| Description |
1 online resource (634 pages) |
| Series |
Biomedical Engineering |
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Biomedical engineering series (Boca Raton, Fla.)
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| Contents |
Front Cover; Contents; Preface; Editor; Contributors; Chapter 1: Consensus Definitions, Fundamental Concepts, and a Standardized Approach to Applied Biomaterials Sciences; Chapter 2: Cutaneous Wound Pathobiology: Raison d'etre for Tissue Engineering; Chapter 3: Osseous Wound Healing; Chapter 4: Cell and Tissue Mechanobiology; Chapter 5: Cell-Material Interactions: Fundamental Design Issues for Tissue Engineering and Clinical Considerations; Chapter 6: Host Response to Biomaterials; Chapter 7: Protein Adsorption at the Biomaterial-Tissue Interface; Chapter 8: In Vitro Testing of Biomaterials |
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880-01 Chapter 20: Complex Polysaccharides: Chitosan and AlginateChapter 21: Collagen: A Natural Biomaterial for Tissue Engineering; Chapter 22: Polyphosphazenes; Chapter 23: Biologically Active Glasses; Chapter 24: Silk-Based Biomaterials: Biology, Properties, and Clinical Applications; Chapter 25: Calcium-Based Bioceramics: Biology, Properties, and Clinical Applications; Chapter 26: Tissue Engineering of Skin; Chapter 27: Polymeric Biomaterials for Drug and Nucleic Acid Delivery; Chapter 28: Orthopedic Prostheses and Joint Implants; Chapter 29: Bone and Biomaterials |
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880-01/(S Chapter 9: Assessment of Biomaterials: Standardized In Vivo TestingChapter 10: Basic Principles of Statistics : Considerations for Biomaterials Engineers; Chapter 11: Therapy Development, Animal Testing, and Regulatory Issues; Chapter 12: Fundamentals of Patenting for the Biomaterials Scientist; Chapter 13: Proteins and Amino Acid-Derived Polymers; Chapter 14: Three-Dimensional Fibrin Constructs in Tissue Engineering; Chapter 15: The Poly(α-esters); Chapter 16: Biomedical Polyurethanes; Chapter 17: Polymers Derived from l-Tyrosine; Chapter 18: Poly(Propylene Fumarate); Chapter 19: Hyaluronan |
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Chapter 30: Functional Regeneration of Synovial Joints In Vivo: The Role of Biomaterials and Scaffold DesignChapter 31: Tissue Engineering, Biomaterials, and the Nervous System; Chapter 32: Ligaments, Biomaterials, and Tissue-Engineering Opportunities; Chapter 33: Cardiovascular Tissue Engineering and Biomaterials; Back Cover |
| Summary |
Consensus Definitions, Fundamental Concepts, and a Standardized Approach to Applied Biomaterials Sciences, J.O. HollingerBiology, Biomechanics, Biomaterial Interactions: Wound Healing BiologyCutaneous Wound Pathobiology: Raison d'etre for Tissue Engineering, L.K. Macri and R.A.F. ClarkOsseous Wound Healing, A. Nawab, M. Wong, D. Kwak, L. Schutte, A. Sharma, and J.O. HollingerBiology, Biomechanics, Biomaterial Interactions: Cellular MechanicsCell and Tissue Mechanobiology, W. Guo, P. Alvarez, and Y. WangBiology, Biomechanics, Biomaterial Interactions: Materials-Host InteractionsCell-Material In |
| Bibliography |
Includes bibliographical references and index |
| Notes |
Print version record |
| Subject |
Biomedical materials.
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Biocompatible Materials
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Prostheses and Implants
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Equipment Design
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Biomedical and Dental Materials
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MEDICAL -- Biotechnology.
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TECHNOLOGY & ENGINEERING -- Material Science.
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Biomedical materials
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| Form |
Electronic book
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| ISBN |
9781439812570 |
|
1439812578 |
|
