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Biomimetics: Advancing Nanobiomaterials and Tissue Engineering by Murugan Ramali

Description: Biomimetics by Murugan Ramalingam, Xiumei Wang, Guoping Chen, Peter Ma, Fu-Zhai Cui This book compiles all aspects of biomimetics from fundamental principles to current technological advances and their future trends in the development of nanoscale biomaterials and tissue engineering. FORMAT Hardcover LANGUAGE English CONDITION Brand New Publisher Description Provides cutting-edge advances in biologically inspired, biomimetically-designed materials and systems for developing the next generation of nanobiomaterials and tissue engineering Humans have been trying to learn biomimetics for centuries by mimicking nature and its behaviors and processes in order to develop novel materials, structures, devices, and technologies. The most substantial benefits of biomimetics will likely be in human medical applications, such as developing bioprosthetics that mimic real limbs and sensor-based biochips that interface with the human brain to assist in hearing and sight. Biomimetics: Advancing Nanobiomaterials and Tissue Engineering seeks to compile all aspects of biomimetics, from fundamental principles to current technological advances, along with future trends in the development of nanoscale biomaterials and tissue engineering. The book details research, useful in inspiring new ideas, that seeks the principles and rules implemented by nature, such as self-assembly, a bottom-up approach in which molecular structures are assembled with little or no external intervention to generate nano, micro, and macro structures. Other subjects covered in the book include: Cartilage tissue engineering as an emerging technologyThe fabrication methods of nanofibrous scaffolds and their potential utility in bone tissue engineering applicationsDental and craniofacial tissue engineering with bioactive polymers and bionanomaterialsStrategies to prevent bacterial adhesion on biomaterialsThe latest achievements in biomimetic ECM scaffolds prepared from cultured cellsGraphene oxide and graphene as promising scaffold materialsStem cells as a source for building tissues or organs in the laboratory Back Cover Provides cutting-edge advances in biologically inspired, biomimetically-designed materials and systems for developing the next generation of nanobiomaterials and tissue engineering Humans have been trying to learn biomimetics for centuries by mimicking nature and its behaviors and processes in order to develop novel materials, structures, devices, and technologies. The most substantial benefits of biomimetics will likely be in human medical applications, such as developing bioprosthetics that mimic real limbs and sensor-based biochips that interface with the human brain to assist in hearing and sight. Biomimetics: Advancing Nanobiomaterials and Tissue Engineering seeks to compile all aspects of biomimetics, from fundamental principles to current technological advances, along with future trends in the development of nanoscale biomaterials and tissue engineering. The book details research, useful in inspiring new ideas, that seeks the principles and rules implemented by nature, such as self-assembly, a bottom-up approach in which molecular structures are assembled with little or no external intervention to generate nano, micro, and macro structures. Other subjects covered in the book include: Cartilage tissue engineering as an emerging technology The fabrication methods of nanofibrous scaffolds and their potential utility in bone tissue engineering applications Dental and craniofacial tissue engineering with bioactive polymers and bionanomaterials Strategies to prevent bacterial adhesion on biomaterials The latest achievements in biomimetic ECM scaffolds prepared from cultured cells Graphene oxide and graphene as promising scaffold materials Stem cells as a source for building tissues or organs in the laboratory Readership The book is intended for a wide audience including researchers, students, and industrial experts working in the fields of, but not limited to, materials science and engineering, biomaterials, bioengineering, cell biology, biomedical sciences, tissue engineering, nanoscience, nanotechnology, and nanomedicine. Flap Provides cutting-edge advances in biologically inspired, biomimetically-designed materials and systems for developing the next generation of nanobiomaterials and tissue engineering Humans have been trying to learn biomimetics for centuries by mimicking nature and its behaviors and processes in order to develop novel materials, structures, devices, and technologies. The most substantial benefits of biomimetics will likely be in human medical applications, such as developing bioprosthetics that mimic real limbs and sensor-based biochips that interface with the human brain to assist in hearing and sight. Biomimetics: Advancing Nanobiomaterials and Tissue Engineering seeks to compile all aspects of biomimetics, from fundamental principles to current technological advances, along with future trends in the development of nanoscale biomaterials and tissue engineering. The book details research, useful in inspiring new ideas, that seeks the principles and rules implemented by nature, such as self-assembly, a bottom-up approach in which molecular structures are assembled with little or no external intervention to generate nano, micro, and macro structures. Other subjects covered in the book include: Cartilage tissue engineering as an emerging technology The fabrication methods of nanofibrous scaffolds and their potential utility in bone tissue engineering applications Dental and craniofacial tissue engineering with bioactive polymers and bionanomaterials Strategies to prevent bacterial adhesion on biomaterials The latest achievements in biomimetic ECM scaffolds prepared from cultured cells Graphene oxide and graphene as promising scaffold materials Stem cells as a source for building tissues or organs in the laboratory Readership The book is intended for a wide audience including researchers, students, and industrial experts working in the fields of, but not limited to, materials science and engineering, biomaterials, bioengineering, cell biology, biomedical sciences, tissue engineering, nanoscience, nanotechnology, and nanomedicine. Author Biography About the Editors Murugan Ramalingam is an Associate Professor of Biomaterials and Tissue Engineering at the Institut National de la Santé et de la Recherche Médicale U977, Université de Strasbourg, France. Xiumei Wang is an Associate Professor of Biomaterials at Tsinghua University, China. Guoping Chen is the principal investigator and unit director of the Tissue Regeneration Materials Unit, the National Institute for Materials Science, Japan. Peter Ma is the Richard H. Kingery Endowed Collegiate Professor at the University of Michigan. Fu-Zhai Cui is a full professor in the School of Materials Science and Engineering at Tsinghua University, China. Table of Contents List of Contributors xvii Preface xix Acknowledgements xxi 1 Biomimetic Polysaccharides and Derivatives for Cartilage Tissue Regeneration 1 Ferdous Khan and Sheikh Ra Ahmad 1.1 Introduction 1 1.2 Strategies for Cartilage Tissue Engineering 3 1.3 Designing Scaffold for Cartilage Tissue Engineering 4 1.4 Natural Polysaccharides for Cartilage Tissue Engineering 8 1.5 Conclusions and Remarks on Prospects 17 References 18 2 Biomimetic Synthesis of Self-Assembled Mineralized Collagen-Based Composites for Bone Tissue Engineering 23 Xiumei Wang, Zhixu Liu and Fuzhai Cui 2.1 Introduction 23 2.2 Hierarchical Assembly of Mineralized CollagenFibrils in Natural Bone 25 2.3 Biomimetic Synthesis of Self-AssembledMineralized Fibrils 34 2.4 Applications of Mineralized Collagen-basedComposites for Bone Regeneration 40 2.5 Concluding Remarks 44 References 45 3 Biomimetic Mineralization of Hydrogel Biomaterials for Bone Tissue Engineering 51 Timothy E.L. Douglas, Elzbieta Pamula andSander C.G. Leeuwenburgh 3.1 Introduction 51 3.2 Incorporation of Inorganic Calcium PhosphateNanoparticles into Hydrogels 52 3.3 Biomimetic Mineralization in Calcium and/orPhosphate-Containing Solutions 56 3.4 Enzymatically-Induced Mineralization UsingAlkaline Phosphatase (ALP) 58 3.5 Enhancement of Hydrogel MineralizationUsing Biomacromolecules 60 3.6 Conclusions 62 References 63 4 Biomimetic Nanobrous Scaffolds for Bone Tissue Engineering Applications 69 Robert J. Kane and Peter X. Ma 4.2 Self-Assembled Nanober Scaffolds 73 4.3 Electrospun Scaffolds 75 4.4 Thermally Induced Phase Separation (TIPS) Scaffolds 80 4.5 Overall Trends in Biomimetic Scaffold Design 84 References 85 5 Bioactive Polymers and Nanobiomaterials Composites for Bone Tissue Engineering 91 Ferdous Khan and Sheikh Ra Ahmad 5.1 Introduction 92 5.2 Design and Fabrication of Biomimetic 3DPolymer-Nanocomposites Scaffolds 93 5.3 Nonbiodegradable Polymer and Nanocomposites 96 5.4 Biodegradable Polymer and Nanocomposites 102 5.5 Conclusions and Future Remarks 112 References 6 Strategy for a Biomimetic paradigm in Dental and Craniofacial Tissue Engineering Mona K. Mareil, Naglaa B. Nagy, Mona M. Saad, Samer H. Zaky, Rania M. Elbackly, Ahmad M. Eweida and Mohamed A. Alkhodary 6.1 Introduction 120 6.2 Biomimetics: Denition and Historical Background 121 6.3 Developmental Biology in Dental and Craniofacial Tissue Engineering: Biomimetics in Development and Growth (e.g. model of wound healing) 127 6.4 The Paradigm Shift in Tissue Engineering: Biomimetic Approaches to Stimulate Endogenous Repair and Regeneration 132 6.5 Extracellular Matrix Nano-Biomimetics for Craniofacial Tissue Engineering 136 6.6 Biomimetic Surfaces, Implications for Dental and Craniofacial Regeneration; Biomaterial as 6.7 Angiogenesis, Vasculogenesis, and Inosculation for Life-Sustained Regenerative Therapy; The Platform for Biomimicry in Dental and Craniofacial Tissue Engineering 143 6.8 Conclusion 149 Acknowledgements 150 References 150 7 Strategies to Prevent Bacterial Adhesion on Biomaterials 163 Indu Bajpai and Bikramjit Basu 7.1 Introduction 164 7.2 Characteristics of Prokaryotic Cells 166 7.3 Closure 194 Acknowledgement 195 References 195 8 Nanostructured Selenium – A Novel Biologically-Inspired Material for Antibacterial Medical Device Applications 203 Qi Wang and Thomas J. Webster 8.1 Bacterial Biolm Infections on Implant Materials 204 8.2 Nanomaterials for Antibacterial Implant Applications 206 8.3 Selenium and Nanostructured Selenium 208 8.4 Selenium Nanoparticles for Antibacterial Applications 209 8.5 Summary and Outlook 215 References 216 9 Hydroxyapatite-Biodegradable Polymer Nanocomposite Microspheres Toward Injectable Cell Scaffold 221 Syuji Fujii, Masahiro Okada and Tsutomu Furuzono 9.1 Introduction 222 9.2 Pickering Emulsion 223 9.3 Fabrication of HAp-Polymer Nanocomposite Microspheres by Pickering Emulsion Method 226 9.4 Evaluation of Cell Adhesion Properties of HAp-Biodegradable Polymer Nanocomposite Microspheres 234 9.5 Application of HAp-Biodegradable Polymer Nanocomposite Microspheres as an Injectable Scaffold 235 9.6 Degradation Behavior of HAp-Biodegradable Polymer Nanocomposite Microspheres 237 9.7 Conclusions 238 Acknowledgments 238 References 239 10 Biomimetic ECM Scaffolds Prepared from Cultured Cells 243 Guoping Chen, Hongxu Lu and Naoki Kawazoe 10.1 Introduction 243 10.2 Cultured Cell-Derived ECM Porous Scaffolds 245 10.3 Autologous ECM Scaffolds 247 10.4 Application of Cultured Cell-Derived ECM Scaffolds 249 10.5 Summary 250 References 251 11 Design and Synthesis of Photoreactive Polymers for Biomedical Applications 253 Ponnurengam Sivakumar Malliappan, Di Zhou, Tae Il Son2 and Yoshihiro Ito 11.1 Introduction 253 11.2 UV-Reactive Biological Polymers 254 11.3 UV-Reactive Synthetic Polymers 263 11.4 Visible Light-Reactive Biopolymer Systems 270 11.5 Conclusions 274 References 274 12 The Emerging Applications of Graphene Oxide and Graphene in Tissue Engineering 279 Samad Ahadian, Murugan Ramalingam and Ali Khademhosseini 12.1 Introduction 280 12.2 Design and Fabrication of Biomimetic GO/Graphene Materials 283 12.3 Graphene Oxide and its Cell and TE Applications 284 12.4 Graphene and Its Cell and TE Applications 287 12.5 Conclusions and Future Directions 292 Acknowledgement 295 References 295 13 Biomimetic Preparation and Morphology Control of Mesoporous Silica 301 Qiang Cai 13.1 Introduction 302 13.2 Biomineralization and Biomimic Synthesis 302 13.3 Mesoporous Silica 306 13.4 Biomimic Preparation and Morphology Control of Mesoporous Silica 312 13.5 Conclusion and Prospective 324 References 325 14 Biomimetic Materials for Engineering Stem Cells and Tissues 329 Kaarunya Sampathkumar, Azadeh Seidi, Alok Srivastava, T.S. Sampath Kumar, Seeram Ramakrishna and Murugan Ramalingam 14.1 Introduction 330 14.2 Fabrication of Biomimetic Materials 331 14.3 Surface Modication 335 14.4 Engineering Stem Cells and Tissues 337 14.5 Concluding Remarks 341 Acknowledgements 342 References Long Description Provides cutting-edge advances in biologically inspired, biomimetically-designed materials and systems for developing the next generation of nanobiomaterials and tissue engineering Humans have been trying to learn biomimetics for centuries by mimicking nature and its behaviors and processes in order to develop novel materials, structures, devices, and technologies. The most substantial benefits of biomimetics will likely be in human medical applications, such as developing bioprosthetics that mimic real limbs and sensor-based biochips that interface with the human brain to assist in hearing and sight. Biomimetics: Advancing Nanobiomaterials and Tissue Engineering seeks to compile all aspects of biomimetics, from fundamental principles to current technological advances, along with future trends in the development of nanoscale biomaterials and tissue engineering. The book details research, useful in inspiring new ideas, that seeks the principles and rules implemented by nature, such as self-assembly, a bottom-up approach in which molecular structures are assembled with little or no external intervention to generate nano, micro, and macro structures. Other subjects covered in the book include: Cartilage tissue engineering as an emerging technology The fabrication methods of nanofibrous scaffolds and their potential utility in bone tissue engineering applications Dental and craniofacial tissue engineering with bioactive polymers and bionanomaterials Strategies to prevent bacterial adhesion on biomaterials The latest achievements in biomimetic ECM scaffolds prepared from cultured cells Graphene oxide and graphene as promising scaffold materials Stem cells as a source for building tissues or organs in the laboratory Readership The book is intended for a wide audience including researchers, students, and industrial experts working in the fields of, but not limited to, materials science and engineering, biomaterials, bioengineering, cell biology, biomedical sciences, tissue engineering, nanoscience, nanotechnology, and nanomedicine. Details ISBN1118469623 Author Fu-Zhai Cui Language English Year 2013 ISBN-10 1118469623 ISBN-13 9781118469620 Format Hardcover Short Title BIOMIMETICS Media Book Affiliation University of Strasbourg. France Subtitle Advancing Nanobiomaterials and Tissue Engineering Place of Publication New York Country of Publication United States Edited by Fu-Zhai Cui DEWEY 620.00420157 Illustrations Yes Edition 1st UK Release Date 2013-09-24 AU Release Date 2013-08-12 NZ Release Date 2013-08-12 Pages 384 Publisher John Wiley & Sons Inc Publication Date 2013-09-24 Series Biomedical Science, Engineering, and Technology Imprint Wiley-Scrivener Audience Professional & Vocational US Release Date 2013-09-24 We've got this At The Nile, if you're looking for it, we've got it. With fast shipping, low prices, friendly service and well over a million items - you're bound to find what you want, at a price you'll love! TheNile_Item_ID:136210858;

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Biomimetics: Advancing Nanobiomaterials and Tissue Engineering by Murugan Ramali

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ISBN-13: 9781118469620

Book Title: Biomimetics

Number of Pages: 384 Pages

Publication Name: Biomimetics: Advancing Nanobiomaterials and Tissue Engineering

Language: English

Publisher: John Wiley & Sons Inc

Item Height: 244 mm

Publication Year: 2013

Type: Textbook

Item Weight: 642 g

Subject Area: Mechanical Engineering

Author: Peter Ma, Murugan Ramalingam, Fu-Zhai Cui, Guoping Chen, Xiumei Wang

Item Width: 164 mm

Format: Hardcover

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