Accuracy and reproducibility of measurements on plaster models and digital models created using an intraoral scanner

INTRODUCTION: Technological advances in Dentistry have emerged primarily in the area of diagnostic tools. One example is the 3D scanner, which can transform plaster models into three-dimensional digital models. OBJECTIVE: This study aimed to assess the reliability of tooth size-arch length discrepancy analysis measurements performed on three-dimensional digital models, and compare these measurements with those obtained from plaster models. MATERIAL AND METHODS: To this end, plaster models of lower dental arches and their corresponding three-dimensional digital models acquired with a 3Shape R700T scanner were used. All of them had lower permanent dentition. Four different tooth size-arch length discrepancy calculations were performed on each model, two of which by manual methods using calipers and brass wire, and two by digital methods using linear measurements and parabolas. RESULTS: Data were statistically assessed using Friedman test and no statistically significant differences were found between the two methods (P > 0.05), except for values found by the linear digital method which revealed a slight, non-significant statistical difference. CONCLUSIONS: Based on the results, it is reasonable to assert that any of these resources used by orthodontists to clinically assess tooth size-arch length discrepancy can be considered reliable.

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Digital models and orthodontic diagnosis: what degree of reliability?

Integrative Journal of Medical Sciences ◽

10.15342/ijms.2021.384 ◽

2021 ◽

Vol 8 ◽

Author(s):

ABDOUL Hafizou RABE ◽

Fatima SALEK ◽

Intissar El IDRISSI ◽

Fatima ZAOUI ◽

Hicham BENYAHIA

Keyword(s):

Systematic Review ◽

Numerical Models ◽

Meta Analysis ◽

Physical Models ◽

Cochrane Library ◽

Digital Models ◽

Significant Difference ◽

Clinically Significant ◽

Conventional Models ◽

Plaster Models

Abstract Background: Our study aims to evaluate, through a systematic review, the reliability of numerical models compared to conventional models on the main parameters of orthodontic diagnosis Method: four databases were consulted: PubMed; Google Scholar, Cochrane Library, and Ebscohost. The research included published studies since 2010, meta-analysis studies, randomized and non-randomized controlled trials, prospective and retrospective studies. Results: Among 3811 selected references, only five studies met our inclusion criteria. In the systematic review, there were statistical differences between the digital models and the plaster models. However, this difference is clinically acceptable. On the other hand, there are some limitations, relative to the types of the severity of the congestion, the elapsed time to digitize, and the numerical means. Conclusion: The results of our systematic review have shown that there is no clinically significant difference between the numerical and physical models for the majority of diagnostic parameters.

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Comparative Evaluation of Digitization of Diagnostic Dental Cast (Plaster) Models Using Different Scanning Technologies

Dentistry Journal ◽

10.3390/dj8030079 ◽

2020 ◽

Vol 8 (3) ◽

pp. 79

Author(s):

Aalaa Emara ◽

Neha Sharma ◽

Florian S. Halbeisen ◽

Bilal Msallem ◽

Florian M. Thieringer

Keyword(s):

Intraoral Scanner ◽

Optical Scanner ◽

Lower Accuracy ◽

Dental Model ◽

Dental Models ◽

User Friendly ◽

Dental Cast ◽

Plaster Models ◽

Better Than ◽

Median Deviation

Rapidly developing digital dental technologies have substantially simplified the documentation of plaster dental models. The large variety of available scanners with varying degrees of accuracy and cost, however, makes the purchase decision difficult. This study assessed the digitization accuracy of a cone-beam computed tomography (CBCT) and an intraoral scanner (IOS), as compared to a desktop optical scanner (OS). Ten plaster dental models were digitized three times (n = 30) with each scanner. The generated STL files were cross-compared, and the RMS values were calculated. Conclusions were drawn about the accuracy with respect to precision and trueness levels. The precision of the CBCT scanner was similar to the desktop OS reference, which both had a median deviation of 0.04 mm. The IOS had statistically significantly higher deviation compared to the reference OS, with a median deviation of 0.18 mm. The trueness values of the CBCT was also better than that of IOS—median differences of 0.14 and 0.17 mm, respectively. We conclude that the tested CBCT scanner is a highly accurate and user-friendly scanner for model digitization, and therefore a valuable alternative to the OS. The tested IOS was generally of lower accuracy, but it can still be used for plaster dental model digitization.

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Accuracy of Bolton analysis measured in laser scanned digital models compared with plaster models (gold standard) and cone-beam computer tomography images

The Korean Journal of Orthodontics ◽

10.4041/kjod.2016.46.1.13 ◽

2016 ◽

Vol 46 (1) ◽

pp. 13 ◽

Cited By ~ 6

Author(s):

Jooseong Kim ◽

Manuel O. Lagravére

Keyword(s):

Computer Tomography ◽

Gold Standard ◽

Cone Beam ◽

Digital Models ◽

Plaster Models ◽

Cone Beam Computer Tomography

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The Accuracy and Reproducibility of Linear Measurements Made on CBCT-derived Digital Models

The Journal of Contemporary Dental Practice ◽

10.5005/jp-journals-10024-1844 ◽

2016 ◽

Vol 17 (4) ◽

pp. 294-299 ◽

Cited By ~ 3

Author(s):

Mohammad Y Hajeer ◽

Ahmad L Maroua ◽

Mowaffak Ajaj

Keyword(s):

Intraclass Correlation ◽

Correlation Coefficients ◽

Intraobserver Reliability ◽

Altman Analysis ◽

Digital Models ◽

Linear Measurements ◽

Bland Altman Analysis ◽

Accuracy Of Measurements ◽

The Mean ◽

Plaster Models

ABSTRACT Objective To evaluate the accuracy and reproducibility of linear measurements made on cone-beam computed tomography (CBCT)-derived digital models. Materials and methods A total of 25 patients (44% female, 18.7 ± 4 years) who had CBCT images for diagnostic purposes were included. Plaster models were obtained and digital models were extracted from CBCT scans. Seven linear measurements from predetermined landmarks were measured and analyzed on plaster models and the corresponding digital models. The measurements included arch length and width at different sites. Paired t test and Bland–Altman analysis were used to evaluate the accuracy of measurements on digital models compared to the plaster models. Also, intraclass correlation coefficients (ICCs) were used to evaluate the reproducibility of the measurements in order to assess the intraobserver reliability. Results The statistical analysis showed significant differences on 5 out of 14 variables, and the mean differences ranged from −0.48 to 0.51 mm. The Bland–Altman analysis revealed that the mean difference between variables was (0.14 ± 0.56) and (0.05 ± 0.96) mm and limits of agreement between the two methods ranged from −1.2 to 0.96 and from −1.8 to 1.9 mm in the maxilla and the mandible, respectively. The intraobserver reliability values were determined for all 14 variables of two types of models separately. The mean ICC value for the plaster models was 0.984 (0.924–0.999), while it was 0.946 for the CBCT models (range from 0.850 to 0.985). Conclusion Linear measurements obtained from the CBCTderived models appeared to have a high level of accuracy and reproducibility. How to cite this article Maroua AL, Ajaj M, Hajeer MY. The Accuracy and Reproducibility of Linear Measurements Made on CBCT-derived Digital Models. J Contemp Dent Pract 2016;17(4):294-299.

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Comparative Study of Concordance of Digital Models, Plaster Models, and 3D Printed Filament Models with Clinical Measurements in Children

Journal of Pediatric Dentistry ◽

10.14744/jpd.2020.17_19 ◽

2020 ◽

pp. 1-11

Author(s):

Hugo Ricardo ROSIN

Keyword(s):

Intraclass Correlation ◽

Reference Method ◽

Mixed Dentition ◽

Digital Models ◽

Dental Measurements ◽

Permanent Molars ◽

3D Printed ◽

Clinical Measurements ◽

Plaster Models ◽

Trios Scanner

Objective: The present study aimed to evaluate, in pediatric patients, the concordance of intraoral scanner for dental measurements, comparing the measurements obtained clinically with digital models, 3D printed filament models, and conventional plaster models. Materials and Methods: For this study, 31 patients with mixed dentition were selected, with at least the upper central incisors and upper first permanent molars erupted. The dental size measurement obtained with 3Shape Trios Scanner was compared with that obtained clinically with the aid of a digital caliper, as well as the measurements made with plaster models and filament printed models. For data analysis, the intraclass correlation coefficient (ICC) was performed and the agreement was categorized according to it. The Bland–Altman analysis was also applied to the data to graphically display the concordance. Results: There was no difference in agreement between measurements made in plaster and filament models compared to the reference method, and for measurements in the digital model, the agreement was low or zero in the molar region. Conclusion: According to the present study, we can conclude that both plaster and filament models presented values that are faithful to those obtained clinically and that the evaluated region affected the agreement with the reference method.

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Agreement in the determination of preformed wire shape templates on plaster models and customized digital arch form diagrams on digital models

American Journal of Orthodontics and Dentofacial Orthopedics ◽

10.1016/j.ajodo.2017.07.019 ◽

2018 ◽

Vol 153 (3) ◽

pp. 377-386 ◽

Cited By ~ 2

Author(s):

Leonardo Tavares Camardella ◽

Maiara da Silva Bezerra Sá ◽

Luciana Campos Guimarães ◽

Beatriz de Souza Vilella ◽

Oswaldo de Vasconcellos Vilella

Keyword(s):

Digital Models ◽

Arch Form ◽

Digital Arch ◽

Plaster Models

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Virtual occlusal record: a literature review about the digital method

Research Society and Development ◽

10.33448/rsd-v10i14.21507 ◽

2021 ◽

Vol 10 (14) ◽

pp. e44101421507

Author(s):

Mariana Elias Queiroz ◽

Eduardo Dallazen ◽

Mariana Sati Cantalejo Tsutsumi ◽

Ana Teresa Maluly-Proni ◽

Eduardo Passos Rocha ◽

...

Keyword(s):

Literature Review ◽

Digital Method ◽

Intraoral Scanner ◽

Scientific Publications ◽

Virtual Models ◽

Lower Accuracy ◽

Narrative Literature ◽

Precision And Accuracy ◽

Narrative Literature Review ◽

Plaster Models

To produce prostheses through the digital flow, it is essential to transfer the correct patient’s interocclusal relationship to the digital software program, enabling the articulation of virtual models. Therefore, the aim of this study was to carry out a narrative literature review to describe and discuss aspects related to the virtual occlusal record realization, as well as its precision and accuracy in different clinical situations. Searches for scientific publications were performed in different databases and only articles in English related to the topic were selected. Different methods for the alignment of virtual models are described in the literature, the main one being the scanning of the patient in occlusion, usually in a position of maximum intercuspation. However, this technique may demonstrate disagreement with the patient's actual occlusal relationship due to several factors, and therefore studies were carried out to verify the precision and accuracy of these records. Most studies use plaster models and industrial scanner to capture the record, with few studies performed with intraoral scanner in patients. Despite the various scanner systems available and the different ways of evaluating them, in general, the studies show an adequate precision and accuracy of virtual occlusal records of dentate models. However, the absence of dental elements is related to the lower accuracy of these records, it being necessary to establish an appropriate method of scanning for these clinical situations.

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Accuracy of Dental Photography: Professional vs. Smartphone’s Camera

BioMed Research International ◽

10.1155/2021/3910291 ◽

2021 ◽

Vol 2021 ◽

pp. 1-7

Author(s):

Carol Moussa ◽

Louis Hardan ◽

Cynthia Kassis ◽

Rim Bourgi ◽

Walter Devoto ◽

...

Keyword(s):

Digital Models ◽

Linear Measurements ◽

Distance Range ◽

Anterior Teeth ◽

Single Lens ◽

Plaster Models ◽

Dental Photography

There is a scant literature on the accuracy of dental photographs captured by Digital Single-Lens Reflex (DSLR) and smartphone cameras. The aim was to compare linear measurements of plaster models photographed with DSLR and smartphone’s camera with digital models. Thirty maxillary casts were prepared. Vertical and horizontal reference lines were marked on each tooth, with exception to molars. Then, models were scanned with the TRIOS 3 Basic intraoral dental scanner (control). Six photographs were captured for each model: one using DSLR camera (Canon EOS 700D) and five with smartphone (iPhone X) (distance range 16-32 cm). Teeth heights and widths were measured on scans and photographs. The following conclusions could be drawn: (1) the measurements of teeth by means of DSLR and smartphone cameras (at distances of at least 24 cm) and scan did not differ. (2) The measurements of anterior teeth by means of DSLR and smartphone cameras (at all distances tested) and scan exhibited no difference. For documentational purposes, the distortion is negligeable, and both camera devices can be applied. Dentists can rely on DSLR and smartphone cameras (at distances of at least 24 cm) for smile designs providing comparable and reliable linear measurements.

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Estimation of Distances in 3D by Orthodontists Using Digital Models

Applied Sciences ◽

10.3390/app11188285 ◽

2021 ◽

Vol 11 (18) ◽

pp. 8285

Author(s):

Masrour Makaremi ◽

Bernard N’Kaoua

Keyword(s):

Decision Making ◽

Numerical Models ◽

Distance Estimation ◽

Reference Value ◽

3D Models ◽

Dental Arch ◽

Digital Models ◽

Arch Models ◽

Therapeutic Decision Making ◽

Plaster Models

In the field of orthodontics, digital dental arch models are increasingly replacing plaster models in orthodontic diagnostics. This change in interface from physical plaster models to digital image-based models raises the question of how orthodontists interpret intra- and inter-arch relationships from an image on a screen. In particular, the issue of the accuracy of the distances estimated on numerical models is crucial since the estimation of distances is the basis of the therapeutic decision-making process. Studies have shown that distances were well estimated on plaster models, but no study has verified this point on numerical models. This is the question that our study addresses. The experimental protocol consisted of collecting estimates of measurements made by orthodontists using digital models. The reliability of these measurements was then assessed by comparing them to the actual physical distances. We asked 31 orthodontists (19 women and 12 men; an average age of 37 years) to generate 3D model-based measurements of seven different elements: mandibular congestion, the maxillary intermolar distance, Spee’s curve, 16/26 symmetry, the right canine class, overbite, and overjet. These values were then compared to the actual measurements calculated using Insignia® software (ORMCO Corporation: Brea, CA, USA), using single sample t-tests. This test makes it possible to compare a distance estimated by the participants with a reference value, which corresponds here to the real distance. The results indicate that, overall, the distance estimates made on the 3D models differ significantly from the actual distances measured using the Insignia® software. This was particularly so for mandibular crowding (test value = 0; t (30) = 10.74; p ≤ 0.01), test value = 1; t (30) = 6.23; p ≤ 0.01). Although no study has focused on distance estimation on numerical models in the field of orthodontics, our results agree with the conclusions of studies showing that distances are not estimated in the same way in real environments and virtual environments. Additional studies will make it possible to identify more clearly the parameters (individual factors, equipment, etc.), which make it possible to improve the estimation of distances in the practice of orthodontics. In any case, these studies are necessary to improve the training of future practitioners in the use of virtual models for decision-making and to support them in the digital transition.

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