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This book is essential reading for those interested in understanding current trends of research in the area of biomechanics at micro- and nanoscale levels. It details the research carried out to date in this field by fourteen prominent researchers as part of a four-year government supported project which commenced in 2003. It consists of four chapters entitled Cell Mechanics, Cell Response to Mechanical Stimulation, Tissue Engineering and Computational Biomechanics.
This book is essential reading for those interested in understanding current research trends in biomechanics at micro- and nanoscale levels. It details the research carried out to date in this field by fourteen prominent researchers as part of a four-year government supported project which commenced in 2003. The coverage includes four broad areas: cell mechanics, cell response to mechanical stimulation, tissue engineering, and computational biomechanics.
A project on “Biomechanics at Micro- and Nanoscale Levels”, the title of this book, was approved by the Ministry of Education, Culture, Sports, Science and Technology of Japan in 2003. This 4-year-project was carried out by 14 prominent Japanese researchers and ended in late March 2007. The project consisted of four fields of research, namely, cell mechanics, cell response to mechanical stimulation, tissue engineering, and computational biomechanics.A series of four books related to this project was published between 2003 and 2007. The present volume is the last book in this series, and summarizes the research results achieved by project members throughout its 4-year duration. This book is essential reading for those interested in understanding current trends of research in the area of biomechanics at micro- and nanoscale levels.
A project on “Biomechanics at Micro- and Nanoscale Levels”, the title of this book, was approved by the Ministry of Education, Culture, Sports, Science and Technology of Japan in 2003; and this four-year project is now being carried out by fourteen prominent Japanese researchers.At the 5th World Congress of Biomechanics held in Munich, Germany, from 29th July to 4th August, 2006, we organized the following sessions: Thread 3: Biomechanics at micro- and nanoscale levels — (1) cell mechanics; (2) molecular biomechanics; (3) mechanobiology at micro- and nanoscale levels; and (4) computational biomechanics. The present proceedings volume covers topics related to these sessions, and follows on from where the previous two volumes left off. This book is essential reading for those interested in understanding current trends of research in the area of biomechanics at micro- and nanoscale levels.
This book is essential reading for those interested in understandingcurrent trends of research in the area of biomechanics at micro- andnanoscale levels. It details the research carried out to date in thisfield by fourteen prominent researchers as part of a four-yeargovernment supported project which commenced in 2003.
Integrated Nano-Biomechanics provides an integrated look into the rapidly evolving field of nanobiomechanics. The book demystifies the processes in living organisms at the micro- and nano-scale through mechanics, using theoretical, computational and experimental means. The book develops the concept of integrating different technologies along the hierarchical structure of biological systems and clarifies biomechanical interactions among different levels for the analysis of multi-scale pathophysiological phenomena. With a focus on nano-scale processes and biomedical applications, it is shown how knowledge obtained can be utilized in a range of areas, including diagnosis and treatment of various human diseases and alternative energy production. This book is based on collaboration of researchers from a unique combination of fields, including biomechanics, computational mechanics, GPU application, electron microscopy, biology of motile micro-organisms, entomological mechanics and clinical medicine. The book will be of great interest to scientists and researchers involved in disciplines, such as micro- and nano-engineering, bionanotechnology, biomedical engineering, micro- and nano-scale fluid-mechanics (such as in MEMS devices), nanomedicine and microbiology, as well as industries such as optical devices, computer simulation, plant based energy sources and clinical diagnosis of the gastric diseases. - Provides knowledge of integrated biomechanics, focusing on nano-scale, in this rapidly growing research field - Explains how the different technologies can be integrated and applied in a variety of biomedical application fields, as well as for alternative energy sources - Uses a collaborative, multidisciplinary approach to provide a comprehensive coverage of nano-biomechanics
This book is a compilation of the contributions by the outstanding scientists who attended the 1st Asian Biomaterials Congress. The 1st Asian Biomaterials Congress is the first integrated meeting on Asian biomaterials and was held in Tsukuba from 6 ? 8 December 2007. The book showcases the latest and research developments in biomaterials and tissue engineering in Asia. It provides an overview of the recent advances of metallic, ceramic and polymeric materials, their composites, biomechanics, and bio-nanotechnology. It also includes the applications of biomaterials, including implantable medical devices, tissue engineering and drug delivery systems.
This book is a compilation of the contributions by the outstanding scientists who attended the 1st Asian Biomaterials Congress. The 1st Asian Biomaterials Congress is the first integrated meeting on Asian biomaterials and was held in Tsukuba from 6 - 8 December 2007. The book showcases the latest and research developments in biomaterials and tissue engineering in Asia. It provides an overview of the recent advances of metallic, ceramic and polymeric materials, their composites, biomechanics, and bio-nanotechnology. It also includes the applications of biomaterials, including implantable medical devices, tissue engineering and drug delivery systems.
The Tissue Engineering approach has major advantages over traditional organ transplantation and circumvents the problem of organ shortage. Tissues that closely match the patient’s needs can be reconstructed from readily available biopsies and subsequently be implanted with minimal or no immunogenicity. This eventually conquers several limitations encountered in tissue transplantation approaches. This book serves as a good starting point for anyone interested in the application of Tissue Engineering. It offers a colorful mix of topics, which explain the obstacles and possible solutions for TE applications.