Introduction to biomaterials /

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Bibliographic Details
Imprint:	Beijing, China : Tsinghua University Press ; Singapore ; Hackensack, NJ : World Scientific, ©2006.
Description:	1 online resource (xiii, 253 pages) : illustrations
Language:	English
Subject:	Biomedical materials. Biomedical materials. Biocompatible Materials. Electronic books.
Format:	E-Resource Book
URL for this record:	http://pi.lib.uchicago.edu/1001/cat/bib/11168612

Hidden Bibliographic Details
Other authors / contributors:	Shi, Donglu.
ISBN:	9789812700858 9812700854 1281881112 9781281881113 7302108072 9787302108078 9812566279 9789812566270
Notes:	Includes bibliographical references. Print version record.
Summary:	This book provides a comprehensive introduction to the fundamentals of biomaterials including ceramics, metals, and polymers. Researchers will benefit from the interdisciplinary perspectives of contributors in diverse areas such as orthopedics, biochemistry, biomedical engineering, materials science, tissue engineering and other related medical fields. Both graduate and undergraduate students will find it a valuable reference on tissue engineering related topics, including biostructures and phase diagrams of complex systems, hard tissue prosthetics, novel biomaterials processing methods, and new materials-characterization techniques.
Other form:	Print version: Introduction to biomaterials. Beijing, China : Tsinghua University Press ; Singapore ; Hackensack, NJ : World Scientific, ©2006 7302108072

Table of Contents:

1. Introduction to bioceramics. 1.1. Bioactive materials. 1.2. References
2. Bioactive ceramics : structure, synthesis, and mechanical properties. 2.1. Structure of hydroxyapatite. 2.2. Synthesis of hydroxyapatite powder. 2.3. Mechanical properties of hydroxyapatite. 2.4. Other bioceramics. 2.5. References. 2.6. Problems
3. Bioceramic processing. 3.1. Fabrication and mechanical properties of porous bioceramics. 3.2. Coating of bioceramic thick films on bio-inert porous subs. 3.3. Coating on dense substrates. 3.4. Hydroxyapatite coatings for non-hard tissue applications. 3.5. Composites. 3.6. Summary. 3.7. References. 3.8. Problems
4. Coating of hydroxyapatite onto inner pore surfaces of the reticulated alumina. 4.1. Hydroxyapatite coating methods and characterization. 4.2. Adhesion of hydroxyapatite film on alumina substrate. 4.3. References. 4.4. Problems
5. Properties and characterization of biomaterials. 5.1. Characterization of ceramics. 5.2. Bioactive properties and hard tissue prosthetics. 5.3. Measurements of growth and dissolution of hydroxyapatite ceramics. 5.4. In vitro test conducted in this reasearch. 5.5. Mechanical properties. 5.6. References. 5.7. Problems
6. Bioactivity of hydroxyapatite. 6.1. General aspects. 6.2. In vitro testing materials and preparation. 6.3. Characterization of immersion solution. 6.4. Morphology of the reacted surfaces. 6.5. References. 6.6. Problems
7. Hydroxyapatite deposition mechanisms. 7.1. Material synthesis and hydroxyapatite coating. 7.2. Mechanisms of bioactivity. 7.3. References. 7.4. Problems
8. Biomedical metallic materials. 8.1. Microstructures and processing. 8.2. Corrosion resistance of metals. 8.3. Biological tolerance of metal. 8.4. Stainless steel. 8.5. Cobalt-based alloys. 8.6. Titanium and its alloys. 8.7. TiNi shape memory alloy. 8.8. Summary. 8.9. References. 8.10. Problems
9. Polymer basics. 9.1. Classification of polymers. 9.2. Characteristics of polymer. 9.3. Synthesis of polymers. 9.4. References. 9.5. Problems
10. Naturally occurring polymer biomaterials. 10.1. General introduction to proteins. 10.2. Collagen. 10.3. Alginate. 10.4. Chitin and chitosan. 10.5. References. 10.6. Problems
11. Synthetic non-biodegradable polymers. 11.1. Polyethylene. 11.2. Poly (methyl methacrylate). 11.3. Polyester. 11.4. Polycarbonate. 11.5. Polyamides. 11.6. Polyurethane. 11.7. Pofysulfones. 11.8. Poly (ether ether ketone). 11.9. References. 11.10. Problems
12. Synthetic biodegradable polymers. 12.1. Aliphatic polyester. 12.2. Poly (propylene fumarate). 12.3. Polyamino acid. 12.4. References. 12.5. Problems
13. Polymer matrix composite biomaterials. 13.1. Fiber reinforced composites. 13.2. Filler reinforced composites. 13.3. Methods to improve the interfacial bonding between phases in composites. 13.4. References. 13.5. Problems
14. Biomaterials for tissue engineering. 14.1. General aspects of biomaterials used for tissue engineering. 14.2. Representative biomaterials used for tissue engineering. 14.3. Biomaterial constructs for tissue engineering : scaffolds. 14.4. References. 14.5. Problems
15. Cells and biomolecules for tissue engineering. 15.1. Cells for tissue engineering. 15.2. Growth factor delivery in tissue engineering. 15.3. Regulatory matrix proteins. 15.4. References. 15.5. Problems
16. Transport and vascularization in tissue engineering. 16.1. Transport in engineered tissue. 16.2. Vascularization. 16.3. References. 16.4. Problems
17. Host response to tissue engineered grafts. 17.1. The foreign body response to synthetic components. 17.2. Response to biological components. 17.3. References. 17.4. Problems
18. Other important issues and future challenges in tissue engineering. 18.1. Organ replacement and regeneration. 18.2. Organotypic and histiotypic models. 18.3. Mechanotransduction. 18.4. Future challenges. 18.5. References. 18.6. Problems.

Introduction to biomaterials /

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