Titanium Mesh GBR in Anterior Implant Therapy - Stage 2 Mesh removal and soft tissue grafting - Part 2 of 2
In this follow-up technique surgical video, Dr. Tomohiro Ishikawa demonstrates stage 2 uncovering of a previously placed titanium mesh and implant as part of guided bone regeneration (GBR)

Current Concepts in Bioactivity and Regeneration
An injury to the tissue instantly stimulates the healing process. To heal properly, we need three elements: scaffolds, cells and growth factors. If one of these three elements are missing there will be no tissue regeneration. Plasma rich in growth factors (Endoret® (PRGF®) technology, enables clinicians to apply autologous growth factors and a fibrin scaffold in a simple, safe and effective method. The Endoret® (PRGF®) stimulates the tissue-building cells to achieve regeneration. An optimal alveolar regeneration is characterized by fast haemostasis, adequate inflammation, stem cell mobilization and differentiation, rapid soft tissue closure of the socket and correct tissue regeneration. The adequate management of the extraction socket will determine the final outcome of implant-supported restorations.

Simultaneously Autologous Bone Grafting, Sinus Augmentation Procedure, Implant Placement & Immediate Provisionalization
A unique presentation of a combined surgical techniques and implants provisionalization, simultaneously performed, in the anterior maxilla. With the aid of computerized assisted guides, a surgical template and a temporary bridge for immediate temporization was prepared.

SGFBR (Screw Guided Fast Bone Regeneration) Horizontal & Vertical Bone Augmentation of the Atrophic Mandible
This presentation will highlight a less invasive surgical option to autogenous block transplantation and has displayed a very high success rate.

Autologous Bone vs. Bioactive Modifiers/BMP-2: A Clinical Update in Bone Regeneration - Part 2 of 2
There are several techniques and materials available for implant site development. The choice may depend on a number of factors including size of the defect, osseous morphology, costs and surgeon or patient preferences. Autogenous bone has long been considered the gold standard of graft materials. The trend today is to reduce patient morbidity but still provide predictable outcomes. This lecture will discuss the use of autogenous bone versus using bioactive modifiers such as platelet concentrates, rhPDGF and rhBMP-2 as replacement for the need to harvest bone.

Growth Factors; The Next Step in Achieving Ideal Regeneration
The aim of dentistry is to provide esthetics and function for our patients. Using hard and soft tissue regeneration techniques we have the ability to rebuild what has been lost to disease or trauma. Whether we are regenerating lost tissue around teeth or developing an ideal implant site, growth factors are a powerful asset that help make regenerative procedures more predictable while reducing patient morbidity. This webinar review regeneration techniques and will discuss the popular growth factors available today and demonstrate their clinical use.

Titanium Mesh and rhBMP-2 in Ridge Augmentation: Options and Limitations
Titanium mesh has been used in reconstructive surgery and ridge augmentation for several years. The traditional technique involves using cancellous autogenous bone under the mesh scaffold. More recently growth factors and bone substitutes have been utilized as autograft replacements. There are several advantages to using titanium mesh for space maintenance including strength, ease of use, low cost and biocompatibility. However, the difficulty in removing the mesh has led to a search for other space maintenance scaffolds including tenting screws, dense preshaped collagen and porous high-density polyethylene. This webinar will discuss the use of rhBMP-2 for managing horizontal and vertical bone deficiencies with various scaffolds.

A Novel Combined Surgical Approach to Vertical Alveolar Ridge Augmentation with Titanium Mesh, Resorbable Membrane, and rhPDGF-BB: A Retrospective Consecutive Case Series
This report demonstrates the remarkable efficacy of guided bone regeneration using a combination of titanium mesh, resorbable collagen membrane, and rhPDGF for vertical ridge augmentation, thus expanding the indications for implant therapy and allowing recovery of the three-dimensional esthetic architecture in a severely absorbed alveolar ridge.

Influence of Thin Mucosal Tissues on Crestal Bone Stability Around Implants With Platform Switching: A 1-year Pilot Study
The aim of this pilot study was to determine what effect thin mucosal tissues can have on crestal bone stability around implants with platform switching. Within the limitations of this pilot study it can be concluded that implants with platform switching did not preserve crestal bone better in comparison with implants with traditional implant-abutment connection if, at the time of implant placement, thin mucosal tissues were present.

Human Histologic Evaluation of Anorganic Bovine Bone Mineral Combined with Recombinant Human Platelet-Derived Growth Factor BB in Maxillary Sinus Augmentation: Case Series Study
The objective of this study was to examine the potential for improved bone regenerative outcomes in maxillary sinus augmentation procedures using platelet-derived growth factor BB and anorganic bovine bone mineral.