Cell Mechanics and Cellular Engineering

✍ Scribed by D. V. Zhelev, R. M. Hochmuth (auth.), Van C. Mow, Roger Tran-Son-Tay, Farshid Guilak, Robert M. Hochmuth (eds.)

Publisher: Springer-Verlag New York
Year: 1994
Tongue: English
Leaves: 570
Edition: 1
Category: Library

⬇ Acquire This Volume

No coin nor oath required. For personal study only.

✦ Synopsis

Cell mechanics and cellular engineering may be defined as the application of principles and methods of engineering and life sciences toward fundamental understanding of structure-function relationships in normal and pathological cells and the development of biological substitutes to restore cellular functions. This definition is derived from one developed for tissue engineering at a 1988 NSF workshop. The reader of this volume will see the definition being applied and stretched to study cell and tissue structure-function relationships. The best way to define a field is really to let the investigators describe their areas of study. Perhaps cell mechanics could be compartmentalized by remembering how some of the earliest thinkers wrote about the effects of mechanics on growth. As early as 1638, Galileo hypothesized that gravity and of living mechanical forces place limits on the growth and architecture organisms. It seems only fitting that Robert Hooke, who gave us Hooke's law of elasticity, also gave us the word "cell" in his 1665 text, Micrographid, to designate these elementary entities of life. Julius Wolffs 1899 treatise on the function and form of the trabecular architecture provided an incisive example of the relationship between the structure of the body and the mechanical load it bears. In 1917, D' Arcy Thompson's On Growth and Form revolutionized the analysis of biological processes by introducing cogent physical explanations of the relationships between the structure and function of cells and organisms.

✦ Table of Contents

Front Matter....Pages i-xvii
Front Matter....Pages 1-1
Human Neutrophils Under Mechanical Stress....Pages 3-21
Viscous Behavior of Leukocytes....Pages 22-32
Shear Rate-Dependence of Leukocyte Cytoplasmic Viscosity....Pages 33-44
Cell Tumbling in Laminar Flow: Cell Velocity is a Unique Function of the Shear Rate....Pages 45-52
Front Matter....Pages 53-53
The Regulation of Vascular Endothelial Biology by Frow....Pages 55-69
Flow Modulation of Receptor Function in Leukocyte Adhesion to Endothelial Cells....Pages 70-94
Osteoblast Responses to Steady Shear Stress....Pages 95-106
Effects of Shear Stress on Cytoskeletal Structure and Physiological Functions of Cultured Endothelial Cells....Pages 107-117
Front Matter....Pages 119-119
Kinetics and Mechanics of Cell Adhesion under Hydrodynamic Flow: Two Cell Systems....Pages 121-144
Initial Steps of Cell-Substrate Adhesion....Pages 145-159
A Cell-Cell Adhesion Model for the Analysis of Micropipette Experiments....Pages 160-181
Front Matter....Pages 183-183
Biphasic Theory and In Vitro Assays of Cell-Fibril Mechanical Interactions in Tissue-Equivalent Gels....Pages 185-209
Mechanical Load ± Growth Factors Induce [Ca 2+ ] i Release, Cyclin D 1 Expression and DNA Synthesis in Avian Tendon Cells....Pages 210-232
Cytomechanics of Transdifferentiation....Pages 233-252
Front Matter....Pages 253-253
Signal Transduction Cascades Involved in Mechanoresponsive Changes in Gene Expression....Pages 255-272
Cytoskeletal Plaque Proteins as Regulators of Cell Motility, and Tumor Suppressors....Pages 273-293
Mechanical Signal Transduction and G proteins....Pages 294-307
Modeling Mechanical-Electrical Transduction in the Heart....Pages 308-328
Cellular Tensegrity and Mechanochemical Transduction....Pages 329-342
Front Matter....Pages 343-343
Stress, Strain, Pressure and Flow Fields in Articular Cartilage and Chondrocytes....Pages 345-379
Front Matter....Pages 343-343
Deformation-Induced Calcium Signaling in Articular Chondrocytes....Pages 380-397
The Effects of Hydrostatic and Osmotic Pressures on Chondrocyte Metabolism....Pages 398-419
Proteoglycan Synthesis and Cytoskeleton in Hydrostatically Loaded Chondrocytes....Pages 420-444
Altered Chondrocyte Gene Expression in Articular Cartilage Matrix Components and Susceptibility to Cartilage Destruction....Pages 445-456
Front Matter....Pages 457-457
Mechanics of Cell Locomotion....Pages 459-478
The Correlation Ratchet: A Novel Mechanism for Generating Directed Motion by ATP Hydrolysis....Pages 479-489
Receptor-Mediated Adhesive Interactions at the Cytoskeleton/Substratum Interface During Cell Migration....Pages 490-514
Actin Polymerization and Gel Osmotic Swelling in Tumor Cell Pseudopod Formation....Pages 515-533
Biomechanics Model for Skeletal Muscle Microcirculation with Reference to Red and White Blood Cell Perfusion and Autoregulation....Pages 534-564

✦ Subjects

Cell Biology

📜 SIMILAR VOLUMES

Cellular Mechanics and Biophysics: Struc

📁 Cellular Mechanics and Biophysics: Structure and Function of Basic Cellular Components Regulating Cell Mechanics

✍ Claudia Tanja Mierke 📂 Library 📅 2020 🏛 Springer International Publishing;Springer 🌐 English

This book focuses on the mechanical properties of cells, discussing the basic concepts and processes in the fields of immunology, biology, and biochemistry. It introduces and explains state-of-the-art biophysical methods and examines the role of mechanical properties in the cell/protein intera

Cell Adhesion Molecules: Cellular Recogn

📁 Cell Adhesion Molecules: Cellular Recognition Mechanisms

✍ Gerard Marguerie, Georges Uzan (auth.), Martin E. Hemler, Enrico Mihich (eds.) 📂 Library 📅 1993 🏛 Springer US 🌐 English

The Fourth Annual Pezcoller Symposium entitled Adhesion Molecules: Cellular Recognition Mechanisms was held in Rovereto, Italy, June 24-26, 1992 and was focussed on the detailed mechanisms whereby cells utilize certain integral membrane proteins to perceive their surrounding environment and inter

Cognition-Based Evolution: Natural Cellu

📁 Cognition-Based Evolution: Natural Cellular Engineering and the Intelligent Cell

✍ William B. Miller Jr. 📂 Library 📅 2023 🏛 CRC Press/Science Publishers 🌐 English

Cognition-Based Evolution is the first comprehensive alternative to 20th-century Neodarwinism, proposing a radical 21st-century evolutionary framework with a novel point of origination: all cells are intelligent and must measure uncertain environmental information to sustain themselves. In

Cellular and Molecular Mechanisms of Inf

📁 Cellular and Molecular Mechanisms of Inflammation. Receptors of Inflammatory Cells: Structure–Function Relationships

✍ Charles G. Cochrane and Michael A. Gimbrone (Eds.) 📂 Library 📅 1990 🏛 Academic Press 🌐 English

Receptors on inflammatory cells recognize extracellular signals and pass specific messages to transductional pathways within the cell. Nine receptors of inflammatory cells were selected for this inaugural volume, representing a spectrum of structure-function relationships

Cellular and Molecular Mechanisms of Inf

📁 Cellular and Molecular Mechanisms of Inflammation. Signal Transduction in Inflammatory Cells, Part A

✍ Charles G. Cochrane and Michael A. Gimbrone (Eds.) 📂 Library 📅 1992 🏛 Academic Press 🌐 English

Intended for all researchers concerned with the immunological responses of inflammatory cells, this volume focuses on stimulus-induced signal-transduction in cells. These collected essays report on the current status of the essential elements of early events in signal transduction

Yeast Cell Surface Engineering: Biologic

📁 Yeast Cell Surface Engineering: Biological Mechanisms and Practical Applications

✍ Mitsuyoshi Ueda 📂 Library 📅 2019 🏛 Springer Singapore 🌐 English

This book provides a detailed and up-to-date overview of all aspects of yeast cell surface engineering, including fundamental principles, practical strategies for the construction of engineered yeasts, as well as medical and industrial applications. The technique makes it possible to ad