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Nanostructured Biomaterials for Cranio-maxillofacial and Oral Applications examines the combined impact of materials science, biomedical and chemical engineering, and biology to provide enhanced biomaterials for applications in maxillo-facial rehabilitation and implantology. With a strong focus on a variety of material classes, it examines material processing and characterization techniques to decrease mechanical and biological failure in the human body. After an introduction to the field, the most commonly used materials for cranio-facial applications, including ceramics, polymers and glass ceramics are presented. The book then looks at nanostructured surfaces, functionally graded biomaterials and the manufacturing of nanostructured materials via 3-D printing. This book is a valuable resource for scientists, researchers and clinicians wishing to broaden their knowledge in this important and developing field. - Explores the techniques used to apply nanotechnology to biomaterials for cranio-maxillofacial and oral applications - Bridges the gap between fundamental materials science and medicine - Shows how nanostructured biomaterials respond when implanted in the human body
Advanced Ceramic Coatings for Biomedical Applications covers tissue engineering, scaffolds, implant and dental application, wound healing and adhesives. The book is one of four volumes that together provide a comprehensive resource in the field of Advanced Ceramic Coatings, also including titles covering: fundamentals, manufacturing, and classification; energy applications; and emerging applications. This books will be extremely useful for academic and industrial researchers and practicing engineers who need to find reliable and up-to-date information about recent progresses and new developments in the field of advanced ceramic coatings. It will also be of value to early career scientists providing background knowledge to the field. Smart ceramic coatings containing multifunctional components are now finding application in transportation and automotive industries, in electronics, and energy sectors, in aerospace and defense, and in industrial goods and healthcare. Their wide application and stability in harsh environments are only possible due to the stability of the inorganic components used. Ceramic coatings are typically silicon nitride, chromia, hafnia, alumina, alumina-magnesia, silica, silicon carbide, titania, and zirconia-based compositions. The increased demand for these materials and their application in energy, transportation, and the automotive industry, are considered, to be the main drivers. Provides comprehensive coverage of biomedical applications of advanced ceramic coatings Covers basic principles of surface chemistry and the fundamentals of ceramic materials and engineering Features the latest progress and recent technological developments Includes comparisons to other coating types (e.g., polymers, metals, and enamel) to demonstrate the potential, limitations, and differences Contains extensive case studies and worked examples
This book is a collection of chapters from different biomaterial experts, including their design, new insights into the molecular basis of their interaction with the organism, and their successful application. The chapters have been organized to illustrate different aspects of multidisciplinary biomaterial science. Thus, this book should give readers a view into the different biomaterial disciplines and methodologies that are needed for specific clinical applications.
Graphene Bioelectronics covers the expending field of graphene biomaterials, a wide span of biotechnological breakthroughs, opportunities, possibilities and challenges. It is the first book that focuses entirely on graphene bioelectronics, covering the miniaturization of bioelectrode materials, bioelectrode interfaces, high-throughput biosensing platforms, and systemic approaches for the development of electrochemical biosensors and bioelectronics for biomedical and energy applications. The book also showcases key applications, including advanced security, forensics and environmental monitoring. Thus, the evolution of these scientific areas demands innovations in crosscutting disciplines, starting from fabrication to application. This book is an important reference resource for researchers and technologists in graphene bioelectronics—particularly those working in the area of harvest energy biotechnology—employing state-of-the-art bioelectrode materials techniques. - Offers a comprehensive overview of state-of-art research on graphene bioelectronics and their potential applications - Provides innovative fabrication strategies and utilization methodologies, which are frequently adopted in the graphene bioelectronics community - Shows how graphene can be used to make more effective energy harvesting devices
Nanostructured Biomaterials for Regenerative Medicine focuses on the definition of new trends for the design of biomaterials for biomedical applications. It includes the ex novo synthesis as well as technological strategies to manipulate them into appropriate two-dimensional (2D) and three-dimensional (3D) forms, in order to impart all the main physical, chemical, structural and biological properties requested to achieve desired clinical efficacy. This book aims at offering a concise overview of innovative platforms based on nanostructured biomaterials as a function of their chemical nature - established by a consolidated material classification i.e., polymer, ceramics and metals. For each class, emerging bioinspired systems with rapid expansion in the biomedical research area and fabricated via new enabling technologies will be proposed for the use in tissue repair/regeneration and nanomedicine. This book is an essential resource for researchers, academics and professionals interested in the potential of nanostructured biomaterials for regenerative medicine. - Classifies materials into three classes for comprehensive discussion - Discusses design techniques to create innovative nanostructured biomaterials - Looks at enabling technologies and strategies for emerging applications
Nanobiomaterials in Clinical Dentistry, Second Edition shows how a variety of nanomaterials are being used to solve problems in clinical dentistry. New nanomaterials are leading to a range of emerging dental treatments that utilize more biomimetic materials that more closely duplicate natural tooth structure (or bone, in the case of implants). The book's chapters discuss the advantages and challenges of using nanomaterials and include case studies to illustrate how a variety of materials are best used in research and practice. - Contains information from an interdisciplinary, international group of scientists and practitioners in the fields of nanomaterials, dental implants, medical devices and clinical practice - Presents a comprehensive reference on the subject that covers material fabrication and the use of materials for all major diagnostic and therapeutic dental applications--repair, restoration, regeneration, implants and prevention - Complements the editors' previous book on nanotechnology applications for dentistry
This book presents a wide and interdisciplinary overview of the current state of the art in the development of biomimetic materials for tissue regeneration on the basis of relevant and high-impact clinical needs. It specifically emphasizes the regeneration of bone, cartilage, and osteochondral tissues as well as soft tissues such as nerves, heart,
The Special Issue “Synthesis and Modification of Nanostructured Thin Films” highlights the recent progress in thin film synthesis/modification and characterization. New methods are reviewed for the synthesis and/or modification of thin films based on laser, magnetron, chemical, and other techniques. The obtained thin nanostructures are characterized by complex and complementary techniques. We think that most of proposed methods can be directly applied in production, but some others still need further elaboration for long-term prospective applications in lasers, optics, materials, electronics, informatics, telecommunications, biology, medicine, and probably many other domains. The Guest Editor and the MDPI staff are therefore pleased to offer this Special Issue to interested readers, including graduate and PhD students as well as postdoctoral researchers, but also to the entire community interested in the field of nanomaterials. We share the conviction that this can serve as a useful tool for updating the literature, but also to aid in the conception of new production and/or research programs. There is plenty of room for further dedicated R&D advances based on new instruments and materials under development.
This book provides a thorough, up-to-date description of the scientific basis and concepts of tissue engineering in the oral and maxillofacial region. The opening chapters present an introduction to tissue engineering, describe the roles of biomaterials and stem cells, discuss the use of growth factors, and examine potential adverse reactions. The challenges of soft and hard tissue engineering for oral and maxillofacial reconstruction are then considered in detail. It is explained what has been achieved to date, and potential future perspectives are explored. The importance and the verification of adequate vascularization are discussed, and a further focus is the use of 3D printing, both in the planning and production of scaffolds and in the bioprinting of cells and biomaterials. Information is also included on safety, efficacy, and regulatory aspects. Tissue Engineering in Oral and Maxillofacial Surgery will be of interest to all researchers and practitioners who wish to learn more about the potential of tissue engineering to revolutionize practice in oral and maxillofacial surgery.