. 1997 : 27-40
  18. Buonocore MG, Sheykholeslam Z, Glena R. Evaluation of and enamel adhesive to prevent marginal leakage: An in vitro study.J DentChild 1973 : 40 : 119-24
  19. Retief DR. A comparative study of three etchingsolutions: Effectson contact angle rate of etching and tensilebond strength. ASDC J Oral Rehabil 1974 : 381-90
  20. Buonocore MG. Adhesive retention and adhesive restorative materials. JADA 1963 : 67 : 382-91
  21. Dellinger EL. A scientific assessment of the straight-wire ppliance. Am J Orthod 1978 : 73 : 290-9 https://doi.org/10.1016/0002-9416(78)90135-5
  22. Vardimon AD, Lambertz W. Statistical evaluation of torque- angles in reference to straight-wire appliance(SWA) theories. Am J Orthod 1986 : 89 : 56-66 https://doi.org/10.1016/0002-9416(86)90112-0
  23. Alexander RG. The Alexander discipline: Contemporary concepts and hilosophies, Glendora:Ormco Corporation. 1986 : 119-33
  24. Lang RT, Sandrik Jr, Klapper I. Rotation of rectangular wire in rectangular molartube Park II, Pretorqued malar tubes.Am J Orthod 1982 : 81 : 22-31 https://doi.org/10.1016/0002-9416(82)90284-6
  25. Mclaughlin RP, Bennett JC. Bracket placement with the preadiusted appliance. J Clin Orthod 1995 : 29 : 302-11
  26. Ricketts RM et al. Bioprogressive therapy : Triple control biopro gressive, USA : Rocky mountain Orthodontics. 1979 : 305-12
  27. Root TL. The level anchorage system for correction of orthodontic malocclusion. Am J Orthod 1981 : 80 : 395-410 https://doi.org/10.1016/0002-9416(81)90174-3
  28. Root TL. The level anchorage system. In : Graber TM, Swain BF. Orthodontics current principles and techniques. St Louis : C V Mosby 1985 : 641-63
  29. RothRH. Five clinical evaluation of the Andrews straight wire appliance. J Clin Orthod 1976 : 10 : 836-50
  30. Roth RH. The straight wire appliance - 17 years later. J ClinOrthod 1987 : 21: 632-42
  31. 김상철, 남동석. Preformed Arch Wire 제작을 위한 한국인 정상 교합자 의 치열궁 형태에 관한 연구, 대치교정지 1984: 14: 93-101
  32. 김종성, 진근호, 홍성준. 한국인 정상교합자의 치관 경사도에 관한 임상 통계 학적 연구, 대치교정지 1992 : 22 : 715-33
  33. 박영철. 한국인의 Straight Wire Bracket형태에 관한 연구, 대치교정지 1991 : 21: 481-93
  34. 윤정진, 손병화. 정상교합자의 crown angulation에 관한 연구, 대치교정지 1986:16 : 123-65
  35. 이동주. Oriental Bracket, 대치교정지 1991 : 21: 495-500
  36. 장영일, 양원식, 나동석, 문성철. 한국형 교정치료용 Bracket의 개발에 관한 연구, 대치교정지 2000: 30 : 565-78
  37. Wheeler RC. Dental Anatomy, physiology and occlusion. Philadelphia, London, Toronto: W. B. Saunders. 1984: 135-298