Stereolithography-based additive manufacturing of lithium disilicate glass ceramic for dental applications

Baumgartner, Sonja; Gmeiner, Robert; Schönherr, Julia; Stampfl, Jürgen

doi:10.1016/j.msec.2020.111180

Cited by 85 publications

(49 citation statements)

References 35 publications

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“…41 AM's triumph is its objects' dimensional complexity -their details are often finer than a drilling bit and they are made with little material waste. 2,11,56 3D printed models present general accuracy comparable to plaster models and present different colors and textures during manufacturing to help differentiate the types of simulated fabrics. 24 The need for better visualization and surgical results were favored by 3D-printed anatomical models, specific patient guides and prostheses printed in three-dimensional form.…”

Section: Discussionmentioning

confidence: 99%

“…3 This additive system reproduces v ir tual models in physical objects through tomography, magnetic resonance or scanner imaging. [4][5][6][7][8] Additive techniques manufacture objects rapidly and at a low cost, 9,10 reusing residual materials, [8][9][10][11] allowing the construction of complex structures and the customization of parts in a sustainable manner. [12][13][14] 3D printing assists in the planning of prosthetic, orthodontic and surgical procedures 4 ; the making of dental, craniomaxillofacial and orthopedic implants, copings, implant structures, 15 drill guides, among others.…”

Section: Introductionmentioning

confidence: 99%

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3D printers in dentistry: a review of additive manufacturing techniques and materials

et al. 2021

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3D printers manufacture objects used in various dental specialties. Objective: This literature review aims to explore different techniques of current 3D printers and their applications in printed materials for dental purposes. Methods: The online PubMed databases were searched aiming to find applications of different 3D printers in the dental area. The keywords searched were 3D printer, 3D printing, additive manufacturing, rapid prototyping, 3D prototyping, dental materials and dentistry. Results: From the search results, we describe Stereolithography (SLA), Digital Light Processing (DLP), Material Jetting (MJ), Fused Deposition Modeling (FDM), Binder Jetting (BJ) and Dust-based printing techniques. Conclusion: 3D printing enables different additive manufacturing techniques to be used in dentistry, providing better workflows and more satisfying clinical results.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

3D printers in dentistry: a review of additive manufacturing techniques and materials

et al. 2021

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“…The remote area-based services offer productive solutions, especially to remote locations, through the integrated applications of virtual reality, telemedicine, augmented reality, etc. Internet of Dental Things based healthcare features have also been proposed along with the digital dentistry care tools 48 , 49 , 50 . The proper drafting and design development of dentistry related issues such as; oral care, bad breath, tooth decay, erosion of tooth, etc., can be adequately planned through the utility of CAD/CAM based technologies, which further empowers the overall philosophy of Dentistry 4.0.…”

Section: Digital Dentistry Using Dentistry 40 Technologiesmentioning

confidence: 99%

Dentistry 4.0 technologies applications for dentistry during COVID-19 pandemic

Javaid

Haleem

Singh

et al. 2021

Sustainable Operations and Computers

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The term, Dentistry 4.0, coincides with Industry 4.0, in which the traditional methods of manufacturing and information are made more precise to enhance process efficiency by using automation and advanced computer technologies. The main of this paper is to discuss the major potential of Dentistry 4.0 technologies in the field of dentistry during Coronavirus (COVID-19) Pandemic. Thereon, Dentistry 4.0 is advancing on its way with the use of advanced technologies in dentistry. Dental healthcare makes an essential part of the overall health of the masses. New technological advancements are essential to make the dentist work quicker, patient comfortable, and process reliable. So, we introduced the concept of Dentistry 4.0 to improve efficiency and impart innovation in dentistry during this pandemic. This paper briefs about the Dentistry 4.0 technologies helpful for the COVID-19 pandemic. Further discusses various issues and challenges in implementing Dentistry 4.0 for dentistry during the COVID-19 pandemic. Finally, the paper identifies and discussed fifteen significant applications of Dentistry 4.0 technologies for dentistry during the COVID-19 pandemic. With the onset of the pandemic, globally, the healthcare sector is taking initiatives to strengthen affordable and high-speed data connectivity. This up-gradation and investment will also help dentists to access patients' data from smaller towns or villages using Dentistry 4.0 technologies. Thus, globally there is the onset of the fourth dentistry revolution, and we understand that this will change the trend of dentistry during and post-COVID-19 Pandemic. Dentistry 4.0 technologies are helpful during the COVID-19 pandemic to create teledentistry, virtual clinical practice and connect all dental devices to improve health conditions. This approach is to help progress towards the integrated capabilities, patient-centric remedies with predicted results in an easier way than the traditional way of the health care industry.

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“…Continuous development of manufacturing technologies enable printing of biofunctional scaffolds similar to the ECM, acting as a microenvironment for cell adhesion, proliferation, and differentiation [ 88 , 89 ].…”

Section: Stem Cells Biomaterials and Scaffolds For Oral Tissue Ementioning

confidence: 99%

Advanced Biomaterials and Techniques for Oral Tissue Engineering and Regeneration—A Review

et al. 2020

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The reconstruction or repair of oral and maxillofacial functionalities and aesthetics is a priority for patients affected by tooth loss, congenital defects, trauma deformities, or various dental diseases. Therefore, in dental medicine, tissue reconstruction represents a major interest in oral and maxillofacial surgery, periodontics, orthodontics, endodontics, and even daily clinical practice. The current clinical approaches involve a vast array of techniques ranging from the traditional use of tissue grafts to the most innovative regenerative procedures, such as tissue engineering. In recent decades, a wide range of both artificial and natural biomaterials and scaffolds, genes, stem cells isolated from the mouth area (dental follicle, deciduous teeth, periodontal ligament, dental pulp, salivary glands, and adipose tissue), and various growth factors have been tested in tissue engineering approaches in dentistry, with many being proven successful. However, to fully eliminate the problems of traditional bone and tissue reconstruction in dentistry, continuous research is needed. Based on a recent literature review, this paper creates a picture of current innovative strategies applying dental stem cells for tissue regeneration in different dental fields and maxillofacial surgery, and offers detailed information regarding the available scientific data and practical applications.

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Stereolithography-based additive manufacturing of lithium disilicate glass ceramic for dental applications

Cited by 85 publications

References 35 publications

3D printers in dentistry: a review of additive manufacturing techniques and materials

3D printers in dentistry: a review of additive manufacturing techniques and materials

Dentistry 4.0 technologies applications for dentistry during COVID-19 pandemic

Advanced Biomaterials and Techniques for Oral Tissue Engineering and Regeneration—A Review

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