Principles of cellular engineering : understanding the biomolecular interface /
| Other Authors: | |
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| Format: | Book |
| Language: | English |
| Published: |
Amsterdam ; Boston :
Elsevier Academic Press,
©2006.
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| Subjects: | |
| Online Access: | http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=219925 |
Table of Contents:
- 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.
- 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.