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Restorative biomaterials in dentistry are designed to restore the shape and function of teeth. Their applicability is related to restorative procedures such as dental restorations, dentures, dental implants, and endodontic materials. Designing Bioactive Polymeric Materials for Restorative Dentistry reviews the current state of the art for restorative biomaterials and discusses the near-future trends in this field. The book examines the biomaterials utilized in restorative dental applications (bonding, composites, cements, and ceramics) and assesses the design for these materials and the role of nanotechnology. All of the contributors are active clinical dentists and researchers in this field. FEATURES Overviews the major ongoing research efforts on developing bioactive bonding systems and composites in dental biomaterials Focuses on emerging trends in restorative dental biomaterials Incorporates evidence-based data on new restorative dental materials throughout the book Features extensive references at the end of each chapter to enhance further study Mary Anne S. Melo, DDS, MSc, PhD FADM, is an Associate Professor and Division Director of Operative Dentistry at the School of Dentistry, University of Maryland, Baltimore, Maryland.
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.
This book is a printed edition of the Special Issue Bioactive and Therapeutic Dental Materials that was published in Materials
Braden and his coauthors give a comprehensive overview of the use of polymers and polymer composites as dental materials. These comprise polyelectrolyte based materials, elastomers, glassy and crystalline polymers and fibres. Such materials are used in dentistry as restorative materials, hard and soft prostheses, and impression materials. The chemistry of materials is reviewed, together with mechanical, thermal, visco-elastic and water solution properties. These properties are related to clinical performance, with emphasis on some of the difficulties inherent in developing materials for oral use. Indications are given of possible future developments.
A review of the biomaterials used in dentistry, this book explores their performance and how it can be measured and optimized. The text covers optical and electron microscopy imaging techniques for dental biomaterial interfaces, along with specific materials such as dental cements, fibre-reinforced composites, metals, and alloys. It provides an analysis of stresses, fracture, wear, and aging in dental biomaterials, and evaluates the performance of dental adhesives and resin-dentin bonds. It also discusses ways of assessing the performance of dental handpieces, crowns, implants, and prostheses, and examines the use of computer models.
Restorative biomaterials in dentistry are designed to restore the shape and function of teeth. Their applicability is related to restorative procedures such as dental restorations, dentures, dental implants, and endodontic materials. Designing Bioactive Polymeric Materials for Restorative Dentistry reviews the current state of the art for restorative biomaterials and discusses the near-future trends in this field. The book examines the biomaterials utilized in restorative dental applications (bonding, composites, cements, and ceramics) and assesses the design for these materials and the role of nanotechnology. All of the contributors are active clinical dentists and researchers in this field. FEATURES Overviews the major ongoing research efforts on developing bioactive bonding systems and composites in dental biomaterials Focuses on emerging trends in restorative dental biomaterials Incorporates evidence-based data on new restorative dental materials throughout the book Features extensive references at the end of each chapter to enhance further study Mary Anne S. Melo, DDS, MSc, PhD FADM, is an Associate Professor and Division Director of Operative Dentistry at the School of Dentistry, University of Maryland, Baltimore, Maryland.
Biocompatibility of Dental Biomaterials details and examines the fundamentals of biocompatibililty, also including strategies to combat it. As biomaterials used in the mouth are subject to different problems than those associated with the general in vivo environment, this book examines these challenges, presenting the latest research and forward-thinking strategies. Explores the fundamentals of dental biomaterials and their compatibility Presents a thorough review of material specific issues
The development and use of medical and dental materials are highly interdisciplinary endeavors which require expertise in chemistry, materials science, medicine and/or dentistry, mechanics and design engineering. The Symposium upon which this treatise is based was organized to bring members from these communities together to explore problems of mutual interest. The biomaterials which are used in medical or dental prostheses must not only exhibit structural stability and provide the desired function, but they must also perform over extended periods of time in the environment of the body. The latter is a very stringent requirement. The oral and other physiological environments are designed by nature to break down many organic substances. Also of importance is the requirement that materials used in the prosthesis not have a deleterious effect on body tissues. Most foreign (to the body) substances are somewhat toxic to human tissues; in fact, few factors are more limiting in the medical prosthesis field than the biocompatibility problem. Some of these problems and the attempts to solve them are discussed in this volume.