Does curve of Spee affect the precision of 3D-printed curvature-adaptive splints?

•A protocol for 3D-printed curvature-adaptive splints (CASs) was introduced.•Deviations of CASs were more evident in the sagittal dimension and pitch.•CASs provide accurate seating for dentitions with flat or deep curve of Spee alike. This study aimed to propose a standardized protocol for the fabri...

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Bibliographic Details
Published in:Journal of dentistry 2024-08, Vol.147, p.105108, Article 105108
Main Authors: Zhu, Liwei, Han, Wenze, Xiang, Runzhe, Xu, Hui, Bai, Ding, Wang, Peiqi, Xue, Chaoran
Format: Article
Language:English
Subjects:
CAD/CAM
Curve of Spee
Splint
Three-dimensional
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Summary:•A protocol for 3D-printed curvature-adaptive splints (CASs) was introduced.•Deviations of CASs were more evident in the sagittal dimension and pitch.•CASs provide accurate seating for dentitions with flat or deep curve of Spee alike. This study aimed to propose a standardized protocol for the fabrication of three-dimensionally (3D)-printed curvature-adaptive splints (CASs) and assess the precision of CASs on dentitions with different depths of the curve of Spee (COS). 76 lower dental resin models, each exhibiting one of the four types of COS (0-, 2-, 4-, and 6-mm deep), were selected and digitally scanned. CASs were designed, 3D printed, and grouped into C0, C2, C4, and C6, corresponding to the four types of COS depths. To assess precision, the CASs occluded with the resin model were scanned as a whole and compared with the originally designed ones. In terms of translational deviations observed in the CASs, the mean value of absolute sagittal deviation (0.136 mm) was significantly higher than those of vertical (0.091 mm) and transversal deviations (0.045 mm) (P < 0.01). Regarding rotational deviations of the CASs, the mean deviation in pitch (0.323°) was significantly higher than those in yaw (0.083°) and roll (0.110°) (P < 0.01). However, when comparing the accuracy of CASs across C0, C2, C4, and C6 groups, no statistically significant difference was found. Additionally, the translational deviations, rotational deviations, and RMSE of all groups were significantly lower than the clinically acceptable limits of 0.5 mm, 1°, and 0.25 mm, respectively (P < 0.01). The depth of the COS has no significant impact on the precision of CASs, as evidenced by the absence of statistically significant differences in translational, rotational deviations, and RMSE among all groups (C0, C2, C4, and C6). Moreover, despite relatively high deviations in the sagittal dimension and pitch, all dimensional deviations and RMSE remained statistically significantly lower than the corresponding clinically acceptable limits (CALs) in all groups. This standardized protocol incorporating “curvature-adaptation” represents an optimized approach to fabricating diverse 3D-printed splints tailored to dentitions with different anatomical features in contemporary digital dentistry.
ISSN:0300-5712
1879-176X
1879-176X
DOI:10.1016/j.jdent.2024.105108