Verfügbarkeit: Micro and nanoengineering of the cell microenvironment :

Micro and nanoengineering of the cell microenvironment :: technologies and applications /

Supported with 140 illustrations, the volume exhaustively covers the micro- and nano-system technologies involved in developing cell-based bioengineering applications. You get full details on efforts to engineer the soluble and insoluble cell microenvironments, including the latest advances in micro...

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Weitere Verfasser:	Khademhosseini, Ali
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Boston : Artech House, ©2008.
Schriftenreihe:	Artech House engineering in medicine & biology series.
Schlagworte:	Cells > Microbiology. Ultrastructure (Biology) Biomedical engineering. Cytological Techniques > methods Nanotechnology > methods Tissue Engineering > methods Cellules > Microbiologie. Ultrastructure (Biologie) Génie biomédical. ultrastructure. biomedical engineering. SCIENCE > Life Sciences > Cell Biology. Biomedical engineering
Online-Zugang:	Volltext
Zusammenfassung:	Supported with 140 illustrations, the volume exhaustively covers the micro- and nano-system technologies involved in developing cell-based bioengineering applications. You get full details on efforts to engineer the soluble and insoluble cell microenvironments, including the latest advances in microfluidic devices, surface patterning, 3D scaffolds, and techniques for engineering cellular mechanical properties and topography.
Beschreibung:	1 online resource (xviii, 627 pages) : illustrations
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781596931497 1596931493

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MARC


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245	0	0	\|a Micro and nanoengineering of the cell microenvironment : \|b technologies and applications / \|c Ali Khademhosseini [and others].
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504			\|a Includes bibliographical references and index.
520			\|a Supported with 140 illustrations, the volume exhaustively covers the micro- and nano-system technologies involved in developing cell-based bioengineering applications. You get full details on efforts to engineer the soluble and insoluble cell microenvironments, including the latest advances in microfluidic devices, surface patterning, 3D scaffolds, and techniques for engineering cellular mechanical properties and topography.
588	0		\|a Print version record.
505	0		\|a Micro and Nanoengineering of the Cell Microenvironment: Technologies and Applications; Contents; Foreword; Chapter 1 Micro- and Nanoengineering the Cellular Microenvironment; 1.1 Introduction; 1.2 Cellular Microenvironment; 1.3 Controlling Cellular Behavior; 1.4 Micro- and Nanoengineering the Cellular Microenvironment; 1.5 Book Structure; References; Chapter 2 Gradient-Generating Microfluidic Devices for Cell Biology Research; 2.1 Introduction; 2.2 Conventional Devices for Soluble Gradient Generation; 2.3 Microfluidic-Based Devices for Gradient Generation.
505	8		\|a 2.4 Biological Applications of Gradient-Generating Microfluidic Devices2.5 Summary and Future Directions; References; Chapter 3 Surface Patterning for Controlling Cell-Substrate Interactions; 3.1 Introduction; 3.2 Self-Assembled Monolayers, Lithography, and Other Important Tools; 3.3 Controlling the Adsorption of Proteins on Surface; 3.4 Patterning of Proteins and Cells; 3.5 Dynamic Patterning of Cells; 3.6 Other Systems for Patterning Cells; 3.7 Conclusion; References; Chapter 4 Patterned Cocultures for Controlling Cell-Cell Interactions; 4.1 Introduction; 4.2 Random Coculture Systems.
505	8		\|a 4.3 Patterned Coculture Systems4.4 Conclusion; References; Chapter 5 Micro- and Nanofabricated Scaffolds for Three-Dimensional Tissue Recapitulation; 5.1 Introduction; 5.2 Microfabricated Interfaces; 5.3 Nanofabricated Interfaces; 5.4 Conclusion; References; Chapter 6 Biomimetic Hydrogels to Support and Guide Tissue Formation; 6.1 Introduction; 6.2 Hydrogels and Their Synthesis; 6.3 Incorporating Bioactive Factors into Hydrogels; 6.4 Two-Dimensional Patterning of Hydrogels; 6.5 Three-Dimensional Rapid Prototyping of Hydrogels; 6.6 Summary; References.
505	8		\|a Chapter 7 Three-Dimensional Cell-Printing Technologies for Tissue Engineering7.1 Overview; 7.2 Development of Cell-Printing Technologies; 7.3 Conventional Three-Dimensional Cell-Printing Methods; 7.4 Current Applications of Cell-Printing Technology: Organ Printing; 7.5 Other Applications of Cell Printing; 7.6 Technologies for Three-Dimensional Cell Printing: Single Cell Epitaxy by Acoustic Picoliter Droplets; 7.7 Conclusion; References; Chapter 8 Using Microfabrication to Engineer Cellular and Multicellular Architecture; 8.1 Introduction; 8.2 Patterning Adhesion; 8.3 Patterning Single Cells.
505	8		\|a 8.4 Multicellular Patterning8.5 Engineering Single Cell-Cell Interactions; 8.6 Cell Patterning by Active Positioning: Dielectrophoresis and Microfluidics; 8.7 Three-Dimensional Patterning; 8.8 Future Directions; References; Chapter 9 Technologies and Applications for Engineering Substrate Mechanics to Regulate Cell Response; 9.1 Introduction; 9.2 How Cells Sense the Stiffness of Their Substrate; 9.3 Technologies to Engineer the Mechanical Properties of the Substrate; 9.4 Effects of Substrate Mechanics on Cell Response; 9.5 Summary and Future Challenges; References.
650		0	\|a Cells \|x Microbiology.
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contents	Micro and Nanoengineering of the Cell Microenvironment: Technologies and Applications; Contents; Foreword; Chapter 1 Micro- and Nanoengineering the Cellular Microenvironment; 1.1 Introduction; 1.2 Cellular Microenvironment; 1.3 Controlling Cellular Behavior; 1.4 Micro- and Nanoengineering the Cellular Microenvironment; 1.5 Book Structure; References; Chapter 2 Gradient-Generating Microfluidic Devices for Cell Biology Research; 2.1 Introduction; 2.2 Conventional Devices for Soluble Gradient Generation; 2.3 Microfluidic-Based Devices for Gradient Generation. 2.4 Biological Applications of Gradient-Generating Microfluidic Devices2.5 Summary and Future Directions; References; Chapter 3 Surface Patterning for Controlling Cell-Substrate Interactions; 3.1 Introduction; 3.2 Self-Assembled Monolayers, Lithography, and Other Important Tools; 3.3 Controlling the Adsorption of Proteins on Surface; 3.4 Patterning of Proteins and Cells; 3.5 Dynamic Patterning of Cells; 3.6 Other Systems for Patterning Cells; 3.7 Conclusion; References; Chapter 4 Patterned Cocultures for Controlling Cell-Cell Interactions; 4.1 Introduction; 4.2 Random Coculture Systems. 4.3 Patterned Coculture Systems4.4 Conclusion; References; Chapter 5 Micro- and Nanofabricated Scaffolds for Three-Dimensional Tissue Recapitulation; 5.1 Introduction; 5.2 Microfabricated Interfaces; 5.3 Nanofabricated Interfaces; 5.4 Conclusion; References; Chapter 6 Biomimetic Hydrogels to Support and Guide Tissue Formation; 6.1 Introduction; 6.2 Hydrogels and Their Synthesis; 6.3 Incorporating Bioactive Factors into Hydrogels; 6.4 Two-Dimensional Patterning of Hydrogels; 6.5 Three-Dimensional Rapid Prototyping of Hydrogels; 6.6 Summary; References. Chapter 7 Three-Dimensional Cell-Printing Technologies for Tissue Engineering7.1 Overview; 7.2 Development of Cell-Printing Technologies; 7.3 Conventional Three-Dimensional Cell-Printing Methods; 7.4 Current Applications of Cell-Printing Technology: Organ Printing; 7.5 Other Applications of Cell Printing; 7.6 Technologies for Three-Dimensional Cell Printing: Single Cell Epitaxy by Acoustic Picoliter Droplets; 7.7 Conclusion; References; Chapter 8 Using Microfabrication to Engineer Cellular and Multicellular Architecture; 8.1 Introduction; 8.2 Patterning Adhesion; 8.3 Patterning Single Cells. 8.4 Multicellular Patterning8.5 Engineering Single Cell-Cell Interactions; 8.6 Cell Patterning by Active Positioning: Dielectrophoresis and Microfluidics; 8.7 Three-Dimensional Patterning; 8.8 Future Directions; References; Chapter 9 Technologies and Applications for Engineering Substrate Mechanics to Regulate Cell Response; 9.1 Introduction; 9.2 How Cells Sense the Stiffness of Their Substrate; 9.3 Technologies to Engineer the Mechanical Properties of the Substrate; 9.4 Effects of Substrate Mechanics on Cell Response; 9.5 Summary and Future Challenges; References.
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id	ZDB-4-EBA-ocn475593247
illustrated	Illustrated
indexdate	2024-11-27T13:16:54Z
institution	BVB
isbn	9781596931497 1596931493
language	English
lccn	2008273199
oclc_num	475593247
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owner	MAIN DE-863 DE-BY-FWS
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physical	1 online resource (xviii, 627 pages) : illustrations
psigel	ZDB-4-EBA
publishDate	2008
publishDateSearch	2008
publishDateSort	2008
publisher	Artech House,
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series	Artech House engineering in medicine & biology series.
series2	Artech House series engineering in medicine & biology
spelling	Micro and nanoengineering of the cell microenvironment : technologies and applications / Ali Khademhosseini [and others]. Boston : Artech House, ©2008. 1 online resource (xviii, 627 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Artech House series engineering in medicine & biology Includes bibliographical references and index. Supported with 140 illustrations, the volume exhaustively covers the micro- and nano-system technologies involved in developing cell-based bioengineering applications. You get full details on efforts to engineer the soluble and insoluble cell microenvironments, including the latest advances in microfluidic devices, surface patterning, 3D scaffolds, and techniques for engineering cellular mechanical properties and topography. Print version record. Micro and Nanoengineering of the Cell Microenvironment: Technologies and Applications; Contents; Foreword; Chapter 1 Micro- and Nanoengineering the Cellular Microenvironment; 1.1 Introduction; 1.2 Cellular Microenvironment; 1.3 Controlling Cellular Behavior; 1.4 Micro- and Nanoengineering the Cellular Microenvironment; 1.5 Book Structure; References; Chapter 2 Gradient-Generating Microfluidic Devices for Cell Biology Research; 2.1 Introduction; 2.2 Conventional Devices for Soluble Gradient Generation; 2.3 Microfluidic-Based Devices for Gradient Generation. 2.4 Biological Applications of Gradient-Generating Microfluidic Devices2.5 Summary and Future Directions; References; Chapter 3 Surface Patterning for Controlling Cell-Substrate Interactions; 3.1 Introduction; 3.2 Self-Assembled Monolayers, Lithography, and Other Important Tools; 3.3 Controlling the Adsorption of Proteins on Surface; 3.4 Patterning of Proteins and Cells; 3.5 Dynamic Patterning of Cells; 3.6 Other Systems for Patterning Cells; 3.7 Conclusion; References; Chapter 4 Patterned Cocultures for Controlling Cell-Cell Interactions; 4.1 Introduction; 4.2 Random Coculture Systems. 4.3 Patterned Coculture Systems4.4 Conclusion; References; Chapter 5 Micro- and Nanofabricated Scaffolds for Three-Dimensional Tissue Recapitulation; 5.1 Introduction; 5.2 Microfabricated Interfaces; 5.3 Nanofabricated Interfaces; 5.4 Conclusion; References; Chapter 6 Biomimetic Hydrogels to Support and Guide Tissue Formation; 6.1 Introduction; 6.2 Hydrogels and Their Synthesis; 6.3 Incorporating Bioactive Factors into Hydrogels; 6.4 Two-Dimensional Patterning of Hydrogels; 6.5 Three-Dimensional Rapid Prototyping of Hydrogels; 6.6 Summary; References. Chapter 7 Three-Dimensional Cell-Printing Technologies for Tissue Engineering7.1 Overview; 7.2 Development of Cell-Printing Technologies; 7.3 Conventional Three-Dimensional Cell-Printing Methods; 7.4 Current Applications of Cell-Printing Technology: Organ Printing; 7.5 Other Applications of Cell Printing; 7.6 Technologies for Three-Dimensional Cell Printing: Single Cell Epitaxy by Acoustic Picoliter Droplets; 7.7 Conclusion; References; Chapter 8 Using Microfabrication to Engineer Cellular and Multicellular Architecture; 8.1 Introduction; 8.2 Patterning Adhesion; 8.3 Patterning Single Cells. 8.4 Multicellular Patterning8.5 Engineering Single Cell-Cell Interactions; 8.6 Cell Patterning by Active Positioning: Dielectrophoresis and Microfluidics; 8.7 Three-Dimensional Patterning; 8.8 Future Directions; References; Chapter 9 Technologies and Applications for Engineering Substrate Mechanics to Regulate Cell Response; 9.1 Introduction; 9.2 How Cells Sense the Stiffness of Their Substrate; 9.3 Technologies to Engineer the Mechanical Properties of the Substrate; 9.4 Effects of Substrate Mechanics on Cell Response; 9.5 Summary and Future Challenges; References. Cells Microbiology. Ultrastructure (Biology) http://id.loc.gov/authorities/subjects/sh85139504 Biomedical engineering. http://id.loc.gov/authorities/subjects/sh85014237 Cytological Techniques methods Nanotechnology methods Tissue Engineering methods Cellules Microbiologie. Ultrastructure (Biologie) Génie biomédical. ultrastructure. aat biomedical engineering. aat SCIENCE Life Sciences Cell Biology. bisacsh Biomedical engineering fast Ultrastructure (Biology) fast Khademhosseini, Ali. http://id.loc.gov/authorities/names/nb2008007763 has work: Micro and nanoengineering of the cell microenvironment (Text) https://id.oclc.org/worldcat/entity/E39PCGWXkCx6M3hQDcwTbC7rFX https://id.oclc.org/worldcat/ontology/hasWork Print version: Micro and nanoengineering of the cell microenvironment. Boston : Artech House, ©2008 9781596931480 (DLC) 2008273199 (OCoLC)222147348 Artech House engineering in medicine & biology series. http://id.loc.gov/authorities/names/no2006080811 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=284264 Volltext
spellingShingle	Micro and nanoengineering of the cell microenvironment : technologies and applications / Artech House engineering in medicine & biology series. Micro and Nanoengineering of the Cell Microenvironment: Technologies and Applications; Contents; Foreword; Chapter 1 Micro- and Nanoengineering the Cellular Microenvironment; 1.1 Introduction; 1.2 Cellular Microenvironment; 1.3 Controlling Cellular Behavior; 1.4 Micro- and Nanoengineering the Cellular Microenvironment; 1.5 Book Structure; References; Chapter 2 Gradient-Generating Microfluidic Devices for Cell Biology Research; 2.1 Introduction; 2.2 Conventional Devices for Soluble Gradient Generation; 2.3 Microfluidic-Based Devices for Gradient Generation. 2.4 Biological Applications of Gradient-Generating Microfluidic Devices2.5 Summary and Future Directions; References; Chapter 3 Surface Patterning for Controlling Cell-Substrate Interactions; 3.1 Introduction; 3.2 Self-Assembled Monolayers, Lithography, and Other Important Tools; 3.3 Controlling the Adsorption of Proteins on Surface; 3.4 Patterning of Proteins and Cells; 3.5 Dynamic Patterning of Cells; 3.6 Other Systems for Patterning Cells; 3.7 Conclusion; References; Chapter 4 Patterned Cocultures for Controlling Cell-Cell Interactions; 4.1 Introduction; 4.2 Random Coculture Systems. 4.3 Patterned Coculture Systems4.4 Conclusion; References; Chapter 5 Micro- and Nanofabricated Scaffolds for Three-Dimensional Tissue Recapitulation; 5.1 Introduction; 5.2 Microfabricated Interfaces; 5.3 Nanofabricated Interfaces; 5.4 Conclusion; References; Chapter 6 Biomimetic Hydrogels to Support and Guide Tissue Formation; 6.1 Introduction; 6.2 Hydrogels and Their Synthesis; 6.3 Incorporating Bioactive Factors into Hydrogels; 6.4 Two-Dimensional Patterning of Hydrogels; 6.5 Three-Dimensional Rapid Prototyping of Hydrogels; 6.6 Summary; References. Chapter 7 Three-Dimensional Cell-Printing Technologies for Tissue Engineering7.1 Overview; 7.2 Development of Cell-Printing Technologies; 7.3 Conventional Three-Dimensional Cell-Printing Methods; 7.4 Current Applications of Cell-Printing Technology: Organ Printing; 7.5 Other Applications of Cell Printing; 7.6 Technologies for Three-Dimensional Cell Printing: Single Cell Epitaxy by Acoustic Picoliter Droplets; 7.7 Conclusion; References; Chapter 8 Using Microfabrication to Engineer Cellular and Multicellular Architecture; 8.1 Introduction; 8.2 Patterning Adhesion; 8.3 Patterning Single Cells. 8.4 Multicellular Patterning8.5 Engineering Single Cell-Cell Interactions; 8.6 Cell Patterning by Active Positioning: Dielectrophoresis and Microfluidics; 8.7 Three-Dimensional Patterning; 8.8 Future Directions; References; Chapter 9 Technologies and Applications for Engineering Substrate Mechanics to Regulate Cell Response; 9.1 Introduction; 9.2 How Cells Sense the Stiffness of Their Substrate; 9.3 Technologies to Engineer the Mechanical Properties of the Substrate; 9.4 Effects of Substrate Mechanics on Cell Response; 9.5 Summary and Future Challenges; References. Cells Microbiology. Ultrastructure (Biology) http://id.loc.gov/authorities/subjects/sh85139504 Biomedical engineering. http://id.loc.gov/authorities/subjects/sh85014237 Cytological Techniques methods Nanotechnology methods Tissue Engineering methods Cellules Microbiologie. Ultrastructure (Biologie) Génie biomédical. ultrastructure. aat biomedical engineering. aat SCIENCE Life Sciences Cell Biology. bisacsh Biomedical engineering fast Ultrastructure (Biology) fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85139504 http://id.loc.gov/authorities/subjects/sh85014237
title	Micro and nanoengineering of the cell microenvironment : technologies and applications /
title_auth	Micro and nanoengineering of the cell microenvironment : technologies and applications /
title_exact_search	Micro and nanoengineering of the cell microenvironment : technologies and applications /
title_full	Micro and nanoengineering of the cell microenvironment : technologies and applications / Ali Khademhosseini [and others].
title_fullStr	Micro and nanoengineering of the cell microenvironment : technologies and applications / Ali Khademhosseini [and others].
title_full_unstemmed	Micro and nanoengineering of the cell microenvironment : technologies and applications / Ali Khademhosseini [and others].
title_short	Micro and nanoengineering of the cell microenvironment :
title_sort	micro and nanoengineering of the cell microenvironment technologies and applications
title_sub	technologies and applications /
topic	Cells Microbiology. Ultrastructure (Biology) http://id.loc.gov/authorities/subjects/sh85139504 Biomedical engineering. http://id.loc.gov/authorities/subjects/sh85014237 Cytological Techniques methods Nanotechnology methods Tissue Engineering methods Cellules Microbiologie. Ultrastructure (Biologie) Génie biomédical. ultrastructure. aat biomedical engineering. aat SCIENCE Life Sciences Cell Biology. bisacsh Biomedical engineering fast Ultrastructure (Biology) fast
topic_facet	Cells Microbiology. Ultrastructure (Biology) Biomedical engineering. Cytological Techniques methods Nanotechnology methods Tissue Engineering methods Cellules Microbiologie. Ultrastructure (Biologie) Génie biomédical. ultrastructure. biomedical engineering. SCIENCE Life Sciences Cell Biology. Biomedical engineering
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=284264
work_keys_str_mv	AT khademhosseiniali microandnanoengineeringofthecellmicroenvironmenttechnologiesandapplications

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