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http://dx.doi.org/10.5624/isd.2018.48.2.111

Linear accuracy of cone-beam computed tomography and a 3-dimensional facial scanning system: An anthropomorphic phantom study  

Oh, Song Hee (Department of Oral and Maxillofacial Radiology, Graduate School, Kyung Hee University)
Kang, Ju Hee (Department of Oral and Maxillofacial Radiology, Graduate School, Kyung Hee University)
Seo, Yu-Kyeong (Department of Oral and Maxillofacial Radiology, Graduate School, Kyung Hee University)
Lee, Sae Rom (Department of Oral and Maxillofacial Radiology, Graduate School, Kyung Hee University)
Choi, Hwa-Young (Department of Dental Hygiene, College of Health, Kyungwoon University)
Choi, Yong-Suk (Department of Oral and Maxillofacial Radiology, Graduate School, Kyung Hee University)
Hwang, Eui-Hwan (Department of Oral and Maxillofacial Radiology, Graduate School, Kyung Hee University)
Publication Information
Imaging Science in Dentistry / v.48, no.2, 2018 , pp. 111-119 More about this Journal
Abstract
Purpose: This study was conducted to evaluate the accuracy of linear measurements of 3-dimensional (3D) images generated by cone-beam computed tomography (CBCT) and facial scanning systems, and to assess the effect of scanning parameters, such as CBCT exposure settings, on image quality. Materials and Methods: CBCT and facial scanning images of an anthropomorphic phantom showing 13 soft-tissue anatomical landmarks were used in the study. The distances between the anatomical landmarks on the phantom were measured to obtain a reference for evaluating the accuracy of the 3D facial soft-tissue images. The distances between the 3D image landmarks were measured using a 3D distance measurement tool. The effect of scanning parameters on CBCT image quality was evaluated by visually comparing images acquired under different exposure conditions, but at a constant threshold. Results: Comparison of the repeated direct phantom and image-based measurements revealed good reproducibility. There were no significant differences between the direct phantom and image-based measurements of the CBCT surface volume-rendered images. Five of the 15 measurements of the 3D facial scans were found to be significantly different from their corresponding direct phantom measurements(P<.05). The quality of the CBCT surface volume-rendered images acquired at a constant threshold varied across different exposure conditions. Conclusion: These results proved that existing 3D imaging techniques were satisfactorily accurate for clinical applications, and that optimizing the variables that affected image quality, such as the exposure parameters, was critical for image acquisition.
Keywords
Imaging; Three-Dimensional; Dimensional Measurement Accuracy; Anthropometry; Cone-beam computed tomography;
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1 Swennen GR, Mollemans W, Schutyser F. Three-dimensional treatment planning of orthognathic surgery in the era of virtual imaging. J Oral Maxillfac Surg 2009; 67: 2080-92.   DOI
2 McNamara JA Jr. A method of cephalometric evaluation. Am J Orthod 1984; 86: 449-69.   DOI
3 Kau CH, Richmond S, Incrapera A, English J, Xia JJ. Threedimensional surface acquisition systems for the study of facial morphology and their application to maxillofacial surgery. Int J Med Robot 2007; 3: 97-110.   DOI
4 Swennen GR, Schutyser F. Three-dimensional cephalometry: spiral multi-slice vs cone-beam computed tomography. Am J Orthod Dentofacial Orthop 2006; 130: 410-6.   DOI
5 Silva MA, Wolf U, Heinicke F, Bumann A, Visser H, Hirsch E. Cone-beam computed tomography for routine orthodontic treatment planning: a radiation dose evaluation. Am J Orthod Dentofacial Orthop 2008; 133: 640. e1-5.
6 Li G, Wei J, Wang X, Wu G, Ma D, Wang B, et al. Three-dimensional facial anthropometry of unilateral cleft lip infants with a structured light scanning system. J Plast Reconstr Aesthet Surg 2013; 66: 1109-16.   DOI
7 Weinberg SM, Naidoo S, Govier DP, Martin RA, Kane AA, Marazita ML. Anthropometric precision and accuracy of digital three-dimensional photogrammetry: comparing the Genex and 3dMD imaging systems with one another and with direct anthropometry. J Craniofac Surg 2006; 17: 477-83.   DOI
8 Nahm KY, Kim Y, Choi YS, Lee J, Kim SH, Nelson G. Accurate registration of cone-beam computed tomography scans to 3-dimensional facial photographs. Am J Orthod Dentofacial Orthop 2014; 145: 256-64.   DOI
9 Schendel SA, Lane C. 3D Orthognathic surgery simulation using image fusion. Semin Orthod 2009: 15: 48-56.   DOI
10 Naudi KB, Benramadan R, Brocklebank L, Ju X, Khambay B, Ayoub A. The virtual human face: superimposing the simultaneously captured 3D photorealistic skin surface of the face on the untextured skin image of the CBCT scan. Int J Oral Maxillofac Surg 2013; 42: 393-400.   DOI
11 Katsumata A, Hirukawa A, Okumura S, Naitoh M, Fujishita M, Ariji E, et al. Effects of image artifacts on gray-value density in limited-volume cone-beam computerized tomography. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2007; 104: 829-36.   DOI
12 Hassan B, van der Stelt P, Sanderink G. Accuracy of three-dimensional measurements obtained from cone beam computed tomography surface-rendered images for cephalometric analysis: influence of patient scanning position. Eur J Orthod 2009; 31: 129-34.   DOI
13 Kwong JC, Palomo JM, Landers MA, Figueroa A, Hans MG. Image quality produced by different cone-beam computed tomography settings. Am J Orthod Dentofacial Orthop 2008; 133: 317-27.   DOI
14 Farkas LG. Anthropometry of the head and face. 2nd ed. New York: Raven Press; 1994. p. 20-6
15 Kim M, Huh KH, Yi WJ, Heo MS, Lee SS, Choi SC. Evaluation of accuracy of 3D reconstruction images using multi-detector CT and cone-beam CT. Imaging Sci Dent 2012; 42: 25-33.   DOI
16 Periago DR, Scarfe WC, Moshiri M, Scheetz JP, Silveira AM, Farman AG. Linear accuracy and reliability of cone beam CT derived 3-dimensional images constructed using an orthodontic volumetric rendering program. Angle Orthod 2008; 78: 387-95.   DOI
17 Liang X, Lambrichts I, Sun Y, Denis K, Hassan B, Li L, et al. A comparative evaluation of cone beam computed tomography (CBCT) and multi-slice CT (MSCT). Part II: On 3D model accuracy. Eur J Radiol 2010; 75: 270-4.   DOI
18 Cavalcanti MG, Vannier MW. Quantitative analysis of spiral computed tomography for craniofacial clinical applications. Dentomaxillofac Radiol 1998; 27: 344-50.   DOI
19 Kim SH, Jung WY, Seo YJ, Kim KA, Park KH, Park YG. Accuracy and precision of integumental linear dimensions in a three-dimensional facial imaging system. Korean J Orthod 2015; 45: 105-12.   DOI
20 Liang X, Jacobs R, Hassan B, Li L, Pauwels R, Corpas L, et al. A comparative evaluation of cone beam computed tomography (CBCT) and multi-slice CT (MSCT): Part I. On subjective image quality. Eur J Radiol 2010; 75: 265-9.   DOI
21 Brown AA, Scarfe WC, Scheetz JP, Silveira AM, Farman AG. Linear accuracy of cone beam CT derived 3D images. Angle Orthod 2009; 79: 150-7.   DOI
22 Hassan B, Couto Souza P, Jacobs R, de Azambuja Berti S, van der Stelt P. Influence of scanning and reconstruction parameters on quality of three-dimensional surface models of the dental arches from cone beam computed tomography. Clin Oral Investig 2010; 14: 303-10.   DOI