A-Z in Restorative Implant Dentistry (Part 6b) - Prosthodontic Management of Soft Tissue Defects
LOD-230-00
Dr. George Perri
Part 6b<br />Prosthodontic Management of Soft Tissue Defects
LOD-229-00
Dr. George Perri
Part 6a<br />Maximizing Aesthetic Potential: Restorative Challenges and Goals with Ideal and Non-Ideal Implant Placement
A-Z in Restorative Implant Dentistry (Part 3a) - Restorative Case Work-Up, Surgical Guides
LOD-225-00
Dr. George Perri
Part 3a<br />Restorative Case Work-Up, Surgical Guides
A-Z in Restorative Implant Dentistry (Part 2a) - An Overview of the Head of an Implant
LOD-223-00
Dr. George Perri
Part 2a<br />An Overview of the Head of an Implant
LOD-222-00
Dr. George Perri
Part 1b<br />Ideal Implant Placement & Prosthodontic Limitations of the Non-Ideal Implant Placement
Risks Endangering Bone Stability Around an Implant
LOD-208-00
Dr. Georg-H. Nentwig
The risks that endanger bone stability around an implant can be related to trauma, loading, anatomy, implant, reconstruction, or the patient. This lecture will provide hints and scientific background about each one of these aspects so that you can manage and even avoid these risks.<BR><BR>Bone stability is the key for long-term success of an implant. But, there are two areas that must be identified in maintaining this stability. We will emphasize the importance of the implant abutment area where the bone is adjacent to the soft tissue. This bone is critical for supporting the soft tissue and for ensuring the health of the soft tissue and avoiding bacterial contamination.<BR><BR>This lecture will show you what you can do to improve a weak bone to avoid an early functional mistake or failure of the total reconstruction. We figured out that we can add, after the static phase, after the second stage surgery, after the load has started, a bone training phase that can improve the original weak structures so much that you can rely on it's stability even if you apply a more risky restoration.<BR><BR>We will discuss how to avoid esthetic failues, an unpleasent situation for both the patient and the dentist, that are often due to lack of bone right from the beginning.<BR><BR>Finally we will discuss the option to place an implant in a sub-crestal position which is only possible if you use an implant that has a stable cone connection. The cone connection will avoid any bacterial release, and will therefore avoide any bone loss in the cervical region caused by this bacteria contamination. With this concept we can achieve long lasting esthetic results.
The Biodynamics of Osseointegration Facts and Clinical Implications
LOD-207-00
Dr. Peter Schupbach
Dental implants are placed into the alveolar bone, with the expectation that they become osseointegrated and that the periimplant mucosa will heal to the abutment surface and fulfill the primary functions of the periodontal tissues, which are attachment and protection of the soft tissue and the underlying bone.<BR><BR>This requires that the rather rigid ankylotic like connection between implant and bone replaces functionally the sophisticated suspension via the periodontal ligament as offered by the evolution and, that the structural framework of the periimplant mucosa matches the architecture of the gingiva. <BR><BR>The context of an understanding of the elicited host site interfacial healing response will be reiterated for the time period immediately following implant placement up to long term behavior. The role of the implants
LOD-205-00
Dr. Todd Schoenbaum
This program provides an overview of the basics of efficient, effective dental photography. Guidelines will be given for equipment selection, appropriate clinical techniques, and camera settings.<BR><BR>Also included are the basics of dental shade photography, use of contrastors, and patient communication. The goal of this program is provide an efficient framework for the beginning dental photographer to select and use their equipment accurately and efficiently.
Implant-Assisted Orthodontics: Moving Toward a Better Tomorrow
LOD-202-00
Dr. Frank Celenza
The use of implants and miniscrews to provide the anchorage necessary for optimal clinical outcomes is an accepted and effective modality. The techniques of