Principles of cellular engineering : understanding the biomolecular interface
著者
書誌事項
Principles of cellular engineering : understanding the biomolecular interface
Elsevier Academic Press, c2006
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注記
Includes bibliographical references and index
収録内容
- Traction forces exerted by adherent cells / by Cynthia A. Reinhart-King and Daniel A. Hammer
- Control of endothelial cell adhesion by mechanotransmission from cytoskeleton to substrate / by Rosalind E. Mott and Brian P. Helmke
- Use of hydrodynamic shear stress to analyze cell adhesion / by David Boettiger
- Cellular tensegrity models and cell-substrate interactions / by Dimitrije Stamenović, Ning Wang, and Donald E. Ingber
- Bond formation during cell compression / by Elena Lomakina and Richard E. Waugh
- Dynamics of the neutrophil surface during emigration from blood / Thomas R. Gaborski and James L. McGrath
- Glycocalyx regulation of cell adhesion / Philippe Robert, Laurent Limozin, Anne-Marie Benoliel, Anne Pierres, and Pierre Bongrand
- Atomistic modeling of protein adsorption to ceramic biomaterials in water: a first step toward realistic simulation of the biomaterials surface in vivo / by Alan H. Goldstein
- Model cell membrane surfaces for measuring receptor-ligand interactions / by Craig D. Blanchette, Timothy V. Ratto, and Marjorie L. Longo
- A flow chamber for capillary networks: leukocyte adhesion in capillary sized, ligand-coated micropipettes / by David F.J. Tees, Prithu Sundd, and Douglas J. Goetz
- Adhesion of flowing neutrophils to model vessel surfaces: constraint and regulation by the local hemodynamic environment / Gerard B. Nash and G. Ed Rainger
- Hydrodynamic interactions between cells on reactive surfaces / Dooyoung Lee and Michael R. King
- Dynamics of platelet aggregation and adhesion to reactive surfaces under flow / Nipa A. Mody and Michael R. King
内容説明・目次
内容説明
This comprehensive work discusses novel biomolecular surfaces that have been engineered to either control or measure cell function at the atomic, molecular, and cellular levels. Each chapter presents real results, concepts, and expert perspectives of how cells interact with biomolecular surfaces, with particular emphasis on interactions within complex mechanical environments such as in the cardiovascular system. In addition, the book provides detailed coverage of inflammation and cellular immune response as a useful model for how engineering concepts and tools may be effectively applied to complex systems in biomedicine.
目次
Partial Contents:
PART I. NEUTROPHIL ADHESION
Adhesion of flowing neutrophils to model vessel surfaces
Bond formation during cell compression
A flow chamber for capillary networks
Membrane dynamics during neutrophil recruitment
Hydrodynamic recruitment of cells to reactive surfaces
PART II: CELL-SUBSTRATE ADHESION
Cell tensegrity models and cell-substrate interactions
Use of hydrodynamic shear stress to analyze cell adhesion
Traction forces exerted by endothelial cells
Control of endothelial cell adhesion by mechanotransmission
PART III. ENGINEERED BIOMIMETIC SURFACES
Realistic atomistic modeling of protein adsorption to ceramic biomaterials
Cell responses to micro- and nano-topography
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