Gharib dental endo software#
CAD/CAM technologies used to be dominated by closed systems (e.g., CEREC) which require their own proprietary data acquisition and processing software however an important part of the rapid evolution of 3D printing is the availability of open systems, that allows the use of Digital Imagining Communication in Medicine (DICOM) files to be use for local manufacturing or printing at distant laboratories. They began their endeavors in the early 1970s and used the technology to create dental prostheses. A well-made guide can significantly improve the quality and safety of endodontic procedures.ĭuret and Preston were the first dentists to document the use of computer-aided design/computer-aided manufacturing (CAD/CAM) in dentistry. An emerging application for this technology is in the field of endodontics specifically, the fabrication of 3D printed guides. Fabrication of dental appliances such as veneers, crowns, and bridges using dental CAD-CAM technology is not new however, new and improved systems are becoming available in the market very quickly and with that significantly increased the precision of the production of these dental appliances translating into better fit and function, and usually at a lower cost than was possible with other traditional lab methods. Keywords:Endodontics 3D printing Guided endodonticsĪbbreviations:3D: Three dimensional CAD: Computer-aided design CAM: Computer-aided manufacturing CBCT: Cone beam computed tomography DICOM: Digital Imagining Communication in Medicine MTA: Mineral trioxide aggregate SLA: Stereolithographyĭigital imaging and 3D printing are rapidly revolutionizing dental practice. These studies show that implementing 3D printing in endodontics opens the door to promising techniques with highly predictable outcomes and a low risk of iatrogenic damage, especially in very complex cases. A total of 75 published papers were included, including one systematic review, four different reviews in planning, comparative reviews and in digital technology: one observational study, forty-three case reports, nine case series, and seventeen preclinical studies. A literature search was conducted on PubMed, Ovid, Google Scholar, and Scopus. The aims of this review were to asses all current applications of 3D guide usage in endodontics, determine when 3D guide use is effective in clinical endodontic settings, evaluate the possible incorporation of 3D guides in the didactic endodontics setting, and analyze the future of this technology.
Guided endodontics is a term that has gained popularity and involves 3D planning, 3D models and 3D printed guides. Computer-aided design and manufacturing technologies can be used to create 3D printed guides with endodontic clinical applications. Review of clinical endodontic applicationsĬurrent research suggests an emerging value of 3D printed guides use in the endodontic field.
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