PubMed ID (PMID): 25643460Pages 277-296, Language: English, GermanVollborn, Thorsten / Habor, Daniel / Pekam, Fabrice Chuembou / Heger, Stefan / Marotti, Juliana / Reich, Sven / Wolfart, Stefan / Tinschert, Joachim / Radermacher, KlausSubgingival preparations are often affected by blood and saliva during impression taking, regardless of whether one is using compound impression techniques or intraoral digital scanning methods. The latter are currently based on optical principles and therefore also need clean and dry surfaces. In contrast, ultrasonic waves are able to non-invasively penetrate gingiva, saliva, and blood, leading to decisive advantages, as cleaning and drying of the oral cavity becomes unnecessary. In addition, the application of ultrasound may facilitate the detection of subgingival structures without invasive manipulation, thereby reducing the risk of secondary infection and treatment time, and increasing patient comfort. Ultrasound devices commonly available for medical application and for the testing of materials are only suitable to a limited extent, as their resolution, precision, and design do not fulfill the requirements for intraoral scanning. The aim of this article is to describe the development of a novel ultrasound technology that enables soft tissue-preserving digital impressions of preparations for the CAD/CAM-based production of dental prostheses. The concept and development of the high-resolution ultrasound technique and the corresponding intraoral scanning system, as well as the integration into the CAD/CAM process chain, is presented.
Keywords: accuracy, CAD, digital, gingiva, impression, intraoral, scan, soft tissue, subgingival preparation, tooth, ultrasound
PubMed ID (PMID): 25643461Pages 297-306, Language: English, GermanBegum, Zubeda / Chheda, PratikRapid prototyping (RP) describes the customized production of solid models using 3D computer data. Over the past decade, advances in RP have continued to evolve, resulting in the development of new techniques that have been applied to the fabrication of various prostheses. RP fabrication technologies include stereolithography (SLA), fused deposition modeling (FDM), computer numerical controlled (CNC) milling, and, more recently, selective laser sintering (SLS). The applications of RP techniques for dentistry include wax pattern fabrication for dental prostheses, dental (facial) prostheses mold (shell) fabrication, and removable dental prostheses framework fabrication. In the past, a physical plastic shape of the removable partial denture (RPD) framework was produced using an RP machine, and then used as a sacrificial pattern. Yet with the advent of the selective laser melting (SLM) technique, RPD metal frameworks can be directly fabricated, thereby omitting the casting stage. This new approach can also generate the wax pattern for facial prostheses directly, thereby reducing labor-intensive laboratory procedures. Many people stand to benefit from these new RP techniques for producing various forms of dental prostheses, which in the near future could transform traditional prosthodontic practices.
Keywords: dentistry, prosthodontics, rapid prototyping, selective laser sintering, stereolithography
PubMed ID (PMID): 25643462Pages 307-316, Language: English, GermanGrößer, Julian / Sachs, Caroline / Stadelmann, Markus / Schweiger, Josef / Güth, Jan-Frederik / Beuer, FlorianDouble crown systems with primary crowns made from zirconia are used to support removable dental prostheses (RDPs). However, the fabrication of RDPs is labor-intensive and costly. Manufacturing primary and secondary crowns from zirconia with a CAD/CAM system might simplify the fabrication protocol and reduce costs. Furthermore, only ceramic materials are used in this method, providing an RDP with the highest possible biocompatibility and greatest possible esthetics. This article describes the fabrication protocol step by step.
Keywords: Computer-aided design, computer-aided manufacturing, double-crown systems, full-arch restoration, pre-sintered zirconia, removable dental prosthesis, technical report