Alveolar ridge reconstruction, guided tissue regeneration and bone grafting:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Philadelphia [u.a.]
Saunders
2001
|
| Schriftenreihe: | Oral and maxillofacial surgery clinics of North America
13,3 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | X S., S. 397 - 545 Ill. |
Internformat
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| 245 | 1 | 0 | |a Alveolar ridge reconstruction, guided tissue regeneration and bone grafting |c Philip J. Boyne, guest ed. |
| 264 | 1 | |a Philadelphia [u.a.] |b Saunders |c 2001 | |
| 300 | |a X S., S. 397 - 545 |b Ill. | ||
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| 490 | 1 | |a Oral and maxillofacial surgery clinics of North America |v 13,3 | |
| 650 | 4 | |a Alveolar Process | |
| 650 | 4 | |a Alveolar Ridge Augmentation | |
| 650 | 4 | |a Guided Tissue Regeneration | |
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Datensatz im Suchindex
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| adam_text | ALVEOLAR RIDGE RECONSTRUCTION/GUIDED TISSUE
REGENERATION AND BONE GRAFTING
CONTENTS
Preface xi
Philip J. Boyne
The Evolution of Guided Tissue Regeneration 397
Philip J. Boyne
This introductory article traces the evolution of guided tissue regeneration
from the early 60 s, representing work that was accomplished and pub¬
lished at the time regarding the use of metallic mesh and membranes to
rebuild bone on edentulous alveolar ridges. This procedure was found to
be a successful mechanism in experimental work in dogs and was carried
to larger defects in Macaca fascicularis monkeys. Historically, the article
presents work done to rehabilitate Vietnam war maxillofacial casualties
using guided tissue regeneration and particulate marrow cancellous bone
autografts. Finally, this article presents some recent experimental data on
the use of guided tissue regeneration in standardized defects.
Bone Augmentation With and Without Biodegradable and
Nonbiodegradable Microporous Membranes 411
R. Gilbert Triplett, Sterling R. Schow, and R. Theodore Fields
Guided bone regeneration is an integral part of most, if not all, implant
practices. A variety of materials are available that promote osseous regen¬
eration, including autologous, allogenic and alloplastic grafting materials,
and nonresorbable and bioresorbable barrier membranes. This article
briefly reviews the concept of guided bone regeneration (GBR) and dis¬
cusses the general types of barrier membranes available for this purpose.
Several cases are presented that illustrate the principles of GBR and dem¬
onstrate desirable treatment results.
Clinical Procedures Currently Using Bone Grafting With
Guided Tissues Regeneration Techniques 423
Daniel B. Spagnoli, Renato Mazzonetto, and Jose M. Marchena
There is currently a tremendous interest in guided bone regeneration
(GBR). Future research should be aimed at developing more rigid and
ORAL AND MAXILLOFACIAL SURGERY CLINICS OF NORTH AMERICA
VOLUME 13 • NUMBER 3 • AUGUST 2001 v»
rapidly resorbable membranes to minimize the number of procedures, yet
provide adequate rigidity. The use of barrier membranes for GBR is based
on sound biological principles and has proved to be an asset in prepros
thetic surgery and implant reconstruction.
Bone Induction With and Without Membranes and Using
Platelet Rich Plasma 437
Arun K. Garg
Since the early 80 s, oral/maxillofacial surgeons have increasingly used
membrane barrier techniques to achieve greater and more predictable bone
regeneration in patients who have lost support structure due to disease or
trauma. Today, several membrane types are available, including resorbable
and nonresorbable varieties. These membranes can also contain platelet
rich plasma, biologic growth factors, or other materials aimed at enhancing
their regenerative process. It is important for the clinician to recognize the
advantages and disadvantages of these options before selection for a
particular case.
Long Term Results After Guided Bone Regeneration With
Resorbable and Microporous Titanium Membranes 449
Christian Schopper, Walter Goriwoda, Doris Moser, Else Spassova,
Franz Watzinger, and Rolf Ewers
Forty resorbable membranes and 97 microporous titanium membranes
were placed in 64 patients for guided bone regeneration after preprosthetic
surgery. Resorbable membranes were more easily adapted to the anatomic
situ and showed less interference with mucosal wound healing than tita¬
nium membranes; however, if mucosal dehiscences occurred, exposed
resorbable membranes had to be removed, whereas local antiseptic treat¬
ment without membrane removal was effective in most dehiscences of
titanium membranes. Both resorbable and nonresorbable devices provided
reliable prevention from soft tissue ingrowth into the augmented compart¬
ment. The definitive choice of which material to use will primarily depend
on the surgeon s experience, the patient s compliance, and the treatment
schedule.
A Clinical Approach to Periodontal Regeneration 459
Myron Nevins, Marc L. Nevins, Marcelo Camelo,
and James T. Mellonig
Contemporary periodontal regeneration is accepted as an efficacious surgi¬
cal procedure when contemplating therapy for the periodontal infrabony
pocket. It is significant to evaluate the physical and dental health of the
patient before encountering such a treatment regime. Although surgical
approaches vary, it is omnipotent to demonstrate surgical flap design that
allows visibility to permit complete defect debridgement and appropriate
root surface management before proceeding to the selection of regenerate
materials. The material of choice must have survived peer review in both
human proof of principal (histologic) and randomized clinical trials to
suggest its selection. The learning curve includes patient preparation,
realistic expectations, defect selection, and the development of appropriate
surgical skills.
Clinical Procedures of Guided Bone Augmentation 475
Daniel van Steenberghe, Marc Quirynen, and Reinhilde Jacobs
The technique of guided tissue regeneration has originally been applied
in the vicinity of teeth, but its major indication has become the edentulous
Viii CONTENTS
areas. The autologous cortico cancellous blocks or autologous bone chips
remain the golden standard. FDB or DFDB lead to variable results, which
are probably due to the preparation methods. Of the xenogenic/synthetic
grafts, the deproteinized bovine is the best documented bone substitute.
The synthetic materials have regained interest because of growing concern
in public opinion about transfer of pathogenic agents. The use of mem¬
branes have given satisfactory results, especially for jaw bone enlargement.
The Use of Particulate Bone Grafts as Barriers Eliminating the
Use of Membrane in Guided Tissue Regeneration 485
Philip J. Boyne
While guided tissue regeneration is usually thought of in terms of the use
of membranes as barriers to resist the ingression of fibroblasts and other
types of unwanted soft tissue in areas of bone regeneration, it is possible
to obtain the same effect without the use of membranes either biodegrad¬
able or nonbiodegradable. A system of using a conductive bone graft
material with an inductive autogenous graft is described. This technique
produces a final clinical result that is very similar to that obtained when
barrier membranes are employed. Thus, the use of endogenous bone and
soft tissue repair phenomena without the use of synthetic membranes can
be made to produce clinically optimal results.
Clinical Experience with Osseous Site Development Using
Autogenous Bone, Bone Graft Substitutes, and
Membrane Barriers 493
Peter K. Moy
The reconstruction and augmentation of severely resorbed ridges are
highly predictable procedures today with the availability of a variety of
grafting materials and techniques for the surgeon to use. Knowing when
and where to use a specific augmentation material or technique would
improve the predictability of the procedure for the surgeon. An overview
of the augmentation procedure, including guided bone regeneration, is
presented. Emphasis is placed on harvesting of autogenous bone from
various donor sites and reconstructive techniques, using autogenous bone
blocks to correct osseous defects. Site development techniques have made
it possible for patients with severe bone loss to become candidates for
implant treatment and the surgeons should be familiar with these proce¬
dures.
Internal Augmentation of the Alveolar Crest with the Sinus
Membrane for Guided Bone Regeneration: An Experimental
Study in Sheep 511
Georg Watzek and Robert Haas
In a comparative experimental study of 45 sheep, the effects of the sinus
membrane as a barrier for guided bone regeneration with four different
augmentation materials in combination with plasma spray coated cylindri¬
cal titanium implants inserted at the same time were evaluated. Histomor
phometric studies showed that when only Schneider s membrane was
mobilized without any additional augmentation, a limited amount of new
bone was formed along the implant surface (22.2% of the implant surface).
Augmentation with porous hydroxyapatite (Interpore) and with natural
bone mineral (BioOss) produced a similar, relatively extensive apposition
of new bone on the implant surface (33.9% and 28.0% respectively) at 26
weeks. As the formation of new bone varied considerably within the study
CONTENTS IX
groups, the individual clinical outcome can, however, not be conclusively
predicted.
An Evaluation of Bone Induction Delivery Materials in
Conjunction with Root Form Implant Placement 521
Philip J. Boyne and Shahrokh Shabahang
This article evaluates the use of 3 different types of carriers for application
of rhBMP 2 to alveolar bone defects surrounding root form implant in 6
Macaca fasciularis animals. The 3 carriers utilized were porous bone min¬
eral (BioOss), HTR polyhydroxylethylmethacrylate (PHEMA), and a coral
material (BioCoral). The materials were placed in surgically created defects
with root form implants. The implants were subsequently subjected to 5
months of function. Histomorphometric analysis was undertaken to show
the differences in carriers. Both BioOss and HTR apparently were capable
of serving as carriers for the rhBMP 2; however, the HTR did not undergo
osseous remodeling as did the BioOss. BioCoral apparently degrades too
quickly to serve as a good carrier.
An Algorithm for Reconstruction of Alveolar Defects Before
Implant Placement 533
Philip J. Boyne and Alan S. Herford
This article provides an algorithm for the clinician to consider various
surgical options in various types of surgical defects. The defects are di¬
vided into those with deficiencies of horizontal width, involving fenestra
tion of knife edge alveolar configurations, and vertical height defects with
combination vertical and horizontal deficiencies having larger anatomic
configurations to reconstruct. The clinician is given various options to deal
with each of these two categories of defects. The use of titanium mesh is
described to obtain reconstruction outside of the periosteal envelope. The
article brings together some of the points brought out by previous authors
in the monograph itself.
Index 543
Subscription Information Inside back cover
X CONTENTS
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| spelling | Alveolar ridge reconstruction, guided tissue regeneration and bone grafting Philip J. Boyne, guest ed. Philadelphia [u.a.] Saunders 2001 X S., S. 397 - 545 Ill. txt rdacontent n rdamedia nc rdacarrier Oral and maxillofacial surgery clinics of North America 13,3 Alveolar Process Alveolar Ridge Augmentation Guided Tissue Regeneration Regeneration (DE-588)4048983-8 gnd rswk-swf Alveolarknochen (DE-588)4417260-6 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Alveolarknochen (DE-588)4417260-6 s Regeneration (DE-588)4048983-8 s DE-604 Boyne, Philip J. Sonstige oth Oral and maxillofacial surgery clinics of North America 13,3 (DE-604)BV002758944 13,3 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009565832&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Alveolar ridge reconstruction, guided tissue regeneration and bone grafting Oral and maxillofacial surgery clinics of North America Alveolar Process Alveolar Ridge Augmentation Guided Tissue Regeneration Regeneration (DE-588)4048983-8 gnd Alveolarknochen (DE-588)4417260-6 gnd |
| subject_GND | (DE-588)4048983-8 (DE-588)4417260-6 (DE-588)4143413-4 |
| title | Alveolar ridge reconstruction, guided tissue regeneration and bone grafting |
| title_auth | Alveolar ridge reconstruction, guided tissue regeneration and bone grafting |
| title_exact_search | Alveolar ridge reconstruction, guided tissue regeneration and bone grafting |
| title_full | Alveolar ridge reconstruction, guided tissue regeneration and bone grafting Philip J. Boyne, guest ed. |
| title_fullStr | Alveolar ridge reconstruction, guided tissue regeneration and bone grafting Philip J. Boyne, guest ed. |
| title_full_unstemmed | Alveolar ridge reconstruction, guided tissue regeneration and bone grafting Philip J. Boyne, guest ed. |
| title_short | Alveolar ridge reconstruction, guided tissue regeneration and bone grafting |
| title_sort | alveolar ridge reconstruction guided tissue regeneration and bone grafting |
| topic | Alveolar Process Alveolar Ridge Augmentation Guided Tissue Regeneration Regeneration (DE-588)4048983-8 gnd Alveolarknochen (DE-588)4417260-6 gnd |
| topic_facet | Alveolar Process Alveolar Ridge Augmentation Guided Tissue Regeneration Regeneration Alveolarknochen Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009565832&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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