The precision of two alternative indirect workflows for digital model production: an illusion or a possibility?

The precision of two alternative indirect workflows for digital model production: an illusion or a possibility?

Objective Despite the clear drive from both research and clinical dentistry toward digital transformation, there are limitations to implementing intra-oral scanning (IOS) into daily dental practice. This study aimed to compare the precision of digital models obtained from two alternative indirect wo...

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Bibliographic Details
Published in:Clinical oral investigations Vol. 27; no. 7; pp. 3787 - 3797
Main Authors: Elkersh, Noha Mohamed, Fahmy, Rania A., Zayet, Mohamed K., Gaweesh, Yousria S., Hassan, Mohamed G.
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-07-2023
Springer Nature B.V
Subjects:
3-D printers
Color vision
Computed tomography
Computer-Aided Design
Dental Impression Technique
Dentistry
Humans
Illusions
Imaging, Three-Dimensional
Medicine
Models, Dental
Prosthodontics
Reproducibility of Results
Scanning
Silicones
Workflow
Desktop scanning
Digital
Intraoral scanner
Digital model
Precision
CBCT
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Summary:Objective Despite the clear drive from both research and clinical dentistry toward digital transformation, there are limitations to implementing intra-oral scanning (IOS) into daily dental practice. This study aimed to compare the precision of digital models obtained from two alternative indirect workflows to direct IOS. Material and methods Two indirect digital workflows were evaluated in this study. In the IOS group (direct), IOS directly obtained digital impressions of participants’ upper and lower dental arches, while in the Scan Impression (Scan Imp) group (indirect), a desktop scanner scanned silicone-based impressions of upper and lower whole arches that were taken with plastic trays. In the cone-beam computed tomography impression (CBCT Imp) group (indirect), a CBCT machine scanned the silicone-based impressions. Then, the precision of the entire arch and individual teeth for all digital impressions was virtually quantified. Following superimposition, differences between standard tessellation language (STL) files obtained from both—direct and indirect—methods were evaluated by color-mapping and measuring the surface distance between superimposed STL files. Furthermore, 18 linear measurements were taken from each digital model. ANOVA with repeated measures, Pearson coefficient, and intraclass correlation coefficient were used for intergroup comparisons. Results The digital models obtained from the two indirect workflows differed from the IOS in some dental and intra-arch measurements but were considered clinically acceptable. Ranked against IOS, CBCT Imp models had greater precision, followed by Scan Imp. Conclusion Digital models obtained from two indirect, alternative workflows, desktop, and CBCT scanning of impression, have clinically acceptable accuracy and reliability of tooth size and intra-arch measurements, providing the use of proper methodologies. Clinical relevance There are some limitations to implementing IOS in daily clinical practice. However, several alternative digital model production techniques might provide an affordable solution. Although they may insignificantly differ in accuracy, all can be applied clinically.
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ISSN:1436-3771
1432-6981
1436-3771
DOI:10.1007/s00784-023-04996-2