Dental Education
Online Dental Education Dental education lectures and videos Online dental ce Dental education articles Expert dental educators Dental products education Dental Community
 
Dental Publication / Article Details

Peridontal Osseous Surgery and Root Resective Therapy Peridontal Osseous Surgery and Root Resective Therapy

Author(s):

Lee H. Silverstein, DDS, MS, FACD, FICD;David Kurtzman, Sidney H. Stein, Marc E. Moskowitz, Jerry J. Garnick

Date Added:

1/1/1998


Summary:

Historically, osseous surgery was performed to eliminate infected bone. Early in the 20th century clinicians realized that periodontally affected bone was not actually infected. Instead of an invasive bacterial infection, chronic inflammation was responsible for bone destruction. This finding changed the rationale for periodontal therapy and led to modern concepts of osseous surgery. Currently accepted approaches are based on guidelines, parameters, and definitions published by many highly respected clinicians.

Related Articles
A Novel Combined Surgical Approach to Vertical Alveolar Ridge Augmentation with Titanium Mesh, Resorbable Membrane, and rhPDGF-BB: A Retrospective Consecutive Case Series

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.

Author(s): Akiyoshi Funato, D.D.S.;Tomohiro Ishikawa, DDS;Hajime Kitajima, DDS; Masahiro Yamada, DDS, PhD; Hidetada Moroi, DMD
View Article>>
Fibrinogen-Induced Regeneration Sealing Technique (F.I.R.S.T.). An Improvement and Modification of Traditional GBR: A Report of Two Cases

Fibrinogen-Induced Regeneration Sealing Technique (F.I.R.S.T.). An Improvement and Modification of Traditional GBR: A Report of Two Cases
Guided bone regeneration is a technique widely known, clinicians know very well indications and limitations of this technique. One of the principles to achieve bone augmentation and formation resides in the stability of the blood clot forming under a barrier membrane. The technique proposed in this article has the goal of providing stabilization to the bone graft by adding fibrin sealant (FS) to the bone graft and also using the fibrin sealant to attach a bone membrane (cortical lamina) to the recipient site. This simple modification of the technique of guided bone regeneration is presented in two successful cases.

Author(s): Vincenzo Foti, MD, DDS;Roberto Rossi, DDS
View Article>>
Subclassification and Clinical Management of Extraction Sockets with Labial Dentoalveolar Dehiscence Defects

Subclassification and Clinical Management of Extraction Sockets with Labial Dentoalveolar Dehiscence Defects
Immediate implant therapy involving implants placed into intact Type 1 extraction sockets has become a consistent clinical technique. The classification of Type 2 extraction sockets, where the mucosal tissues are present but there is a midfacial osseous dehiscence defect, has been described according to the extent of the buccal bone plate absence. The literature has offered different techniques in the treatment of Type 2 sockets; however, the extent of the defect has never been defined or delineated.

Author(s): Stephen J. Chu, DMD, MSD, CDT;Dennis P. Tarnow, DDS;Guido O. Sarnachiaro, DDS; Mark N. Hochman, DDS
View Article>>
Related Videos
Autologous Bone vs. Bioactive Modifiers/BMP-2: A Clinical Update in Bone Regeneration - Part 1 of 2 Premium Member Content

Autologous Bone vs. Bioactive Modifiers/BMP-2: A Clinical Update in Bone Regeneration - Part 1 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.

Presented By:: Craig M Misch, DDS, MDS
Presentation Style: Video
Community Rating:
 
Watch Now>>
Interdisciplinary Strategies For The Esthetic Reconstruction of Complex Cases Premium Member Content

Interdisciplinary Strategies For The Esthetic Reconstruction of Complex Cases
Predictable esthetic management of the compromised anterior dentition with dental implants constitutes one of the most difficult challenges in contemporary dentistry, especially in scenarios where soft and hard tissue defects are present. Traditional surgical approaches will often result in peri-implant soft tissue disfigurement. Although the use of pink restorative materials has been proposed to disguise soft tissue deficits, maintenance issues and esthetic limitations remain a concern, particularly as it pertains to high smile cases. This presentation will focus on the predictable esthetic management of high-risk and compromised sites, demonstrating the use of contemporary interdisciplinary strategies for the treatment of peri-implant esthetic dilemmas and complications.

Presented By:: Ernesto A. Lee, DMD
Presentation Style: Video
Community Rating:
 
Watch Now>>
Management of Deficient Ridges: A Case Review - Part 1 Premium Member Content

Management of Deficient Ridges: A Case Review - Part 1
Part 1 of a 5 part series from Dr. Michael Pikos

Presented By::
Presentation Style: Video
Community Rating:
 
Watch Now>>
Related Courses
Autogenous Bone Harvesting Today Premium Member Content

Autogenous Bone Harvesting Today
This lecture focuses on autologous bone block harvesting techniques as described by Prof. Khoury: from the donor site identification and harvesting techniques, to an analysis on how computer-guided 3D technology can help the surgeon performing safe and effective mandible bone harvesting procedures.

Presented By:: Luca De Stavola, DMD
Presentation Style: Online Self-Study Course
CE Hours: 1 CEU (Continuing Education Unit)
Watch Now>>
Biologic Strategies to Enhance Clinical and Aesthetic Success in Oral Implantology Premium Member Content

Biologic Strategies to Enhance Clinical and Aesthetic Success in Oral Implantology
This webinar will discuss clinical strategies for treatment of the complex implant site involving bone grafting and implant placement. Our understanding of cellular pathways, and our ability to control the wound response, expands our capacity to effect better aesthetic outcomes and compress treatment time. The reduction of the inflammatory phase of tissue regeneration speeds up osseointegration, prevents crestal bone loss, maintains papillary form, increases the density of peri-implant bone and increases tissue biotype. This enhanced tissue response allows us to predictably treat even the most complex surgical cases, compress time to final reconstruction, and to maintain these favorable tissue outcomes over an extended period of time. The use of dental implants with advanced biologic features and the incorporation autologous growth factors will be demonstrated.

Presented By:: Robert J. Miller, DDS, FACD, DABOI
Presentation Style: Online Self-Study Course
CE Hours: 1 CEU (Continuing Education Credit)
Watch Now>>
Fibrin-Guided Bone Regeneration: Guidelines of a Simple, Predictable, & Low Risk Technique Premium Member Content

Fibrin-Guided Bone Regeneration: Guidelines of a Simple, Predictable, & Low Risk Technique
This lecture is focused on an effective regenerative approach, but at low knowledge. The goal is to provide a new skill in favor of well-established techniques. The Fibrin Sealant (FS) is an additional clot of human origin. It has adhesive, sealant and inductive action stimulating hard and soft-tissue regeneration. The FS, mixed with bone chips and biomaterials, allows a better handling of the graft that, becoming plastic and moldable, adapts perfectly to bony defects without dispersion of granules. It’s effective also on wound protection achieving a faster healing of soft-tissue. This approach is excellent in the socket preservation and in the peri-implant regeneration on "closed" sites where the implants are inside the defects.

Presented By:: Vincenzo Foti, MD, DDS
Presentation Style: Online Self-Study Course
CE Hours: 1 CEU (Continuing Education Unit)
Watch Now>>
Download Now

Important!

To view this dental publication or article, you must be a registered user of Dental XP. If you are already a member, click here to login.

Registration is free and only takes several minutes. Dental XP will never spam you, or sell your information.

Join For Free







Contact Us | Privacy Policy | Terms of Use
©2021

Preferred Language: English Flag
Contact Us · Login · Register