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Dental Implants and Bone Grafts: Materials and Biological Issues brings together cutting-edge research to provide detailed coverage of biomaterials for dental implants and bone graft, enabling scientists and clinicians to gain a thorough knowledge of advances and applications in this field. As tooth loss and alveolar bony defects are common and pose a significant health problem in dental clinics, this book deals with timely topics, including alveolar bone structures and pathological changes, reviews of indications and advantages of biomaterials for dental implants and bone graft, design and surface modification, biological interaction and biocompatibility of modern dental implants and bone graft, and new frontiers.This book is a highly valuable resource for scientists, clinicians and implantologists interested in biomaterial and regenerative strategies for alveolar bone reconstruction.
Bone reconstruction of defects resulting from atrophy, injury, congenital malformations, or neoplasms has become a routine part of dental rehabilitation procedures, but it requires sound knowledge of bone repair processes and graft behavior. This book presents protocols for harvesting, preserving, and placing bone grafts that are based on the biology and general principles of bone grafting involving the symphysis, ascending ramus and body, coronoid process, maxillary tuberosity, sinus wall, zygomatic buttress, calvarium, iliac crest, and tibia.
This book explores the potential of bone grafting techniques to rehabilitate the maxilla through the placement of dental implants. As implant dentistry becomes increasingly well established and sophisticated, this book will help experienced surgeons to involve implant solutions as part of more challenging reconstructions in the upper jaw. Starting with a recap on principles of bone biology, the book then considers implant integration in normal bone and with bone grafts. Grafting procedures are presented depicting a variety of bone harvest sites, followed by onlay and inlay grafting techniques. Approaches to sinus lifting, segmental osteotomy and distraction osteogenesis for augmentation protocols are provided.
With contributions from: R. Gruber, Th. Hanser, Ph. Keeve, Ch. Khoury, J. Neugebauer, J. E. Zöller Bone and Soft Tissue Augmentation in Implantology addresses useful methods of bone grafting procedures in implant treatment based on current biologic principles and constitutes a unique reference in this field. The book describes, in over 760 pages and 2837 mostly color illustrations, the different possibilities available to augment the bone volume in width and height. The information presented includes not only the underlying scientific concepts of the different augmentation techniques with autogenous bone, but also the associated soft tissue management, from safe approaches to different possibilities for soft tissue augmentation and papilla reconstruction techniques. The book provides surgeons with a basic understanding of the biologic response to bone grafting procedures. Experienced implantologists will benefit from the in-depth background information, details of high-level surgical techniques, and scientific results, which will enable them to optimize their surgical procedures. Each chapter offers a wealth of information on the specific topic covered, with much attention given to the scientific concepts behind each one. Extensive case reports with step-by-step documentation allow readers to gain an impression of what is possible today in the 3D reconstruction procedures of the alveolar crest. Important criteria for success are presented as well as possible complications and their treatment. Bone and Soft Tissue Augmentation in Implantology is a must-read for every implantologist, oral and maxillofacial surgeon, and any dentist interested in surgery.
Provides comprehensive coverage of the research into and clinical uses of bioceramics and biocomposites Developments related to bioceramics and biocomposites appear to be one the most dynamic areas in the field of biomaterials, with multiple applications in tissue engineering and medical devices. This book covers the basic science and engineering of bioceramics and biocomposites for applications in dentistry and orthopedics, as well as the state-of-the-art aspects of biofabrication techniques, tissue engineering, remodeling, and regeneration of bone tissue. It also provides insight into the use of bionanomaterials to create new functionalities when interfaced with biological molecules or structures. Featuring contributions from leading experts in the field, Bioceramics and Biocomposites: From Research to Use in Clinical Practice offers complete coverage of everything from extending the concept of hemopoietic and stromal niches, to the evolution of bioceramic-based scaffolds. It looks at perspectives on and trends in bioceramics in endodontics, and discusses the influence of newer biomaterials use on the structuring of the clinician’s attitude in dental practice or in orthopedic surgery. The book also covers such topics as biofabrication techniques for bioceramics and biocomposites; glass ceramics: calcium phosphate coatings; brain drug delivery bone substitutes; and much more. Presents the biggest trends in bioceramics and biocomposites relating to medical devices and tissue engineering products Systematically presents new information about bioceramics and biocomposites, developing diagnostics and improving treatments and their influence on the clinicians' approaches Describes how to use these biomaterials to create new functionalities when interfaced with biological molecules or structures Offers a range of applications in clinical practice, including bone tissue engineering, remodeling, and regeneration Delineates essential requirements for resorbable bioceramics Discusses clinical results obtained in dental and orthopedic applications Bioceramics and Biocomposites: From Research to Use in Clinical Practice is an excellent resource for biomaterials scientists and engineers, bioengineers, materials scientists, and engineers. It will also benefit mechanical engineers and biochemists who work with biomaterials scientists.
Complications in Equine Surgery is the first reference to focus exclusively on understanding, preventing, recognizing, managing, and prognosing, technical and post-procedural complications in equine surgery. Edited by two noted experts on the topic, the book presents evidence-based information using a clear approach, organized by body system. Featuring color images, the book contains detailed coverage of the gastrointestinal, respiratory, musculoskeletal, urogenital, and neurological systems. Each chapter contains a short introduction of the procedure with explanations of when and how the procedure is to be performed. All chapters review how to recognize and prevent technical complications and explain how to manage post-operative complications. This important text: Offers the first resource specifically focused on complications encountered in equine surgery Takes a helpful format organized by body system Provides consistently formatted chapters for ease of use Covers clinically relevant information for dealing with technical and post-operative complications Presents more than 350 color images to illustrate the concepts described Written for general practitioners and specialists, Complications in Equine Surgery is an essential resource to decreasing morbidity and mortality and increasing surgical success in horses.
Get your hands on this concise, visual guide to orthopaedics packed with the absolutely essential facts!. --Book Jacket.
Comprehensively describes bone augmentation techniques and their application to the different anatomical regions of the upper and lower jaws. Bone Augmentation by Anatomical Region is a unique, evidence-based guide focusing on each specific anatomical region – anterior maxilla, posterior maxilla, anterior mandible, and posterior mandible – in order to emphasize the correct implemented procedures needed to successfully perform oral osseous reconstruction. Numerous ridge augmentation techniques are covered, including: horizontal and vertical guided bone regeneration, autologous block transplantation, interpositional bone grafting, allogeneic blocks, sandwich technique, split-expansion ridge technique, and sinus floor grafting. Non-augmented approaches such as forced socket site extrusion and the installation of digitally printed implants are also presented and discussed. Guides readers on tackling bone augmentation via anatomical region of the jaws and their related surrounding muscles, vascularization and innervation Presents innovative augmentation techniques for the anterior maxilla, posterior maxilla, anterior mandible, and posterior mandible Includes clinical photographs in each section and a decision tree to help readers select the appropriate surgical modality Bone Augmentation by Anatomical Region is a specialist resource suitable for dentists who practice implant dentistry, oral surgeons, oral and maxillofacial surgeons, periodontists, and postgraduate dental students in the above-mentioned disciplines. Please note Due to recently developments, part of Chapter 2 Biologic Conditions for Bone Growth and Maintenance: Managing the Oxidative Stress has been amended which will be available in all future reprints. All electronic versions have been updated.
While an oral surgery resident in training at the University of Michigan in 1977, I observed a strange phenomenon in a maxillary fracture patient. A unilateral ossification of the maxillary antrum occurred following a Le Fort III fracture that had been treated the year before. I wondered how trauma around the antrum due to an impacted maxilla and the inferiorly displaced orbital rim could lead to an ossified maxillary sinus. The trauma was bilateral, yet only one side responded by ossification. Furthermore, there appeared to be no functional impairment of the sinus. This unusual finding remained a mystery to me for many years. It wasn't until 1980, when Phil Boyne published the first paper on the sinus augmentation graft, that the mystery began to be solved. He found that preservation of the elevated sinus membrane created a confined space in which bone had the potential to form. Dr Boyne went on to show, in a primate study, that bone would readily form in the sinus floor, but that the newly formed bone would completely resorb over a period of a year unless dental implants were placed to help maintain the bone. Many other workers began to experiment with various bone-grafting materials, both in animals and clinically. Remarkably, most of the materials demonstrated new bone formation in the graft sites. Because dental implants were generally used as the measure of bone graft success and since there were very few implant failures reported in the literature, confusion resulted as to which grafting material to use. It seemed they all worked. To sort this out, a few patients with 5 to 7 mm of available bone were treated with sinus elevation and Gore-Tex over the lateral osteotomy site only. Despite no graft material be used, bone formed. As long as the sinus membrane remained intact, bone formed beneath the sinus membrane that had been tented up by simultaneously placed implants. The need to use any graft material at all appeared to be brought into question. At the same time, practitioners lined up in two camps: those who placed implants in delayed fashion after graft maturation and those who preferred simultaneous implant placement. Both approaches published a high level of success seeming to substantiate their protocols, but once again the measure of success was hampered by the lack of any human evidence for efficacy. A 5-year implant retrieval study was undertaken using standard titanium mini-implants that had been placed simultaneously with grafting. Interestingly, bone did not form well around these implants in this setting despite positive reviews in animal studies. Could we conclude that the delayed approach was preferred, or was there another factor, such as the implant surface, that could be important? Hydroxyapatite-coated, titanium plasma-sprayed, and acid-etched titanium implant surfaces seemed to do well in the grafted bone. Could this be the answer for implants placed into sinus bone grafts? As these developments are progressing, new interest is generated in jump-starting the natural inductive processes of bone formation through pharmacokinetics. Early results of human studies now appear to be favorable for using bone morphogenetic protein as a graft alternative that stands to modify all of the protocols in use to date. How these various approaches work toward definitive answers to the basic biologic and clinical questions is what this book is all about. The authors attempt to answer the how, why, when, and where of sinus grafting. It is hoped that the state of the art of sinus grafting will be elucidate for the reader in the ongoing quest for scientific knowledge and its clinical appilcation that will ultimately lead to excellence in patient care.