Soft Tissue Behaviour And Integration Around Dental Implants <br>
LOD-021-00
Dr. Peter Schupbach
The scientific evidence on the biomaterial surface TiUniteTM will be given and compared to other implant surfaces. Several studies confirm and support the clinical benefits of the conductive properties of TiUniteTM, allowing bone and soft tissue to adhere along the implant surface and into the pores of the surface. This results in faster osseointegration and higher biological stability, thus minimizing time at risk for effective and safe Immediate FunctionTM. The clinical implications of TiUnite as Immdiate FunctionTM, reduced marginal bone loss, soft tissue integration and predictable esthetics will be discussed. In addition the scientific evidence of micro grooves along the threads and around the implant shoulder will be given. The introduction of the Groovy technology provides yet another step in implant development. With this technology, the speed of osseointegration can be further increased. The biological stability is enhanced by up to 30% allowing the use of groovy implants in soft bone.
Biological Data for Bone Integration
LOD-018-00
Dr. Peter Schupbach
The scientific evidence on the biomaterial surface TiUniteTM will be given and compared to other implant surfaces. Several studies confirm and support the clinical benefits of the remarkable osseoconductive properties of TiUniteTM, allowing bone to grow along the implant surface and into the pores of the surface. This results in faster osseointegration and higher biological stability, thus minimizing time at risk for effective and safe Immediate FunctionTM. The clinical implications of TiUnite as Immdiate FunctionTM, reduced marginal bone loss, soft tissue integration and predictable esthetics will be discussed. In addition the scientific evidence of micro grooves along the threads and around the implant shoulder will be given. The introduction of the Groovy technology provides yet another step in implant development. With this technology, the speed of osseointegration can be further increased. The biological stability is enhanced by up to 30% allowing the use of groovy implants in soft bone.
Complications in Dentoalveolar Surgery
LOD-016-00
Dr. Earl Freymiller
Although the risks of complications associated with dentoalveolar surgery can oftentimes be greatly reduced, they cannot be completely eliminated. It is impossible to practice dentoalveolar surgery without experiencing the occasional complication. In the course of this lecture, the more common complications will be discussed in detail, as well as some less commonly encountered complications that have the potential for serious consequences. The lecture will specifically focus on ways to prevent or reduce the risk of various complications, how to recognize complications when they occur, and appropriate methods of treatment
Challenging Composite Restoration With Free-Hand-Bonding - An Illusion Became Reality
LOD-008-00
Dr. Didier Dietschi
The growing concern of patients for tissue preservation and oral aesthetics has rejuvenated 'free-hand bonding with composites' and made it a primary treatment option for the anterior teeth. This lecture covers fundamental knowledge about color and optical properties, different treatment options with composite restorations, and provides a comprehensive description of clinical procedures.
Immediate implant temporization of a single anterior dental implant
LDL-179-002
Dr. Stefan Paul
English
Immediate implant temporization of a single anterior dental implant
Staged temporization of multiple dental implants in a partially edentulous patient
LDL-179-001
Dr. Stefan Paul
English
Staged temporization of multiple dental implants in a partially edentulous patient