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The volume accommodates articles that described the last research results in biomaterials for various applications including drug delivery for cancer treatment, analysis of the effect of curcumin on blood glucose patients with diabetes, antibacterial properties of some plant extracts etc. Here are also presented research results related to brain-computer Interface, classification of lung sound abnormalities and the computational studies of a predictive mathematical model for transdermal and non-invasive diagnosis using biodegradable and hollow microneedle patches.
The 51st volume of "Journal of Biomimetics, Biomaterials and Biomedical Engineering" contains papers that reflect the latest results of scientific research and engineering decisions in the fields of biomaterials for implantology and prosthesis, biomechanics approach for human motion rehabilitation; the processing of medical images, and medical signals for the goals of various diagnostic purposes; application of information technologies in the biomedical practice. We hope that this volume will be helpful for many researchers and engineers from the different branches of biomedical engineering.
This volume of the "Journal of Biomimetics, Biomaterials and Biomedical Engineering" covers topical issue of biomimetic approach to the development of modern means of a wide range of industrial applications, the new solutions in the field of biomedical engineering and of pharmacological practice and also illuminates the results of the latest solutions in the field of development of biomaterials and their application.
This volume of the "Journal of Biomimetics, Biomaterials and Biomedical Engineering" covers topical issue of biomimetic approach to the development of modern means of a wide range of industrial applications, the new solutions in the field of biomedical engineering and of pharmacological practice and also illuminates the results of the latest solutions in the field of development of biomaterials and their application.
Provides cutting-edge advances in biologically inspired, biomimetically-designed materials and systems for developing the next generation of nanobiomaterials and tissue engineering Humans have been trying to learn biomimetics for centuries by mimicking nature and its behaviors and processes in order to develop novel materials, structures, devices, and technologies. The most substantial benefits of biomimetics will likely be in human medical applications, such as developing bioprosthetics that mimic real limbs and sensor-based biochips that interface with the human brain to assist in hearing and sight. Biomimetics: Advancing Nanobiomaterials and Tissue Engineering seeks to compile all aspects of biomimetics, from fundamental principles to current technological advances, along with future trends in the development of nanoscale biomaterials and tissue engineering. The book details research, useful in inspiring new ideas, that seeks the principles and rules implemented by nature, such as self-assembly, a bottom-up approach in which molecular structures are assembled with little or no external intervention to generate nano, micro, and macro structures. Other subjects covered in the book include: Cartilage tissue engineering as an emerging technology The fabrication methods of nanofibrous scaffolds and their potential utility in bone tissue engineering applications Dental and craniofacial tissue engineering with bioactive polymers and bionanomaterials Strategies to prevent bacterial adhesion on biomaterials The latest achievements in biomimetic ECM scaffolds prepared from cultured cells Graphene oxide and graphene as promising scaffold materials Stem cells as a source for building tissues or organs in the laboratory
Nature’s evolution has led to the introduction of highly efficient biological mechanisms. Imitating these mechanisms offers an enormous potential for the improvement of our day to day life. Ideally, by bio-inspiration we can get a better view of nature’s capability while studying its models and adapting it for our benefit. This book takes us into the interesting world of biomimetics and describes various arenas where the technology is applied. The 25 chapters covered in this book disclose recent advances and new ideas in promoting the mechanism and applications of biomimetics.
This book focuses on electro active polymer material known as Ionic Polymer Metal Composite (IPMC) having unique applicability as sensor and actuator which finds extensive use in various domain of engineering and science research. Apart from fundamentals of the IPMC concept, various applications are covered extensively across the chapters including space, underwater and nanoscale, including manufacturing processes. Dedicated chapters are included for robotics and biomedical applications and possible research gaps. Future research perspectives for IPMC are also discussed. Features: Covers principle of Ionic Polymer Metal Composite (IPMC), manufacturing processes, applications, and future possibilities in a systematic manner Highlights IPMC practical applicability in biomedical engineering domain Explores Single-walled carbon nanotubes (SWNT) based IPMC soft actuators Discusses IPMC applications in underwater areas Includes IPMC application in robotics focusing on special compliant mechanism This book is aimed toward researchers, graduate students and professionals in materials and mechanical engineering, robotics, mechatronics, biomedical engineering, and physics.
The maturation of nanotechnology has revealed it to be a unique and distinct discipline rather than a specialization within a larger field. Its textbook cannot afford to be a chemistry, physics, or engineering text focused on nano. It must be an integrated, multidisciplinary, and specifically nano textbook. The archetype of the modern nano textbook
Frontiers in Biomaterials: The Design, Synthetic Strategies and Biocompatibility of Polymer Scaffolds for Biomedical Application, Volume 1 highlights the importance of biomaterials and their interaction with biological system. The need for the development of biomaterials as scaffold for tissue regeneration is driven by the increasing demands for materials that mimic functions of extracellular matrices of body tissues. This eBook covers the latest challenges on the biocompatibility of scaffold overtime after implantation and discusses the requirement of innovative technologies and strategies for the development of materials with long-lasting scaffold and biocompatibility functions. The contents of this eBook include chapters on cell-scaffold interactions in three dimensions, nanocrystalline diamond films for biomedical applications, bioceramics-design, synthesis and biological applications, polyester biomaterials for regenerative medicine, nanomaterials for skin regeneration and many more. This book is a valuable resource for MSc and PhD students , academic personnel and researchers seeking updated and critically important information on biomaterials and biomedical applications.