Validity of digital analysis versus manual analysis on orthodontic casts

IF 2.6 Q1 DENTISTRY, ORAL SURGERY & MEDICINE Journal of the World Federation of Orthodontists Pub Date : 2024-10-01 DOI:10.1016/j.ejwf.2024.04.002

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Abstract

Background

As artificial intelligence within digital processes continues to advance and replace conventional manual workflows, it is crucial that digital data are consistent with analog data. The aim was to evaluate the validity and time efficiency of digital cast analysis on digital models in comparison with the manual, gold standard, cast analysis on plaster models.

Methods

Cast analysis was performed on 30 patients in three various methods: manually measured variables on plaster models (MP), manually measured variables on digital three-dimensional models (MD), and automatically measured variables on digital three-dimensional models (AD) on digital models. Digital cast analysis was performed in CS Model+. Analyses included metrical and categorical variables and the required work time. Measurements in MD and AD were validated to MP. Validity of the metrical variables was analyzed with Bland-Altman, Dahlberg's formula, and paired sample t test. Categorical variables were validated by Cohen's Kappa. Work time was analyzed with Wilcoxon signed-rank test.

Results

Metrical variables had measurement errors ranging 0.4 to 1.4 mm between MP-MD, and 0.6 to 3.2 mm between MP-AD. Observations of categorical variables had a moderate to strong (0.65 to 0.9) level of agreement between MP-MD, and a weak to moderate (0.4 to 0.68) level of agreement between MP-AD. Data for dental stage, vertical, and transversal relation was not provided in AD. Cast analysis was performed quicker digitally, P ≤ 0.05.

Conclusions

Digital cast analysis is consistent with manual cast analysis for metrical variables. Analyses of categorical variables show a weak level of agreement with automatic digital analysis, such as space conditions and midline assessments. Digital cast analysis optimizes time compared with manual cast analysis, with automatic analysis being the fastest.

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数字分析与手工分析在正畸模型上的有效性对比。

背景：随着数字流程中人工智能的不断发展并取代传统的人工工作流程，数字数据与模拟数据保持一致至关重要。我们的目的是评估数字模型上的数字铸模分析与石膏模型上的手工铸模分析（金标准）相比的有效性和时间效率：采用三种不同方法对 30 名患者进行了石膏分析：在石膏模型上手动测量变量（MP）、在数字三维模型上手动测量变量（MD）和在数字模型上自动测量变量（AD）。数字石膏分析在 CS Model+ 中进行。分析包括计量变量和分类变量以及所需的工作时间。MD 和 AD 的测量结果与 MP 进行了验证。计量变量的有效性通过 Bland-Altman、Dahlberg 公式和配对样本 t 检验进行分析。分类变量通过 Cohen's Kappa 验证。工作时间采用 Wilcoxon 符号秩检验进行分析：计量变量在 MP-MD 之间的测量误差为 0.4 至 1.4 毫米，在 MP-AD 之间的测量误差为 0.6 至 3.2 毫米。分类变量的观察结果在 MP-MD 之间有中度到高度（0.65 到 0.9）的一致性，在 MP-AD 之间有弱到中度（0.4 到 0.68）的一致性。AD 中没有提供牙列阶段、垂直和横向关系的数据。数字化石膏分析的速度更快，P≤0.05：就度量变量而言，数字化石膏分析与手工石膏分析一致。对分类变量的分析表明，自动数字分析的一致性较弱，如空间条件和中线评估。与手动石膏分析相比，数字石膏分析优化了时间，其中自动分析速度最快。

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来源期刊

Journal of the World Federation of Orthodontists DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

3.80

自引率

4.80%

发文量