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Based on the proceedings of the Bone-Biomaterial Interface Workshop held in Toronto, Canada, December 1990, addresses the questions which have arisen during this period of evolution from inert to active materials in orthopedic, dental, and maxillofacial implants with specific reference to the bone-biomaterial interface. The seven parts of the volume reflect the seven sessions of the workshop, dealing with materials issues, protein adsorption, cell and tissue reactions, mechanical influences on interfacial biology, retrieval analysis, and the industrial context. Annotation copyrighted by Book News, Inc., Portland, OR
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
Focusing on bone biology, Bone Tissue Engineering integrates basic sciences with tissue engineering. It includes contributions from world-renowned researchers and clinicians who discuss key topics such as different models and approaches to bone tissue engineering, as well as exciting clinical applications for patients. Divided into four sections, t
This book provides comprehensive coverage of smart biomaterials and their potential applications, a field that is developing at a very rapid pace. Because smart biomaterials are an emerging class of biomaterials that respond to small changes in external stimuli with large discontinuous changes in their physical properties, they have been designed to act as an “on–off” switch for, among others, bio separation, immunoanalysis, drug delivery technologies, gene therapy, diagnostics, bio sensors and artificial muscles. After an introduction to the topic and the history of smart biomaterials, the author gives the reader an in-depth look at the properties, mechanics, and characterization of smart biomaterials including hydrogels, particles, assemblies, surfaces, fibers and conjugates. Information on the wide range of applications for these materials follows, including drug delivery, tissue engineering, diagnostics, biosensors, bio separation and actuators. In addition, recent advances in shape memory biomaterials as active components of medical devices are also presented.
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.
Bioactive Materials for Bone Regeneration summarizes research advances on the topic, including sections on the characteristics of biomaterial-induced microenvironments, interactions of bioactive materials with stem cells and tissues, and the immunomodulatory microenvironment induced by biomaterials and its effects on osteogenesis. As the regeneration of large-size bone tissue defects represents a significant clinical challenge, this book demonstrates how new biomaterials with specific chemical and physical characteristics may interact with the host and create a unique micro-environment that actively facilitates stem cell differentiation along a specific lineage, thus stimulating tissue regeneration.
An Introduction to Tissue-Biomaterial Interactions acquaints an undergraduate audience with the fundamental biological processes that influence these sophisticated, cutting-edge procedures. Chapters one through three provide more detail about the molecular-level events that happen at the tissue-implant interface, while chapters four through ten explore selected material, biological, and physiological consequences of these events. The importance of the body’s wound-healing response is emphasized throughout. Specific topics covered include:Structure and properties of biomaterials Proteins Protein-surface interactions Blood-biomaterial interactions Inflammation and infection The immune system Biomaterial responses to implantation Biomaterial surface engineering Intimal hyperplasia and osseointegration as examples of tissue-biomaterial interactions The text also provides extensive coverage of the three pertinent interfaces between the body and the biomaterial, between the body and the living cells, and between the cells and the biomaterial that are critical in the development of tissue-engineered products that incorporate living cells within a biomaterial matrix. Ideal for a one-semester, biomedical engineering course, An Introduction to Tissue-Biomaterial Interactions provides a solid framework for understanding today’s and tomorrow’s implantable biomedical devices.
This book provides a perspective on the current status of bioimaging technologies developed to assess the quality of musculoskeletal tissue with an emphasis on bone and cartilage. It offers evaluations of scaffold biomaterials developed for enhancing the repair of musculoskeletal tissues. These bioimaging techniques include micro-CT, nano-CT, pQCT/QCT, MRI, and ultrasound.