Fully automatic integration of dental CBCT images and full-arch intraoral impressions with stitching error correction via individual tooth segmentation and identification

We present a fully automated method of integrating intraoral scan (IOS) and dental cone-beam computerized tomography (CBCT) images into one image by complementing each image’s weaknesses. Dental CBCT alone may not be able to delineate precise details of the tooth surface due to limited image resolut...

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Bibliographic Details
Published in:Medical image analysis 2024-04, Vol.93, p.103096-103096, Article 103096
Main Authors: Jang, Tae Jun, Yun, Hye Sun, Hyun, Chang Min, Kim, Jong-Eun, Lee, Sang-Hwy, Seo, Jin Keun
Format: Article
Language:English
Subjects:
Cone-beam computerized tomography
Image segmentation
Intraoral scan
Multimodal data registration
Point cloud segmentation
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Summary:We present a fully automated method of integrating intraoral scan (IOS) and dental cone-beam computerized tomography (CBCT) images into one image by complementing each image’s weaknesses. Dental CBCT alone may not be able to delineate precise details of the tooth surface due to limited image resolution and various CBCT artifacts, including metal-induced artifacts. IOS is very accurate for the scanning of narrow areas, but it produces cumulative stitching errors during full-arch scanning. The proposed method is intended not only to compensate the low-quality of CBCT-derived tooth surfaces with IOS, but also to correct the cumulative stitching errors of IOS across the entire dental arch. Moreover, the integration provides both gingival structure of IOS and tooth roots of CBCT in one image. The proposed fully automated method consists of four parts; (i) individual tooth segmentation and identification module for IOS data (TSIM-IOS); (ii) individual tooth segmentation and identification module for CBCT data (TSIM-CBCT); (iii) global-to-local tooth registration between IOS and CBCT; and (iv) stitching error correction for full-arch IOS. The experimental results show that the proposed method achieved landmark and surface distance errors of 112.4μm and 301.7μm, respectively. [Display omitted] •Sophisticated fusion of intraoral scan and cone-beam computerized tomography data.•Correction of cumulative stitching errors in intraoral scanning.•Robust registration against metal artifacts in cone-beam computerized tomography.
ISSN:1361-8415
1361-8423
DOI:10.1016/j.media.2024.103096