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Journal articles on the topic 'Digital orthodontics'

Author: Grafiati
Published: 9 March 2023
Last updated: 25 July 2025

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1

K, Ashwanthi, Prabhavathy B, Reshma S, and Jyosthna A. "Knowledge, Awareness And Practice Of Digital Orthodontics Among Orthodontists And Orthodontic Residents – A Cross Sectional Study." International Journal of Orthodontic Rehabilitation 14, no. 4 (2024): 45–57. http://dx.doi.org/10.56501/intjorthodrehabil.v14i4.912.

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Introduction: In recent years, there has been a revolution in the use of technology across all fields, including medicine and dentistry. Significant technological advancements are being made in the field of orthodontics, which have enhanced patient and practitioner experience overall. This study aimed to assess knowledge, awareness, and practice of digital orthodontics among orthodontists and orthodontic residents through a questionnaire. Materials And Methods: This cross-sectional study collected data using 20 questionnaires (pretested and prevalidated) by the experts. The questionnaire consi
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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 or
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Skrypnyk, I. L., and K. H. Krymovskyy. "Clinical aspects of digital 3D intraoral scanning usage." Oral and General Health 6, no. 1 (2025): 10–15. https://doi.org/10.22141/ogh.6.1.2025.211.

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With technological advances in dentistry, orthodontics has also witnessed a huge surge in 3D approaches to clinical practice management. Learning models are the basic and most important prerequisites for diagnosis and treatment planning in any orthodontic case, and in the last decade, they have become digital. This review comprehensively examines the current literature on the accuracy of reproducibility, scanning time, patient comfort and orthodontist experience of intraoral scanning (IOS) in orthodontics. IOS is time-saving, patient-friendly and easy to use, and an orthodontist can learn quic
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I Girish Kumar, Jyothikiran H, Nidharshana Nair, and Madhuvanthi Gopalakrishnan. "Contemporary digital software applications in orthodontics: A review." International Journal of Science and Research Archive 11, no. 2 (2024): 288–301. http://dx.doi.org/10.30574/ijsra.2024.11.2.0403.

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Orthodontic technology has advanced significantly, allowing an orthodontist to precisely design the course of therapy. The software enables the analysis of dental mobility and the provision of digital treatment choices. Cephalometric analysis, digital imaging, intraoral and extraoral image capture, morphing capability to show patients what their teeth could look like after treatment, case presentation capability, treatment planning capability, and oral maxillofacial surgery applications are typical features of orthodontic practice software and orthodontic digital treatment planning systems. Yo
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Camcı, Hasan, Mehmet Soybelli, and Artun Yangın. "Aligners, digital transformation, artificial intelligence, companies and the future of orthodontics: embracing the reality." Australasian Orthodontic Journal 41, no. 1 (2025): 155–59. https://doi.org/10.2478/aoj-2025-0011.

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Abstract Similar to many other fields, developments in digital technology and artificial intelligence have reached exciting levels within the orthodontic profession. However, it is predicted that certain branches of medicine, such as radiology, pathology and dermatology, may either ‘fall victim’ to the rapid advancements in artificial intelligence or undergo significant transformations. In this context, how will the digital transformations that excite orthodontists and the increasing integration of artificial intelligence in orthodontics impact the future of the profession? What long-term effe
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Almudhi, Abdullazez, Iman Almohammad, Sara Alswayyed, Elzahraa Eldwakhly, and Sarah Almugairin. "The Efficacy of Diagnostic Plaster Models in Orthodontic Diagnosis and Treatment Planning." Diagnostics 14, no. 19 (2024): 2124. http://dx.doi.org/10.3390/diagnostics14192124.

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Background: The growing integration of digital technologies in orthodontics is shifting the orthodontic diagnosis and recordkeeping paradigm, replacing conventional plaster models with intraoral scanning and 3D photography. This study investigated the impact of orthodontic plaster models on orthodontic diagnosis and treatment planning decisions by orthodontists. Methods: Thirty-three orthodontists assessed six patients’ records with different malocclusion cases. Each case was assessed twice by each orthodontist evaluating a case: the first evaluation with digital records without diagnostic cas
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Park, Jae Hyun. "Clinical Applications of CBCT and 3D Digital Technology in Orthodontics." Journal of The Korean Dental Association 52, no. 1 (2014): 8–16. http://dx.doi.org/10.22974/jkda.2013.52.1.001.

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The introduction of cone-beam computed tomography(CBCT) and computer software in orthodontics has allowed orthodontists to provide more accurate diagnosis and treatment. The most common use of CBCT imaging allows orthodontists to visualize the precise position of supernumerary or impacted teeth, especially impacted canines. In doing so, the exact angulation of impaction and proximity of adjacent roots can be evaluated by orthodontists, allowing them to choose vector forces for tooth movement while minimizing root resorption. Even though 2-dimensional panoramic images can be used to view the po
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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 (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 prac
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9

Mohammed Alassiry, Ahmed. "DIGITAL ORTHODONTICS- A CONTEMPORARY VIEW OF FUTURISTIC PRACTICE." International Journal of Advanced Research 9, no. 4 (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
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Wadhawan, Richa, Shubham Kumar, Shivangi Mathur, et al. "Teleorthodontics: Navigating skepticism and uncertainity." IP Indian Journal of Orthodontics and Dentofacial Research 10, no. 2 (2024): 73–77. http://dx.doi.org/10.18231/j.ijodr.2024.014.

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Teleorthodontics, a subset of teledentistry, involves the use of digital communication technologies to provide remote orthodontic care. This approach enables orthodontists to diagnose, monitor and manage patients’ treatment without the need of in person visits. The concept has garnered traction due to advancements in telecommunication technologies, increasing accessibility to smart phones, and the need for remote healthcare services. Despite skepticism, there are several advantages of including tele- orthodontics in the clinical orthodontic practice. This article reviews the strength and weakn
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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 B
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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 (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
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M, Karthikeyan, Shanthinipriya A, Balaji Krishnan, Jayaraj RavI, Lokeswari P, and Daffy Jacentha S. "Digital orthodontics' current state and prospects." International Journal of Community Dentistry 12, no. 1 (2024): 09–21. http://dx.doi.org/10.56501/intjcommunitydent.v12i1.1108.

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The world is transitioning to a digital age, and orthodontics is no exception. The use of technology in orthodontics has risen dramatically, and computer literacy is no longer rudimentary. Since the invention and development of mobile phones, digital technology has h a huge impact on our daily lives. Digital technology has substantially improved medical diagnosis, educational resources, therapeutic modalities, and surgical techniques over the past two decades. When computerised scheduling was introduced in dental and orthodontic offices in 1974, digital technology began to take hold. Every fac
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14

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 th
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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 (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, thr
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Al-Hasani, Noor R., Sumayah Abdul-Jabbar, and Ali I. Ibrahim. "Validity of digital interceptive orthodontic/therapeutic protocols post global pandemics: A review." Journal of Baghdad College of Dentistry 36, no. 2 (2024): 70–83. http://dx.doi.org/10.26477/jbcd.v36i2.3669.

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Background: Aggressive global pandemics such as COVID-19 can disrupt societies tragically, imposing a suspension to almost every field throughout the world; the orthodontic treatment and follow-up is no exemption. Objectives: To provide practical recommendations about resuming treatment for orthodontic patients during the “Return-to-Practice” phase and emphasize the validity of certain digital interceptive measures post global pandemics to minify the risk of infection spread. Materials and Methods: Sources of information pertaining to orthodontic/therapeutic implications during the COVID-19 pa
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Alqahtani, Jamal, Ghufran Alhemaid, Hussein Alqahtani, 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
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V, Manisha, and Nallakunta Rajesh. "CAD/CAM in Orthodontics –A Magnanimous Journey." International Journal of Dental Materials 05, no. 01 (2023): 09–12. http://dx.doi.org/10.37983/ijdm.2023.5102.

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Orthodontics is one branch of dentistry which deals with dynamic manipulation and function of the stomatognathic system. Likewise, it has to witness the dynamic changes in its diagnosis method and treatment planning. The field of orthodontics has witnessed many revolutionary techniques and evolved enormously in terms of benefiting the patient. CAD/CAM is one promising methodology that has shown a significant impact in modern dentistry and surpassed some of the challenges an orthodontist has been facing all these years. It has changed the view through which we see the patient’s condition. The a
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Keating, Chris, Jennifer Haworth, Tony Ireland, and Farnaz Parvizi. "Digital workflows part 1: applications of digital technology in orthodontics." Orthodontic Update 16, no. 4 (2023): 177–84. http://dx.doi.org/10.12968/ortu.2023.16.4.177.

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This is the first article in a two-part series considering the relevance and clinical uses of digital technologies in relation to orthodontics. The aim is to take a closer look at a ‘point-of-care’ digital service and highlight the key areas in which digital workflows have been employed, along with areas of future development. The second article will document the application of digital workflows in joint orthodontic/orthognathic treatment and present two clinical cases which have undergone treatment by means of a digital workflow. CPD/Clinical relevance: Digital technologies can enhance orthod
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Machado, Andre Wilson. "“Digital orthodontics” or just “orthodontics”?" Angle Orthodontist 94, no. 3 (2024): 369. http://dx.doi.org/10.2319/1945-7103-94.3.369.

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Ronsivalle, Vincenzo, Ferdinando Ruiz, Antonino Lo Giudice, et al. "From Reverse Engineering Software to CAD-CAM Systems: How Digital Environment Has Influenced the Clinical Applications in Modern Dentistry and Orthodontics." Applied Sciences 13, no. 8 (2023): 4986. http://dx.doi.org/10.3390/app13084986.

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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 prot
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Paredes, Ney. "Flujo digital en ortodoncia, ¿estamos preparados?" Odontología Sanmarquina 25, no. 4 (2022): e23841. http://dx.doi.org/10.15381/os.v25i4.23841.

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Recently, intraoral scanners and 3D printers have revolutionized many aspects of general dentistry, including orthodontics. Some examples of this progress have been the possibility of immediate printing of digital intraoral records, the pre-visualization of treatment objectives, the preparation of indirect bonding guides for braces, the development of aligner systems through companies and the possibility of in-office manufacture and, the adaptation and design of orthodontic appliances with resin and metal alloy direct printing. The objective of this scientific note is to describe some advances
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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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Bor, Sabahattin, Fırat Oğuz, and Ayla Khanmohammadi. "Diagnostic Accuracy and Agreement Between AI and Clinicians in Orthodontic 3D Model Analysis." Applied Sciences 15, no. 14 (2025): 7786. https://doi.org/10.3390/app15147786.

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Background: Artificial intelligence (AI) is increasingly integrated into orthodontic workflows, including digital model analysis modules embedded in orthodontic software. While these systems offer efficiency and automation, the accuracy and clinical reliability of AI-generated measurements and diagnostic assessments remain unclear. Therefore, to use AI systems safely and effectively in clinical orthodontics, it is important to check their results by comparing them with those of experienced orthodontists. Methods: Digital models of 48 patients were analyzed by the Orthodontist group and two AI
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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 (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 succe
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Martineli Filho, Waldir. "THE REVOLUTION OF CLEAR ALIGNERS IN MODERN ORTHODONTICS." Revista ft 24, no. 82 (2020): 03–04. http://dx.doi.org/10.69849/revistaft/fa10202001081603.

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The evolution of clear aligners has significantly transformed orthodontics, providing an aesthetic and comfortable alternative to traditional fixed braces. Since the introduction of these devices in the 1990s, continuous technological advancements have expanded aligners' ability to address an increasing variety of orthodontic cases. Initially, aligners were limited to minor dental corrections due to restricted biomechanical control. However, advances in 3D modeling, 3D printing, intraoral scanning, and artificial intelligence have enabled greater personalization, enhancing the precision and ef
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M, Mayma Nathasha, Sushil Chakravarthi N.C., Dilip Srinivasan, et al. "Orthodontics in the Era of Digital Innovation – A Review." Journal of Evolution of Medical and Dental Sciences 10, no. 28 (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 applia
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Kim, Yoon-Ji R., Hye-Jung Ha, Sung-Jong Lee, Eon-Hwa Lee, and Jae-Jun Ryu. "Digital Orthodontics using Customized Appliance System." Journal of The Korean Dental Association 54, no. 2 (2016): 134–41. http://dx.doi.org/10.22974/jkda.2016.54.2.003.

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Use of ready-made orthodontic appliance can lead to inefficiencies in the final stages of the orthodontic treatment. Because patients' teeth have anatomic variations, brackets that have been designed to fit on average tooth surface may result in positional discrepancies when leveling and alignment is completed. As a result, additional steps such as rebonding, wire bending and use of auxiliaries may be needed. Even in patients who have normal tooth anatomy and proper tooth size relationships, precise bracket placement is crucial in order to efficiently control the tooth positions. Digital model
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Irving, Murray, Kieran Nandhra, Suhavi Singh, and Nikhil Gogna. "Digital scanning in orthodontics: a literature review." Orthodontic Update 17, no. 1 (2024): 25–30. http://dx.doi.org/10.12968/ortu.2024.17.1.25.

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The landscape of orthodontics is changing, and the transition to digital workflows in clinical practice has begun. As new and updated scanner models are regularly being released, it is paramount to assess the current evidence base and compare this to manufacturer claims. At present, there are limited literature reviews assessing and summarizing the clinically relevant features of dental scanners. This review summarizes key findings with respect to accuracy, patient-related outcomes and clinician experiences with digital dental scanners. CPD/Clinical Relevance: Digital scanners are an increasin
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Manek, Dr Pranav V., and Dr Rashmi Laddha. "The Evolution of Orthodontics: Advancements, Innovations, and Transformative Technologies." Academia Journal of Medicine 5, no. 2 (2022): 11–17. http://dx.doi.org/10.62245/ajm.v5.i2.3.

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This paper explores the remarkable advancements that have reshaped the field of orthodontics, ushering in an era of precision, efficiency, and patient-centered care. From digital technology and invisible orthodontic solutions to 3D printing and AI-driven treatment planning, the evolution of orthodontics has redefined treatment strategies and enhanced clinical outcomes. This comprehensive review highlights the transformative technologies that have revolutionized orthodontic practice, ultimately improving patient experiences and treatment effectiveness.
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Tomášik, Juraj, Márton Zsoldos, Ľubica Oravcová, et al. "AI and Face-Driven Orthodontics: A Scoping Review of Digital Advances in Diagnosis and Treatment Planning." AI 5, no. 1 (2024): 158–76. http://dx.doi.org/10.3390/ai5010009.

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In the age of artificial intelligence (AI), technological progress is changing established workflows and enabling some basic routines to be updated. In dentistry, the patient’s face is a crucial part of treatment planning, although it has always been difficult to grasp in an analytical way. This review highlights the current digital advances that, thanks to AI tools, allow us to implement facial features beyond symmetry and proportionality and incorporate facial analysis into diagnosis and treatment planning in orthodontics. A Scopus literature search was conducted to identify the topics with
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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 (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 mo
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Nomerovska, O. E., and V. N. Gorokhivskyi. "THE DURATION OF THE PROCESSES OF VIRTUAL BRACES PLACEMENT BY AN ORTHODONTIST ON THE JAWS DIGITAL MODELS AND MODELING AND CORRECTION OF TEMPLATES FOR THEIR TRANSFER TO THE ORAL CAVITY." Scientific and practical journal "Stomatological Bulletin" 127, no. 2 (2024): 85–90. http://dx.doi.org/10.35220/2078-8916-2024-52-2.13.

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The purpose of this study. Improving the effectiveness of providing dental care to the population of Ukraine by determining the duration of digital protocols of virtual placement of braces by an orthodontist on digital models of the jaws and computer modeling or correcting patterns for transferring braces from models to the oral cavity. Research materials and methods. The first object of the study was dentists providing medical care in the specialty "orthodontics" of various qualifications, working in medical institutions of various forms of ownership in different regions of the country. The s
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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 t
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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 (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
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Keating, Chris, Jennifer Haworth, Tony Ireland, Joanne Bousfield, Andrew Felstead, and Farnaz Parvizi. "Digital workflows part 2: applications of digital technology in orthognathic surgical planning – a case series." Orthodontic Update 16, no. 4 (2023): 189–94. http://dx.doi.org/10.12968/ortu.2023.16.4.189.

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This is the second article in a two-part series considering the relevance and clinical uses of digital technologies in relation to orthodontics. The aim is to take a closer look at the application of digital technology in relation to joint orthodontic/orthognathic treatment and present two clinical cases that have undergone treatment by means of a digital workflow. CPD/Clinical relevance: Digital technologies can enhance pre-operative orthognathic planning
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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 (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 prefe
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Rafiq, Afaf Mohammed, and Prasad Konda. "3D printing: Changing the landscape of orthodontics." IP Indian Journal of Orthodontics and Dentofacial Research 10, no. 3 (2024): 149–57. http://dx.doi.org/10.18231/j.ijodr.2024.029.

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This paper aims to elucidate how three-dimensional (3D) printing technology has greatly impacted orthodontic practice, marking a significant advancement in planning treatment, fabricating appliances, and patient care. The integration of digital technologies, such as digital cephalogram, digital photography, intraoral and facial scanners, desktop scanners, cone-beam computed tomography (CBCT), and 3D printing, has significantly enhanced the efficiency, accuracy, consistency, and predictability of treatment outcomes. The advent of 3D printing in dental and orthodontic treatment has introduced a
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Pouliezou, Ioanna, Anastasia Panagiota Gravia, and Michail Vasoglou. "Digital Model in Orthodontics: Is It Really Necessary for Every Treatment Procedure? A Scoping Review." Oral 4, no. 2 (2024): 243–62. http://dx.doi.org/10.3390/oral4020020.

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Digital models and three-dimensional technology in orthodontics have become an integral part of everyday clinical practice. Nevertheless, there is currently no consensus regarding in which cases a digital model is really necessary. Therefore, this scoping review aims to identify and assess which orthodontic procedures require a digital model. This review’s reporting was based on PRISMA guidelines. A literature search was undertaken using five electronic databases on 17 February 2024. A total of 87 studies met the inclusion criteria and were qualitatively analyzed by three reviewers. The follow
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D, Gifty Winlet, Domini C, Dr Saravanan, Dr Raj Vikram, and Dr Vivekanandhan. "Hologram Usage in Orthodontics as A Study Model: A Comprehensive Review." International Journal for Research in Applied Science and Engineering Technology 11, no. 10 (2023): 1389–92. http://dx.doi.org/10.22214/ijraset.2023.56217.

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Abstract: Orthodontics, a specialized field of dentistry focused on correcting malocclusions and dental irregularities, has evolved significantly in recent years. Traditional study models, such as plaster casts and digital impressions, have been the cornerstone of treatment planning and evaluation. However, the advent of holographic technology has introduced a novel and promising approach for orthodontic study models. This comprehensive review explores the utilization of holograms in orthodontics, highlighting their potential advantages, applications, and challenges.
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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 (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 (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 (2001): 197–202. http://dx.doi.org/10.1093/ortho/28.3.197.

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Ramdan, Kholoud. "Digital Orthodontics: An overview." MSA Dental Journal 2, no. 1 (2023): 26–30. http://dx.doi.org/10.21608/msadj.2023.211756.1020.

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De Stefano, Adriana, Rosanna Guarnieri, Bruno Fiorelli, Ersilia Barbato, and Gabriella Galluccio. "Clinical Experience and Digital Knowledge in Virtual Planning of Palatal Orthodontic Miniscrew Insertion." Applied Sciences 13, no. 13 (2023): 7474. http://dx.doi.org/10.3390/app13137474.

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At present, temporary anchorage devices (TADs) are continuously gaining importance because of their usability and their possibility to broaden clinical force applications; however, how difficult can their placement planning be? Aim: The aim is to evaluate the association between clinical experience, digital knowledge and the capability of virtual planning in palatal orthodontic miniscrew insertion in various types of clinicians, divided by different levels of experience. Methods: A total of 30 participants (10 dental students, 10 orthodontics students and 10 orthodontists) with different level
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Yunga Picón, María Yolanda, Monica Beatriz Dávila Arcentales, Milton Fabricio Lafebre Carrasco, et al. "INNOVACIONES DE IA, EN EL DIAGNÓSTICO Y LA PLANIFICACIÓN DEL TRATAMIENTO EN ORTODONCIA." RECISATEC - REVISTA CIENTÍFICA SAÚDE E TECNOLOGIA - ISSN 2763-8405 4, no. 2 (2024): e42359. http://dx.doi.org/10.47820/recisatec.v4i2.359.

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Digital dentistry, initiated in 1973 by Professor François Duret, has evolved considerably in orthodontics, through the use of digital flow and artificial intelligence (AI). These technologies enable accurate diagnosis, prognosis and treatment. AI has greatly improved the efficiency of diagnosis and treatment planning in orthodontics, with increasing applications due to advances in algorithms, processing and data availability. Objective: Evaluate AI applications for diagnosis, orthodontic treatment planning and improving patient satisfaction. Conclusion: The integration of AI into orthodontics
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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 (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 c
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Karkazi, Franzeska, Maria Antoniadou, Katarína Demeterová, Dimitrios Konstantonis, Vasileios Margaritis, and Juraj Lysy. "Orthodontic Risk Perspectives among Orthodontists during Treatment: A Descriptive Pilot Study in Greece and Slovakia." Healthcare 12, no. 4 (2024): 492. http://dx.doi.org/10.3390/healthcare12040492.

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This study explores orthodontists’ perspectives on risks associated with orthodontic treatment, as described by Greek and Slovak orthodontists. Informed by the foundational importance of effective communication of risk perspectives in health sciences, particularly in facilitating valid consent and shared decision-making, this research addresses gaps identified in the literature concerning the consistent communication of potential treatment risks based on demographic and cultural characteristics. This study identifies 15 potential critical risks during orthodontic treatment. These risks include
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Suárez-Solís, Brezo, Carlota Suárez-Fernández, Juan Suárez-Solís, Alberto Badía, Maider Olabarria, and Teresa Cobo. "Clinical Photography in Orthodontic Practice: Insights from a Nationwide Survey in Spain." Journal of Clinical Medicine 14, no. 6 (2025): 1984. https://doi.org/10.3390/jcm14061984.

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Background/Objectives: Clinical photography is an essential component of orthodontic records, alongside radiographs, dental scanners, and cone beam computed tomography. However, neither the American Association of Orthodontists nor the Spanish Society of Orthodontics provides a standardized protocol for dental photography. This study aimed to evaluate the current practices, challenges, and training needs related to clinical photography among orthodontists in Spain. Methods: A cross-sectional survey was designed using Google Forms® and distributed to orthodontists practising in Spain. A sample
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