Purpose: To analyze the ridge profile of the anterior maxilla using cone-beam computed tomography and to assess the clinical significance of the ridge profile by performing virtual implant placement.
Methods: Thirty-two cone-beam computed tomography scans of anterior maxillae were included. For each tooth, a vertical line was made along the longitudinal axis, and 3 horizontal lines at 1-, 3-, and 5-mm levels below the labial bone crest were drawn perpendicularly to the vertical reference. At these levels, the thickness of the alveolar ridge (RT), and the labial (LT) and palatal bone plate (PT) were measured. Then, virtual implant placement using standard and tapered implants was performed. A generalized linear mixed model was used for statistical analysis.
Results: The teeth were located labially based on the proportion of LT and PT with respect to RT. At the 1-mm level, the value of LT was between 1.0±0.4 mm for central incisors and 1.3±0.6 mm for canines. A large number of teeth had area(s) with less than 1-mm-thick labial bone between the 1- and 5-mm levels below the crest. The mean PT was generally thicker than the LT in all tooth types. The greatest mean value of labial concavity was observed for canines, compared to other tooth types. Men had a greater RT than did women, but had a comparable LT. Less apical fenestration was observed when tapered implants were used.
Conclusions: Most teeth in the anterior maxilla had a thin labial bone plate, with no significant difference between sexes. Tapered implants may be advantageous for the anterior maxilla.

1 Braut V, "Thickness of the anterior maxillary facial bone wall-a retrospective radiographic study using cone beam computed tomography" 31 : 125-131, 2011

2 Schroeder HE, "The periodontium" Springer 1986

3 Spray JR, "The influence of bone thickness on facial marginal bone response:stage 1 placement through stage 2 uncovering" 5 : 119-128, 2000

4 Chappuis V, "Soft tissue alterations in esthetic postextraction sites: a 3-dimensional analysis" 94 : 187S-193S, 2015

5 Hubar JS, "Quantification of the lamina dura" 59 : 997-1000, 1993

6 Tao R, "Investigation of sagittal root position in relation to the anterior maxillary alveolar bone: a cone-beam CT study in 300 cases with normal occlusion" 52 : 631-636, 2017

7 Grunder U, "Influence of the 3-D bone-to-implant relationship on esthetics" 25 : 113-119, 2005

8 Quirynen M, "Implant therapy: 40 years of experience" 66 : 7-12, 2014

9 Buser D, "Implant placement post extraction in esthetic single tooth sites:when immediate, when early, when late?" 73 : 84-102, 2017

10 Testori T, "Implant placement in the esthetic area: criteria for positioning single and multiple implants" 77 : 176-196, 2018

11 Kan JY, "Immediate implant placement and provisionalization of maxillary anterior single implants" 77 : 197-212, 2018

12 Arora H, "Immediate and early implant placement in single-tooth gaps in the anterior maxilla: a prospective study on ridge dimensional, clinical, and aesthetic changes" 29 : 1143-1154, 2018

13 Zekry A, "Facial alveolar bone wall width - a cone-beam computed tomography study in Asians" 25 : 194-206, 2014

14 Kan JY, "Effects of the facial osseous defect morphology on gingival dynamics after immediate tooth replacement and guided bone regeneration: 1-year results" 65 : 13-19, 2007

15 Avila-Ortiz G, "Effect of alveolar ridge preservation after tooth extraction: a systematic review and meta-analysis" 93 : 950-958, 2014

16 Araújo MG, "Dimensional ridge alterations following tooth extraction. An experimental study in the dog" 32 : 212-218, 2005

17 Januário AL, "Dimension of the facial bone wall in the anterior maxilla: a cone-beam computed tomography study" 22 : 1168-1171, 2011

18 Hämmerle CH, "Consensus statements and recommended clinical procedures regarding the placement of implants in extraction sockets" 19 (19): 26-28, 2004

19 Pascual A, "Comparison of periodontal biotypes between maxillary and mandibular anterior teeth: a clinical and radiographic study" 37 : 533-539, 2017

20 Kan JY, "Classification of sagittal root position in relation to the anterior maxillary osseous housing for immediate implant placement: a cone beam computed tomography study" 26 : 873-876, 2011

21 Lau SL, "Classification of maxillary central incisors-implications for immediate implant in the esthetic zone" 69 : 142-153, 2011

22 Schropp L, "Bone healing and soft tissue contour changes following single-tooth extraction: a clinical and radiographic 12-month prospective study" 23 : 313-323, 2003

23 Ramón Fuentes, "Assessment of buccal bone thickness of aesthetic maxillary region: a conebeam computed tomography study" 대한치주과학회 45 (45): 162-168, 2015

24 이승록, "Anthropometric analysis of maxillary anterior buccal bone of Korean adults using cone-beam CT" 대한치과보철학회 2 (2): 92-96, 2010

25 Zhang W, "Anterior maxilla alveolar ridge dimension and morphology measurement by cone beam computerized tomography (CBCT) for immediate implant treatment planning" 15 : 65-, 2015

26 Covani U, "Analysis of the pattern of the alveolar ridge remodelling following single tooth extraction" 22 : 820-825, 2011

27 El Nahass H, "Analysis of the dimensions of the labial bone wall in the anterior maxilla: a conebeam computed tomography study" 26 : e57-e61, 2015

28 Lee JS, "Alveolar ridge regeneration of damaged extraction sockets using deproteinized porcine versus bovine bone minerals: a randomized clinical trial" 20 : 729-737, 2018

29 Cha JK, "Alveolar ridge preservation in the posterior maxilla reduces vertical dimensional change: a randomized controlled clinical trial" 30 : 515-523, 2019

30 Chen ST, "A prospective clinical study of non-submerged immediate implants:clinical outcomes and esthetic results" 18 : 552-562, 2007

31 Atcharee Bulyalert, "A novel classification of anterior alveolar arch forms and alveolar bone thickness: A conebeam computed tomography study" 대한영상치의학회 48 (48): 191-199, 2018