Applications of nanocomposite materials in orthopedics /
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Corporate Authors: | |
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Group Author: | ; ; |
Published: |
Woodhead Publishing, an imprint of Elsevier,
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Publisher Address: | Duxford, United Kingdom : |
Publication Dates: |
[2019] ©2019 |
Literature type: | eBook |
Language: | English |
Edition: | First edition. |
Series: |
Woodhead Publishing series in biomaterials
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Subjects: | |
Online Access: |
https://www.sciencedirect.com/science/book/9780128137406 |
Carrier Form: | 1 online resource. |
Bibliography: | Includes bibliographical references and index. |
ISBN: |
9780128137574 0128137576 |
Index Number: | RD732 |
CLC: | R68 |
Contents: |
Front Cover; Applications of Nanocomposite Materials in Orthopedics; Copyright; Contents; List of contributors; Preface; 1: Biodegradable polymer matrix nanocomposites for bone tissue engineering; 1.1 Introduction; 1.2 Tissue engineering; 1.3 Bone tissue engineering; 1.4 Biodegradable polymers used in the design of nanocomposites for bone tissue engineering; 1.4.1 Natural biodegradable polymers; 1.4.1.1 Chitosan; 1.4.1.2 Alginates; 1.4.1.3 Starches; 1.4.1.4 Cellulose; 1.4.1.5 Collagen; 1.4.1.6 Gelatin; 1.4.1.7 Hyaluronic acid (HA); 1.4.1.8 Dextran. 2.2.1.1 The effect of osteogenesis and osteoinduction on osteoconductive electrospun scaffolds2.3 Electrospun biomaterials for bone tissue engineering; 2.3.1 Electrospun nanofiber-reinforced hydrogels; 2.3.2 Electrospun hydrogels with biological electrospray cells; 2.3.3 Electrospun hydrogels with antimicrobial activity; 2.4 Impact of various parameters on the electrospinning process for nanofiber morphology; 2.4.1 Polymer solution parameters; 2.4.2 Processing parameters; 2.4.3 Ambient parameters; 2.5 Inventions related to electrospun hydrogels for bone tissue engineering. 2.6 Future applications of electrospun hydrogels2.7 Conclusion; References; Further Reading; 3: Fabrication and applications of hydroxyapatite-based nanocomposites coating for bone tissue engineering; 3.1 Introduction; 3.2 Hydroxyapatite: Structure and properties; 3.3 Conventional orthopedic implants; 3.3.1 Metallic implants; 3.3.2 Nonmetallic implants; 3.4 Composites of hydroxyapatite with ceramics; 3.4.1 Hydroxyapatite-Al2O3 composites; 3.4.2 Hydroxyapatite-glass nanocomposites; 3.4.3 Hydroxyapatite-mullite composites; 3.4.4 Hydroxyapatite-YSZ nanocomposites. 3.5 Composites of hydroxyapatite with metals3.5.1 Hydroxyapatite-Pt nanocomposites; 3.5.2 Hydroxyapatite-Ti nanocomposites; 3.6 Composites of hydroxyapatite with polymers; 3.6.1 Hydroxyapatite-epoxy composites; 3.6.2 Hydroxyapatite-PVA nanocomposites; 3.6.3 Hydroxyapatite-polyamide nanocomposites; 3.6.4 Hydroxyapatite-PMMA composites; 3.6.5 Hydroxyapatite-polylactide composites; 3.6.6 Hydroxyapatite-PS composites; 3.6.7 Hydroxyapatite-PE nanocomposites; 3.6.8 Hydroxyapatite-collagen nanocomposites; 3.6.9 Hydroxyapatite-PEEK nanocomposites; 3.7 Conclusion; References. |