Spee 曲线是否会影响 3D 打印曲率自适应夹板的精度?
Does curve of Spee affect the precision of 3D-printed curvature-adaptive splints?
机构信息
State Key Laboratory of Oral Diseases & National Center for Stomatology & National Clinical Research Center for Oral Diseases & Department of Orthodontics, West China Hospital of Stomatology, Sichuan University, Chengdu 610041, Sichuan, China.
School of Stomatology, Shanxi Medical University, Taiyuan 030001, Shanxi, China.
出版信息
J Dent. 2024 Aug;147:105108. doi: 10.1016/j.jdent.2024.105108. Epub 2024 Jun 5.
OBJECTIVES
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).
METHODS
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.
RESULTS
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).
CONCLUSIONS
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.
CLINICAL SIGNIFICANCE
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.
目的
本研究旨在提出一种标准化的三维打印(3D)曲度自适应夹板(CAS)制作方案,并评估其在不同 Spee 曲线深度(COS)牙列上的精度。
方法
选择 76 个下颌牙树脂模型,每个模型具有 4 种 COS 类型(0、2、4 和 6mm 深)之一,进行数字扫描。设计、3D 打印 CAS 并分为 C0、C2、C4 和 C6 四组,对应于四种 COS 深度类型。为评估精度,将带有树脂模型的 CAS 作为一个整体进行扫描,并与原始设计进行比较。
结果
在 CAS 观察到的平移偏差方面,矢状绝对偏差(0.136mm)的平均值明显高于垂直(0.091mm)和横向偏差(0.045mm)(P<0.01)。在 CAS 旋转偏差方面,俯仰偏差(0.323°)的平均偏差明显高于偏航(0.083°)和滚动(0.110°)(P<0.01)。然而,当比较 C0、C2、C4 和 C6 组之间的 CAS 精度时,未发现统计学上的显著差异。此外,所有组的平移偏差、旋转偏差和 RMSE 均显著低于临床可接受的 0.5mm、1°和 0.25mm 限值(P<0.01)。
结论
COS 的深度对 CAS 的精度没有显著影响,所有组(C0、C2、C4 和 C6)在平移、旋转偏差和 RMSE 方面均无统计学差异。此外,尽管在矢状和俯仰方向上存在较大偏差,但所有组的所有尺寸偏差和 RMSE 均显著低于相应的临床可接受限值(CAL)。
临床意义
本研究提出的标准化“曲度自适应”方案是一种优化的方法,可用于制作当代数字化牙科中具有不同解剖特征的各种定制 3D 打印夹板。
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