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by Roy J. Crawford, Kateryna Bazaka, Elena P. Ivanova
New Functional Biomaterials for Medicine and Healthcare
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Woodhead Publishing Series in Biomaterials
Preface
Chapter 1: Introduction to biomaterials and implantable device design
Abstract:
1.1 Introduction
1.2 Biomaterials and their applications
1.3 Biomaterial development and realisation
1.4 Implantable systems design
1.5 Device-associated infections
1.6 Current trends in biomaterials design and fabrication
Chapter 2: Natural polymer biomaterials: advanced applications
Abstract:
2.1 Introduction
2.2 Chitin and chitosan
2.3 Alginate
2.4 Collagen
2.5 Gelatin
2.6 Hyaluronic acid
2.7 Fibrinogen
2.8 Silk fibroin
2.9 Viral particles and bacteriophage capsids for drug delivery
2.10 Immunocytes as ‘Trojan horses’ for molecule delivery
2.11 Future trends
Chapter 3: Advanced synthetic polymer biomaterials derived from organic sources
Abstract:
3.1 Introduction
3.2 Poly(ester)s and poly(ester) block copolymers
3.3 Poly(2-oxazoline)s
3.4 Poly(alkyl carbonate)s
3.5 Poly(ether)s
3.6 Polypeptides
3.7 Poly(anhydride)s
3.8 Poly(urethane)s
3.9 Conclusion
Chapter 4: Advanced synthetic and hybrid polymer biomaterials derived from inorganic and mixed organic–inorganic sources
Abstract:
4.1 Introduction
4.2 Synthetic inorganic polymers
4.3 Silicon-based inorganic polymers
4.4 Poly(phosphazene)s
4.5 Organic–inorganic hybrid polymers
4.6 Geopolymers
4.7 Conclusion
Chapter 5: Metallic biomaterials: types and advanced applications
Abstract:
5.1 Introduction
5.2 Stainless steel
5.3 Co-Cr alloys
5.4 Ti and Ti-based alloys
5.5 Noble metal alloys
5.6 Shape memory alloys
5.7 Biodegradable metals
5.8 Conclusion
Chapter 6: Cytotoxicity and biocompatibility of metallic biomaterials
Abstract:
6.1 Introduction
6.2 Cytotoxicity and biocompatibility of metals and alloys
6.3 Effect of load and wear on implant degradation
6.4 Macrophage-mediated inflammatory events
6.5 Role of bacterial endotoxins in triggering a particle-induced inflammatory response
6.6 Osteoclast-mediated bone resorption
6.7 Osteolysis as a function of implant-associated mechano-transduction
6.8 Surface modification as a means of enhancing biocompatibility and corrosion resistance
6.9 Conclusion
Chapter 7: Bioinert ceramic biomaterials: advanced applications
Abstract:
7.1 Introduction
7.2 Hardness, high compressive strength and wear resistance of bioinert refractory polycrystalline compounds
7.3 Techniques for the fabrication of bioinert ceramic implants
7.4 Conclusion
Index
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