Verfügbarkeit: Tissue engineering using ceramics and polymers

Tissue engineering using ceramics and polymers:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton [u.a.] CRC Press 2007 Cambridge Woodhead Publ.
Ausgabe:	1. publ.
Schriftenreihe:	Woodhead Publishing in materials
Schlagworte:	Ceramics Polymers Biocompatible Materials Tissue Engineering Tissue engineering Organ culture Ceramics in medicine Polymers in medicine Génie tissulaire Organes / Culture Céramique en médecine Polymères en médecine Organes - Culture Biomedizinische Technik Biokeramik Biopolymere Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	"Woodhead Publishing and Maney Publishing on behalf of the Institute of Materials, Minerals & Mining." Includes bibliographical references and index
Beschreibung:	xx, 604 p. Ill., graph. Darst.
ISBN:	9781420044546 9781845691769

Internformat

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Datensatz im Suchindex

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adam_text	Contents Contributor contact details xiii Introduction xix Part I General issues 1 Ceramic biomaterials 3 J Huang, University College London, UK and S M BE S T, University of Cambridge, UK 1.1 Introduction 3 1.2 Characteristics of ceramics 9 1.3 Microstructure of ceramics 12 1.4 Properties of ceramics 16 1.5 Processing of ceramics 22 1.6 Conclusions 26 1.7 Future trends 26 1.8 References 27 2 Polymeric biomaterials 32 G Wei and P X Ma, The University of Michigan, USA 2.1 Introduction 32 2.2 Polymeric scaffolds for tissue engineering 33 2.3 Polymeric scaffolds with controlled release capacity 43 2.4 Conclusions 47 2.5 References 47 3 Bioactive ceramics and glasses 52 J R Jo N E S, Imperial College, London, UK 3.1 Introduction 52 3.2 Synthetic hydroxyapatite 54 3.3 Bioactive glass 58 vi Contents 3.4 Glass-ceramics 67 3.5 Conclusions 67 3.6 References 68 4 Biodegradable and bioactive polymer/ceramic composite scaffolds 72 S K MiSRA and A R Boccaccini, Imperial College London, UK 4.1 Introduction 72 4.2 Biodegradable polymers and bioactive ceramics 74 4.3 Composite material approach 78 4.4 Materials processing strategies for composite scaffolds 80 4.5 Case studies 83 4.6 Conclusions and future trends 87 4.7 References and further reading 89 5 Transplantation of engineered cells and tissues 93 J MANSBRIDGE, Tecellact LLC, USA 5.1 Introduction 93 5.2 Rejection of tissue-engineered products 95 5.3 Testing and regulatory consequences 102 5.4 Generality of the resistance of tissue-engineered products to immune rejection 102 5.5 Manufacturing consequences 103 5.6 Conclusions and future trends 104 5.7 Sources of further information and advice 105 5.8 Acknowledgements 105 5.9 References 105 6 Surface modification to tailor the biological response 108 K Shakesheff and G Tsourpas, University of j Nottingham, UK 6.1 Introduction 108 6.2 The biochemistry of cell interactions with the ECM 108 6.3 The need for surface modification of scaffolds 114 6.4 General strategies for surface modification 115 6.5 Examples from the literature 116 6.6 Future trends 123 6.7 References 124 Contents vii 7 Combining tissue engineering and drug delivery 129 N TlRELLi and F CELL ESI, University of Manchester, UK 7.1 Introduction 129 7.2 Growth factor (GF) delivery 131 7.3 Signalling molecules in solution (parenteral administration) 135 7.4 Signalling molecules physically entrapped in a matrix 136 7.5 Signalling molecules released from a bound state 147 7.6 References 149 8 Carrier systems and biosensors for biomedical applications 153 F Davis and S P J HiGson, Cranfield University, UK 8.1 Introduction 153 8.2 Carrier systems 153 8.3 Commercial systems 161 8.4 Biosensors 162 8.5 Continuous monitoring 167 8.6 Future trends 169 8.7 Conclusions 170 8.8 References 171 9 Characterisation using X-ray photoelectron spectroscopy (XPS) and secondary ion mass spectrometry (SIMS) 175 AJUrquhart and M R Alexander, University of Nottingham, UK 9.1 Introduction 175 9.2 X-ray photoelectron spectroscopy (XPS) 177 9.3 Static secondary ion mass spectrometry (SIMS) 187 9.4 Specific sample preparation and acquisition procedures 193 9.5 Conclusions 197 9.6 Future trends 198 9.7 Acknowledgement 199 9.8 References 199 10 Characterisation using environmental scanning electron microscopy (ESEM) 204 A M Do N A L D, University of Cambridge, UK 10.1 Introduction 204 10.2 The instrument: a comparison with CSEM 204 10.3 Static experiments 210 10.4 Dynamic experiments 212 viii Contents 10.5 Dual beam instruments - an emerging technique 218 10.6 Potential and limitations 219 10.7 Conclusions 221 10.8 References 221 11 Characterisation of cells on tissue engineered construsts using imaging techniques/microscopy 226 SIAnderson, University of Nottingham, UK 11.1 Introduction 226 11.2 General considerations and experimental design 226 11.3 CLSM 228 11.4 Combining techniques 241 11.5 Future trends 244 11.6 References 245 12 Characterisation using Raman micro-spectroscopy 248 INotingher, University of Nottingham, UK 12.1 Introduction 248 12.2 Principles of Raman spectroscopy 251 12.3 Characterisation of living cells 254 12.4 Characterisation of tissue engineering scaffolds 259 12.5 Conclusions and future trends 263 12.6 References 264 Part II Tissue and organ generation 13 Engineering of tissues and organs 269 A Atala, Wake Forest University, USA 13.1 Introduction 269 13.2 Native cells 270 13.3 Biomaterials 271 13.4 Alternate cell sources: stem cells and nuclear transfer 273 13.5 Tissue engineering of specific structures 277 13.6 Cellular therapies 284 13.6 Conclusions and future trends 288 13.7 References 289 Contents ix 14 Bone regeneration and repair using tissue engineering 294 P WOZNIAK, Medical University of Warsaw, Poland and A J EL Haj, Keele University Medical School, UK 14.1 Introduction 294 14.2 Principles of bone biology 294 14.3 Basics of bone remodelling 299 14.4 Skeletal tissue reconstruction - a tissue engineering approach 304 14.5 Conclusions 314 14.6 Acknowledgements 315 14.7 References 315 15 Bone tissue engineering and biomineralization 319 L Di Silvio, Kings College London, UK 15.1 Introduction 319 15.2 Tissue engineering 320 15.3 Scaffolds and biomineralization 327 15.4 Conclusions and future trends 330 15.5 References 331 16 Cardiac tissue engineering 335 QZCHEN,SEHARDlNG,NNALl,HJAWADand ARBOCCACCINI, Imperial College London, UK 16.1 Introduction 335 16.2 Cell sources 336 16.3 Construct-based strategies in myocardial tissue engineering 343 16.4 Conclusions and future trends 350 16.5 Acknowledgement 352 16.6 References and further reading 352 17 Intervertebral disc tissue engineering 357 J Ho Y L A N D and T FREEMONT, University of Manchester, UK 17.1 Introduction 357 17.2 The impact of disorders of the intervertebral disc (IVD) on modern society 357 17.3 The normal anatomy, function and cell biology of the IVD 358 17.4 The pathobiology of IVD degeneration 359 17.5 Treatment of degeneration of the IVD 364 17.6 The place of biomaterials in proposed strategies for managing IVD degeneration 366 17.7 Tissue regeneration and the IVD 371 x Contents 17.8 Conclusions 372 17.9 Future trends 373 17.10 Sources of further information and advice 374 17.11 References 375 18 Skin tissue engineering 379 S Ma c Ne i l , University of Sheffield, UK 18.1 Why do we need tissue-engineered skin? 379 18.2 Key events in the development of tissue-engineered skin 383 18.3 Do we need stem cells for tissue engineering of skin? 385 18.4 Key steps in development of tissue-engineered skin for clinical use 385 18.5 Challenges in converting research into products 386 18.6 Clinical problems in the use of tissue-engineered skin 391 18.7 Unexpected results from using 3D skin models 396 18.8 Future trends 398 18.9 References 399 19 Liver tissue engineering 404 K Shakesheff, University of Nottingham, UK 19.1 Introduction 404 19.2 The structure of the liver lobule 405 19.3 Clinical and commercial applications of engineered liver tissue 405 19.4 Approaches to liver tissue engineering 407 19.5 Conclusions 415 19.6 Future trends 416 19.7 References 416 20 Kidney tissue engineering 421 A SAIT O, Tokai University, Japan 20.1 Introduction 421 20.2 Present status of kidney regeneration 421 20.3 Functional limitation of current haemodialysis as an artificial kidney 423 20.4 System configuration for bioartificial kidneys 423 20.5 Past and current status of development of bioartificial kidneys 426 20.6 Attachment and proliferation of tubular epithelial cells on polymer membranes 429 20.7 Function of tubular epithelial cells on polymer membranes 433 20.8 Evaluation of a long-term function of LLC-PK[ cell-attached hollow fibre membrane 435 20.9 Improvement of the components of a portable bioartificial kidney developed for long-term use 438 Contents xi 20.10 Conclusions and future trends 441 20.11 References 442 21 Bladder tissue engineering 445 A M Turner, University of York, UK, R Subramaniam and D F M Thomas, St. James's University Hospital, UK, and JSOUTHGATE, University of York, UK 21.1 The bladder - structure and function 445 21.2 The clinical need for bladder reconstruction 447 21.3 Concepts and strategies of bladder reconstruction and tissue engineering 448 21.4 Review of past and current strategies in bladder reconstruction 449 21.5 Cell conditioning in an external bioreactor 457 21.6 Future trends 458 21.7 Conclusions 459 21.8 References 459 22 Nerve bioengineering 466 P Kl N G H A M and G Te R E N G HI, University of Manchester, UK 22.1 Peripheral nerve 466 22.2 Peripheral nerve injury and regeneration 468 22.3 Peripheral nerve repair 468 22.4 Bioengineered nerve conduits 469 22.5 Matrix materials 473 22.6 Cultured cells and nerve constructions 476 22.7 Conclusions 484 22.8 References 484 23 Lung tissue engineering 497 A E Bishop and H J Rippon, Imperial College London, UK 23.1 Introduction 497 23.2 Lung structure 497 23.3 Sources of cells for lung tissue engineering 499 23.4 Lung tissue constructs 501 23.5 Conclusions 505 23.6 References 505 24 Intestine tissue engineering 508 D A J Lloyd and S M Gabe, St Mark's Hospital, UK 24.1 Introduction 508 24.2 Approaches to tissue engineering of the small intestine 508 24.3 Artificial scaffolds 510 xii Contents 24.4 Intestinal lengthening using artificial scaffolds 514 24.5 Transplantation of intestinal stem cell cultures 516 24.6 Growth factors 523 24.7 Future trends 524 24.8 Conclusions 525 24.9 References 525 25 Micromechanics of hydroxyapatite-based biomaterials and tissue engineering scaffolds 529 A Fritsch and L Dormieux, Ecole Nationale des Ponts et Chaussees (LMSGC-ENPC), France, C He l l m I c H, Vienna University of Technology, Austria and J Sanahuja, Lafarge Research Center, France 25.1 Introduction 529 25.2 Fundamentals of continuum micromechanics 535 25.3 Micromechanical representation of mono-porosity biomaterials made of hydroxyapatite - stiffness and strength estimates 538 25.4 Model validation 542 25.5 Continuum micromechanics model for 'hierarchical' hydroxyapatite biomaterials with two pore spaces used for tissue engineering 551 25.6 Conclusions and future trends 557 25.7 Appendix: Homothetic ('cone-type') shape of failure criterion for hydroxyapatite biomaterials - Drucker-Prager approximation 558 25.8 Nomenclature 559 25.9 References 563 26 Cartilage tissue engineering 566 J E GouGH, University of Manchester, UK 26.1 Introduction 566 26.2 Structure, cellularity and extracellular matrix 566 26.3 The need for cartilage repair 567 26.4 Current treatments including autologous chondrocyte transplantation 568 26.5 Cell source 569 26.6 Materials 570 26.7 Growth factors and oxygen 576 26.8 Loading 579 26.9 Osteochondral defects 580 26.10 Conclusions and future trends 580 26.11 References 581 Index 587
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series2	Woodhead Publishing in materials
spelling	Tissue engineering using ceramics and polymers edited by Aldo R. Boccaccini and Julie E. Gough 1. publ. Boca Raton [u.a.] CRC Press 2007 Cambridge Woodhead Publ. xx, 604 p. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Woodhead Publishing in materials "Woodhead Publishing and Maney Publishing on behalf of the Institute of Materials, Minerals & Mining." Includes bibliographical references and index Ceramics Polymers Biocompatible Materials Tissue Engineering Tissue engineering Organ culture Ceramics in medicine Polymers in medicine Génie tissulaire Organes / Culture Céramique en médecine Polymères en médecine Organes - Culture Biomedizinische Technik (DE-588)4006882-1 gnd rswk-swf Biokeramik (DE-588)4371693-3 gnd rswk-swf Tissue Engineering (DE-588)4646061-5 gnd rswk-swf Biopolymere (DE-588)4006893-6 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Tissue Engineering (DE-588)4646061-5 s Biokeramik (DE-588)4371693-3 s DE-604 Biopolymere (DE-588)4006893-6 s Biomedizinische Technik (DE-588)4006882-1 s Boccaccini, Aldo R. 1962- Sonstige (DE-588)13022362X oth Erscheint auch als Online-Ausgabe 978-1-84569-381-7 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018706975&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Tissue engineering using ceramics and polymers Ceramics Polymers Biocompatible Materials Tissue Engineering Tissue engineering Organ culture Ceramics in medicine Polymers in medicine Génie tissulaire Organes / Culture Céramique en médecine Polymères en médecine Organes - Culture Biomedizinische Technik (DE-588)4006882-1 gnd Biokeramik (DE-588)4371693-3 gnd Tissue Engineering (DE-588)4646061-5 gnd Biopolymere (DE-588)4006893-6 gnd
subject_GND	(DE-588)4006882-1 (DE-588)4371693-3 (DE-588)4646061-5 (DE-588)4006893-6 (DE-588)4143413-4
title	Tissue engineering using ceramics and polymers
title_auth	Tissue engineering using ceramics and polymers
title_exact_search	Tissue engineering using ceramics and polymers
title_full	Tissue engineering using ceramics and polymers edited by Aldo R. Boccaccini and Julie E. Gough
title_fullStr	Tissue engineering using ceramics and polymers edited by Aldo R. Boccaccini and Julie E. Gough
title_full_unstemmed	Tissue engineering using ceramics and polymers edited by Aldo R. Boccaccini and Julie E. Gough
title_short	Tissue engineering using ceramics and polymers
title_sort	tissue engineering using ceramics and polymers
topic	Ceramics Polymers Biocompatible Materials Tissue Engineering Tissue engineering Organ culture Ceramics in medicine Polymers in medicine Génie tissulaire Organes / Culture Céramique en médecine Polymères en médecine Organes - Culture Biomedizinische Technik (DE-588)4006882-1 gnd Biokeramik (DE-588)4371693-3 gnd Tissue Engineering (DE-588)4646061-5 gnd Biopolymere (DE-588)4006893-6 gnd
topic_facet	Ceramics Polymers Biocompatible Materials Tissue Engineering Tissue engineering Organ culture Ceramics in medicine Polymers in medicine Génie tissulaire Organes / Culture Céramique en médecine Polymères en médecine Organes - Culture Biomedizinische Technik Biokeramik Biopolymere Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018706975&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT boccaccinialdor tissueengineeringusingceramicsandpolymers

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