Verfügbarkeit: Integrated biomaterials in tissue engineering

Integrated biomaterials in tissue engineering:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Hoboken, N.J. John Wiley & Sons 2012 Salem, Mass. Scrivener Publ.
Schriftenreihe:	Biomaterials science, engineering and technology
Schlagworte:	Tissue engineering Biomedical materials Biomaterial Tissue Engineering Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XXII, 299 S. Ill., graph. Darst. 25 cm
ISBN:	9781118311981 1118311981

Internformat

MARC


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Datensatz im Suchindex

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adam_text	Contents Preface xiii List of Contributors XV 1. Protocols for Biomaterial Scaffold Fabrication 1 Azadeh Seidi and Murugan Ramalingam 1.1 Introduction 1 1.2 Scaffolding Materials 4 1.2.1 Naturally Derived Materials 4 1.2.2 Scaffolds Based on Synthetic Polymers 7 1.3 Techniques for Biomaterial Scaffolds Fabrication 7 1.3.1 Solvent Casting 8 1.3.2 Salt-leaching 8 1.3.3 Gas Foaming 11 1.3.4 Phase Separation 12 1.3.5 Electrospinmng 13 1.3.6 Self-assembly 15 1.3.7 Rapid Prototyping 16 1.3.8 Membrane Lamination 18 1.3.9 Freeze Drying 18 1.4 Summary 19 Acknowledgements 20 References 20 2. Ceramic Scaffolds, Current Issues and Future Trends 25 Seyed-Iman Roohani-Esfahani S.I and Hala Zreiqat H 2.1 Introduction 25 2.2 Essential Properties and Current Problems of Ceramic Scaffolds 27 2.3 Approaches to Overcome Ceramic Scaffolds Issues for the Next Generation of Scaffolds 30 2.4 Silk - a Bioactive Material 35 2.5 Conclusions and Future Trends 35 vi Contents Acknowledgements 36 References 36 3. Preparation of Porous Scaffolds from Ice Particulate Templates for Tissue Engineering 47 Guoping Chen and Naoki Kawazoe 3.1 Introduction 48 3.2 Preparation of Porous Scaffolds Using Ice Particulates as Porogens 48 3.3 Preparation of Funnel-like Porous Scaffolds Using Embossed Ice Particulate Templates 51 3.3.1 Overview of Protocol 51 3.3.2 Preparation of Funnel-like Collagen Sponges 51 3.3.3 Preparation of Funnel-like Chitosan Sponges 54 3.3.4 Preparation of Funnel-like Hyaluronic Acid Sponges 55 3.3.5 Preparation of Funnel-like Collagen-glycosaminoglycan Sponges 55 3.4 Application of Funnel-like Porous Scaffolds in Three-dimensional Cell Culture 56 3.5 Application of Funnel-like Collagen Sponges in Cartilage Tissue Engineering 57 3.6 Summary 60 References 60 4. Fabrication of Tissue Engineering Scaffolds Using the Emulsion Freezing/Freeze-drying Technique and Characteristics of the Scaffolds 63 Naznin Sultana and Min Wang 4.1 Introduction 64 4.2 Materials for Tissue Engineering Scaffolds 65 4.3 Fabrication Techniques for Tissue Engineering Scaffolds 68 4.4 Fabrication of Pure Polymer Scaffolds via Emulsion Freezing/Freeze-drying and Characteristics of the Scaffolds 70 4.5 Fabrication of Polymer Blend Scaffolds via Emulsion Freezing/Freeze-drying and Characteristics of the Scaffolds 78 4.6 Fabrication of Nanocomposite Scaffolds via Emulsion Freezing/Freeze-drying and Characteristics of the Scaffolds 80 Contents vii 4.7 Surface Modification for PHBV-based Scaffolds 85 4.8 Concluding Remarks 87 Acknowledgements 87 References 88 5. Electrospun Nanofiber and Stem Cells in Tissue Engineering 91 Susan Liao, Seeram Ramakrishna and Murugan Ramalingam 5.1 Introduction 92 5.2 Biodegradable Materials for Tissue Engineering 93 5.3 Nanofibrous Scaffolds 97 5.3.1 Technologies to Fabricate Nanofibers 98 5.3.2 In Vitro and In Vivo Studies of Nanofibrous Scaffold 103 5.4 Stem Cells: A Potential Tool for Tissue Engineering 108 5.4.1 Stem Cells in Tissue Engineering and Regeneration 108 5.4.2 Effect of Stem Cells on Electrospun Nanofibrous Scaffolds 111 5.5 Prospects 113 Acknowledgement 115 References 115 6. Materials at the Interface Tissue-Implant 119 Antonio Регато 6.1 Introduction 120 6.2 Description of the Tissue-Implant Interface 121 6.3 Expected Function of the Materials at the Interface and their Evaluation and Selection 123 6.3.1 General Purpose Non-biological Materials 127 6.3.2 General Purpose Natural Materials and Biopolymers 128 6.3.3 Other Regenerative Biomaterials and Techniques 129 6.3.4 Future Approaches 129 6.4 Experimental Techniques for the Tissue-Implant Interface 130 6.5 Conclusion 133 References 133 viii Contents 7. Mesenchymal Stem Cells in Tissue Regeneration 137 Kalpana S. Katti, Avinash A. Ambre, and Dinesh R. Katti 7.1 Introduction 137 7.2 Mesenchymal stem cells (MSCs) 140 7.2.1 Self-renewal of MSCs 142 7.2.2 Heterogeneity of MSCs 143 7.2.3 MSCs from Different Types of Tissues 144 7.2.4 MSCs, Progenitor Cells and Precursor Cells 144 7.2.5 Differentiation Potential of MSCs 145 7.2.6 Dedifferentiation and Transdifferentiation ofhMSCs 146 7.3 Understanding the Mesenchymal Stem Cells (MSCs) 147 7.3.1 Integrins and Their Role in Mesenchymal Stem Cells (MSCs) 147 7.3.2 Mesenchymal Stem Cell (MSC) Niche 149 7.3.3 Immunomodulatory Effect of MSCs 150 7.4 Mesenchymal Stem Cell (MSC) Culture 150 7.4.1 Mesenchymal Stem Cell (MSC) Isolation 151 7.4.2 Mesenchymal Stem Cell (MSC) Expansion 151 7.4.3 Media for Inducing Osteogenic Differentiation m MSCs 152 7.5 Characterization of MSCs 153 7.5.1 Microscopy Techniques 154 7.5.2 Differentiation and Cell Proliferation Assays for MSCs 155 7.6 MSCs in Bone Remodeling, Fracture Repair and Their Use in Bone Tissue Engineering Applications 156 7.7 Influence of External Stimuli on MSC Behavior 157 7.7.1 Role of Mechanical Stimulus on hMSCs 158 7.7.2 Role of Electrical Stimulus on MSCs 159 7.8 Perspectives on Future of hMSCs in Tissue Engineering 159 References 160 8. Endochondral Bone Tissue Engineering 165 Sanne K. Both, Fang Yang, and John A. Jansen 8.1 Introduction 165 8.2 Tissue Engineering and Stem Cells 169 Contents IX 8.2.1 Tissue Engineering 169 8.2.2 Stem Cells 170 8.2.3 Bone Tissue Engineering 171 8.2.4 Bone Tissue Engineering via the Endochondral Pathway 172 8.3 Scaffolds 173 8.3.1 General Requirements of Scaffolds 173 8.3.2 Scaffolds for Endochondral Tissue Engineering 175 8.3.2.1 Hydrogels 176 8.3.2.2 Synthetic Polymer Woven Structure 177 8.3.2.3 Calcium Phosphate (CaP) Ceramics 178 8.4 Summary 179 References 180 9. Principles, Applications, and Technology of Craniofacial Bone Engineering 183 Mona К. Maréi, Mohamed A. Alkhodary, Rania M. Elbackly, Samer H. Zaky, Ahmed M. Eweida, Muhammad A. Gad, Naglaa Abdel-Wahed and Yasser M. Kadah 9.1 Introduction 184 9.1.1 Anatomy and Physiology of Craniofacial Bone 185 9.1.2 Functional Characteristics of Craniofacial Tissues 190 9.1.2.1 Bone Strength 190 9.1.2.2 Effect of Forces 191 9.1.2.3 Angiogenesis in Bone Physiology 192 9.1.3 Prevalence of Craniofacial Congenital Anomalies and Acquired Defects 192 9.1.3.1 Congenital Anomalies 192 9.1.3.2 Acquired Defects 193 9.2 Road Map for the Application of Tissue Engineering and Regenerative Medicine for Craniofacial Bone Regeneration 195 9.2.1 Vasculanzation and Its Strategies 197 9.3 Stem Cell-based Craniofacial Bone Engineering 199 9.3.1 The Stem Cell Concept: Recreating the Local Tissue Microenvironment 200 χ Contents 9.3.2 Applied Stem Cell-based Craraofacial Bone Engineering 201 9.3.3 Additional Viable Stem Cell Sources for Craniofacial Bone Engineering 204 9.4 Biomaterial-based Therapy in Craniofacial Bone Engineering 206 9.4.1 Surface Biomimetism 210 9.5 Principles of Imaging in Craniofacial Bone Regeneration 212 9.5.1 Modeling of, Preparation for, and Planning Tissue Engineering 212 9.5.2 Image Guided Design 215 9.5.3 Follow-up and Assessment 216 9.5.4 Medical Imaging Techniques for Craniofacial Bone Engineering 218 9.5.4.1 Plam X-rays 218 9.5.4.2 Computed Tomography (CT)-based Methods 218 9.5.4.3 Magnetic Resonance Imaging 219 9.5.4.4 Future Methods: High Frequency Ultrasound Imaging 220 9.6 Current Clinical Application and Future Direction m the Field of Craniofacial Bone Engineering 220 9.6.1 Current Treatments of Bone Defects 220 9.6.2 Modern Treatment of Bone Defects 221 9.6.3 Some Examples of Tissue Engineering Materials and Clinical Trials 223 9.7 Future Prospects 225 9.8 Economics and Marketing 225 9.9 Conclusions 226 References 226 10. Functionally-Graded Biomimetic Vascular Grafts for Enhanced Tissue Regeneration and Bio-integration 235 Vinoy Thomas and Yogesh K. Volara 10.1 Introduction 236 10.2 Approaches in Vascular Tissue Engineering 237 10.3 Nanostructured Scaffolds for Vascular Tissue Engineering 239 10.3.1 Electrospinning for Producing ECM-like Fibers 241 Contents xi 10.3.2 Biomimetic Electrospun Vascular Scaffolds 244 10.4 Functionally-Graded Tubular Scaffolds 247 10.4.1 Graded-Tissue Design in Native Vessels 247 10.4.1.1 Biomimetic Multi-layered Tubular Scaffolds 249 10.4.1.2 Mechanical Properties of Trilayered Tubular Grafts 251 10.4.2 Biodegradation Characteristics of Trilayered Grafts 255 10.4.3 In Vitro Cell Interactions and In Vivo Performance 260 10.5 Summary and Future Outlook 266 Acknowledgements 267 List of Abbreviations Used 268 References 269 11. Vascular Endothelial Growth Factors in Tissue Engineering: Challenges and Prospects for Therapeutic Angiogenesis 275 Ekaterina S. Lifirsu, Murugan Ramalingam, and Ziyad S. Haidar 11.1 Introduction 276 11.2 VĽGF and Angiogenesis 276 11.3 VEGF Family 277 11.4 VEGF Therapy 279 11.5 VEGF Delivery Systems 280 11.6 Soft versus Hard Tissues 282 11.7 Concluding Remarks 287 References 290 Index 295
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spelling	Integrated biomaterials in tissue engineering edited by Murugan Ramalingam ... Hoboken, N.J. John Wiley & Sons 2012 Salem, Mass. Scrivener Publ. XXII, 299 S. Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Biomaterials science, engineering and technology Includes bibliographical references and index Tissue engineering Biomedical materials Biomaterial (DE-588)4267769-5 gnd rswk-swf Tissue Engineering (DE-588)4646061-5 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Tissue Engineering (DE-588)4646061-5 s Biomaterial (DE-588)4267769-5 s b DE-604 Ramalingam, Murugan Sonstige oth Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025697370&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
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title	Integrated biomaterials in tissue engineering
title_auth	Integrated biomaterials in tissue engineering
title_exact_search	Integrated biomaterials in tissue engineering
title_full	Integrated biomaterials in tissue engineering edited by Murugan Ramalingam ...
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title_full_unstemmed	Integrated biomaterials in tissue engineering edited by Murugan Ramalingam ...
title_short	Integrated biomaterials in tissue engineering
title_sort	integrated biomaterials in tissue engineering
topic	Tissue engineering Biomedical materials Biomaterial (DE-588)4267769-5 gnd Tissue Engineering (DE-588)4646061-5 gnd
topic_facet	Tissue engineering Biomedical materials Biomaterial Tissue Engineering Aufsatzsammlung
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