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Journal articles on the topic 'Digital orthodontics'

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Author: Grafiati
Published: 9 March 2023
Last updated: 10 March 2023

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1

Wang, Qing, Ziran Jiang, Zhilun Xue, Wulin He, and Zhiwei He. "Application of Mathematical Model in Orthodontics." Mobile Information Systems 2022 (September 16, 2022): 1–12. http://dx.doi.org/10.1155/2022/5286225.

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With the development of digital information technology and big data technology, the medical industry has also undergone tremendous changes. Traditional medical treatment mainly relies on the technical experience of the attending doctor for treatment, and there is no sophisticated instrument or scientific analysis system to assist in treatment. With the improvement of people’s living standards, people’s attention to teeth has increased significantly. Traditional orthodontics is based on the subjective judgment of orthodontists and manual treatment. Due to the differences in the experience of orthodontists, the traditional orthodontic effect is often very poor. Using digital information and big data technology to carry out quantitative diagnosis and treatment analysis of teeth, 3D modeling, and simulation of prosthesis, personalized treatment of the prosthesis model, and finally applied to orthodontics, digital-based orthodontics make the orthodontic diagnosis and treatment process evidence-based, safer, and more effective. This article compares orthodontics and traditional oral orthodontics based on the mathematical model, to analyze the comfort of orthodontics, the aesthetics of orthodontics, the matching degree of aligners, and the stability of the environment in the periodontal ligament. It is concluded that the average orthodontic comfort based on the mathematical model is 85.6%, and the average aesthetic degree is 64.0%, which are more than 20% better than traditional orthodontics. It is also superior to traditional orthodontics in terms of the degree of matching of the appliance and the stability of the environment in the periodontal ligament. Therefore, the combination of mathematical models and orthodontics can lead to better orthodontic results.
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2

Pooja, R., S. Mahendra, A. V. Arun, P. Vinay Reddy, Aravind S. Raju, and C. M. Mahesh. "Digital marketing and social media in today’s orthodontic practice — Bridging the gap." Journal of Contemporary Orthodontics 6, no. 1 (April 15, 2022): 1–5. http://dx.doi.org/10.18231/j.jco.2022.001.

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To assess and determine the various aspects of the interrelationship between social and digital media and orthodontics from the patient's as well as orthodontist’s perspective. Determining where the patient looks for Orthodontist’s information online and where the orthodontist is posting or promoting their practice 2. Differentiating between patient interests on web page/social media and orthodontic posts 3. Comfort level of patients to visit an orthodontist based on digital media popularity/reviewsIn our 2-part survey, 2 separate google forms were created to assess the various aspects of practice promotion and sent to Orthodontists and patients separately. Demographic data and informed consent was taken.The survey comprises of two groups: A) Orthodontists (212 participants) B) Patients (200 participants)From the orthodontist’s perspective, patients visit them based on internet popularity. They promote their practice using their own website which is available on Google. Social media is used commonly to promote themselves by posting photos of patients and clinic. Facebook was most used. Orthodontists believe that 15-20% visit them based on internet popularity.From the patients perspective, they choose orthodontists based on popularity on internet with google search being the most used. They review orthodontists on social media on popular sites such as Instagram, WhatsApp, Facebook and Twitter. Word of mouth referrals was the most preferred old school method of finding orthodontists based on experience. With vast improvement in digital technology, youngsters prefer to review orthodontists based on digital media reviews as well. The largest discrepancy found between social media sites used by the patients/ parents and orthodontists was with Facebook and Instagram. This opportunity is being vastly ignored by most orthodontic practices and should be considered as a potential marketing tool for current and prospective patients.
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Balut, Nasib, Digant P. Thakkar, Enrique Gonzalez, Rodrigo Eluani, and Luis David Silva. "Digital orthodontic indirect bonding systems: A new wave." APOS Trends in Orthodontics 10 (September 18, 2020): 195–200. http://dx.doi.org/10.25259/apos_18_2020.

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Digital technologies are progressing with leaps and bounds and the field of orthodontics is not untouched by it, with innovations like intraoral scanners and 3D printers being easy to own and maintain and increased availability of biocompatible 3D printing materials orthodontist are curious to use this technology to improve orthodontic bracket positioning which would require minimal to no repositioning during the course of treatment. The authors here have tried to outline 2 different methods using CBCT and VTO as guide to decide the bracket positioning digitally and using 3D printed Indirect Bonding trays for orthodontic bonding.
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Mohammed Alassiry, Ahmed. "DIGITAL ORTHODONTICS- A CONTEMPORARY VIEW OF FUTURISTIC PRACTICE." International Journal of Advanced Research 9, no. 4 (April 30, 2021): 723–32. http://dx.doi.org/10.21474/ijar01/12758.

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The world is going digital and so is the speciality of orthodontics. The knowledge of computers is no longer rudimentary and the application of technology in orthodontics has grown exponentially. Conventional methods of running an orthodontic practice were limited and associated with multiple drawbacks. Owning and running a digital orthodontic practice is the need of the hour and necessity of the future. The aim of this review article is to encourage and promote the orthodontic community to integrate digital elements in their practice. This review article discusses in detail about the various aspects of digital orthodontics involving digital office, study models, three-dimensional imaging, rapid prototyping, virtual treatment planning, artificial intelligence and role of robots. This review article provides an insight into the capabilities and clinical application on currently available digital orthodontic technological systems.
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Acharya, Swati Saraswata, Pritam Mohanty, and Pavithra Rao. "How do I Imagine Orthodontic World in 2035." Orthodontic Journal of Nepal 7, no. 1 (June 30, 2017): 51–52. http://dx.doi.org/10.3126/ojn.v7i1.18903.

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The future orthodontic world is so bright that we definitely ‘need to wear shades’. We are infiltrating a new era of orthodontics accoutered with modern technologies. However, ever growing operating costs, greater patient expectations and indictments against orthodontists are few concerns which need to be addressed. Increased information technology skills, three-dimensional image superimposition methods, custom designed treatments, tooth movement control systems, digital models and evidencebased orthodontics will be the new outlook in the next twenty years. Orthodontic research is entering an epoch of exhilaration. Trends, issues and new evolutions can come together in startling ways. Scenarios are the recitals about the future that combine these forces of change in various ways. Genome wide coalition studies are vital to further the evidence base to practice orthodontics in the coming years.
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6

Anacleto, Murilo Augusto, and Bernardo Quiroga Souki. "Superimposition of 3D maxillary digital models using open-source software." Dental Press Journal of Orthodontics 24, no. 2 (April 2019): 81–91. http://dx.doi.org/10.1590/2177-6709.24.2.081-091.bbo.

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Abstract Historically, whether for research purposes or clinical monitoring, orthodontic evaluation of dental movements has been done using plaster study models and two dimensional (2D) radiographs. However, new frontiers for the diagnosis, planning and outcome assessment of orthodontic treatments have arisen, due to the revolutionary digital tools which enable a three dimensional (3D) computerized analysis of dental movements by means of digital models. However, the software for 3D analysis are often costly, resulting in limited access to orthodontists. The present study aims to describe, through a clinical case presented to the Brazilian Board of Orthodontics and Dentofacial Orthopedics, a method for the superimposition of maxillary digital models using an open-source software to evaluate dental movements.
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7

Agarwal, Anupam, Shalu Mahajan, and Santosh Verma. "Digital Single Lens Reflex Photography in Clinical Orthodontics: Revolution or Evolution." World Journal of Dentistry 5, no. 2 (2014): 118–23. http://dx.doi.org/10.5005/jp-journals-10015-1271.

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ABSTRACT The field of dentistry has witnessed a ‘Digital Revolution’ in the recent past which has made the maintenance of patient's pretreatment and post-treatment records a necessary protocol. The speciality of orthodontics depends heavily on patient's records for various purposes including diagnosis and treatment planning and patient motivation. The recent upsurge in digital technology has been both inviting and confusing as an orthodontist finds himself in a dilemma regarding which camera to choose for orthodontic photography. This research article tries to develop an understanding about the cameras to choose for the above mentioned purpose and that whether digital SLR technology is really a revolution or just an evolution. How to cite this article Agarwal A, Mahajan S, Verma S. Digital Single Lens Reflex Photography in Clinical Orthodontics: Revolution or Evolution. World J Dent 2014;5(2):118-123.
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8

Alqahtani, Jamal, Ghufran Alhemaid, Hussein Alqahtani, Ahmed Abughandar, Reem AlSaadi, Ibtihal Algarni, Wahiba AlSharif, et al. "Digital Diagnostics and Orthodontic Practice." JOURNAL OF HEALTHCARE SCIENCES 02, no. 06 (2022): 112–17. http://dx.doi.org/10.52533/johs.2022.2605.

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Orthodontic diagnosis is mostly dependent on the patient's dental and medical history, clinical examination, study models, and cephalometric radiographs, which are the most important tool for orthodontic diagnosis since they are used to identify abnormalities in the dental and craniofacial skeleton. An ever-increasing array of digital technologies is transforming dental therapy in a variety of ways. Digital dental models, the use of digital dental set-ups to simulate the eventual result of orthodontic therapy, and three-dimensional imaging of the dentofacial region are among the technological advances that provided new choices for patient documentation. Digital records allow for a three-dimensional evaluation of a patient's dentofacial morphology, which is critical for orthodontic diagnostics and treatment planning. Additionally, these digital records increase record storage, access, conservation, communication with patients, and duplication possibilities. The purpose of this research is to review the available information about the digital diagnostics and orthodontic practice. Since the introduction of threedimensional techniques, which have found different uses in orthodontics as well as oral and maxillofacial surgery, imaging technology in the dentistry sector has emerged as one of the most significant parts of identifying and managing oral problems. With the growing availability of cone-beam computed tomography, three-dimensional depiction of dentition, maxillofacial skeleton, and soft tissues in all phases of interactions is now possible. In orthodontics, digital scanning can be utilized for a variety of purposes. However, more research is needed to generate evidence-based results regarding the utilization of digital diagnostics in orthodontics.
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Doğan, Ege, and Çağlayan Öztürk. "Evaluation of Orthodontists' Perspective on Digital Orthodontics." Journal of Ege University School of Dentistry 43, no. 50 (2022): 1–9. http://dx.doi.org/10.5505/eudfd.2022.62134.

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10

AKDENİZ, Berat Serdar, Volkan AYKAÇ, Merve TURGUT, and Semanur ÇETİN. "Digital dental models in orthodontics: A review." Journal of Experimental and Clinical Medicine 39, no. 1 (January 1, 2022): 250–55. http://dx.doi.org/10.52142/omujecm.39.1.48.

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Digital 3 dimensional (3D) dental models are considered one of the most important advancements in modern dental history. Digital dental models are used in diagnosis, treatment planning, and appliance production phases in orthodontics. The present technology of digital dental models reached, and in some points, exceeded the plaster models' accuracy. The use of digital models with CBCT images and rapid prototyping techniques brought the possibility of new treatment techniques, some of which are considered as the future of modern orthodontics. This article aims to review the current use and success of digital 3D models in orthodontic practice.
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11

M, Mayma Nathasha, Sushil Chakravarthi N.C., Dilip Srinivasan, Priya Kalidass, Davis D., Shreya Kishore, and Suvetha S. "Orthodontics in the Era of Digital Innovation – A Review." Journal of Evolution of Medical and Dental Sciences 10, no. 28 (July 12, 2021): 2114–21. http://dx.doi.org/10.14260/jemds/2021/432.

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The field of orthodontics in its new era is venturing ahead to more up-to-date technological point of view. Digital technology has a significant effect on our lives ever since the modernization of mobile phones. The advances in technology have remodelled the diagnosis and treatment plan in the field of medicine. Digital workflows are currently increasing in the orthodontic practice and has touched every aspect of orthodontics – with transformations in the documentation, study casts, analysis of a dental malocclusion, smile designing, treatment planning and for fabrication of orthodontic appliances. Three - dimensional imaging of the dentition, skeletal components and the face allows for treatment planning in three dimension and use of computer aided design (CAD) and computer aided manufacturing (CAM) for customization of orthodontic appliances. Software integration of digital models, 3D facial imaging and cone-beam computed tomography (CBCT) makes it possible to simulate the treatment plan and to attain a good communication with the patients. Recent advancement in digital videography has allowed the clinicians to capture patient’s speech, oral and pharyngeal function, and smile at the same time. Effective and optimal tooth movement required for the patient can also be monitored with the digitalization. Moreover, this digital platform has created the advantage of accessing the patient’s information from any location with the help of cloud based computing storage systems. These advancements have improved the efficiency, accuracy, consistency, and predictability of the treatment outcomes and have also led to progress in educational component and communication. The digitalization is bringing about a revolutionary change in the field of diagnosis and treatment planning, posing a challenge to clinical efficiency and knowledge. KEY WORDS Digital Orthodontics, Digital Workflow, Digital Dental Models, Digital Radiography, CAD CAM, Orthodontics, Review
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12

Kardach, Hubert, Anna Szponar-Żurowska, and Barbara Biedziak. "A Comparison of Teeth Measurements on Plaster and Digital Models." Journal of Clinical Medicine 12, no. 3 (January 25, 2023): 943. http://dx.doi.org/10.3390/jcm12030943.

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(1) Background: Modern imaging methods and constantly developing technologies extend the range of diagnostic tools in medicine and in orthodontics. Thanks to them, scientists and doctors can use devices designed to diagnose 3D structures of the human body. The aim of the study was to assess the usefulness of digital orthodontic models as a diagnostic tool in the work of an orthodontist through a comparative analysis of the value of orthodontic measurements made on traditional plaster models and virtual models. (2) Methods: A total of 80 sets of models were made, including 40 sets of plaster models and 40 sets of digital models. A total of 48 diagnostic parameters were developed. They concerned dental parameters. (3) Results: Comparative analysis of crown height values on plaster and digital models showed statistically significant differences (p < 0.05) in 26 out of 48 dental parameters. (4) Conclusions: The differences between the measurements made with the software on the digital models and the measurements made with the traditional method of measurement using the digital caliper on the plaster models were small and clinically acceptable.
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Makaremi, Masrour, and Bernard N’Kaoua. "Estimation of Distances in 3D by Orthodontists Using Digital Models." Applied Sciences 11, no. 18 (September 7, 2021): 8285. http://dx.doi.org/10.3390/app11188285.

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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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Felter, Matheus, Maurício Guilherme Lenza, Wendel Minoro Muniz Shibasaki, and Rhonan Ferreira Silva. "Usability of free software used for visualization and measurement of digital orthodontic models." Bioscience Journal 37 (July 2, 2021): e37039. http://dx.doi.org/10.14393/bj-v37n0a2021-56824.

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The aim of this study was to evaluate the usability of the free software available that allow visualization and measurement of orthodontic digital models. 80 graduate students of orthodontics were asked to perform pre-defined tasks in a digital model through 3D Viewer ® and 3D-Tool ® software. The success in accomplishing the tasks and the time spent were recorded. To end, each participant answered a questionnaire to express their satisfaction regarding the software. There were no statistically significant difference between the software when compared to the accomplishment rates of tasks and the time spent by participants on each one. The software were evaluated as "slightly satisfactory" in several criteria. There is scope for optimization of orthodontic software by manufacturers since lack of their interface usability can discourage orthodontists’ adherence to new resources that could provide benefits to their daily routine, even if they are freely available.
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Sennimalai, Karthik, and Madhanraj Selvaraj. "Orthodontic model analysis in the permanent dentition: A review of past, and current methods." IP Indian Journal of Orthodontics and Dentofacial Research 8, no. 4 (December 15, 2022): 220–26. http://dx.doi.org/10.18231/j.ijodr.2022.038.

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The study models are regarded as the gold standard tool in orthodontics since they aid in the diagnosis, treatment planning and monitoring of the changes that may occur throughout treatment. Besides these, plaster models are also used to monitor growth and clinical audits. A study model accurately replicates the teeth, surrounding soft tissues and occlusion. Traditionally, the orthodontic study models have been used to measure the overjet and overbite, tooth size, arch length, arch width, the curve of Wilson and Spee, space analysis and diagnostic setup. However, plaster models are still preferred by orthodontists since impression-making is convenient, and most patients tolerate them well. With recent advancements in digital technology, intraoral scanners have eliminated the need for conventional impression procedures and plaster models. The digital orthodontic models have overcome the majority of disadvantages associated with plaster models. With the advent of automated analysis using digital models, the entire process of orthodontic treatment planning based on study models has become more convenient and user-friendly. This article aims to comprehend the various model analyses used for diagnosis and treatment planning in the permanent dentition stage and deliver insight into current digital methods.
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Kumar Shetty B, Sharath, Mahesh Kumar Y, and Chandrima Sreekumar. "Digital photography in orthodontics." International Journal of Dental Research 5, no. 2 (August 5, 2017): 135. http://dx.doi.org/10.14419/ijdr.v5i2.7489.

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The buzzword today is digital. Be it music, T.V., video, watch, diary or any appliance. The world is going digital. Film less photography, pictures on a chip, call it what, this is a new phenomenon of technology. It is big, and it is the way things will be from this day forwards. For over 160 years, photography has been based on the silver halide film, which is now being replaced. Digital photography has come about as a result of convergence of both IT and photography. And it has so much to offer us. This article reviews the possibilities of digital photography in orthodontics.
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Kumari, Anamika, Tusar Kanti Nayak, and Snigdha Pattanaik. "Digital Model in Orthodontics." Indian Journal of Public Health Research & Development 10, no. 11 (2019): 1116. http://dx.doi.org/10.5958/0976-5506.2019.03659.3.

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Sandler, P. J., A. M. Murray, and D. Bearn. "Digital Records in Orthodontics." Dental Update 29, no. 1 (January 2, 2002): 18–24. http://dx.doi.org/10.12968/denu.2002.29.1.18.

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Sandler, Jonathan, and Alison Murray. "Digital Photography in Orthodontics." Journal of Orthodontics 28, no. 3 (September 2001): 197–202. http://dx.doi.org/10.1093/ortho/28.3.197.

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AA VV, AA VV. "Digital dentistry/Odontoiatria digitale." Dental Cadmos 01, no. 01 (July 2022): 143. http://dx.doi.org/10.19256/abstract.cduo.09.2022.

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Federici Canova, Fabio, Giorgio Oliva, Matteo Beretta, and Domenico Dalessandri. "Digital (R)Evolution: Open-Source Softwares for Orthodontics." Applied Sciences 11, no. 13 (June 29, 2021): 6033. http://dx.doi.org/10.3390/app11136033.

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Among the innovations that have changed modern orthodontics, the introduction of new digital technologies in daily clinical practice has had a major impact, in particular the use of 3D models of dental arches. The possibility for direct 3D capture of arches using intraoral scanners has brought many clinicians closer to the digital world. The digital revolution of orthodontic practice requires both hardware components and dedicated software for the analysis of STL models and all other files generated by the digital workflow. However, there are some negative aspects, including the need for the clinician and technicians to learn how to use new software. In this context, we can distinguish two main software types: dedicated software (i.e., developed by orthodontic companies) and open-source software. Dedicated software tend to have a much more user-friendly interface, and be easier to use and more intuitive, due to being designed and developed for a non-expert user, but very high rental or purchase costs are an issue. Therefore, younger clinicians with more extensive digital skills have begun to look with increasing interest at open-source software. The aim of the present study was to present and discuss some of the best-known open-source software for analysis of 3D models and the creation of orthodontic devices: Blue Sky Plan, MeshMixer, ViewBox, and Blender.
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Silva, Maurício Barbosa Guerra da, and Eduardo Franzotti Sant'Anna. "The evolution of cephalometric diagnosis in Orthodontics." Dental Press Journal of Orthodontics 18, no. 3 (June 2013): 63–71. http://dx.doi.org/10.1590/s2176-94512013000300011.

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INTRODUCTION: Although the development of CT have represented a landmark in diagnostic imaging, its use in Dentistry turned out very discretely over the years. With the appearance of programs for analysis of three-dimensional images, specific for Orthodontics and Orthognathic surgery, a new reality is being built. OBJECTIVE: The authors of this study aim to inform the orthodontic society of fundamentals about digital cephalometric radiographic image and computed tomography, discussing about: Field of view (FOV), radiation doses, demands for the use in Orthodontics and radiographic simulations.
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Christensen, Lars R. "Digital workflows in contemporary orthodontics." APOS Trends in Orthodontics 7 (February 1, 2017): 12–18. http://dx.doi.org/10.4103/2321-1407.199180.

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Digital workflows are now increasingly possible in orthodontic practice. Workflows designed to improve the customization of orthodontic appliances are now available through laboratories and orthodontic manufacturing facilities in many parts of the world. These now have the potential to improve certain aspects of patient care.
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Redmond, W. Ronald, William J. Redmond, and M. John Redmond. "Clinical implications of digital orthodontics." American Journal of Orthodontics and Dentofacial Orthopedics 117, no. 2 (February 2000): 240–41. http://dx.doi.org/10.1016/s0889-5406(00)70049-7.

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Carvalho, Paulo Eduardo Guedes, André de Oliveira Ortega, Fernando Akio Maeda, Lucas Hian da Silva, Vanessa Graciela Gomes Carvalho, and Fernando César Torres. "Digital Scanning in Modern Orthodontics." Current Oral Health Reports 6, no. 4 (December 2019): 269–76. http://dx.doi.org/10.1007/s40496-019-00235-4.

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Venezia, Pietro, Vincenzo Ronsivalle, Gaetano Isola, Ferdinando Ruiz, Emilia Casiello, Rosalia Leonardi, and Antonino Lo Giudice. "Prosthetically Guided Orthodontics (PGO): A Personalized Clinical Approach for Aesthetic Solutions Using Digital Technology." Journal of Personalized Medicine 12, no. 10 (October 14, 2022): 1716. http://dx.doi.org/10.3390/jpm12101716.

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Conformative rehabilitation generally involves the treatment of partial dentate or the application of veneers. In this regard, conformative rehabilitation aims to generate an aesthetic prosthetic solution minimizing the amount of tissue removal without generating occlusal input interfering with the equilibrium of neuro-muscular function. In fact, pre-prosthetic orthodontics aims to re-establishing the correct position/inclination of the neighboring or antagonist teeth, providing appropriate space for the prosthetic crown. Clear aligners therapy (CAT) represents a valuable tool in the management of prosthetic cases with a conformative approach, as it allows clinicians to plan orthodontic movements that are guided by the prosthetic outcomes. In the present manuscript, we argue the concept of prosthetic guided orthodontics (PGO) by presenting and discussing three cases treated with the Invisalign GO system, which has been developed for the clinical management of multidisciplinary orthodontic-prosthetic cases with a conformative approach. In this regard, the rationale of this paper is to address the effectiveness and predictability of the digital set-up and CAT for aesthetic conformative rehabilitations.
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Shahrul, Al Imran. "Mirrorless cameras in orthodontic practice." Journal of Orthodontics 48, no. 3 (March 24, 2021): 295–99. http://dx.doi.org/10.1177/14653125211000055.

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Mirrorless cameras have seen rapid advancements in recent years. Orthodontists may benefit from these technological advancements in their daily orthodontic practice. This article will explore the advantages and disadvantages of mirrorless cameras, and assess how these camera compare to the tried-and-tested digital single-lens reflex (DSLR) camera.
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Duarte, Maria Eduarda Assad, Bruno Frazão Gribel, Alice Spitz, Flavia Artese, and José Augusto Mendes Miguel. "Reproducibility of Digital Indirect Bonding Technique Using Three-dimensional (3d) Models and 3d-printed Transfer Trays." Angle Orthodontist 90, no. 1 (August 14, 2019): 92–99. http://dx.doi.org/10.2319/030919-176.1.

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ABSTRACT Objective To evaluate the reproducibility of digital tray transfer fit on digital indirect bonding by analyzing the differences in bracket positions. Materials and Methods Digital indirect bonding was performed by positioning brackets on digital models superimposed by tomography using Ortho Analyzer (3Shape) software. Thirty-three orthodontists performed indirect bonding on prototyped models of the same malocclusion using prototyped transfer trays for two types of brackets (MiniSprint Roth and BioQuick self-ligating). The models with brackets were scanned using an intraoral scanner (Trios, 3Shape). Superimpositions were made between the digital models obtained after indirect bonding and those from the original virtual setup. To analyze the differences in bracket positions, three planes were examined for each bracket: vertical, horizontal, and angulation. Three orthodontists repeated indirect bonding after 15 days, and Bland-Altman plots and intraclass correlation coefficients were used to evaluate inter- and intraevaluator reproducibility and reliability, respectively. Repeated-measures analysis of variance (ANOVA) was used to analyze the differences between bracket positions, and multivariate ANOVA was used to evaluate the influence of orthodontists' experience on the results. Results Differences between bracket positions were not statistically significant, except mesial-distal discrepancies in the BioQuick group (P = .016). However, differences were not clinically significant (horizontal varied from 0.04 to 0.13 mm; angulation, 0.45° to 2.03°). There was no significant influence of orthodontist experience and years of clinical practice on bracket positions (P = .314 and P = .158). The reproducibility among orthodontists was confirmed. Conclusions The reproducibility of digital indirect bonding was confirmed in terms of bracket positions using three-dimensional printed transfer trays.
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Thomas, Sarah, and Mayuri Thomas. "Enter Digital Harnessing Technology in Orthodontics." Dental Poster Journal 10, no. 2 (2021): 1–2. http://dx.doi.org/10.15713/ins.dpj.110.

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Vaid, Nikhilesh R. "Digital technologies in orthodontics–An update." Seminars in Orthodontics 24, no. 4 (December 2018): 373–75. http://dx.doi.org/10.1053/j.sodo.2018.10.001.

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Coimbra, Oseas, and Carlos Lomheim. "ORTHO BYTES Digital imaging and orthodontics." American Journal of Orthodontics and Dentofacial Orthopedics 115, no. 1 (January 1999): 103–5. http://dx.doi.org/10.1016/s0889-5406(99)70128-9.

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De Rosa, Francesca. "The designer approach to digital orthodontics." Dental Nursing 12, no. 9 (September 2, 2016): 504–5. http://dx.doi.org/10.12968/denn.2016.12.9.504.

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Hutchinson, I., A. J. Ireland, and C. D. Stephens. "Digital Cameras and Orthodontics: An Overview." Dental Update 26, no. 4 (May 2, 1999): 144–49. http://dx.doi.org/10.12968/denu.1999.26.4.144.

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Küffer, Maximilian, Dieter Drescher, and Kathrin Becker. "Application of the Digital Workflow in Orofacial Orthopedics and Orthodontics: Printed Appliances with Skeletal Anchorage." Applied Sciences 12, no. 8 (April 10, 2022): 3820. http://dx.doi.org/10.3390/app12083820.

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As digital workflows are gaining popularity, novel treatment options have also arisen in orthodontics. By using selective laser melting (SLM), highly customized 3D-printed appliances can be manufactured and combined with preformed components. When combined with temporary anchorage devices (TADs), the advantages of the two approaches can be merged, which might improve treatment efficacy, versatility, and patient comfort. This article summarizes state-of-the-art technologies and digital workflows to design and install 3D-printed skeletally anchored orthodontic appliances. The advantages and disadvantages of digital workflows are critically discussed, and examples for the clinical application of mini-implant and mini-plate borne appliances are demonstrated.
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35

Barreto, Monica S., Jorge Faber, Carlos J. Vogel, and Telma M. Araujo. "Reliability of digital orthodontic setups." Angle Orthodontist 86, no. 2 (June 4, 2015): 255–59. http://dx.doi.org/10.2319/120914-890.1.

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ABSTRACT Objective: To evaluate the reliability of digital orthodontic setup technology by comparing it with manual setups and models cast at the end of orthodontic treatment. Materials and Methods: Initial models, manual setups, and final models of 20 patients were used. The initial and final models, as well as the manual setups, were scanned using a 3Shape R-700 scanner, while the digital setups were fabricated based on the initial models using 3Shape OrthoAnalyzer software. Evaluation of the models based on the manual setup, digital setup, and final models of each patient was performed using the following linear measurements: intercanine widths, intermolar widths, and length of the upper and lower dental arches. Results: The results disclosed that none of the measures assessed through the manual setup, digital setup, and final models showed statistically significant differences (P &gt; .05). Conclusions: Based on these findings, it can be inferred that digital setups are as effective and accurate as manual setups and constitute a tool for diagnosing and treatment planning that can be reliably reproduced in orthodontic treatments.
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Redmond, W. Ronald. "The digital orthodontic office: 2001." Seminars in Orthodontics 7, no. 4 (December 2001): 266–73. http://dx.doi.org/10.1053/sodo.2001.25423.

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Joffe, L. "Current Products and Practices OrthoCAD™: digital models for a digital era." Journal of Orthodontics 31, no. 4 (December 2004): 344–47. http://dx.doi.org/10.1179/146531204225026679.

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Jedliński, Maciej, Marta Mazur, Katarzyna Grocholewicz, and Joanna Janiszewska-Olszowska. "3D Scanners in Orthodontics—Current Knowledge and Future Perspectives—A Systematic Review." International Journal of Environmental Research and Public Health 18, no. 3 (January 27, 2021): 1121. http://dx.doi.org/10.3390/ijerph18031121.

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Background: Nowadays the use of intraoral scanners has become a routine practice in orthodontics. It allows the introduction of many treatment innovations. One should consider to what extent intraoral scanners have influenced the everyday orthodontic practice and in what direction should the further research in this field be conducted. This study is aimed to systematically review and synthesize available controlled trials investigating the accuracy and efficacy of intraoral scanners for orthodontic purpose to provide clinically useful information and to direct further research in this field. Methods: A literature search of free text and MeSH terms was performed by using MedLine (PubMed), Scopus, Web of Science and Embase. The search engines were used to find studies on application of intraoral scanners in orthodontics (from 1950 to 30 September 2020). The following keywords were used: “intraoral scanners AND efficiency AND accuracy AND orthodontics”. Results: The number of potential identified articles was 71, including 61 from PubMed, two from Scopus, three from Web of Science and five from Embase. After removal of duplicates, 67 full-text articles were analyzed for inclusion criteria, 16 of them were selected and finally included in the qualitative synthesis. Conclusions: There are plenty of data available on accuracy and efficacy of different scanners. Scanners of the same generation from different manufacturers have almost identical accuracy. This is the reason why future similar research will not introduce much to the orthodontics. The challenge for the coming years is to find new applications of digital impressions in the orthodontic practice.
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Retrouvey, Jean-Marc. "The role of AI and machine learning in contemporary orthodontics." APOS Trends in Orthodontics 11 (April 10, 2021): 74–80. http://dx.doi.org/10.25259/apos_148_2020.

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In the past 20 years, the orthodontic profession has adopted digital technologies such as computer-assisted tooth movement, automated staged dental aligner production, and 3D simulations. Until recently, the use of artificial intelligence (AI) was limited to narrow intelligence and supervised “learning” such as automated cephalometric point recognition, segmentation of teeth from 3D files, and staging of orthodontic treatment. The next step will be to create neural networks based on general intelligence (the human intelligence is considered general intelligence), where the network using powerful computers and complex algorithms will “learn” orthodontic diagnosis and treatment planning to suggest the most appropriate treatment plan for optimized treatments and more predictable outcomes. The objectives of this paper are to describe the state of the art in AI and orthodontics and explore potential avenues for future developments and applications.
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Baan, F., O. de Waard, R. Bruggink, T. Xi, E. M. Ongkosuwito, and T. J. J. Maal. "Virtual setup in orthodontics: planning and evaluation." Clinical Oral Investigations 24, no. 7 (November 12, 2019): 2385–93. http://dx.doi.org/10.1007/s00784-019-03097-3.

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Abstract Objectives The purpose of this study was to evaluate the clinical accuracy of virtual orthodontic setups by using a new CBCT-based approach. Materials and methods Ten patients who underwent pre-surgical orthodontics were included in this study. Pre-treatment and pre-surgical cone-beam CT (CBCT) scans and digital dental models were available. The pre-treatment digital dental model was used to create an orthodontic virtual setup. The digital dental models were fused with the corresponding CBCT scans, and the two CBCT scans were aligned using voxel-based matching. Moving each individual tooth from the virtual setup to the final outcome allows the calculation of the accuracy of the virtual setup by using an iterative closest point algorithm. Differences between virtual setup and final outcome were recorded as well as the ICC between two observers. Results The inter-observer variability showed a high level of agreement between the observers. The largest mean difference between observers was found in the cranial/caudal direction (0.36 ± 0.30 mm) and the roll rotation (1.54 ± 0.98°). Differences between the virtual setup and final outcome were small in the translational direction (0.45 ± 0.48 mm). Rotational mean differences were larger with the pitch of the incisors (0.00 ± 7.97°) and molars (0.01 ± 10.26°) as largest difference. Excessive extrusion of all upper teeth and more anterior movement than planned were seen for both upper and lower arch. Lower molars showed less extrusion. Clinical relevance The data of this study can be used to obtain more insight in the accuracy and achievability of orthodontic virtual setup. Tooth movement can now be studied in more details which can lead to new insights.
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Chaudhry, Anshul, and Girish Chaudhary. "Digital Records: A valuable Tool in Orthodontics." Acta Scientific Dental Scienecs 3, no. 10 (September 20, 2019): 63. http://dx.doi.org/10.31080/asds.2019.03.0646.

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Saccomanno, Sabina, Stefano Saran, Valeria Vanella, Rodolfo Francesco Mastrapasqua, Luca Raffaelli, and Luca Levrini. "The Potential of Digital Impression in Orthodontics." Dentistry Journal 10, no. 8 (August 8, 2022): 147. http://dx.doi.org/10.3390/dj10080147.

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Background: Over the past 20 years, there have been many innovations in orthodontic diagnosis and therapy. Among the innovations, there is the taking of dental impressions (DIs). Dental impressions are the negative imprint of hard and soft tissues of one or both arches, and they allow a plaster model to be formed, i.e., a positive reproduction. Traditional dental impressions can be made of different materials, such as alginate, while digital impression is captured by an intra-oral scanner. Digital impression, despite the evident advantages, has not yet replaced the conventional impression. The aim of this study is to evaluate which dental impressions are the most used by dentists. For this purpose, we considered 120 questionnaires sent electronically to patients of different dental private practices from different countries, where the dentists can use both techniques. The results highlighted that the kind of impression adopted is very much influenced by the type of therapy and orthodontic devices used in the treatment. We can conclude that, despite the advent of digital technology, conventional impressions are still used for fixed devices, while digital impressions are more adopted for orthodontic customized devices and therapies with clear aligners, that are very widespread among adult patients.
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Tarraf, Nour Eldin, and Darendeliler M. Ali. "Present and the future of digital orthodontics✰." Seminars in Orthodontics 24, no. 4 (December 2018): 376–85. http://dx.doi.org/10.1053/j.sodo.2018.10.002.

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Müssig, Eva, René Wörtche, and Christopher J. Lux. "Indications for Digital Volume Tomography in Orthodontics." Journal of Orofacial Orthopedics / Fortschritte der Kieferorthopädie 66, no. 3 (May 2005): 241–49. http://dx.doi.org/10.1007/s00056-005-0444-1.

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Pirttiniemi, P. "Mastering digital dental photography (2006)." European Journal of Orthodontics 28, no. 6 (December 1, 2006): 624. http://dx.doi.org/10.1093/ejo/cjl042.

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Angelopoulos, Christos, Aurelija Bedard, Jerald O. Katz, Stelios Karamanis, and Nikos Parissis. "Digital panoramic radiography: An overview." Seminars in Orthodontics 10, no. 3 (September 2004): 194–203. http://dx.doi.org/10.1053/j.sodo.2004.05.003.

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Christensen, Lars R., and Jason B. Cope. "Digital technology for indirect bonding." Seminars in Orthodontics 24, no. 4 (December 2018): 451–60. http://dx.doi.org/10.1053/j.sodo.2018.10.009.

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Kravitz, Neal D., Helena Kilic, and Monica Dinh. "Digital laboratory submission with EasyRx." Seminars in Orthodontics 24, no. 4 (December 2018): 482–86. http://dx.doi.org/10.1053/j.sodo.2018.10.012.

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Nguyen, Minh Truong, Tien Thuy Vu, and Quang Ngoc Nguyen. "Advanced Digital 3D Technology in the Combined Surgery-First Orthognathic and Clear Aligner Orthodontic Therapy for Dentofacial Deformity Treatment." Processes 9, no. 9 (September 8, 2021): 1609. http://dx.doi.org/10.3390/pr9091609.

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Orthognathic surgery and orthodontic treatment are required for patients with dentofacial deformities to obtain an ideal facial esthetic with good functioning. Recently, characterized by the surgery-first approach, an integrated orthodontic–surgical treatment has been introduced as an emerging solution to dentofacial deformity treatment. The surgery-first approach is regarded to have less treatment time and quicker enhancement of a facial profile than the conventional orthodontic–surgical treatment. Moreover, the recent advances in computing and imaging have allowed the adoption of 3-dimensional (3D) virtual planning protocols in orthognathic surgery as well as digital orthodontic treatment, which enables a paradigm shift when realizing virtual planning properly. These techniques then allow the surgeon and orthodontist to collaborate, plan, and simulate the dentofacial deformity treatment before performing the whole procedure. Along this line, in this research article, we present an integrated treatment method for the realization of an effective deformity treatment. Specifically, we implemented the integrated 3D technique by combining it with the surgery-first orthognathic approach (SFOA) as a novel treatment method for the patients. The outcomes from the combined treatments of the patients with dentofacial deformity, in practice, have demonstrated that our proposed 3D technique in orthognathics and orthodontics using clear aligner therapy (e.g., Invisalign) can enhance the satisfactory level of the patient since the start of treatment then improve their quality of life. As a result, the combined techniques realize the novel integrated treatment method using 3D technology with the use of 3D imaging and modeling as a promising development trend of dentistry, which fits into the context of Dentistry 4.0 as a key enabler to the concept of sustainable dentistry development.
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Khan, Mahamad Irfanulla, Laxmikanth SM, Tarika Gopal, and Praveen Kumar Neela. "Artificial intelligence and 3D printing technology in orthodontics: future and scope." AIMS Biophysics 9, no. 3 (2022): 182–97. http://dx.doi.org/10.3934/biophy.2022016.

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<abstract> <p>New digital technologies, like in other fields, have revolutionized the health care field and orthodontic practice in the 21<sup>st</sup> century. They can assist the health care professionals in working more efficiently by saving time and improving patient care. Recent advances in artificial intelligence (AI) and 3D printing technology are useful for improving diagnosis and treatment planning, creating algorithms and manufacturing customized orthodontic appliances. AI accomplishes the task of human beings with the help of machines and technology. In orthodontics, AI-based models have been used for diagnosis, treatment planning, clinical decision-making and prognosis prediction. It minimizes the required workforce and speeds up the diagnosis and treatment procedure. In addition, the 3D printing technology is used to fabricate study models, clear aligner models, surgical guides for inserting mini-implants, clear aligners, lingual appliances, wires components for removable appliances and occlusal splints. This paper is a review of the future and scope of AI and 3D printing technology in orthodontics.</p> </abstract>
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