Dr. Marta Revilla is Faculty and Director of Research and Digital Dentistry at the Kois Center. Dr. Revilla-León obtained her PhD in Prosthodontics and Digital Dentistry at ACTA University in Amsterdam. She obtained her MSD in prosthodontics at the University of Washington in Seattle and a MS in Esthetic Dentistry at the Complutense University of Madrid.
Dr. Revilla-León is specialist in digital dentistry with more than 200 publications in peer-reviewed dental journals in the last 5 years related with facial and intraoral scanning methods, virtual patient integration, digital implant scans, photogrammetry systems, polymer, metal, and ceramic 3D printing, CAD SWs and artificial intelligence for dental applications.
Currently, Dr. Revilla-Leon is also Affiliate Faculty in the Graduate in Prosthodontic Program at the University of Washington in Seattle and in the Graduate in Prosthodontic Program at Tufts University in Boston.
Digital dentistry is not intraoral scanners, 3D printers, or CAD programs - these are just tools. The quest is more about how to create digital workflows to be efficient and reliable, and less about reshaping conventional procedures with digital tools. Dental professionals aim to balance the new digital possibilities with fundamental prosthodontic concepts and evidenced-based procedures. Additionally, the continuous development and enhancements of technology challenges dental professionals to stay up-to-date. This presentation will review the factors influencing intraoral data acquisition methods and digital implant scans, virtual patient integration and the literature that supports them, including facial scanners Jaw trackers systems and Artificial Intelligence.
Upon completion of this course, attendees should be able to:
Identify the main data acquisition methods and the factors that can influence its accuracy for a Intraoral Digital Scans
Operator and patient factors influencing intraoral data acquisition methods
Review of Digital implant scanning techniques
Identify the main data acquisition methods and the factors for digital occlusion and the virtual patient integration