000			10778nam a2201129 i 4500
001			6852067
003			IEEE
005			20200421114641.0
006			m o d
007			cr |n|||||||||
008			151222s2014 njua ob 001 eng d
010			_z 2013035520 (print)
015			_zGBB484420 (print)
016			_z016822178 (print)
016			_z101616205 (print)
020			_z1118628640 _qhardback
020			_a1118828275
020			_z9780803254985 _qmobi
020			_z9781118628645 _qhardback
020			_a9781118629697
020			_a1118629698
020			_z0803254970 _qepub
020			_z9780803254978 _qepub
020			_z0803254962 _qpdf
020			_z9780803254961 _qpdf
020			_a9781118886410 _qelectronic
020			_z0803254989 _qmobi
020			_a1118886410
020			_a9781118828274
024	7		_a10.1002/9781118886410 _2doi
035			_a(CaBNVSL)mat06852067
035			_a(IDAMS)0b0000648268cc97
040			_aCaBNVSL _beng _erda _cCaBNVSL _dCaBNVSL
050		4	_aR857.T55 _bB575 2014eb
060	0	0	_a2014 J-627
060	1	0	_aQT 37
100	1		_aBirla, Ravi, _eauthor.
245	1	0	_aIntroduction to tissue engineering : _bapplications and challenges / _cRavi Birla, Department of Biomedical Engineering, Cullen College of Engineering, University of Houston, Houston, TX.
264		2	_a[Piscataqay, New Jersey] : _bIEEE Xplore, _c[2014]
264		1	_aHoboken, New Jersey : _bWiley, _c[2014]
300			_a1 PDF (xxvi, 327 pages) : _billustrations.
336			_atext _2rdacontent
337			_aelectronic _2isbdmedia
338			_aonline resource _2rdacarrier
490	1		_aIEEE Press series on biomedical engineering.
504			_aIncludes bibliographical references and index.
505	0		_aPreface xiii -- Acknowledgments xv -- List of Abbreviations xvii -- Important Terminology and Concepts xxi -- 1 Introduction to Tissue Engineering 1 -- 1.1 Introduction to Tissue Engineering, 2 -- 1.2 Chronic Shortage of Donor Organs, 3 -- 1.3 The Tissue Engineering Paradigm, 4 -- 1.4 Definition of Tissue Engineering, 5 -- 1.5 Process of Bioengineering 3D Artificial Tissue, 9 -- 1.6 Design Principles for Tissue Engineering, 12 -- 1.7 Building Blocks of Tissue Engineering, 14 -- 1.8 Scientific and Technological Challenges, 15 -- 1.9 Functional Assessment of Artificial Tissue, 16 -- 1.10 Seminal Papers in Tissue Engineering, 18 -- 1.11 Applications of 3D Artificial Tissue, 20 -- 1.12 Two-Dimensional Versus Three-Dimensional Culture, 22 -- 1.13 Integration of Core Technologies, 22 -- 1.14 Growth of Tissue Engineering, 24 -- 1.15 Disciplines in Tissue Engineering, 26 -- 1.16 Tissue Engineering and Related Fields, 28 -- Summary, 33 -- Practice Questions, 34 -- References, 35 -- 2 Cells for Tissue Engineering 40 -- 2.1 Cells and Tissue Engineering, 41 -- 2.2 Cell Structure and Function, 43 -- 2.3 The Dynamic Extracellular Matrix, 47 -- 2.4 Cell Signaling, 48 -- 2.5 Cellular Junctions, 50 -- 2.6 Mammalian Tissue and Artificial Tissue, 52 -- 2.7 Cell Sourcing, 52 -- 2.8 The Cell Transplantation Process, 55 -- 2.9 Cells for Cell Transplantation, 58 -- 2.10 Mode of Action of Cells During Cell Transplantation, 59 -- 2.11 Cell Transplantation and Tissue Engineering, 60 -- 2.12 The Cell Culture Process, 61 -- 2.13 Applications of Monolayer 2D Cell Culture, 64 -- 2.14 Cell Culture Versus Tissue Engineering, 65 -- 2.15 Introduction to Stem Cell Engineering, 66 -- 2.16 Human Embryonic Stem Cells, 70 -- 2.17 Induced Pluripotent Stem Cells, 71 -- 2.18 Adult Stem Cells, 72 -- Summary, 72 -- Practice Questions, 73 -- References, 74 -- 3 Biomaterials for Tissue Engineering 84 -- 3.1 Definition of Biomaterials, 85 -- 3.2 Scheme for Biomaterial Development, 88 -- 3.3 Historical Perspective on Biomaterials, 90.
505	8		_a3.4 Tensile Properties, 92 -- 3.5 Modulation of Tensile Properties, 95 -- 3.6 Material Degradation, 97 -- 3.7 Biocompatibility, 100 -- 3.8 Biomimetic Biomaterial, 104 -- 3.9 Classification of Biomaterials, 106 -- 3.10 Biomaterial Platforms, 108 -- 3.11 Smart Materials, 113 -- 3.12 The Dynamic Extracellular Matrix, 114 -- 3.13 Idealized Biomaterial, 116 -- Summary, 118 -- Practice Questions, 119 -- References, 121 -- 4 Tissue Fabrication Technology 130 -- 4.1 Introduction to Tissue Fabrication Technologies, 131 -- 4.2 Self-Organization Technology, 133 -- 4.3 Cell Sheet Engineering, 135 -- 4.4 Scaffold-Based Tissue Fabrication, 137 -- 4.5 Cell and Organ Printing, 140 -- 4.6 Solid Freeform Fabrication, 142 -- 4.7 Soft Lithography and Microfluidics, 143 -- 4.8 Cell Patterning, 145 -- 4.9 Idealized System to Support Tissue Fabrication, 148 -- Summary, 149 -- Practice Questions, 150 -- References, 151 -- 5 Vascularization of Artificial Tissue 156 -- 5.1 Introduction, 157 -- 5.2 Seminal Publications in Angiogenesis Research, 159 -- 5.3 Vascularization Defined, 160 -- 5.4 Molecular Mechanism of Vasculogenesis, 161 -- 5.5 Molecular Mechanism of Angiogenesis, 163 -- 5.6 Molecular Mechanism of Arteriogenesis, 164 -- 5.7 Therapeutic Angiogenesis, 166 -- 5.8 Tissue Engineering and Vascularization, 167 -- 5.9 Conceptual Framework for Vascularization During Artificial Tissue Formation, 169 -- 5.10 In Vivo Models of Vascularization, 172 -- 5.11 Idealized Vascularization Strategy for Tissue Engineering, 174 -- 5.12 Flow Chart and Decision Making, 176 -- 5.13 Biologically Replicated Vascularization Strategies, 179 -- 5.14 Biologically Mediated Vascularization Strategies, 181 -- 5.15 Biologically Inspired Vascularization Strategies, 184 -- Summary, 186 -- Practice Questions, 187 -- References, 188 -- 6 Bioreactors for Tissue Engineering 193 -- 6.1 Introduction to Bioreactors, 194 -- 6.2 Bioreactors Defined, 195 -- 6.3 Classification of Bioreactors, 197 -- 6.4 Design Considerations, 200.
505	8		_a6.5 Idealized Bioreactor System, 202 -- 6.6 Bioreactors and Tissue Engineering, 205 -- 6.7 Bioreactors for Mammalian Cell Culture, 207 -- 6.8 Bioreactors for Scaffold Fabrication, 209 -- 6.9 Bioreactors for Scaffold Cellularization, 212 -- 6.10 Perfusion Systems, 215 -- 6.11 Bioreactors for Stretch, 219 -- 6.12 Electrical Stimulation, 221 -- Summary, 226 -- Practice Questions, 227 -- References, 230 -- 7 Tracheal Tissue Engineering 237 -- 7.1 Structure and Function of the Trachea, 238 -- 7.2 Congenital Tracheal Stenosis, 240 -- 7.3 Genetic Regulation of Tracheal Development, 241 -- 7.4 Post Intubation and Post Tracheostomy Tracheal Stenosis, 243 -- 7.5 Treatment Modalities for Tracheal Stenosis, 245 -- 7.6 Design Considerations for Tracheal Tissue Engineering, 247 -- 7.7 Process of Bioengineering Artificial Tracheas, 247 -- 7.8 Tissue Engineering Models for Artificial Tracheas, 250 -- 7.9 Tracheal Tissue Engineering-An Example of a Clinical Study, 253 -- 7.10 Tracheal Tissue Engineering-A Second Example of a Clinical Study, 255 -- Summary, 258 -- Practice Questions, 258 -- References, 260 -- 8 Bladder Tissue Engineering 265 -- 8.1 Bladder Structure and Function, 266 -- 8.2 Neurogenic Bladder Dysfunction, 267 -- 8.3 Surgical Bladder Augmentation, 269 -- 8.4 Development of the Urinary Bladder, 270 -- 8.5 Design Considerations for Bladder Tissue Engineering, 270 -- 8.6 Process of Bioengineering Artificial Bladders, 271 -- 8.7 Cell Sheet Engineering for Bladder Tissue Engineering, 273 -- 8.8 Small Intestinal Submucosa (SIS) for Bladder Tissue Engineering, 275 -- 8.9 Plga as a Biomaterial for Bladder Tissue Engineering, 278 -- 8.10 Acellular Grafts for Bladder Tissue Engineering, 280 -- 8.11 Organ Models for Bladder Tissue Engineering, 283 -- 8.12 Clinical Study for Bladder Tissue Engineering, 284 -- Summary, 285 -- Practice Questions, 286 -- References, 288 -- 9 Liver Tissue Engineering 295 -- 9.1 Structure and Function of the Liver, 296 -- 9.2 Acute Liver Failure, 297.
505	8		_a9.3 Liver Transplantation, 299 -- 9.4 Liver Regeneration, 301 -- 9.5 Liver Development, 302 -- 9.6 Design Considerations for Liver Tissue Engineering, 303 -- 9.7 Process of Bioengineering Artificial Liver Tissue, 303 -- 9.8 Stem Cells for Liver Tissue Engineering, 305 -- 9.9 Surface Patterning Technology for Liver Tissue Engineering, 307 -- 9.10 Biomaterial Platforms for Liver Tissue Engineering, 309 -- 9.11 Fabrication of 3D Artificial Liver Tissue, 309 -- 9.12 Vascularization for Liver Tissue Engineering, 311 -- 9.13 Bioreactors for Liver Tissue Engineering, 312 -- 9.14 Spheroid Culture for Liver Tissue Engineering, 313 -- Summary, 314 -- Practice Questions, 315 -- References, 317 -- Index 323.
506	1		_aRestricted to subscribers or individual electronic text purchasers.
520			_a"Covering a progressive medical field, Tissue Engineering describes the innovative process of regenerating human cells to restore or establish normal function in defective organs. As pioneering individuals look ahead to the possibility of generating entire organ systems, students may turn to this textbook for a comprehensive understanding and preparation for the future of regenerative medicine. This book explains chemical stimulations, the bioengineering of specific organs, and treatment plans for chronic diseases, like diabetes. It is a must-read for tissue engineering students and practitioners"--Provided by publisher.
530			_aAlso available in print.
538			_aMode of access: World Wide Web
588			_aDescription based on PDF viewed 12/22/2015.
650		0	_aTissue engineering.
650	1	2	_aTissue Engineering.
655		0	_aElectronic books.
695			_aArteries
695			_aArtificial biological organs
695			_aBiomechanics
695			_aBioreactors
695			_aBladder
695			_aBlood
695			_aBlood vessels
695			_aCatheters
695			_aCells (biology)
695			_aComputer architecture
695			_aElectrical stimulation
695			_aExtracellular
695			_aFabrication
695			_aGenetics
695			_aHeart
695			_aKidney
695			_aLiver
695			_aLungs
695			_aMaterial properties
695			_aMechanical factors
695			_aMicroprocessors
695			_aMuscles
695			_aOrganizations
695			_aPortals
695			_aPrinting
695			_aProteins
695			_aStem cells
695			_aSurgery
695			_aThree-dimensional displays
695			_aTissue engineering
695			_aTumors
695			_aVeins
710	2		_aIEEE Xplore (Online Service), _edistributor.
710	2		_aWiley, _epublisher.
776	0	8	_iPrint version _z9781118628645
830		0	_aIEEE Press series in biomedical engineering.
856	4	2	_3Abstract with links to resource _uhttp://ieeexplore.ieee.org/xpl/bkabstractplus.jsp?bkn=6852067
942			_cEBK
999			_c59952 _d59952