Model‐less digital workflow for the replication of an existing complete fixed implant‐supported prosthesis using an intraoral scanner

Abstract: Key Clinical Message The use of an intraoral scanner was efficient to produce a full‐contour zirconia CAFIP, with improved esthetics when compared to the original prosthesis.

“…Despite its high cost, intraoral scanners can be used to accurately collect the data required to fabricate fixed or removable prosthetic devices 54 . Such data may include: implant tridimensional locations, details on gingival contours; prosthetic implant emergence profiles; previous prosthesis gingival volume; previous tooth shapes and tridimensional positions, vertical dimension, the opposing arch anatomy and dynamic occlusal contacts 33 . After data acquisition, digital workflows can be performed usually requiring less clinical appointments and shorter chairside time during treatment, reducing inaccuracies, and decreasing the number of steps and chances of occurrence of human errors 54 .…”

“…Furthermore, optimal occlusal and proximal contacts can be forecasted and designed in software, especially when making monolithic complete anatomy prostheses, without the need of further ceramic layering. Therefore, an anatomic analysis using full digital workflow is encouraged to obtain optimized results for digital crowns, fixed bridges, and full arch implant rehabilitations, leading to improved adaptation and reduced number of laboratory adjustments required 33 .…”

Clinical relevance of digital dentistry during COVID-19 outbreak

“…Despite its high cost, intraoral scanners can be used to accurately collect the data required to fabricate fixed or removable prosthetic devices 54 . Such data may include: implant tridimensional locations, details on gingival contours; prosthetic implant emergence profiles; previous prosthesis gingival volume; previous tooth shapes and tridimensional positions, vertical dimension, the opposing arch anatomy and dynamic occlusal contacts 33 . After data acquisition, digital workflows can be performed usually requiring less clinical appointments and shorter chairside time during treatment, reducing inaccuracies, and decreasing the number of steps and chances of occurrence of human errors 54 .…”

“…Furthermore, optimal occlusal and proximal contacts can be forecasted and designed in software, especially when making monolithic complete anatomy prostheses, without the need of further ceramic layering. Therefore, an anatomic analysis using full digital workflow is encouraged to obtain optimized results for digital crowns, fixed bridges, and full arch implant rehabilitations, leading to improved adaptation and reduced number of laboratory adjustments required 33 .…”

Clinical relevance of digital dentistry during COVID-19 outbreak

Effect of aging on fracture resistance and torque loss of restorations supported by zirconia and polyetheretherketone abutments: An in vitro study