Your search keyword '"Digital orthodontics"' showing total 214 results

1. Effect of printing technology and orientation on the accuracy of three-dimensional printed retainers.

Author

ElShebiny, Tarek, Menezes, Luciane Macedo de, Matthaios, Stefanos, Tsolakis, Ioannis A., and Palomo, Juan Martin

Subjects

FUSED deposition modeling, CAD/CAM systems, ORTHODONTIC appliances, CONE beam computed tomography, THREE-dimensional printing, DIGITAL dental impression systems

Published

2024

2. Esthetic outcomes in orthodontics through digital customization with a lingual appliance system.

Author

Weissheimer, Andre, Pham, John, Tong, Hongsheng, and Akyalcin, Sercan

Subjects

*MALOCCLUSION, *PATIENT compliance, *PHYSICAL diagnosis, *DENTAL resins, *DENTAL bonding, *COMPUTER-aided design, *COSMETIC dentistry, *PRODUCT design, *CORRECTIVE orthodontics, *TREATMENT effectiveness, *ORTHODONTIC appliances, *AUTOMATION, *DENTAL technology, *MANDIBLE, *MAXILLA, *DENTAL extraction

Abstract

Background: Contemporary fixed orthodontic appliances are shifting from non‐customized pre‐adjusted appliances to custom‐designed and printed appliances with novel digital setup systems. We are one step closer to precision dentistry and orthodontics using personalized mechanics and custom appliances. However, despite the evidential enhancement and other improvements to fixed appliances, tooth movement is still limited to five degrees of freedom. Opening or closing spaces still requires manually placing elastomeric chains or coil springs. Aim: In this article, we aimed to demonstrate how advancements in CAD/CAM technology, reverse engineering, and digital customization are helping orthodontics constantly evolve, enabling treatment with enhanced esthetics and minimal compliance. The clinical system (InBrace®, Irvine, CA) described in this article uses a patient‐specific, digitally designed multiloop NITI wire that delivers friction‐free, light, and continuous forces and activates automatically whenever the malocclusion deviates from the digital setup. Conclusion: Through digital customization, InBrace allows for automated tooth movement in all six degrees of freedom, including space opening or closure, via programmed non‐sliding mechanics. Clinical Significance: Precision orthodontics and personalized treatment have been significant developments in orthodontics recently. This article focuses on how a technologically advanced lingual appliance system could achieve targeted cosmetic results methodically via automation and personalization. [ABSTRACT FROM AUTHOR]

Published

2024

3. Temporäre ästhetische Kaschierung von Frontzahnlücken während der Retentionsphase.

Author

Hornberg, Antonia and Pauls, Alexander

Subjects

PATIENT compliance, CORRECTIVE orthodontics, INCISORS, AESTHETICS, ORTHODONTICS

Abstract

Copyright of Kieferorthopädie: die Zeitschrift für die Praxis is the property of Quintessenz Verlags GmbH and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

4. Der Beneslider in Zeiten des digitalen Wandels Eine Übersicht.

Author

Seung-Woo Yoo, Bock, Jens Johannes, and Wilmes, Benedict

Subjects

ORTHODONTICS, THREE-dimensional printing, CUSTOMIZATION, DIGITAL printing, POPULARITY

Abstract

Copyright of Kieferorthopädie: die Zeitschrift für die Praxis is the property of Quintessenz Verlags GmbH and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

5. CBCT EVALUATION METHODS IN ORTHODONTICS – REVIEW AND CLINICAL CORRELATION

Author

Nikolay Yanev, Greta Yordanova, and Emanuel Emiliyanov

Subjects

cbct in orthodontics, cbct review, digital orthodontics, digital treatment planning, 3d cephalometry, Dentistry, RK1-715, Medicine (General), R5-920

Abstract

In recent years, digital technologies have entered every field of dentistry, allowing the practice to adapt to new and alternative diagnostic and treatment approaches. Every day in the clinical practice, cone beam computed tomography (CBCT) examinations are used. This modality is applicable in every phase of orthodontic or surgical dental or maxillofacial work, from diagnosis, treatment planning, design and fabrication of orthodontic appliances, patient records, growth prognosis, prediction of treatment outcomes etc. In orthodontics particularly, a large spectrum of CBCT studies find their role, in particular - CBCT of the whole skull, which allows a number of analyses and evaluations that cannot be performed on smaller volume images and CBCT of separately one or two jaws. Nowadays, the accessibility to the CBCT examinations is facilitated - almost every X-ray laboratory has a CBCT machine, and there are dozens of software for processing and editing readily available, even with free license. The CBCT and its extremely wide range of applications make it paramount in the orthodontics workflow.

Published

2024

6. Effect of printing technology, layer height, and orientation on assessment of 3D-printed models.

Author

ElShebiny, Tarek, Matthaios, Stefanos, Menezes, Luciane M., Tsolakis, Ioannis A., and Palomo, Juan M.

Abstract

• The Present study investigated the effect of printing technology, print layer height, and model orientation on the assessment of 3D-printed orthodontic models. • All the models showed dimensional accuracy within the reported clinically acceptable limits (±0.25 mm). • The highest accuracy was observed with the following combinations of parameters: digital light processing printer, 175 µm layer thickness, horizontal orientation and stereolithography printer, 25 µm layer thickness, horizontal orientation. Three-dimensional (3D) printing technologies have become popular in orthodontics. The aim of this study is to determine the effect of printing technology, orientation, and layer height on the accuracy of 3D-printed dental models. The maxillary arch of a post-treatment patient was scanned and printed at different orientations (0°, 90°) and layer thicknesses (25 µm, 50 µm, 100 µm, and 175 µm) using two different printing technologies (digital light processing and stereolithography). The 120 models were digitally scanned, and their average deviation from the initial model was analyzed using 3D algorithm. A multivariable linear regression analysis was used to estimate the effect of all variables on the average deviation from the initial model for the common layer thicknesses (50/100 µm). Finally, one-way ANOVA and Tukey posthoc test was used to compare the stereolithography (SLA) 25 µm and digital light processing (DLP) 175 µm groups with the groups that showed the least average deviation in the former analysis. The multivariable linear regression analysis showed that the DLP 50 µm (mean ± SD: −0.022 ± 0.012 mm) and 100 µm (mean ± SD: −0.02 ± 0.009 mm) horizontally printed models showed the least average deviation from the initial model. Finally, the DLP 175 µm horizontally printed models (mean ± SD: 0.015 ± 0.005 mm) and the SLA 25 µm horizontally (mean ± SD: 0.011 ± 0.005 mm) printed models were more accurate. All the models showed dimensional accuracy within the reported clinically acceptable limits. The highest accuracy was observed with DLP printer, 175 µm layer thickness, and horizontal orientation followed by SLA printer, 25 µm layer thickness, and horizontal orientation. [ABSTRACT FROM AUTHOR]

Published

2024

7. 自主最大笑容三维面像与数字化三维牙列模型 整合方法的建立及其准确性研究

Author

唐振兴, 钱语然, 任芮夢, 宋万忠, and 李宇

Abstract

Copyright of West China Journal of Stomatology is the property of Sichuan University, West China College of Stomatology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

8. Recent Orthodontic Advancements: A Systematic Review

Author

Sadia Naureen, Huma Ghazanfar Kiani, and Saad Asad

Subjects

Recent Advances, Digital Orthodontics, Precision Orthodontics, AI Orthodontics, Zirconia Brackets, Biochemistry, QD415-436, Dentistry, RK1-715, Therapeutics. Pharmacology, RM1-950, Medicine (General), R5-920

Abstract

Background: The year 2023 has witnessed unprecedented advancements in orthodontic treatments, offering patients an enhanced level of comfort, efficiency, and effectiveness in dental care. This systematic review aims to identify the recent developments in the field of orthodontics and discuss their performance about clinical application. Methods: The literature for this paper was identified and selected by performing a thorough search in electronic databases like PubMed, Medline, Embase, Cochrane, Google Scholar, Scopus, Web of Science, published over the past five years. Literature reviews, systematic reviews, and meta-analyses from January 2019– December 2023 were included in the study. Recent original articles within the past five years related to orthodontic advancements were also included in the study. After applying inclusion and exclusion criteria, 26 articles were scrutinized, studied, and then critically analyzed. Quality analysis was performed using QUADAS-2. Results: This study reveals that technological advancement and research in the field of orthodontics is getting pace. The field of orthodontics has embraced state-of-the-art technology, including digital orthodontics, customized clear aligners, accelerated treatment options, AI, and robotic wire bending, to revolutionize smiles and improve oral health. Conclusion: As technological advancements persist in the trajectory; one can foresee imminent and revolutionary breakthroughs in the years ahead. This study will help and guide orthodontists to enhance their treatment strategies by keeping pace with the recent advancements in the field.

Published

2024

9. Navigating Through the Software

Author

Abela, Stefan and Abela, Stefan

Published

2024

10. Digital Orthodontic Systems

Author

Kolokitha, Olga-Elpis, Tsolakis, Ioannis A., Delantoni, Antigoni, editor, and Orhan, Kaan, editor

Published

2024

11. Integrierte kieferorthopädische Verfahren: Kariesmanagement während der Gaumennahterweiterung.

Author

Canova, Fabio Federici and Beretta, Matteo

Subjects

MAXILLARY expansion, PEDIATRIC dentistry, CORRECTIVE orthodontics, DENTAL caries, DECIDUOUS teeth

Abstract

Copyright of Kieferorthopädie: die Zeitschrift für die Praxis is the property of Quintessenz Verlags GmbH and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

12. Segmentierung von DVT-Datensätzen in der digitalen Kieferorthopädie.

Author

Knode, Vanessa, Gehrke, Christian, Ludwig, Björn, and Bock, Jens Johannes

Subjects

DIGITAL technology, STOMATOGNATHIC system, CONE beam computed tomography, MEDICAL laws, ARTIFICIAL intelligence

Abstract

Copyright of Kieferorthopädie: die Zeitschrift für die Praxis is the property of Quintessenz Verlags GmbH and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

13. The Use of CAD/CAM Technology in Mandibular Canine Disimpaction: A Case Report.

Author

Germanò, Francesca, Guarnieri, Rosanna, Mezio, Martina, Barbato, Ersilia, and Cassetta, Michele

Subjects

CAD/CAM systems, WORKFLOW management, MIXED dentition, MANDIBULAR fractures, DENTIGEROUS cyst, THREE-dimensional printing, BUILDING site planning

Abstract

This case report of an 11-year-old subject shows the digital workflow for the management of an impacted mandibular canine using Computer-Aided Design/Computer-Aided Manufacturing (CAD/CAM) technology along with Temporary Anchorage Devices (TADs). The miniscrew insertion site was planned using software, and a surgical guide was digitally designed and 3D printed. Orthodontic traction was performed using a 3D-designed and -printed device. In a single sitting, the miniscrew was inserted and the disimpaction device was also delivered. The primary objective of recovery and the repositioning of the impacted mandibular canine in the axis with its eruptive path was achieved. The space available and the subject's early stage of mixed dentition was considered favourable to a spontaneous eruption. This case report shows how CAD/CAM digital technology, combined with 3D printing, enables the creation of a surgical guide to position the miniscrew and the customized devices used for mandibular canine disimpaction. CAD/CAM surgical guides can help clinicians to position TADs with more accuracy and predictability, ensuring high quality bone support offering primary stability. Although orthodontic traction is the most complex therapeutic choice to implement, with the aid of CAD/CAM technology it is possible to proceed with accurate and minimally invasive orthodontic traction in order to recover a mandibular canine. [ABSTRACT FROM AUTHOR]

Published

2024

14. Accuracy of 3D facial scans: a comparison of three different scanning system in an in vivo study

Author

Federica Pellitteri, Fabrizio Scisciola, Francesca Cremonini, Matilde Baciliero, and Luca Lombardo

Subjects

Facial scanner, Digital orthodontics, 3D comparison, Facial scanner accuracy, Dentistry, RK1-715

Abstract

Abstract Background The aim of the study was to compare the accuracy and reproducibility of three different 3D facial scanning systems, relying, respectively, on stereophotogrammetry, structured light and a smartphone app and camera. Methods Thirty subjects have been scanned with three different facial scanning systems, stereophotogrammetry, structured light and a smartphone app and camera. Linear measurements were compared with direct anthropometries measured on the patient's face, while the study of areas (forehead, tip of the nose, chin, right and left cheek) was evaluated by overlapping scans using the Geomagic Control X program. Statistical analyses were conducted using IBM SPSS v28 software. Results The ANOVA test was used to compare linear distances and direct anthropometry measurements, revealing statically significant values for all distances investigated, especially for the Face Hunter scanner, except for the Prn–Pog′ distance (p = 0.092). The three facial scans were superimposed pairwise almost the 100 per cent of the overlapping areas fell within the tolerance limits for all three comparisons analysed. The chin was the most accurately reproduced, with no differences among scanners, while the forehead proved to be the least accurately reproduced by all scanners. Conclusions All three acquisition systems proved to be effective in capturing 3D images of the face, with the exception of the Face Hunter scanner, that produced statistically significant differences in linear measurements for the distances Tr–Na′ and Zyg–Zyg with respect to direct anthropometric measurements.

Published

2023

15. Analysis of maxillary asymmetry before and after treatment of functional posterior cross-bite: a retrospective study using 3D imaging system and deviation analysis

Author

Vincenzo Ronsivalle, Gaetano Isola, Gianmarco Lo Re, Mattia Boato, Rosalia Leonardi, and Antonino Lo Giudice

Subjects

Digital orthodontics, Asymmetry, Maxillary expansion, Functional posterior cross-bite, Dentistry, RK1-715

Abstract

Abstract Background Previous evidence would suggest that subjects affected by functional posterior cross-bite (FPXB) present an asymmetric morphology of the maxilla. However, no evidence is available concerning the morphology (symmetry/asymmetry) of the maxilla after treatment of FPXB. This study aimed to investigate the volumetric and morphological changes of the palate in FPXB subjects treated with maxillary expansion and to compare these data with an untreated control group. The study sample included 20 FPXB subjects (mean age 8.1 ± 0.9 years) who underwent maxillary expansion (MEG group) and 21 FPXB subjects (mean age 7.7 ± 1.2 years) as controls (CG group). Digital models were recorded at T0 (first observation) and T1 (12–18 months after first observation) and analyzed to assess palatal volume and symmetry. Deviation analysis and percentage matching calculation were also performed between original and mirrored palatal models for each patient. All data were statistically analyzed for intra-timing, inter-timing and inter-groups assessments. Results At T0, the cross-bite side (CBS) was significantly smaller than non-cross-bite side (non-CBS) in both groups (p 0.05). The matching percentage of the palatal models improved significantly at T1 in the MEG group (T0 = 74.02% ± 9.8; T1 = 89.95% ± 7.12) (p 0.05). Limitations The small sample size and the retrospective design of the study represent two limitations that should be overcome with further clinical trials. Conclusions Subjects with FPXB present an asymmetric development of the maxillary vault that improves after reestablishment of normal occlusion following maxillary expansion.

Published

2023

16. Digitization and validation of the open bite checklist manifesto: a step toward artificial intelligence.

Author

Akl, Heba E. and Mostafa, Yehya A.

Subjects

ARTIFICIAL intelligence, DIGITIZATION, COMPUTER-aided diagnosis, DECISION support systems, OBJECT-oriented programming languages, MALOCCLUSION, SNAKEBITES

Abstract

The article informs about the digitization and validation of computer software designed for the diagnosis of anterior open bite (AOB). Topics include the construction of the software based on a standardized open bite checklist, validation comparing digital and conventional diagnostic reports, and the potential for the software to serve as the foundation for an artificial intelligence model in AOB diagnosis.

Published

2024

17. Relapse and failure rates between CAD/CAM and conventional fixed retainers: a 2-year follow-up of a randomized controlled clinical trial.

Author

Tran, Giau, Rucker, Ryan, Foley, Patrick, Bankhead, Brent, Adel, Samar M, and Kim, Ki Beom

Subjects

CLINICAL trials, RANDOMIZED controlled trials, CAD/CAM systems, STEEL wire, STAINLESS steel

Abstract

Background Retention has been always considered a major challenge in orthodontics. Recently computer-aided design/computer-aided manufacturing (CAD/CAM) fixed retainers (FRs) have been introduced as a marked development in retainer technology, offering potential advantages. Objective The objective of this study was to compare the differences in relapse and failure rates in patients treated with FRs using CAD/CAM technology, lab-based technique, and chairside method. Trial design A double-blinded, prospective, randomized controlled clinical trial was conducted over a 2-year period at a single centre. Methods Participants Initially, 81 patients were recruited, but only 43 patients who came back for a 2-year retention were included in the study. Interventions These patients were divided into three groups: CAD/CAM group with multistranded Stainless Steel wires (CAD/CAM, n  = 14), lab group with the same multistranded wires (lab, n  = 15), and a chairside group with Stainless Steel Ortho-FlexTech wires (chairside, n  = 14). Outcomes Inter-canine width (ICW) and Little's irregularity index were digitally measured from scans at the orthodontic debonding (T1), 6-month retention (T2), 1-year retention (T3), and 2-year retention (T4) visits. All forms of failure were documented and analyzed. Randomization Participants were randomly assigned to the three groups using online randomization software (randomization.com) by a statistician who was not involved in the study. Blinding Patients were blinded in terms of the FR group to which they were each randomly assigned. The principal investigator was blinded upon data analysis since patients' records were coded to minimize observer and measurement bias. Results Initially 81 patients were assessed for eligibility. Seventy-five patients were randomly allocated into the three study groups. After 2-year follow-up, 43 patients came back for the follow-up and were analyzed. The CAD/CAM group showed significantly less reduction in ICW compared to the chairside group at all time intervals (P  < .05) and compared to the lab group at 6 months (P  = .038). In terms of LII, the CAD/CAM group exhibited significantly less change than the chairside and lab groups at all time intervals (P  < .05). The CAD/CAM group had the lowest failure rate (21.4%), followed by chairside group (28.6%) and then lab group (33.3%), however the differences were insignificant. No harms were observed in the current study. Conclusion Within 2 years of fixed retention, CAD/CAM FRs showed significantly less relapse than lab-based and chairside FRs. However, there was no significant difference in failure rates among the groups. Trial registration NCT05915273 [ABSTRACT FROM AUTHOR]

Published

2024

18. Comparison of the quality of 3D digital setups created by Invisalign and an orthodontist.

Author

Shelley, Jacob, Foley, Patrick, Bankhead, Brent, Adel, Samar M., and Ki Beom Kim

Subjects

ORTHODONTISTS, ORTHODONTICS, DIGITAL health, MALOCCLUSION, TREATMENT effectiveness

Published

2024

19. Accuracy of 3D facial scans: a comparison of three different scanning system in an in vivo study.

Author

Pellitteri, Federica, Scisciola, Fabrizio, Cremonini, Francesca, Baciliero, Matilde, and Lombardo, Luca

Subjects

SCANNING systems, IN vivo studies, LENGTH measurement, MOBILE apps, THREE-dimensional imaging

Abstract

Background: The aim of the study was to compare the accuracy and reproducibility of three different 3D facial scanning systems, relying, respectively, on stereophotogrammetry, structured light and a smartphone app and camera. Methods: Thirty subjects have been scanned with three different facial scanning systems, stereophotogrammetry, structured light and a smartphone app and camera. Linear measurements were compared with direct anthropometries measured on the patient's face, while the study of areas (forehead, tip of the nose, chin, right and left cheek) was evaluated by overlapping scans using the Geomagic Control X program. Statistical analyses were conducted using IBM SPSS v28 software. Results: The ANOVA test was used to compare linear distances and direct anthropometry measurements, revealing statically significant values for all distances investigated, especially for the Face Hunter scanner, except for the Prn–Pog′ distance (p = 0.092). The three facial scans were superimposed pairwise almost the 100 per cent of the overlapping areas fell within the tolerance limits for all three comparisons analysed. The chin was the most accurately reproduced, with no differences among scanners, while the forehead proved to be the least accurately reproduced by all scanners. Conclusions: All three acquisition systems proved to be effective in capturing 3D images of the face, with the exception of the Face Hunter scanner, that produced statistically significant differences in linear measurements for the distances Tr–Na′ and Zyg–Zyg with respect to direct anthropometric measurements. [ABSTRACT FROM AUTHOR]

Published

2023

20. Analysis of maxillary asymmetry before and after treatment of functional posterior cross-bite: a retrospective study using 3D imaging system and deviation analysis.

Author

Ronsivalle, Vincenzo, Isola, Gaetano, Lo Re, Gianmarco, Boato, Mattia, Leonardi, Rosalia, and Lo Giudice, Antonino

Subjects

THREE-dimensional imaging, IMAGING systems, MAXILLARY expansion, RETROSPECTIVE studies, STATISTICAL significance

Abstract

Background: Previous evidence would suggest that subjects affected by functional posterior cross-bite (FPXB) present an asymmetric morphology of the maxilla. However, no evidence is available concerning the morphology (symmetry/asymmetry) of the maxilla after treatment of FPXB. This study aimed to investigate the volumetric and morphological changes of the palate in FPXB subjects treated with maxillary expansion and to compare these data with an untreated control group. The study sample included 20 FPXB subjects (mean age 8.1 ± 0.9 years) who underwent maxillary expansion (MEG group) and 21 FPXB subjects (mean age 7.7 ± 1.2 years) as controls (CG group). Digital models were recorded at T0 (first observation) and T1 (12–18 months after first observation) and analyzed to assess palatal volume and symmetry. Deviation analysis and percentage matching calculation were also performed between original and mirrored palatal models for each patient. All data were statistically analyzed for intra-timing, inter-timing and inter-groups assessments. Results: At T0, the cross-bite side (CBS) was significantly smaller than non-cross-bite side (non-CBS) in both groups (p < 0.05). At T1, the CBS/non-CBS difference reduced significantly in the MEG group (p < 0.05) while slightly worsened in the CG, however without statistical significance (p > 0.05). The matching percentage of the palatal models improved significantly at T1 in the MEG group (T0 = 74.02% ± 9.8; T1 = 89.95% ± 7.12) (p < 0.05) while no significant differences were recorded in the CG (T0 = 76.36 ± 8.64; 72.18% ± 9.65) (p > 0.05). Limitations: The small sample size and the retrospective design of the study represent two limitations that should be overcome with further clinical trials. Conclusions: Subjects with FPXB present an asymmetric development of the maxillary vault that improves after reestablishment of normal occlusion following maxillary expansion. [ABSTRACT FROM AUTHOR]

Published

2023

21. A comparative study of CAD/CAM fabricated polyether ether ketone and fiber-glass reinforcement composites versus metal lingual retainers under vertical load (an in vitro study)

Author

Abdullah A. Alabbadi, Essam M. Abdalla, Seham A. Hanafy, and Tarek N. Yousry

Subjects

Fixed retainer, CAD\CAM, Digital orthodontics, FRC, PEEK, Dentistry, RK1-715

Abstract

Abstract Background Retainer is a necessary procedure when orthodontic treatment complete to avoid relapse due to periodontal fiber elasticity and to allow for alveolar bone regeneration. Compare the influence of vertical force on the failure of three fixed retainers: CAD/CAM polyether ether ketone (PEEK), CAD/CAM fiber glass reinforced composites (FRCs), and lingual retainer wire “Bond-A-Braid™”. Materials and methods One hundred and eight maxillary first premolars teeth were randomly allocated to three groups: Group A (CAD/CAM PEEK), Group B (CAD/CAM FRC), and Group C (lingual retainer wire " Bond-A-Braid™”). These retainers were bonded using Assure Plus Bonding Resin and GO TO Paste. For each specimen, a loading cycling and thermocycling machine was used. The failure debonding forces were measured on the interproximal segments using a universal testing machine with a cross-head speed of 1 mm/min. The adhesive remnant index (ARI) was calculated after identifying types of failure with a stereomicroscope at (X 20) magnification. Results Group B and group C showed the highest failure bonding forces, with a mean of 209.67 ± 16.15 and 86.81 ± 4.59 N, respectively. However, Group A had a statistically significant lower bond failure force, with a mean value of 45.73 ± 4.48 N. At baseline, there was a statistically significant difference in connector retainer displacement between the three studied groups (p

Published

2023

22. Accuracy of digital workflow for placing orthodontic miniscrews using generic and licensed open systems. A 3d imaging analysis of non-native .stl files for guided protocols

Author

Vincenzo Ronsivalle, Pietro Venezia, Orazio Bennici, Vincenzo D’Antò, Rosalia Leonardi, and Antonino Lo Giudice

Subjects

Digital dentistry, Digital orthodontics, Digital planning skeletal anchorage, TADs, Dentistry, RK1-715

Abstract

Abstract Background This study aimed to assess the accuracy of digital workflow for guided insertion of miniscrews in the anterior palate using restorative implant dentistry software and licensed software for orthodontic applications. Methods Twenty subjects (8 males, 12 females, mean age = 16.7 ± 2.1 years) were prospectively selected to receive guided insertion of bicortical palatal miniscrews. Virtual planning was performed using restorative implant dentistry software (Blue Sky Plan*, version 4.7) (group 1 = 10 subjects) and licensed orthodontic software (Dolphin Imaging Software, version 11.0) (group 2 = 10 subjects). A specific 3D Imaging technology was applied to permit the registration of the planned and achieved position of the miniscrews based on the superimposition of maxillary models. The angular deviation (accuracy error) between the planned and the achieved positions of the miniscrews were recorded. Independent Student’s test was used with statistical significance set at p value 0.05); instead, miniscrews placed on the right side were almost one degree higher than the left side (p

Published

2023

23. Forces and moments generated by 3D direct printed clear aligners of varying labial and lingual thicknesses during lingual movement of maxillary central incisor: an in vitro study

Author

James Grant, Patrick Foley, Brent Bankhead, Gabriel Miranda, Samar M. Adel, and Ki Beom Kim

Subjects

Direct printed aligners, Digital orthodontics, Forces, Moments, Dentistry, RK1-715

Abstract

Abstract Objective The objective of this study was to measure the forces and moments exerted by direct printed aligners (DPAs) with varying facial and lingual aligner surface thicknesses, in all three planes of space, during lingual movement of a maxillary central incisor. Materials and methods An in vitro experimental setup was used to quantify forces and moments experienced by a programmed tooth to be moved and by adjacent anchor teeth, during lingual movement of a maxillary central incisor. DPAs were directly 3D-printed with Tera Harz TC-85 (Graphy Inc., Seoul, South Korea) clear photocurable resin in 100-µm layers. Three multi-axis sensors were used to measure the moments and forces generated by 0.50 mm thick DPAs modified with labial and lingual surface thicknesses of 1.00 mm in selective locations. The sensors were connected to three maxillary incisors (the upper left central, the upper right central, and the upper left lateral incisors) during 0.50 mm of programmed lingual bodily movement of the upper left central incisor. Moment-to-force ratios were calculated for all three incisors. Aligners were benchtop tested in a temperature-controlled chamber at intra-oral temperature to simulate intra-oral conditions. Results The results showed that increased facial thickness of DPAs slightly reduced force levels on the upper left central incisor compared to DPAs of uniform thickness of 0.50 mm. Additionally, increasing the lingual thickness of adjacent teeth reduced force and moment side effects on the adjacent teeth. DPAs can produce moment-to-force ratios indicative of controlled tipping. Conclusions Targeted increases in thickness of direct 3D-printed aligners change the magnitude of forces and moments generated, albeit in complex patterns that are difficult to predict. The ability to vary labiolingual thicknesses of DPAs is promising to optimize the prescribed orthodontic movements while minimizing unwanted tooth movements, thereby increasing the predictability of tooth movements.

Published

2023

24. Accuracy (trueness and precision) of 3D printed orthodontic models finalized to clear aligners production, testing crowded and spaced dentition

Author

Vincenzo Grassia, Vincenzo Ronsivalle, Gaetano Isola, Ludovica Nucci, Rosalia Leonardi, and Antonino Lo Giudice

Subjects

Orthodontics, Digital orthodontics, Clear aligners, 3D printing, Dentistry, RK1-715

Abstract

Abstract Background The study's objective was to assess the accuracy (trueness and precision) of orthodontic models obtained from crowded and spaced dentition finalized for the production of clear aligners. Four 3D printers featuring different technologies and market segments were used for this purpose. Methods Two digital master models were obtained from two patients featuring respectively crowded dentition (CM group) and diastema/edentulous spaces (DEM group). The 3D printers tested were: Form 3B (SLA technology, medium-professional segment), Vector 3SP (SLA technology, industrial segment), Asiga Pro 4K65 (DLP technology, high-professional segment), and Anycubic Photon M3 (LCD technology, entry-level segment). Each 3D printed model was scanned and superimposed onto the reference master model and digital deviation analysis was performed to assess the trueness and precision calculated as root mean square (RMS). All data were statistically examined to obtain intra-group and inter-groups comparisons(p 0.05). Results In both CM and DEM groups, SLA 3D printers (Vector 3SP and Form 3B) showed lower trueness error compared to DLP/LCD technologies (Asiga Pro 4K65, Anycubic Photon M3) (p 0.05). Concerning data of precision, the DLP technology (Asiga Pro 4k65) showed lower error compared to the other 3D printers tested. The trueness and precision errors were within the accepted clinical error for clear aligner manufacturing (

Published

2023

25. 3D printed indirect bonding trays: Transfer accuracy of hard versus soft resin material in a prospective, randomized, single-blinded clinical study.

Author

Schwärzler, Alexander, Nemec, Michael, Lettner, Stefan, Rank, Christiane, Schedle, Andreas, and Jonke, Erwin

Subjects

*TRAYS, *TRANSFER printing, *BLOOD loss estimation, *CLINICAL trials, *THREE-dimensional printing, *DIGITAL dental impression systems

Abstract

This prospective clinical study aimed to compare transfer accuracy and immediate loss rate of hard versus soft transfer trays utilizing a CAD/CAM workflow. We performed virtual bracket placement on intraoral scans of adolescent patients to create individual indirect bonding trays. Orthodontic software (Appliance Designer, 3Shape, Copenhagen, Denmark) was used to design the trays, which were then produced using 3D printing technology. Patients were randomly assigned to the hard or soft resin groups with a 1:1 allocation. Subgroups were determined based on the Little's Irregularity Index and distributed equally. 552 brackets were bonded onto adolescent patients using 46 CAD/CAM indirect bonding trays. The linear mean transfer errors ranged from –0.011 mm (soft) to –0.162 mm (hard) and angularly –0.255° (hard) and –0.243° (soft). No statistically significant differences were found between the subgroups or soft and hard resin groups. However, the transfer accuracy of molar brackets was significantly lower in the transversal and horizontal directions. All mean transfer errors were within the limits of clinical acceptability. The loss rate was 2.4 % in the hard resin group and 2.3 % in the soft resin group. The Intra Observer Correlation was excellent. CAD/CAM technology for indirect bracket bonding has been proven reliable in a randomized clinical trial. Both hard and soft resin showed a low rate of immediate loss compared to the current literature. Soft resin was more favorable than hard resin in terms of accuracy and usability. However, the indirect bonding of molar brackets is significantly less accurate than incisor brackets. • First clinical study evaluating transfer accuracy of 3D printed indirect orthodontic bonding trays using hard or soft material. • CAD/CAM technology was applied for digital bracket positioning and 3D printing of the transfer trays. • Hard and soft transfer trays have been shown to be accurate in a clinical setting. • Trays made of soft bonding material showed a lower rate of immediate loss and are favorable in clinical use. [ABSTRACT FROM AUTHOR]

Published

2023

26. The Use of CAD/CAM Technology in Mandibular Canine Disimpaction: A Case Report

Author

Francesca Germanò, Rosanna Guarnieri, Martina Mezio, Ersilia Barbato, and Michele Cassetta

Subjects

CAD/CAM, surgical guide, miniscrew, impacted mandibular canine, digital orthodontics, TADs, Dentistry, RK1-715

Abstract

This case report of an 11-year-old subject shows the digital workflow for the management of an impacted mandibular canine using Computer-Aided Design/Computer-Aided Manufacturing (CAD/CAM) technology along with Temporary Anchorage Devices (TADs). The miniscrew insertion site was planned using software, and a surgical guide was digitally designed and 3D printed. Orthodontic traction was performed using a 3D-designed and -printed device. In a single sitting, the miniscrew was inserted and the disimpaction device was also delivered. The primary objective of recovery and the repositioning of the impacted mandibular canine in the axis with its eruptive path was achieved. The space available and the subject’s early stage of mixed dentition was considered favourable to a spontaneous eruption. This case report shows how CAD/CAM digital technology, combined with 3D printing, enables the creation of a surgical guide to position the miniscrew and the customized devices used for mandibular canine disimpaction. CAD/CAM surgical guides can help clinicians to position TADs with more accuracy and predictability, ensuring high quality bone support offering primary stability. Although orthodontic traction is the most complex therapeutic choice to implement, with the aid of CAD/CAM technology it is possible to proceed with accurate and minimally invasive orthodontic traction in order to recover a mandibular canine.

Published

2024

27. A comparative study of CAD/CAM fabricated polyether ether ketone and fiber-glass reinforcement composites versus metal lingual retainers under vertical load (an in vitro study).

Author

Alabbadi, Abdullah A., Abdalla, Essam M., Hanafy, Seham A., and Yousry, Tarek N.

Subjects

IN vitro studies, DENTAL bonding, STATISTICAL power analysis, STATISTICS, DENTAL resins, COMPUTER-aided design, BICUSPIDS, CONFIDENCE intervals, ORTHODONTIC appliances, MICROSCOPY, ONE-way analysis of variance, COMPARATIVE studies, TREATMENT failure, MATERIALS testing, CHI-squared test, DESCRIPTIVE statistics, DATA analysis software, DATA analysis

Abstract

Background: Retainer is a necessary procedure when orthodontic treatment complete to avoid relapse due to periodontal fiber elasticity and to allow for alveolar bone regeneration. Compare the influence of vertical force on the failure of three fixed retainers: CAD/CAM polyether ether ketone (PEEK), CAD/CAM fiber glass reinforced composites (FRCs), and lingual retainer wire "Bond-A-Braid™". Materials and methods: One hundred and eight maxillary first premolars teeth were randomly allocated to three groups: Group A (CAD/CAM PEEK), Group B (CAD/CAM FRC), and Group C (lingual retainer wire " Bond-A-Braid™"). These retainers were bonded using Assure Plus Bonding Resin and GO TO Paste. For each specimen, a loading cycling and thermocycling machine was used. The failure debonding forces were measured on the interproximal segments using a universal testing machine with a cross-head speed of 1 mm/min. The adhesive remnant index (ARI) was calculated after identifying types of failure with a stereomicroscope at (X 20) magnification. Results: Group B and group C showed the highest failure bonding forces, with a mean of 209.67 ± 16.15 and 86.81 ± 4.59 N, respectively. However, Group A had a statistically significant lower bond failure force, with a mean value of 45.73 ± 4.48 N. At baseline, there was a statistically significant difference in connector retainer displacement between the three studied groups (p <.001). The ARI score was not statistically significant (p <.001) between the three study groups; for groups A and B, the ARI was predominantly score 3, and group C showed a mixed score of 2 and 3. The failure mode of retainers was investigated using an optical stereomicroscope. In group B, there was a cohesive breakdown in the retainer, and groups A and C exhibited failures primarily in the adhesive at the retainer interface. Conclusion: All groups differed significantly, with group A having the lowest debonding force and group B having the highest. Furthermore, there was not a substantial variation in ARI, but there was a significant difference in connector retainer displacement and the types of failure amongst the three groups. [ABSTRACT FROM AUTHOR]

Published

2023

28. Forces and moments generated by 3D direct printed clear aligners of varying labial and lingual thicknesses during lingual movement of maxillary central incisor: an in vitro study.

Author

Grant, James, Foley, Patrick, Bankhead, Brent, Miranda, Gabriel, Adel, Samar M., and Kim, Ki Beom

Subjects

ORTHODONTIC appliances, TORQUE, INCISORS, AEROSPACE planes, IN vitro studies

Abstract

Objective: The objective of this study was to measure the forces and moments exerted by direct printed aligners (DPAs) with varying facial and lingual aligner surface thicknesses, in all three planes of space, during lingual movement of a maxillary central incisor. Materials and methods: An in vitro experimental setup was used to quantify forces and moments experienced by a programmed tooth to be moved and by adjacent anchor teeth, during lingual movement of a maxillary central incisor. DPAs were directly 3D-printed with Tera Harz TC-85 (Graphy Inc., Seoul, South Korea) clear photocurable resin in 100-µm layers. Three multi-axis sensors were used to measure the moments and forces generated by 0.50 mm thick DPAs modified with labial and lingual surface thicknesses of 1.00 mm in selective locations. The sensors were connected to three maxillary incisors (the upper left central, the upper right central, and the upper left lateral incisors) during 0.50 mm of programmed lingual bodily movement of the upper left central incisor. Moment-to-force ratios were calculated for all three incisors. Aligners were benchtop tested in a temperature-controlled chamber at intra-oral temperature to simulate intra-oral conditions. Results: The results showed that increased facial thickness of DPAs slightly reduced force levels on the upper left central incisor compared to DPAs of uniform thickness of 0.50 mm. Additionally, increasing the lingual thickness of adjacent teeth reduced force and moment side effects on the adjacent teeth. DPAs can produce moment-to-force ratios indicative of controlled tipping. Conclusions: Targeted increases in thickness of direct 3D-printed aligners change the magnitude of forces and moments generated, albeit in complex patterns that are difficult to predict. The ability to vary labiolingual thicknesses of DPAs is promising to optimize the prescribed orthodontic movements while minimizing unwanted tooth movements, thereby increasing the predictability of tooth movements. [ABSTRACT FROM AUTHOR]

Published

2023

29. Comparative Analysis of Skeletal Changes, Occlusal Changes, and Palatal Morphology in Children with Mild Class III Malocclusion Treated with Elastodontic Appliances and Bimaxillary Plates.

Author

Ronsivalle, Vincenzo, Quinzi, Vincenzo, La Rosa, Salvatore, Leonardi, Rosalia, and Lo Giudice, Antonino

Subjects

TREATMENT of malocclusion, CORRECTIVE orthodontics, ORTHODONTIC appliances, MAXILLA, RETROSPECTIVE studies, MALOCCLUSION, DENTAL occlusion, COMPARATIVE studies, T-test (Statistics), DESCRIPTIVE statistics, CHI-squared test, CEPHALOMETRY, PALATE, DATA analysis software, EARLY medical intervention, LONGITUDINAL method, CHILDREN

Abstract

Background: The aim of the present study was to compare the changes observed in children after the early treatment of mild class III malocclusion using bimaxillary removable plates supported by class III elastics and elastodontic devices. Methods: Twenty children (mean age 7.6 ± 1.1 years) with signs of class III malocclusion were treated using by-maxillary plates (PG group) with class III elastics (10 subjects = mean age 7.9 ± 1.3 years) or using class III elastodontic devices (EG group) (10 subjects = mean age 7.4 ± 0.8 years). Digital models and lateral cephalograms were obtained before treatment (T0) and at the end of treatment (T1). The digital models were analyzed to assess occlusal changes and maxillary morphology using the surface-to-surface matching technique. Changes in cephalometric parameters were also analyzed. The data outcomes were statistically analyzed using the paired Student's t test for inter-timing assessments and the independent Student's t test for inter-group assessments. Results: Both groups showed correction of class III malocclusions, with a significant increase in the ANB angle and the overjet (p < 0.05). Subjects in the PG group exhibited a greater reduction in the inter-incisal angle compared to the EG group (p < 0.05). The children in the EG group had a significantly lower percentage of palatal morphology matching between T0 and T1 compared to the PG group (p < 0.05), suggesting greater morphological changes in the palate. Conclusions: Elastodontic appliances (EAs) and bi-maxillary plates successfully correct class III malocclusions in children. However, elastodontic devices significantly improved the morphology of the palate, both in the transverse and anteroposterior directions. [ABSTRACT FROM AUTHOR]

Published

2023

30. Accuracy (trueness and precision) of 3D printed orthodontic models finalized to clear aligners production, testing crowded and spaced dentition.

Author

Grassia, Vincenzo, Ronsivalle, Vincenzo, Isola, Gaetano, Nucci, Ludovica, Leonardi, Rosalia, and Lo Giudice, Antonino

Subjects

RESEARCH evaluation, DENTURES, DIASTEMA (Teeth), ORTHODONTIC appliances, ACCURACY, ORTHODONTICS, EDENTULOUS mouth, DENTAL arch, THREE-dimensional printing, DENTITION

Abstract

Background: The study's objective was to assess the accuracy (trueness and precision) of orthodontic models obtained from crowded and spaced dentition finalized for the production of clear aligners. Four 3D printers featuring different technologies and market segments were used for this purpose. Methods: Two digital master models were obtained from two patients featuring respectively crowded dentition (CM group) and diastema/edentulous spaces (DEM group). The 3D printers tested were: Form 3B (SLA technology, medium-professional segment), Vector 3SP (SLA technology, industrial segment), Asiga Pro 4K65 (DLP technology, high-professional segment), and Anycubic Photon M3 (LCD technology, entry-level segment). Each 3D printed model was scanned and superimposed onto the reference master model and digital deviation analysis was performed to assess the trueness and precision calculated as root mean square (RMS). All data were statistically examined to obtain intra-group and inter-groups comparisons(p 0.05). Results: In both CM and DEM groups, SLA 3D printers (Vector 3SP and Form 3B) showed lower trueness error compared to DLP/LCD technologies (Asiga Pro 4K65, Anycubic Photon M3) (p < 0.001). In general, the entry-level printer (Anycubic Photon M3) showed the greatest trueness error (p < 0.001). Comparing CM and DEM models generated with the same 3D printer, statistically significant differences were found only for Asiga Pro 4k65 and Anycubic Photon M3 printers (p > 0.05). Concerning data of precision, the DLP technology (Asiga Pro 4k65) showed lower error compared to the other 3D printers tested. The trueness and precision errors were within the accepted clinical error for clear aligner manufacturing (< 0.25 mm), with the entry-level 3D printer nearly reaching this value. Conclusions: The accuracy of orthodontic models generated for clear aligners can be affected by different 3D printer technologies and anatomical characteristics of dental arches. [ABSTRACT FROM AUTHOR]

Published

2023

31. Palatal changes after treatment of functional posterior cross-bite using elastodontic appliances: a 3D imaging study using deviation analysis and surface-to-surface matching technique

Author

Antonino Lo Giudice, Vincenzo Ronsivalle, Cristina Conforte, Giuseppe Marzo, Alessandra Lucchese, Rosalia Leonardi, and Gaetano Isola

Subjects

Orthodontics, Digital orthodontics, Digital dentistry, Elastodontics, Crossbite, Dentistry, RK1-715

Abstract

Abstract Background The present study aimed to evaluate the changes in palate dimension and morphology after treatment of functional posterior crossbite (FPXB) with elastodontic devices (EAs). Methods The treatment group (TG) consisted of 25 subjects (mean age 7.3 ± 0.9 years) who received treatment with EA for one year. The control group (CG) comprised 14 untreated subjects (mean age 6.8 ± 0.7 years). Inclusion criteria: intra-oral scan registered before (T0) and after treatment (T1), FPXB with a mandibular shift towards the crossbite site of ≥ 2 mm, class I molar relationship. Exclusion criteria: missing teeth, anterior crossbite, temporomandibular disorders, previous orthodontic treatment, carious lesions, mobility of deciduous posterior teeth, craniofacial deformities. Digital models were analyzed to assess the inter-canine (ICW) and inter-molar widths (IMW) and the corresponding emi-lateral measurements (eICW and eIMW) using the median palatine plane as reference. According to a specific 3D imaging technology, the morphology and symmetry of the palate was investigated by analysing the 3D deviation between the two specular models of the palate. Results At T0, both groups showed a significantly narrower dimension of eICW and eIMW at the crossbite side compared to the non-crossbite side (p 0.05). Conclusions EAs could be successfully used to correct FPXB in mixed dentition and could restore the harmonious development of the palate in children.

Published

2023

32. Bewertung der Bindungseffizienz und Dauerhaftigkeit von digital hergestellten Polyetheretherketon-Retainern.

Author

Othman, Ahmed, Oberbeck, Justus, Aboelenin, Aya, von See, Constantin, Dobbertin, Katharina, and Aboulazm, Khaled

Subjects

POLYETHER ether ketone, DENTAL arch, ORTHODONTICS, ALUMINUM oxide, CORRECTIVE orthodontics, PATIENTS, ADHESIVES, DURABILITY

Abstract

Copyright of Kieferorthopädie: die Zeitschrift für die Praxis is the property of Quintessenz Verlags GmbH and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

33. 3-D-gedruckt vs. konventionell: Positionierungsgenauigkeit von Bohrschablonen für das palatinale Inserieren von Miniimplantaten.

Author

Mang de la Rosa, Maria R., Safaltin, Ayse, Aigner, Annette, Jost-Brinkmann, Paul-Georg, and Koch, Petra Julia

Subjects

ORTHODONTICS, CLINICAL medicine, PATIENTS, ORTHODONTISTS, THREE-dimensional printing, PALATE, PLANNING, ACCURACY, LABORATORIES

Abstract

Copyright of Kieferorthopädie: die Zeitschrift für die Praxis is the property of Quintessenz Verlags GmbH and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

34. From Reverse Engineering Software to CAD-CAM Systems: How Digital Environment Has Influenced the Clinical Applications in Modern Dentistry and Orthodontics.

Author

Ronsivalle, Vincenzo, Ruiz, Ferdinando, Lo Giudice, Antonino, Carli, Elisabetta, Venezia, Pietro, Isola, Gaetano, Leonardi, Rosalia, and Mummolo, Stefano

Subjects

REVERSE engineering, SOFTWARE engineers, CLINICAL medicine, SOFTWARE engineering, ORTHODONTICS, DIGITAL technology, SCANNING systems

Abstract

Background: Reverse engineering (RE) or back engineering is a process that analyzes a physical object to obtain the primary data of the same project. RE technologies have different applications in industrial settings and productive chains; however, with the advent of digital technologies in dentistry and orthodontic fields, they are involved in the new diagnostic and clinical digital workflow. For example, 3D model scanning, 3D facial scanning, models superimposition, digital orthodontic setup, anatomical volumetric assessment, soft tissue analysis, orthodontic digital guided systems, and prototyped orthodontic appliances represent a few examples of the application of RE in orthodontics. Moreover, clinicians can manipulate the data derived from original digital file to enhance diagnosis and communication with other clinicians and dental technicians; however, RE and digital technologies systems are not exempt from shortcomings, including costs and knowledge curve. In this regard, the aim of the present manuscript was to describe the use of reverse engineering technologies in modern digital orthodontics and provide helpful information for those specialists who are at the beginning of the transition from analogic to digital orthodontic workflow. [ABSTRACT FROM AUTHOR]

Published

2023

35. Comparative Evaluation of Accuracy of Reconstructed 3D Printed Rapid Prototyping Models and Conventional Stone Models with Different Ranges of Crowding: An In-vitro Study.

Author

MOHITE, ANKITA M., NANJANNAWAR, LALITA G., AGRAWAL, JIWANASHA M., FULARI, SANGAMESH, SHETTI, SHRADDHA, KAGI, VISHWAL, SHIRKANDE, AMOL, and GOFANE, SANJIVANI

Subjects

*RAPID prototyping, *LIGHT emitting diodes, *CAD/CAM systems, *BLAND-Altman plot

Abstract

Introduction: The digitalisation of dental models has made significant contribution to the current success of orthodontic practices. Rapid Prototyping (RP) is an innovative method of producing physical objects based on Computer-Aided Design (CAD) Computer-Aided Manufacturing (CAM). Aim: To compare the accuracy of the Three-Dimensional (3D) printed rapid prototyped models with orthodontic stone models across different ranges of crowding. Materials and Methods: A cross-sectional study carried out at the Bharati Vidyapeeth Deemed to be University, Dental College and Hospital, Sangli, Maharashtra, India during September 2019 to September 2020. A total of 36 rapid prototyped models were reconstructed from stone models using Light Emitting Diode (LED) scanner and Digital Light Processing (DLP) technology. Dental stone models and RP models were evaluated using digital caliper for different linear measurements and arch dimensions. The data was analysed using Statistical Package for Social Sciences (SPSS) version 26.0. To evaluate accuracy, t-test analyses and Bland-Altman plotting were performed. Results: T-test showed statistically non significant difference in all parameters of measurements of RP models when compared to stone models. According to Bland-Altman plotting. The mean difference between stone and RP models for the various degree of crowding was minimal and within ±0.07 mm in all planes. Conclusion: Discrepancy between dental plaster models and RP models were less than 0.5 mm which was considered clinically non significant. Suggesting that RP models can be effectively used as an alternative to stone models. [ABSTRACT FROM AUTHOR]

Published

2023

36. Virtual-First: A virtual workflow for new patient consultation, engagement and education in orthodontics.

Author

Katyal, Vandana and Vaid, Nikhilesh

Subjects

SIMULATED patients, ORTHODONTICS, ADMINISTRATIVE efficiency, ARTIFICIAL intelligence, TELEMEDICINE, WORKFLOW

Abstract

Virtual-First is a new patient enquiry system and workflow to provide a screening virtual orthodontic consultation to a potential orthodontic patient. The workflows and systems presented in this paper are an example of how virtual technologies can be integrated by an orthodontic practice, as an additional supplement, to provide a more engaged, educational and screening model for new patients potentially reducing time and costs that are associated with existing traditional orthodontic consultation models. Using Artificial Intelligence (AI) driven technologies, automated or semi-automated responses can be created to increase practice efficiency and reduce administrative time and errors by the orthodontic teams and professionals. This paper also highlights the challenges to technologies and provides advise on improvements in such systems in the future. [ABSTRACT FROM AUTHOR]

Published

2023

37. Can computer-guided surgery help orthodontics in miniscrew insertion and corticotomies? A narrative review

Author

Rosanna Guarnieri, Camilla Grenga, Federica Altieri, Federica Rocchetti, Ersilia Barbato, and Michele Cassetta

Subjects

CAD-CAM, digital orthodontics, surgical template, corticotomy, piezocision, miniscrew, TAD, Dentistry, RK1-715

Abstract

Orthodontics has considerably increased the use of technology combined with surgery as a tool to improve dental movements in terms of predictability, acceleration of movement, and fewer side effects. To achieve these goals miniscrews and corticotomy were introduced. The digital workflow permits an increase in the accuracy of surgical and orthodontic setups. The tool that transfers the information is the CAD/CAM (Computer-Aided Design/ Computer-Aided Manufacturing) template. The aim of this review is to illustrate the use of computer-guided surgery in orthodontics regarding miniscrews and piezocision. The search strategy was a combination of Medical Subject Headings (Mesh) and free text words for PubMed. A total of 27 articles were included in this review: 16 concerned miniscrews and 11 concerned corticotomy. The current need for faster treatments, the improved systems of anchorage, and the evolution of imaging technologies require operators to be knowledgeable of the digital workflow. CAD/CAM templates allow greater precision and predictability of miniscrew insertion even if in the hands of less experienced clinicians and permit a better orientation and depth of the cortical incision. In conclusion, digital planning makes surgery faster and easier and allows for the identification and correction of any potential problem before the procedure.

Published

2023

38. Comparative Evaluation of Accuracy of Reconstructed 3D Printed Rapid Prototyping Models and Conventional Stone Models with Different Ranges of Crowding: An In-vitro Study

Author

Ankita M Mohite, Lalita G Nanjannawar, Jiwanasha M Agrawal, Sangamesh Fulari, Shraddha Shetti, Vishwal Kagi, Amol Shirkande, and Sanjivani Gofane

Subjects

digital orthodontics, stereolithography, three-dimensional printing, Medicine

Abstract

Introduction: The digitalisation of dental models has made significant contribution to the current success of orthodontic practices. Rapid Prototyping (RP) is an innovative method of producing physical objects based on Computer-Aided Design (CAD) Computer-Aided Manufacturing (CAM). Aim: To compare the accuracy of the Three-Dimensional (3D) printed rapid prototyped models with orthodontic stone models across different ranges of crowding. Materials and Methods: A cross-sectional study carried out at the Bharati Vidyapeeth Deemed to be University, Dental College and Hospital, Sangli, Maharashtra, India during September 2019 to September 2020. A total of 36 rapid prototyped models were reconstructed from stone models using Light Emitting Diode (LED) scanner and Digital Light Processing (DLP) technology. Dental stone models and RP models were evaluated using digital caliper for different linear measurements and arch dimensions. The data was analysed using Statistical Package for Social Sciences (SPSS) version 26.0. To evaluate accuracy, t-test analyses and Bland-Altman plotting were performed. Results: T-test showed statistically non significant difference in all parameters of measurements of RP models when compared to stone models. According to Bland-Altman plotting. The mean difference between stone and RP models for the various degree of crowding was minimal and within ±0.07 mm in all planes. Conclusion: Discrepancy between dental plaster models and RP models were less than 0.5 mm which was considered clinically non significant. Suggesting that RP models can be effectively used as an alternative to stone models.

Published

2023

39. Palatal changes after treatment of functional posterior cross-bite using elastodontic appliances: a 3D imaging study using deviation analysis and surface-to-surface matching technique.

Author

Lo Giudice, Antonino, Ronsivalle, Vincenzo, Conforte, Cristina, Marzo, Giuseppe, Lucchese, Alessandra, Leonardi, Rosalia, and Isola, Gaetano

Subjects

TREATMENT of malocclusion, CORRECTIVE orthodontics, THREE-dimensional imaging, COMPUTER-aided design, MOLARS, CONVALESCENCE, DIGITAL technology, TREATMENT duration, MALOCCLUSION, COMPARATIVE studies, DESCRIPTIVE statistics, PALATE, DENTISTRY

Abstract

Background: The present study aimed to evaluate the changes in palate dimension and morphology after treatment of functional posterior crossbite (FPXB) with elastodontic devices (EAs). Methods: The treatment group (TG) consisted of 25 subjects (mean age 7.3 ± 0.9 years) who received treatment with EA for one year. The control group (CG) comprised 14 untreated subjects (mean age 6.8 ± 0.7 years). Inclusion criteria: intra-oral scan registered before (T0) and after treatment (T1), FPXB with a mandibular shift towards the crossbite site of ≥ 2 mm, class I molar relationship. Exclusion criteria: missing teeth, anterior crossbite, temporomandibular disorders, previous orthodontic treatment, carious lesions, mobility of deciduous posterior teeth, craniofacial deformities. Digital models were analyzed to assess the inter-canine (ICW) and inter-molar widths (IMW) and the corresponding emi-lateral measurements (eICW and eIMW) using the median palatine plane as reference. According to a specific 3D imaging technology, the morphology and symmetry of the palate was investigated by analysing the 3D deviation between the two specular models of the palate. Results: At T0, both groups showed a significantly narrower dimension of eICW and eIMW at the crossbite side compared to the non-crossbite side (p < 0.05). Also, the 3D deviation analysis demonstrates a limited matching percentage of the original/mirrored models in both TG (81.12%) and CG (79.36%), confirming the asymmetry of the palate. The area of mis-matching was located at the alveolar bone level. At T1, subjects in the TG showed a significant increment of ICW and IMW (p < 0.05), a reduction of the differences of eICW and eIMW between both sides (p < 0.05) and an increment of the percentage matching (TG = 92.32%) (p < 0.05), suggesting a significant recovery of the palatal asymmetry. No significant changes were found between T0 and T1 in the CG (p > 0.05). Conclusions: EAs could be successfully used to correct FPXB in mixed dentition and could restore the harmonious development of the palate in children. [ABSTRACT FROM AUTHOR]

Published

2023

40. Accuracy of palatal orthodontic mini-implants placed by conventionally or CAD/CAM-based surgical guides: a comparative in vitro study.

Author

Mang de la Rosa, Maria R., Safaltin, Ayse, Jost-Brinkmann, Paul-Georg, Aigner, Annette, and Koch, Petra Julia

Subjects

IN vitro studies, PATTERNMAKING, COMPARATIVE studies, PALATE, MAXILLARY expansion

Abstract

To investigate and compare the transfer accuracy of five different surgical guides (SGs) for the insertion of orthodontic mini-implants (OMIs) in the anterior palate. Stereolithographic files of 10 maxillary patient models and their corresponding lateral cephalograms were virtually matched and used for planning the position of two parallel OMIs in the paramedian region of the anterior palate. For each patient model, three 3-dimensional (3D)–printed and two conventional SGs were manufactured from different materials, and a total of 96 OMIs were transferred to the anterior palates of the respective 50 molded resin models. The planned (T0) and the actual (T1) OMI positions were analyzed and compared after superimposition of the digitized models. The deviations between the OMI positions in T0 and T1 were described as the distance between the head and the tip, respectively, of each OMI in millimeters and the deviating angle between the OMI axes for each patient and SG. The conventionally manufactured SGs of Pattern Resin LS (GC Europe N.V., Leuven, Belgium) showed the highest linear and angular transfer accuracy for the insertion of OMIs. The highest deviations were found with the SGs made of IMPRIMO LC Splint (3D-printed; Scheu-Dental, Iserlohn, Germany) and Memosil 2 (conventional SG; Kulzer, Hanau, Germany). The 3D-printed SGs did not reach the accuracy of the conventional SGs made of Pattern Resin but may provide sufficient accuracy for palatal OMI placement. [ABSTRACT FROM AUTHOR]

Published

2023

41. 3D Printing in Orthodontics: A Narrative Review.

Author

Harikrishnan, Sruthi and Subramanian, Aravind Kumar

Subjects

THREE-dimensional printing, ORTHODONTIC appliances, ORTHODONTICS, RAPID prototyping, 3-D printers, DIGITAL dental impression systems, DENTAL impressions

Abstract

Aim: Digital technology profoundly impacts every aspect of orthodontics, from diagnosis and treatment planning to appliance fabrication. Integrating computer-aided designing tools and rapid prototyping hardware has allowed orthodontic practices and laboratories worldwide to revolutionize their workflows. This narrative review aims to consolidate literature findings regarding the use of three-dimensional (3D) printing technology in orthodontics in terms of its current state of development and availability while also exploring the type of printing technology used, accuracy, and efficiency of its potential use in clinical orthodontics. Materials and Methods: 3D printing in orthodontics has been the subject of a comprehensive electronic literature search from 2010 to 2020 using PubMed and Google Scholar databases with relevant MeSH terms and keywords. Orthodontics, 3D printing, 3D-printing processes, accuracy, precision, and efficiency were used to identify studies for this review. Two calibrated reviewers separately applied inclusion and exclusion criteria to each article. Selected article references were checked to expand the article search. Types of 3D printers, assessment techniques, and examined parameters were considered for data extraction, and qualitative analysis was done for evidence synthesis. Results: The search strategy yielded 108 titles. Thirty-six articles that met our inclusion criteria were included in the qualitative analysis: 20 articles were about cast models, seven about indirect bonding, three about aligners, and six about surgical splint fabrication. The most common 3D-printed device types were models. The most commonly used 3D-printing techniques are stereolithography and digital light processing for orthodontic applications. 3D-printed clear aligners are more precise than thermoformed clear dental aligners. Digital occlusal splint and surgical templates increase accuracy, reliability, and efficiency than a conventional one. Conclusions: A 3D printer can be used by the orthodontist to create an entirely digital workflow. Although the 3D-printing technologies used for orthodontic appliance fabrication have demonstrated equal or superior accuracy to conventional models, there is insufficient evidence to conclude that one type of printing is more accurate and efficient than the others. These findings suggest that conventional impressions and stone models can be eliminated, reducing the amount of storage required in the office and improving practice efficiency, appliance fit, and model reuse. Digital 3D-printed appliances are more accurate, reliable, and efficient than conventional ones. Future research must identify potential 3D-printing technology specific to various orthodontic procedures. [ABSTRACT FROM AUTHOR]

Published

2023

42. In-house three-dimensional printing within the digital orthodontic workflow.

Author

Cousley, Richard R.J.

Abstract

• The orthodontic digital workflow involves intraoral scanning through to three-dimensional (3D) printing. • It only takes several hours from scan to retainer (and even aligner) fit with in-house 3D printing. • In-house 3D printing empowers orthodontists to take full control of aligner treatments. • Fusion (hybrid) orthodontics, enabled by in-house appliance provision, offers versatile and fully patient-centric treatment. Intraoral scanning techniques, and the associated software, have revolutionized model acquisition, analysis, and virtual planning in orthodontics. Three-dimensional printing is the final aspect of this digital workflow, converting these virtual models and simulations of the tooth and occlusal movements into physical reality. This article provides an insight into how in-house three-dimensional printing is now a feasible and transformative reality for many orthodontic settings and how this empowers orthodontists to optimize their patient care. [ABSTRACT FROM AUTHOR]

Published

2022

43. Advantages and disadvantages of the three-dimensional metal printed orthodontic appliances.

Author

Graf, Simon and Tarraf, Nour Eldin

Abstract

• Direct printing of a metallic appliance can be done using a completely digitalized process. • There exist operator and patient advantages when we utilize this process. • There exist some limitations and disadvantages to the process as well. • This technology allows taking the digitalization directly into the treatment process. Orthodontic digitalization has progressed steadily. Recently, three-dimensional metal printing has revolutionized the way appliances are designed and manufactured. The process offers several advantages over the conventional analog process for both the orthodontic team and the patients. This article aims to explore the process of three-dimensional metal printing and give an insight into the advantages as well as potential limitations and disadvantages of this new technology. [ABSTRACT FROM AUTHOR]

Published

2022

44. TIP, TORQUE & ROTATIONS: How accurately do digital superimposition software packages quantify tooth movement?

Author

Samar M. Adel, Nikhilesh R. Vaid, Nadia El-Harouni, Hassan Kassem, and Abbas R. Zaher

Subjects

Artificial intelligence, Registration, 3D digital models, 3D tooth movement, Digital orthodontics, Aligner therapy, Dentistry, RK1-715

Abstract

Abstract Background To investigate the accuracy of three different 3D digital model registration software for tip, torque and rotation measurements, with reference to a 3D digital virtual setup. Twenty maxillary and mandibular pre-treatment scans of patients undergoing clear aligner therapy were used. Digital setups were generated from pre-treatment scans using a tooth movement software. Both the pretreatment digital scans (T1) and digital setups (T2) were converted to STL files to be exported to the 3 studied software that employed: (1) Semiautomatic best fit registration (S-BF), (2) Interactive surface-based registration (I-SB), and (3) Automatic best fit registration (A-BF) respectively. Changes in tip, torque and rotation were calculated for all the registered pairs. Results The change in tooth position was compared between the calculated tooth movement using each of the registration software packages versus the actual generated tooth movement from the digital setups. Continuous data was expressed as mean and standard deviation. Intra Class Correlation Coefficient for agreement between digital simulation and each software was used. Intra and Inter-examiner reliabilities were also assessed using Intra Class Correlation Coefficient. Significance of the obtained results was expressed at p ≤ 0.01. Semiautomatic best fit registration software showed excellent agreement (> 0.90) for all tooth movements, except for good agreement for torque (0.808). Interactive surface-based registration software showed moderate agreement for all measurements (0.50 and 0.90) for rotation, good agreement for tip (0.890) and moderate agreement for torque (0.740). Conclusions Overall, semiautomatic best fit registration software consistently showed excellent agreement in superimpositions compared to other software types. Automatic best fit registration software consistently demonstrated better agreement for mandibular superimpositions, compared to others. Accuracy of digital model superimpositions for tooth movements studied in superimposition studies, can be attributed to the algorithm employed for quantification.

Published

2022

45. Digital model superimpositions: are different software algorithms equally accurate in quantifying linear tooth movements?

Author

Samar M. Adel, Nikhilesh R. Vaid, Nadia El-Harouni, Hassan Kassem, and Abbas R. Zaher

Subjects

Registration, 3D digital models, 3D tooth movement, Digital orthodontics, Aligner therapy, Scanning, Dentistry, RK1-715

Abstract

Abstract Background To evaluate the accuracy of three different 3D digital model registration software packages for linear tooth movement measurements, with reference to a 3D digital virtual setup (DS). Methods Twenty maxillary and mandibular pre-treatment scans of patients undergoing clear aligner therapy were used. Digital Setups were generated from pre-treatment scans using OrthoAnalyzer software. Both the pretreatment digital scans (T1) and Digital Setups (T2) were converted to STL files to be imported to the three studied software packages: Geomagic, OrthoAnalyzer and Compare. Linear changes in tooth positions were calculated for all the registered pairs. Results The change in tooth position was compared between the calculated tooth movement using each of the registration software packages versus the actual generated tooth movement from the Digital Setups. Continuous data was expressed as mean and standard deviation. Intraclass Correlation Coefficients for agreements between Digital Simulation and each software was used. Intra and Inter-examiner reliabilities were also assessed using Intraclass Correlation Coefficients. Significance of the obtained results was expressed at p ≤ 0.01. Geomagic software showed agreements > 0.90 for maxillary linear tooth movements and between 0.75 and 0.90 for mandibular measurements. OrthoAnalyzer software showed agreements between 0.50 and 0.90 for maxillary and mandibular linear tooth movements, indicating the best consistency. Conclusions Compare and Geomagic software packages consistently showed maximum accuracy in measuring the amount of tooth movement in the maxillary arch compared to the reference standard. Compare software showed the highest agreements in the mandibular arch. None of the three studied software packages showed poor agreement with the Digital Setup across all tooth movement measurements. Buccolingual tooth movements showed the highest agreements amongst linear measurements.

Published

2022

46. Digital Orthodontics

Author

Dalbah, Lana, Jain, Priyanka, editor, and Gupta, Mansi, editor

Published

2021

47. 3D Prosthodontic Treatment Planning for Orthodontic Patients: Interdisciplinary Approach

Author

Ahmed, Walaa Magdy, Alalola, Bassam, Alsaloum, Mohammed, Verhaeghe, Tyler, Andrew, James, Abdallah, Mohamed-Nur, Retrouvey, Jean-Marc, editor, and Abdallah, Mohamed-Nur, editor

Published

2021

48. Three-Dimensional Treatment Simulation for Predictable Orthodontic Treatment Planning and Implementation

Author

Retrouvey, Jean-Marc, Vandersluis, Yona R., Kaku, John, Vasudavan, Sivabalan, Retrouvey, Jean-Marc, editor, and Abdallah, Mohamed-Nur, editor

Published

2021

49. Evolution of the Orthodontic Diagnosis in the Age of Artificial Intelligence

Author

Retrouvey, Jean-Marc, Panayi, Nearchos, Tsolakis, Apostolos, Retrouvey, Jean-Marc, editor, and Abdallah, Mohamed-Nur, editor

Published

2021

50. Use of Dental Photography in Orthodontic Diagnosis and Treatment Planning

Author

Lacombe, Suzanne, Hack, Marius, Samawi, Shadi, Retrouvey, Jean-Marc, editor, and Abdallah, Mohamed-Nur, editor

Published

2021