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Trueness of CAD/CAM digitization with a desktop scanner – an in vitro study

BACKGROUND: Desktop scanners are devices for digitization of conventional impressions or gypsum casts by indirect Computer-Aided Design/Computer-Assisted Manufacturing (CAD/CAM) in dentistry. The purpose of this in vitro study was: 1, to investigate whether virtual models produced by the extraoral s...

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Autores principales: Joós-Kovács, G., Vecsei, B., Körmendi, Sz., Gyarmathy, V. A., Borbély, J., Hermann, P.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6909471/
https://www.ncbi.nlm.nih.gov/pubmed/31830970
http://dx.doi.org/10.1186/s12903-019-0976-1
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author Joós-Kovács, G.
Vecsei, B.
Körmendi, Sz.
Gyarmathy, V. A.
Borbély, J.
Hermann, P.
author_facet Joós-Kovács, G.
Vecsei, B.
Körmendi, Sz.
Gyarmathy, V. A.
Borbély, J.
Hermann, P.
author_sort Joós-Kovács, G.
collection PubMed
description BACKGROUND: Desktop scanners are devices for digitization of conventional impressions or gypsum casts by indirect Computer-Aided Design/Computer-Assisted Manufacturing (CAD/CAM) in dentistry. The purpose of this in vitro study was: 1, to investigate whether virtual models produced by the extraoral scanner have the same trueness as sectioned casts; and 2, to assess if digitization with an extraoral scanner influences the surface information. METHODS: A polimethyl-methacrilic acid (PMMA) cast and a reference scanner (TwoCam 3D, SCAN technology A/S, Ringsted, Denmark; field of view 200 mm, resolution 0.1 mm ± 0.025 mm) were used to create the reference data in standard tessellation format (STL). According to the extraoral CAD/CAM digitization steps, impressions, mastercasts, and sectioned casts were made, and STL files were generated with the reference scanner. The pivotal point of the study was to digitalize these sectioned casts with the extraoral scanner (Straumann CARES Scan CS2 Visual 8.0 software, InstitutStraumann AG, Basel, Switzerland) and STL files were exported. Virtual caliper measurements were performed. Absolute deviations were compared using multilevel mixed-effects linear regression. Relative distortions were calculated with mean absolute errors and reference values. RESULTS: Differences were observed in measurements of tooth sizes. All four prepared teeth were affected. No relationship was observed in relative deviations. Absolute differences between all the indirect digitization steps considering arch distances were: impressions, − 0.004 mm; mastercasts, 0.136 mm; sectioned casts, − 0.028 mm; and extraoral scanner, − 0.089 mm. Prepared dies on the virtual casts (extraoral scanner) were closer to each other than those on the sectioned gypsum casts. Relative deviation calculations revealed no relationship with the position of the dies in the arch. CONCLUSION: The trueness of the virtual models generated by the extraoral scanner system used in this study was different from the dimensions of the sectioned casts. The digitization of gypsum casts changes both the dimensions of dies and the distances between the dies. The virtual casts had smaller distances than any distances measured at previous steps. Either bigger dies or longer distances did not result in greater distortions. We cannot, however, generalize our results to all scanners available on the market, because they might give different results.
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spelling pubmed-69094712019-12-19 Trueness of CAD/CAM digitization with a desktop scanner – an in vitro study Joós-Kovács, G. Vecsei, B. Körmendi, Sz. Gyarmathy, V. A. Borbély, J. Hermann, P. BMC Oral Health Research Article BACKGROUND: Desktop scanners are devices for digitization of conventional impressions or gypsum casts by indirect Computer-Aided Design/Computer-Assisted Manufacturing (CAD/CAM) in dentistry. The purpose of this in vitro study was: 1, to investigate whether virtual models produced by the extraoral scanner have the same trueness as sectioned casts; and 2, to assess if digitization with an extraoral scanner influences the surface information. METHODS: A polimethyl-methacrilic acid (PMMA) cast and a reference scanner (TwoCam 3D, SCAN technology A/S, Ringsted, Denmark; field of view 200 mm, resolution 0.1 mm ± 0.025 mm) were used to create the reference data in standard tessellation format (STL). According to the extraoral CAD/CAM digitization steps, impressions, mastercasts, and sectioned casts were made, and STL files were generated with the reference scanner. The pivotal point of the study was to digitalize these sectioned casts with the extraoral scanner (Straumann CARES Scan CS2 Visual 8.0 software, InstitutStraumann AG, Basel, Switzerland) and STL files were exported. Virtual caliper measurements were performed. Absolute deviations were compared using multilevel mixed-effects linear regression. Relative distortions were calculated with mean absolute errors and reference values. RESULTS: Differences were observed in measurements of tooth sizes. All four prepared teeth were affected. No relationship was observed in relative deviations. Absolute differences between all the indirect digitization steps considering arch distances were: impressions, − 0.004 mm; mastercasts, 0.136 mm; sectioned casts, − 0.028 mm; and extraoral scanner, − 0.089 mm. Prepared dies on the virtual casts (extraoral scanner) were closer to each other than those on the sectioned gypsum casts. Relative deviation calculations revealed no relationship with the position of the dies in the arch. CONCLUSION: The trueness of the virtual models generated by the extraoral scanner system used in this study was different from the dimensions of the sectioned casts. The digitization of gypsum casts changes both the dimensions of dies and the distances between the dies. The virtual casts had smaller distances than any distances measured at previous steps. Either bigger dies or longer distances did not result in greater distortions. We cannot, however, generalize our results to all scanners available on the market, because they might give different results. BioMed Central 2019-12-12 /pmc/articles/PMC6909471/ /pubmed/31830970 http://dx.doi.org/10.1186/s12903-019-0976-1 Text en © The Author(s). 2019 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Research Article
Joós-Kovács, G.
Vecsei, B.
Körmendi, Sz.
Gyarmathy, V. A.
Borbély, J.
Hermann, P.
Trueness of CAD/CAM digitization with a desktop scanner – an in vitro study
title Trueness of CAD/CAM digitization with a desktop scanner – an in vitro study
title_full Trueness of CAD/CAM digitization with a desktop scanner – an in vitro study
title_fullStr Trueness of CAD/CAM digitization with a desktop scanner – an in vitro study
title_full_unstemmed Trueness of CAD/CAM digitization with a desktop scanner – an in vitro study
title_short Trueness of CAD/CAM digitization with a desktop scanner – an in vitro study
title_sort trueness of cad/cam digitization with a desktop scanner – an in vitro study
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6909471/
https://www.ncbi.nlm.nih.gov/pubmed/31830970
http://dx.doi.org/10.1186/s12903-019-0976-1
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