Prosthetically Driven Computer-Guided Implant Placement and Restoration Using CEREC: A Case Report.

Developments in 3-dimentional (3D) diagnostic technology and advanced digital optical imaging have improved the predictability, safety, and efficiency of restoratively driven implant dentistry. Surgical procedures may now be performed in a single visit utilizing chairside, computer-aided design/computer-aided manufacturing technology and in situations when a two-stage implant protocol is indicated as demonstrated in this case. The CEREC® GALILEOS® integration workflow system was used to prosthetically plan and place an implant in the lower right mandibular first molar site, No. 30, which had been previously grafted following tooth extraction. Preoperative planning was performed, taking into consideration all anatomic landmarks, current tissue status, and restorative needs while incorporating cone-beam computed tomography data to design and mill a stable, tooth-supported surgical guide (CEREC Guide 2.0). After placement and subsequent osseointegration, the implant was restored chairside in a pre-doctoral treatment center. The Sirona TiBase system and VITA ENAMIC® IS block were used to produce an esthetically pleasing and clinically excellent screw-retained implant crown.

Use of CAD/CAM in Second-Stage Implant Surgery to Achieve Improved Final Restoration Esthetics, Natural Gingival Appearance.

To achieve a predictable esthetic outcome when using an implant-supported crown for rehabilitation of an edentulous space, computer-aided design/computer-aided manufacturing (CAD/CAM) technology can be utilized in the second stage of implant surgery to scan, mill, and restore the implant site all in one office visit. In this case report, an implant for a first molar was restored with a CAM-fabricated hybrid ceramic crown, designed using CEREC® 4.4 software. A 3-dimensional scan was taken chairside at the time of uncovering the implant using powder-free intraoral scanning. Specific design features were implemented to control peri-implant soft-tissue growth to meet the patient's esthetic expectations and achieve an outstanding clinical outcome. This report emphasizes the value of using a CAD/CAM-milled crown in achieving an emergence profile in second-stage surgery, describes a polymer-infiltrated-ceramic-network material as a potential biomaterial for implant restoration, and discusses the importance of taking a digital impression to capture details for improved restoration esthetics and longevity.