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This book provides a comprehensive and scientifically based overview of the biocompatibility of dental materials. Up-to-date concepts of biocompatibility assessment are presented, as well as information on almost all material groups used in daily dentistry practice. Furthermore, special topics of clinical relevance (e.g,, environmental and occupational hazards and the diagnosis of adverse effects) are covered. The book will: improve the reader’s ability to critically analyze information provided by manufacturers supply a better understanding of the biocompatibility of single material groups, which will help the reader choose the most appropriate materials for any given patient and thus prevent adverse effects from developing provide insights on how to conduct objective, matter-of-fact discussions with patients about the materials to be used in dental procedures advise readers, through the use of well-documented concepts, on how to treat patients who claim adverse effects from dental materials feature clinical photographs that will serve as a reference when analyzing clinical symptoms, such as oral mucosa reactions.
Dental Biomaterials: Imaging, Testing and Modelling reviews the materials used in this important area, their performance and how such performance can be measured and optimised. Chapters review optical and electron microscopy imaging techniques for dental biomaterial interfaces. Specific materials such as dental cements, fibre-reinforced composites, metals and alloys are discussed. There is an analysis of stresses, fracture, wear and ageing in dental biomaterials as well as an evaluation of the performance of dental adhesives and resin-dentin bonds. Chapters also review ways of assessing the performance of dental handpieces, crowns, implants and prosthesies. The book also reviews the use of computer models in such areas as bond strength and shape optimisation of dental restorations.With its distinguished editors and team of experienced contributors DDental Biomaterials: Imaging, Testing and Modelling researchers, materials scientists, engineers and dental practitioners with an essential guide to the use and performance of dental biomaterials. - An essential guide to the use and performance of dental biomaterials - Reviews optical and electron microscopy imaging techniques for dental biomaterial interfaces - Analyses stresses, fracture, wear and ageing in dental biomaterials and evaluates the performance of dental adhesives and resin-dentin bonds
This comprehensive review brings together research by biomaterials experts in various fields of dentistry, including oral and maxillofacial surgery, orthodontics, periodontics, prosthodontics, and restorative dentistry. Through the presentation of evidence derived exclusively from in vivo studies, the mechanisms governing the aging of materials placed in the oral cavity are clarified and selective aspects of the in vivo performance of materials demonstrated.
The contents of this book touch on the all major dental biomaterials: polymers, composites, ceramics and metals. The first part introduces the readers to the surface physicochemical and mechanical characterizations at the nanoscopic level, and the use of finite element analysis. The second part discusses dental adhesion, resin-based composites, polymerization contraction stress, impression materials and soft liners for total prosthesis. The third part deals with ceramics in restorative dentistry: zirconia and lithium disilicate, the fractography of dental ceramics, as well as bioglass for bone growth. The fourth part discusses the toxicity of mercury in dentistry, and the use of preventive materials for dental diseases. The concluding part identifies imminent techniques for dental biomaterials, such as additive manufacturing (3D printing), and bioprinting in dentistry.
Bioactive materials, or biomaterials, have the ability to interact biologically with the tissue to which it is inserted, and to stimulate the deposition of mineralized tissue. The calcium phosphate-based ceramics were the first known materials in dentistry to have bioactivity, and currently, these materials are the most used for biomedical purposes, with different morphological characteristics. In dentistry, these materials have achieved immense importance by stimulating the deposition of osseous tissue in injured bone, and by having the ability to remineralize hard tooth tissues (enamel and dentin). Furthermore, repair materials based on aggregated trioxides mineral or on calcium hydroxide are classic biomaterials and widely used in dentistry, mainly in contact with the pulp tissue or periodontal ligament, for repair processes. However, various formulations of these materials appear all the time, in search of the ideal material. In general, bioactive materials have been shown to promote the release of calcium, sodium, silicon and phosphate ions, which are metabolized by the body, having effects such as angiogenesis and antimicrobial action, which can be improved depending on the composition of the material. Pulp tissue is a highly specialized dental tissue and is the subject of intense studies about the response to biomaterials. It is also understood that some systemic alterations in individuals have an influence on the action of bioactive materials during tissue repair processes. Thus, this book will address the use of different bioactive materials in dentistry, considering the performance of these biomaterials in the hard tissues of the tooth, and the response of the dental pulp, as well as the influence of the composition of these materials and of the individual's systemic alterations in bioactivity and in antimicrobial activity. The several in vivo and in vitro tests to evaluate the bioactivity of a biomaterial will also be addressed.
Bone Response to Dental Implant Materials examines the oral environment and the challenges associated with dental biomaterials. Understanding different in vivo and in vitro responses is essential for engineers to successfully design and tailor implant materials which will withstand the different challenges of this unique environment. This comprehensive book reviews the fundamentals of bone responses in a variety of implant materials and presents strategies to tailor and control them. - Presents a specific focus on the development and use of biomaterials in the oral environment - Discusses the basic science of the dental interface and its clinical applications - Contains important coverage on the monitoring and analysis of the dental implant interface
As the demand for healthy, attractive teeth increases, the methods and materials employed in restorative dentistry have become progressively more advanced. Non-metallic biomaterials for tooth repair and replacement focuses on the use of biomaterials for a range of applications in tooth repair and, in particular, dental restoration.Part one reviews the structure, modification and repair of dental tissues. The properties of enamel and dentin and their role in adhesive dental restoration are discussed, along with biomineralization and biomimicry of tooth enamel, and enamel matrix proteins (EMPs) for periodontal regeneration. Part two goes on to discuss the processing, bonding and wear properties of dental ceramics, glasses and sol-gel derived bioactive glass ceramics for tooth repair and replacement. Dental composites for tooth repair and replacement are then the focus of part three, including composite adhesive and antibacterial restorative materials for dental applications. The effects of particulate filler systems on the properties and performance of dental polymer composites are considered, along with composite based oral implants, fibre reinforced composites (FRCs) as dental materials and luting cements for dental applications.With its distinguished editor and international team of expert contributors, Non-metallic biomaterials for tooth repair and replacement provides a clear overview for all those involved in the development and application of these materials, including academic researchers, materials scientists and dental clinicians. - Discusses the properties of enamel and dentin and their role in adhesive dental restoration - Chapters also examine the wear properties of dental ceramics, glasses and bioactive glass ceramics for tooth repair and replacement - Dental composites and antibacterial restorative mateirals are also considered
The history of use of dental materials and biomaterial dates back to the BC era, but the real advances in this field have occurred since the 19th century, due to the invention and understanding of new materials. These advances have been due to the continuous quest for new materials and new technologies used for the design and fabrication of new and novel materials, and, in particular, the understanding of new materials with innovative clinical applications. These have only been possible due to interdisciplinary research of a translational nature, where physicians, surgeons, dentists, and materials scientists work together for a common and targeted goal. It is important for clinicians to understand the needs of the patient, who translates those needs for the materials scientist to develop an implant to improve the quality of life for the patient. Once the chemical, physical, mechanical, and biological properties of the materials are well understood, then these materials can be tailored to provide specific clinical applications. Development in the field of tissue engineering and regenerative medicine has only been possible due to work from this partnership. This Special Issue will provide an excellent forum to bring together different communities and publish research of a high caliber, which will be beneficial to healthcare.
Master the use of dental materials in the clinic and dental laboratory and stay current with this ever-changing field with Craig's Restorative Dental Materials, 13th Edition. From fundamental concepts to advanced skills, this comprehensive text details everything you need to know to understand the scientific basis for selecting dental materials when designing and fabricating restorations. This practical, clinically relevant approach to the selection and use of dental materials challenges you to retain and apply your knowledge to realistic clinical scenarios, giving you an authoritative advantage in dental practice. - Problems and Solutions at the end of each chapter test your ability to apply chapter concepts to solve common clinical challenges. - Mind Maps on the companion Evolve website condense essential chapter content into single-page overviews ideal for quick reference, study outlines, or comprehensive reviews. - Comprehensive coverage reflects fundamental concepts and the latest practical knowledge all in one authoritative source. - Appendix of useful resource materials provides quick, convenient access to Weights and Measurements, Conversion Tables, and Comparative Table of Troy, Avoirdupois, and Metric Weights. - Content updates and links on Evolve keep you current with the latest developments in the field. - NEW! Full-color design and illustrations clarify clinical detail for greater understanding. - NEW! Reorganized content emphasizes scientific evidence and is organized by usage in a clinical setting to help you study more efficiently. - NEW! Digital Imaging and Processing for Restorations chapter equips you with essential understanding of current imaging practices. - NEW! Major revisions reflect the latest advances in the use of enamel, dental, biofilms, mechanical testing, ceramics, polymers, and composites.