Iutam Symposium on Cellular, Molecular and Tissue Mechanics

The invited papers in this book reflect the current understanding of the role mechanics play in the biological system at the molecular, cellular and tissue levels. Topics range from tissue engineering and mechanics to mechanics of cells and biomolecules.

These are the proceedings of an IUTAM Symposium on Cellular, Molecular and Tissue Mechanics, held in the summer of 2008 at Woods Hole, Mass, USA. This groundbreaking meeting brought together mechanicians having an interest in biological systems, with biophysicists and biologists in order to address the mechanical basis of biology at the molecular, cellular and tissue scales.

The meeting explored a wealth of phenomena in cell and molecular biology all of which display a breadth of mechanical influences that may seem surprising at first glance to the traditional mechanician. This arena for the application of methods developed in mechanics has not drawn as much attention as more traditional tissue biomechanics. However, biophysicists, and even biologists apply ideas of elasticity and structural mechanics quite widely in studying molecules and cells. Many critical functions of biomolecules and cells are fundamentally mechanical in origin, and the mechanics of many biomolecules demonstrate scaling laws that are non-classical to traditional structural mechanics and elasticity.

This compilation of the scientific papers presented at the meeting will prove invaluable to researchers in the mechanics of biology as this field develops in the decades to come and takes its place as an acknowledged and central area in biology.

State of current understanding, and the viewpoints of biologists, biophysicists and mechanicians Includes supplementary material: sn.pub/extras

Contenu
Tissue Mechanics.- Experimental and Computational Investigation of Viscoelasticity of Native and Engineered Ligament and Tendon.- A Comparison of a Nonlinear and Quasilinear Viscoelastic Anisotropic Model for Fibrous Tissues.- Hysteretic Behavior of Ligaments and Tendons: Microstructural Analysis of Damage, Softening and Non-Recoverable Strain.- On Measuring Stress Distributions in Epithelia.- A Viscoelastic Anisotropic Model for Soft Collageneous Tissues Based on Distributed FiberMatrix Units.- Cell-substrate Interactions.- Chemical and Mechanical Micro-Diversity of the Extracellular Matrix.- Tissue-to-Cellular Deformation Coupling in Cell-Microintegrated Elastomeric Scaffolds.- Orientational Polarizability and Stress Response of Biological Cells.- Universal Temporal Response of Fibroblasts Adhering on Cyclically Stretched Substrates.- Mechanics of DNA.- Elastic and Electrostatic Model for DNA in RotationExtension Experiments.- Shape and Energetics of DNA Plectonemes.- Mechanics of Biopolymer Networks.- Constitutive Models for the Force-Extension Behavior of Biological Filaments.- Small Strain Topological Effects of Biopolymer Networks with Rigid Cross-Links.- Cell adhesion.- An Observation on Bell's Model for Molecular Bond Separation Under Force.- A Theoretical Study of the Thermodynamics and Kinetics of Focal Adhesion Dynamics.- Tension-Induced Growth of Focal Adhesions at CellSubstrate Interface.- Pattern Formation and Force Generation by Cell Ensembles in a Filamentous Matrix.- Mechano-Chemical Coupling in Shell Adhesion.- Catch-to-Slip Bond Transition in Biological Bonds by Entropic and Energetic Elasticity.- Growth.- Dilation and Hypertrophy: A Cell-Based Continuum Mechanics Approach Towards Ventricular Growth and Remodeling.- A Morpho-Elastic Modelof Hyphal Tip Growth in Filamentous Organisms.- Extracellular Control of Limb Regeneration.- Poroelasticity of Bone.- Bone Composite Mechanics Related to Collagen Hydration State.