Bone augmentation procedures have greatly benefited patients, as those with insufficient bone volume would previously not have qualified for dental implant therapy. Today, advancements in bone augmentation have increased the pool of qualified patients, have improved predictability, and reduced complications. Horizontal augmentation ensures proper bone width for dental implant placement, and vertical augmentation creates sufficient bone height.
Horizontal Augmentation of the Alveolar Ridge in Implant Dentistry: A Surgical Manual presents the four main methods of horizontal ridge augmentation in a clinically focused surgical manual. After an introductory section and requirements for dental implants, sections are devoted to each procedure: Ridge-split, intraoral onlay block bone grafting, guided bone regeneration, and horizontal distraction osteogenesis. Also included is a section relating to intraoral soft tissue grafting to ensure acceptable esthetic outcomes, decision algorithm for bone augmentation, and tissue engineering of the alveolar complex. For each procedure, chapters describe the history of the procedure, diagnosis and treatment planning, the different techniques with case reports and complications. A bibliography is provided in each chapter for additional learning.
Contents
Chapter 1: Introduction and Bone Augmentation Classification
Chapter 2: Applied Surgical Anatomy of the Jaws
Chapter 3: Bone Development and Histiogenesis of the Jaws
Chapter 4: Prosthetic Comprehensive Oral Evaluation in Implant Dentistry: A Team Approach
Chapter 5: Orthodontic Implant Site Development
Chapter 6: Radiographic Evaluation of the Alveolar Ridge in Implant Dentistry. CBCT Technology
Chapter 7: Classification of Alveolar Ridge Defects in Implant Dentistry
Chapter 8: Alveolar Ridge Augmentation: An Algorithmic Approach
Chapter 9: The Biology of Particulate Bone Grafting in Implant Dentistry: Regenerative Materials of Choice
Chapter 10: Implant Site Development with Particulate Bone Grafts
Chapter 11: Horizontal Alveolar Ridge Augmentation Using Titanium Mesh and Particulate Bone Graft for the Treatment of Alveolar Ridge Defects
Chapter 12: Management of Complications of Guided Bone Regeneration
Chapter 13: Autologous Intraoral Block Bone Grafting for Augmentation of Severe Atrophic Maxilla: Advantages of Combined Therapy
Chapter 14: Autogenous Block Bone Grafting from Extraoral Distant Sites for Alveolar Ridge Augmentation: Techniques and Surgical Considerations
Chapter 15: Alternative Intraoral Block Bone Grafting Techniques for Horizontal Alveolar Ridge Augmentation in Implant Dentistry
Chapter 16: Diagnosis and Treatment Planning
Chapter 17: Surgical Principles of the Ridge-Split Procedure
Chapter 18: Mandibular Two-Stage Alveolar Ridge-Split Procedure
Chapter 19: Maxillary Single-Stage Alveolar Ridge-Split Procedure
Chapter 20: Advanced Ridge-Split Techniques for an Experienced Practitioner
Chapter 21: Comparison of Ridge-Split and Block Grafting Techniques for Width-Deficient Alveolar Ridges
Chapter 22: Alveolar Crest Spreading System for Horizontal Bone Augmentation in Implant Dentisty
Chapter 23: Management of Complications of Ridge-Split Procedure and Conclusion 10 Commandments of Success with Ridge-Split Procedure
Chapter 24: Horizontal Alveolar Distraction Osteogenesis: Diagnosis and Treatment Planning
Chapter 25: Horizontal Alveolar Distraction and Periosteal Expansion Osteogenesis
Chapter 26: Cortical Bone Repositioning Technique
Chapter 27: Horizontal Alveolar Distraction Osteogenesis: Complications and Their Management
Chapter 28: Soft Tissue Grafting for Implant Site Development: Diagnosis and Treatment Planning, Esthetic Evaluation
Chapter 29: Techniques of Soft Tissue Grafting in Implant Dentistry
Chapter 30: Management of Complications of Soft Tissue Grafting in Implant Dentistry
Chapter 31: Alveolar Bone Augmentation via In Situ Tissue Engineering
Chapter 32: Growth Factors and Alveolar Bone Augmentation
Chapter 33: Platelet-Rich Fibrin: Natural and Biologic Blood Concentrate
Chapter 34: Practical Implications of Stem Cell Technology: Functional Tooth Restoration Using Bioengineered Organ Regeneration and Bio-Hybrid Artificial Organ Replacement
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