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Principles of cellular engineering = understanding the biomolecular interface /

紀錄類型:	書目-電子資源 : 單行本
正題名/作者:	Principles of cellular engineering/ edited by Michael R. King.
其他題名:	understanding the biomolecular interface /
其他作者:	King, Michael R.,
出版者:	Amsterdam ;Elsevier Academic Press, : c2006.,
面頁冊數:	xv, 314 p., [7] p. of plates :ill. (some col.) ; : 27 cm.;
標題:	Cell interaction. -
電子資源:	An electronic book accessible through the World Wide Web; click for information
ISBN:	9780123693921

Principles of cellular engineering = understanding the biomolecular interface /
Principles of cellular engineeringunderstanding the biomolecular interface /[electronic resource] :edited by Michael R. King. - Amsterdam ;Elsevier Academic Press,c2006. - xv, 314 p., [7] p. of plates :ill. (some col.) ;27 cm.

Includes bibliographical references and index.

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 Stamenovi�c, 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.

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.-Accessible to biologists looking for new ways to model their results and engineers interested in biomedical applications -Useful to researchers in biomaterials, inflammation, and vascular biology -Excellent resource for graduate students as a textbook in cell & tissue engineering or cell mechanics courses.

Electronic reproduction.
Amsterdam :
Elsevier Science & Technology,
2007.

Mode of access: World Wide Web.

ISBN: 9780123693921

Source: 113099:113187Elsevier Science & Technologyhttp://www.sciencedirect.comSubjects--Topical Terms:

227101
Cell interaction.
Index Terms--Genre/Form:

96803
Electronic books.

LC Class. No.: QH604.2 / .P75 2006eb

Dewey Class. No.: 660.6

National Agricultural Library Call No.: QH604.2 / .P75 2006

National Library of Medicine Call No.: 2006 B-550

Principles of cellular engineering = understanding the biomolecular interface /
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245 0 0 $a Principles of cellular engineering $h [electronic resource] : $b understanding the biomolecular interface / $c edited by Michael R. King.
260 $a Amsterdam ; $a Boston : $c c2006. $b Elsevier Academic Press,
300 $a xv, 314 p., [7] p. of plates : $b ill. (some col.) ; $c 27 cm.
504 $a Includes bibliographical references and index.
505 0 $a 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 Stamenovi�c, 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.
505 0 $a -- 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.
520 $a 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.-Accessible to biologists looking for new ways to model their results and engineers interested in biomedical applications -Useful to researchers in biomaterials, inflammation, and vascular biology -Excellent resource for graduate students as a textbook in cell & tissue engineering or cell mechanics courses.
533 $a Electronic reproduction. $b Amsterdam : $c Elsevier Science & Technology, $d 2007. $n Mode of access: World Wide Web. $n System requirements: Web browser. $n Title from title screen (viewed on July 25, 2007). $n Access may be restricted to users at subscribing institutions.
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650 0 $a Cell adhesion. $3 319676
650 0 $a Tissue engineering. $3 126666
650 1 2 $a Cell Adhesion $x physiology. $3 319677
650 2 2 $a Cell Adhesion Molecules. $3 269904
650 2 2 $a Cell Communication. $3 319678
650 2 2 $a Tissue Engineering. $3 227263
655 4 $a Electronic books. $2 local. $3 96803
700 1 $a King, Michael R., $c Dr. $3 319675
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856 4 0 $3 ScienceDirect $u http://www.sciencedirect.com/science/book/9780123693921 $z An electronic book accessible through the World Wide Web; click for information
994 $a C0 $b TEF