Relevant bibliographies by topics / Dental surgery technology

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  4. Conference papers

Academic literature on the topic 'Dental surgery technology'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Dental surgery technology"

1

White, Graham E. "Osseointegrated Dental Technology." Implant Dentistry 3, no. 2 (1994): 120–22. http://dx.doi.org/10.1097/00008505-199405000-00025.

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&NA;. "Dental Imaging Technology." Implant Dentistry 5, no. 4 (1996): 307. http://dx.doi.org/10.1097/00008505-199600540-00047.

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Ting, Yu, and Ta Ko Huang. "Computer-Aided Dental Implant Technology." Applied Mechanics and Materials 284-287 (January 2013): 1633–35. http://dx.doi.org/10.4028/www.scientific.net/amm.284-287.1633.

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Dental Implant is a sophisticated dental surgery. Dentists must suffer fine oral surgery training so that the development of a professional dentist is quite time-consuming. We combine the medical image processing reconstruction and optical tracking techniques to provide a realistic teaching environment. The system can help dentists learning all steps during the surgery. We hope this system can increase the success ratio of surgery and lower the surgery risks. Our medical image reconstruction is reached by the toolkits named VTK. The stereo vision algorithm is introduced into this study to construct the optical tracking system. This system will provide a good study experience for dentists and to assist them during the implant surgery. After several dental medical materials show, most responses are positive. Most dentists are very interested in our system and recognize our system can greatly shorten the dental training time. During the surgery, the difficulty will also be drop down with the assistance of our system.
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Renner, Robert P., and Vinicio Prada. "Quintessence of Dental Technology." Implant Dentistry 3, no. 3 (1994): 198. http://dx.doi.org/10.1097/00008505-199409000-00027.

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Jensen, Ole T. "Dental Implants, Part II: Computer Technology." Oral and Maxillofacial Surgery Clinics of North America 31, no. 3 (2019): i. http://dx.doi.org/10.1016/s1042-3699(19)30033-0.

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6

Ahmad, Paras, Mohammad Khursheed Alam, Ali Aldajani, et al. "Dental Robotics: A Disruptive Technology." Sensors 21, no. 10 (2021): 3308. http://dx.doi.org/10.3390/s21103308.

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Robotics is a disruptive technology that will change diagnostics and treatment protocols in dental medicine. Robots can perform repeated workflows for an indefinite length of time while enhancing the overall quality and quantity of patient care. Early robots required a human operator, but robotic systems have advanced significantly over the past decade, and the latest medical robots can perform patient intervention or remote monitoring autonomously. However, little research data on the therapeutic reliability and precision of autonomous robots are available. The present paper reviews the promise and practice of robots in dentistry by evaluating published work on commercial robot systems in dental implantology, oral and maxillofacial surgery, prosthetic and restorative dentistry, endodontics, orthodontics, oral radiology as well as dental education. In conclusion, this review critically addresses the current limitations of dental robotics and anticipates the potential future impact on oral healthcare and the dental profession.
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Winkelman, Robert, Kenneth Orth, and Glenn J. Wolfinger. "Dental Implants. Fundamental and Advanced Laboratory Technology." Implant Dentistry 4, no. 3 (1995): 215. http://dx.doi.org/10.1097/00008505-199509000-00029.

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Winkelman, Robert, Kenneth Orth, and Glenn J. Wolfinger. "Dental Implants. Fundamental and Advanced Laboratory Technology." Implant Dentistry 4, no. 3 (1995): 215. http://dx.doi.org/10.1097/00008505-199512000-00029.

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9

Assael, Leon A. "Clinical innovations and emerging technology in dental implants." Journal of Oral and Maxillofacial Surgery 62 (September 2004): 1. http://dx.doi.org/10.1016/j.joms.2004.06.045.

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Borges, C. F. M., P. Magne, E. Pfender, and J. Heberlein. "Dental diamond burs made with a new technology." Journal of Prosthetic Dentistry 82, no. 1 (1999): 73–79. http://dx.doi.org/10.1016/s0022-3913(99)70130-7.

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Books on the topic "Dental surgery technology"

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(Editor), Rafi Romano, Nitzan Bichacho (Editor), and Bernard Touati (Editor), eds. The Art Of The Smile: Integrating Prosthodontics, Orthodontics, Periodontics, Dental Technology, And Plastic Surgery In Esthetic Dental Treatment. Quintessence Publishing (IL), 2005.

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2

Clinical Application of Computer-Guided Implant Surgery. Taylor & Francis Group, 2013.

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3

Kadir, Mohammed Rafiq Abdul, and Muhammad Ikman Ishak. Biomechanics in Dentistry : Evaluation of Different Surgical Approaches to Treat Atrophic Maxilla Patients: Evaluation of Different Surgical Approaches ... in Applied Sciences and Technology). Springer, 2012.

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Günther, Schlag, Wallwiener D, and Melchoir Hansjörg, eds. Gynecology and obstetrics. Springer-Verlag, 1994.

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Book chapters on the topic "Dental surgery technology"

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Weber, Hans-Peter, Jacinto Cano, and Francesca Bonino. "Digital Implant Surgery." In Clinical Applications of Digital Dental Technology. John Wiley & Sons, Inc, 2015. http://dx.doi.org/10.1002/9781119045564.ch7.

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Orentlicher, Gary, Andrew Horowitz, and Marcus Abboud. "Minimally Invasive Implant Surgery Using Computer-Guided Technology." In Minimally Invasive Dental Implant Surgery. John Wiley & Sons, Inc., 2017. http://dx.doi.org/10.1002/9781119421405.ch9.

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Jamali, Jason, Antonia Kolokythas, and Michael Miloro. "Clinical Applications of Digital Dental Technology in Oral and Maxillofacial Surgery." In Clinical Applications of Digital Dental Technology. John Wiley & Sons, Inc, 2015. http://dx.doi.org/10.1002/9781119045564.ch11.

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D’Souza, Kathleen Manuela, and Meena Ajay Aras. "Applications of CAD/CAM Technology in Dental Implant Planning and Implant Surgery." In Advances in Dental Implantology using Nanomaterials and Allied Technology Applications. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-52207-0_11.

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Ebenezer, Supriya, Vinay V. Kumar, and Andreas Thor. "Basics of Dental Implantology for the Oral Surgeon." In Oral and Maxillofacial Surgery for the Clinician. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-1346-6_18.

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AbstractOver the past decades, implant dentistry has evolved to be a very predictable treatment modality for the replacement of lost teeth and has now become one of the most common oral surgical procedures carried out worldwide. This chapter introduces the history and evolution of dental implants, discusses the concept of osseointegration, mentions the types of implants and discusses clinical decision making and execution of straight forward implant placement. It must be noted that the field of implantology is rapidly developing with new treatment concepts and increasing use of digital technology. The surgical part of implant treatment although extremely important, is only a part of the overall treatment, the other important factors being the laboratory and prosthodontics. This chapter only provides a basic surgical overview of implantology for the beginner surgeon clinician.
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Cohen-Levy, DDS, MS, PhD, Julia. "Orthodontic T-Scan Applications." In Handbook of Research on Computerized Occlusal Analysis Technology Applications in Dental Medicine. IGI Global, 2015. http://dx.doi.org/10.4018/978-1-4666-6587-3.ch011.

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This chapter reviews T-Scan use in Orthodontics, defines normal T-Scan recordings for orthodontically treated subjects versus untreated subjects, and explains T-Scan use in the case-finishing process. After orthodontic appliance removal changes in the occlusion result from “settling,” because teeth can move freely within the periodontium. Despite a post treatment, visually “perfect” Angle's Class I relationship, ideal occlusal contacts often do not result solely from tooth movement. Creating simultaneous and equal contacts following fixed appliance removal can be accomplished using T-Scan data to optimize the end-result occlusal contact pattern. The software's force distribution and timing indicators (the 2 and 3-Dimensional ForceViews, force percentage per tooth and arch half, the Center of Force, and the Occlusion and Disclusion Times) aid in obtaining an ideal occlusal force distribution during case-finishing. Several case reports highlight combining lingual orthodontic treatment with Orthognathic surgery, where each presented case utilized T-Scan data during active treatment and retention.
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Longridge, Nicholas, Pete Clarke, Raheel Aftab, and Tariq Ali. "Radiology and Radiography." In Oxford Assess and Progress: Clinical Dentistry, edited by Katharine Boursicot and David Sales. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780198825173.003.0025.

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When you consider that, with direct vision alone, you can only see the coronal few millimetres of teeth and none of the surrounding alveolus, it becomes clear that, without additional visual aids, we can only assess and treat a relatively small proportion of our patient’s oral health needs. In 1895, only months after the very first medical radiograph, Dr Otto Walkhoff recorded the very first dental radiograph. This exposure was of his own dentition and lasted a lengthy 25 minutes. Since then, radiography has become a staple tool of the profession and refinement of the technology has allowed us to reduce exposure times down to milliseconds, with radiation doses smaller than those ex­perienced by people taking short- haul flights. Further advances in dose reduction and reformatting protocols have allowed for computed tom­ography to become increasingly popular for diagnostics and treatment planning in endodontic, oral surgery, and orthodontic cases. The benefits of dental radiography make them an indispensable resource, but since all types of radiation pose some degree of risk to human health, the clinician must consider how useful the information from the proposed exposure will be. There are no shortages of tragic stories of employees working with radiation who suffered ill health years after stopping work. Today dental radiography can be performed routinely and safely as a result of the valuable lesson learnt from the debilitating consequences suffered by past medical professionals, nuclear workers, and even the ‘radium girls’ who painted luminous material onto watch faces. Key topics include: ● Limitations of radiographs ● Image selection criteria ● Radiation physics, protection, and legislation ● Radiographic interpretation ● Types of dental radiographic imagery.
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Longridge, Nicholas, Pete Clarke, Raheel Aftab, and Tariq Ali. "Orthodontics." In Oxford Assess and Progress: Clinical Dentistry, edited by Katharine Boursicot and David Sales. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780198825173.003.0014.

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Orthodontics is ‘the specialty of dentistry concerned with growth of the face, the development of dentition, and the prevention and correction of occlusal anomalies. A malocclusion can be defined as ‘a deviation from the ideal that may be aesthetically or functionally unsatisfactory, with a wide range of occlusal traits’. Orthodontics is a constantly evolving specialty, with ever changing principles and techniques continuing to be developed. There has been huge progress in orthodontics in recent times, with changes in the types of brackets, archwire materials, and appliance systems (such as tem­porary anchorage devices and aligner technology). The key principles of orthodontics date back to 1899 when Edward Angle described ‘the key to a normal occlusion as the anteropos­terior relationship between the upper and lower first molars’. In 1972, Lawrence Andrews described ‘six keys to an ideal static occlusion’. This was the basis of early orthodontic treatment planning. Knowledge of craniofacial development and growth is required as a foundation for understanding the aetiology of a patient’s malocclusion, to reach a diagnosis, and to plan orthodontic treatment. A basic under­standing of the types of orthodontic appliances is beneficial (mainly fixed appliances, functional appliances, some use of removable appliances, and retainers). In addition to the management of a malocclusion, orthodontic treat­ment is often required in conjunction with other specialties, including oral and maxillofacial surgery, paediatric and restorative dentistry Key topics discussed in this chapter include: ● Fixed appliances ● Functional appliances ● Removable appliances ● Retention ● Index of treatment need ● Orthodontic assessment and diagnosis ● Cephalometric analysis ● Malocclusion ● Ectopic canines ● Dental anomalies.
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Conference papers on the topic "Dental surgery technology"

1

Alabey, Peristera, Menelaos Pappas, John Kechagias, and Stergios Maropoulos. "Medical Rapid Prototyping and Manufacturing: Status and Outlook." In ASME 2010 10th Biennial Conference on Engineering Systems Design and Analysis. ASMEDC, 2010. http://dx.doi.org/10.1115/esda2010-24361.

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Rapid Prototyping (RP) has been considered, over the last decades, as a highly promising technology for reducing product development time and cost, as well as for addressing the need for customization and faster response to the market needs. Nowadays this technology is also used widely in medical applications (Medical Rapid Prototyping – MRP), supporting diagnosis and treatment in Neurosurgery, Orthopedic and Dental-Cranio-Maxillo-Facial surgery as well as in Tissue Engineering. The scan data that are usually obtained by Computed Tomography (CT) or Magnetic Resonance Imaging (MRI) are used to build a 3D CAD model of the patient’s pathological region. The 3D model is used to construct the real size prototype using one of the existing RP processes. This assists surgeons in gaining a detailed insight of the problem, making the diagnosis and treatment easier and more reliable. This study presents the current benefits and barriers of Rapid Prototyping and Manufacturing methods and applications in the field of medicine. Most of the recent state-of-art developments and case studies of MRP are presented. Their limitations are discussed along with the challenges to be addressed in the future.
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Yee, Christina A., and Homayoon Kazerooni. "A Novel Neck Support Design to Alleviate Worker Neck Pain." In ASME 2015 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/imece2015-53261.

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Neck pain is common among occupations like dentistry and office work because workers in these professions tend to hold their necks in static flexion for extended periods of time. But there are few products available to help alleviate workers’ neck pain while still allowing them to carry out their daily tasks in varying environments. For example, office workers can use products like ergonomic chairs and desks to help promote proper posture, but these arrangements restrict workers to workspaces equipped with their necessary equipment and proper setup. Meanwhile, in the medical field, products like loupes, lights, and ergonomic workbenches are available to enhance visibility and reduce workers’ neck flexion angles. But these products have yet to fully eliminate the problem of neck pain especially in occupations like dentistry where static neck flexion is common. Therefore, the goal of this project is to develop a new neck support technology which alleviates neck pain caused by static neck flexion while still allowing workers full mobility and functionality in their workplace. Our design decreases muscle loading on the neck during neck flexion by reducing the moment on the neck using a device which acts as a “headrest” to support the head. In turn, the device redistributes forces to the upper body while still allowing full range of motion to the user. More specifically, our design applies an opposing force to the user’s forehead during neck flexion via a force generator attached to a headband which is attached to the head. The force generator is anchored to the upper body to permit use in varying environments without the need for special equipment or setups. We confirmed our design decreases muscle loading by building a prototype then performing surface electromyography (EMG) testing which showed not just a statistically significant reduction in neck muscle activity using one-way analysis of variance, but more distinctly a unanimous decrease in neck muscle activity during neck flexion for all seven test subjects with an overall average decrease of 60% among all subjects and 80% for certain subjects. Once we confirmed our design’s effectiveness in reducing neck muscle activity during static neck flexion which implied the ability to reduce neck strain, we improved our prototype’s functionality and aesthetics based on test subject feedback, our own observations, and dentists’ comments. Then, we performed workplace testing on two dentists with one dentist’s work focused mainly on hygiene while the other dentist’s work focused mostly on dental procedures. Overall, both dentists offered helpful feedback from different dental field perspectives for future prototype improvements with regards to comfort and functionality. They also provided promising comments regarding their visions for future device use which included training dental students on proper posture and applications in other occupations like office work and surgery.
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