Biomechanics at micro- and nanoscale levels
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Bibliographic Information
Biomechanics at micro- and nanoscale levels
World Scientific, c2005-2007
- v.1
- v.2
- v.3
- v.4
Available at / 11 libraries
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北九州学術研究都市学術情報センター北九州図書
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Engineering Library of Yamagata University
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Description and Table of Contents
- Volume
-
v.1 ISBN 9789812560988
Description
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.
Table of Contents
Cell Mechanics: Imaging and Mechanical Properties of Guinea Pig Outer Hair Cells Studied by Atomic Force Microscopy (H Wada et al.) Development of a Novel Micro Tensile Tester for Single Isolated Cells and Its Application to Viscoelastic Analysis of Aortic Smooth Muscle Cells (T Matsumoto et al.) Shear Dependent Albumin Uptake in Cultured Endothelial Cells (K Tanishita et al.) Biomechanical and Biotribological Importance of Surface and Surface Zone in Articular Cartilage (T Murakami et al.) Cell Response to Mechanical Stimulation: Osteoblasts Mechanosensitivity to Localized Mechanical Stimulus Depends on Orientation of Cytoskeletal Actin Fibers (T Adachi & K Sato) Microbiomechanical Properties of Cultured Endothelial Cells Estimated by Atomic Force Microscopy (M Sato) Effects of Mechanical Stresses on the Migrating Behavior of Endothelial Cells (T Tanaka et al.) Tissue Engineering: Engineering Approaches to Regulate Cell Differentiation and Tissue Regeneration (T Ushida et al.) A New Theory on the Localization of Vascular Diseases (T Karino et al.) Automorphogenesis of Load Bearing Fibrous Tissues: Generation of Tensile Stress, Cell Alignment, and Matrix Deformation by Fibroblasts (K Takakuda) Computational Biomechanics: Note on Anisotropic Properties of Cancellous Bone and Trabeculae: Elasticity and Hardness (M Tanaka et al.) Application of Computational Biomechanics to Clinical Cardiovascular Medicine (T Yamaguchi) Biomechanical Study for Skeletal Muscle Injury and a View of Micro-Biomechanics for Microstructure of Muscle (S Yamamoto & E Tanaka) Mechanical Behavior and Structural Changes of Cells Subjected to Mechanical Stimuli: Deformation, Freezing, and Shock Waves (H Yamada et al.)
- Volume
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v.2 ISBN 9789812567468
Description
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.
Table of Contents
- Heterogeneous Expression of the Motor Protein
- Effects of Actin Filaments on Anisotropy and Stiffness of Aortic Smooth Muscle Cells
- Micro-Vessel Network Formation of Endothelial Cells
- Mechanical Behaviors of Articular Cartilage and Chondrocytes
- Reorganization of Cytoskeletal Actin Structure in Osteoblastic Cells
- Morphology of Endothelial Cells in Response to Hydrostatic Pressure
- Mechanosensing in Intestinal Villi
- Microelements for Cartilage Tissue Engineering
- Interrelationship Between Water Filtration Velocity and the Thicknesss of Pseudointima
- Strengthening of Fibrous Tissues Under Mechanical Stimuli
- Assessment of Cortical Bone Microstructure Using Monochromatic Synchrotron Radiation Micro-CT
- Numerical Study on Particle Presentations of Blood Cells and the Plasma in Microvascular Blood Flow
- Mechanical Models of Skeletal Muscle
- Stimulation of the Effects of Actin Binding and Cellular Deformation on the Orientation of Actin Stress Fibers.
- Volume
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v.4 ISBN 9789812771315
Description
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.
Table of Contents
- Cell Mechanics: Structural Analysis of the Motor Protein Prestin
- Effects of Cytoskeletal Structures on Elastic and Viscoelastic Properties of Cells in Soft Tissues
- Biomechanical Properties of Collagen Gel Associated with Microvessel Formation in Vitro
- Depth-Dependent Compressive Behaviors of Articular Cartilage and Chondrocytes
- Cell Response to Mechanical Stimulation: Cytoskeletal Reassembling and Calcium Signaling Responses to Mechanical Perturbation in Osteoblastic Cells
- Experimental Estimation of Preexisting Tension in Single Actin Stress Fiber of Vascular Cells
- Biophysical Mechanisms of Tension-Dependent Formation of Stress Fibers from Actin Meshwork
- Tissue Engineering: Effects of Cyclic Hydrostatic Pressure Loading on Regulation of Chondrocyte Phenotypes
- Effects of a Shear Flow and Water Filtration on the Cell Layer of a Hybrid Vascular Graft
- Tissue Reconstructions for Motor Organs with Mechanically Structured Grafts
- Computational Biomechanics: Microscopic Analysis of Bone
- Computational Biomechanics of Blood Flow in Cardiovascular Diseases
- Microstructural Mechanism of Skeletal Muscle Injury and a New Constitutive Model of Skeletal Muscle
- Mechanical Characteristics of Vascular Cells and Tissues Exposed to Deformation, Freezing, and Shock Waves: Measurements and Theoretical Predictions.
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