AI Article Synopsis
- This study aims to assess the dimensional accuracy of 3D-printed dental models specifically for three-unit fixed prostheses, focusing on crucial areas like margins and proximal contacts.
- The researchers compared the accuracy of models made using three different printing techniques: Digital Light Processing (DLP), Multi-Jet Printing (MJP), and Stereolithography Apparatus (SLA), and found that MJP provided significantly better accuracy for certain measurements.
- All printing methods resulted in 3D models within clinically acceptable accuracy for dental prosthesis manufacturing, with MJP also demonstrating the least surface roughness among the techniques tested.
Article Abstract
Previous studies on accuracy of three-dimensional (3D) printed model focused on full arch measurements at few points. The aim of this study was to examine the dimensional accuracy of 3D-printed models which were teeth-prepped for three-unit fixed prostheses, especially at margin and proximal contact areas. The prepped dental model was scanned with a desktop scanner. Using this reference file, test models were fabricated by digital light processing (DLP), Multi-Jet printing (MJP), and stereo-lithography apparatus (SLA) techniques. We calculated the accuracy (trueness and precision) of 3D-printed models on 3D planes, and deviations of each measured points at buccolingual and mesiodistal planes. We also analyzed the surface roughness of resin printed models. For overall 3D analysis, MJP showed significantly higher accuracy (trueness) than DLP and SLA techniques; however, there was not any statistically significant difference on precision. For deviations on margins of molar tooth and distance to proximal contact, MJP showed significantly accurate results; however, for a premolar tooth, there was no significant difference between the groups. 3D color maps of printed models showed contraction buccolingually, and surface roughness of the models fabricated by MJP technique was observed as the lowest. The accuracy of the 3D-printed resin models by DLP, MJP, and SLA techniques showed a clinically acceptable range to use as a working model for manufacturing dental prostheses.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8004951 | PMC |
| http://dx.doi.org/10.3390/ma14061550 | DOI Listing |
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