Nanomaterials in tissue engineering Fabrication and applications 1st Edition by Akhilesh Gaharwar, Shilpa Sant, Matthew Hancock ISBN 085709596X 9780857095961
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ISBN 10: 085709596X
ISBN 13: 9780857095961
Author: Akhilesh Gaharwar, Shilpa Sant, Matthew Hancock
Nanomaterial technologies can be used to fabricate high-performance biomaterials with tailored physical, chemical, and biological properties. They are therefore an area of interest for emerging biomedical technologies such as scaffolding, tissue regeneration, and controlled drug delivery. Nanomaterials in tissue engineering explores the fabrication of a variety of nanomaterials and the use of these materials across a range of tissue engineering applications.
Part one focuses on the fabrication of nanomaterials for tissue engineering applications and includes chapters on engineering nanoporous biomaterials, layer-by-layer self-assembly techniques for nanostructured devices, and the synthesis of carbon based nanomaterials. Part two goes on to highlight the application of nanomaterials in soft tissue engineering and includes chapters on cardiac, neural, and cartilage tissue engineering. Finally, the use of nanomaterials in hard tissue engineering applications, including bone, dental and craniofacial tissue engineering is discussed in part three.
Nanomaterials in tissue engineering is a standard reference for researchers and tissue engineers with an interest in nanomaterials, laboratories investigating biomaterials, and academics interested in materials science, chemical engineering, biomedical engineering and biological sciences.
Nanomaterials in tissue engineering Fabrication and applications 1st Table of contents:
1. Biomedical nanomaterials in tissue engineering
1.1 Introduction
1.2 Overview of nanomaterials in tissue engineering
1.3 Biomedical nanomaterials in tissue engineering applications
1.4 Future trends
1.5 References
Part I Fabrication of nanomaterials for tissue engineering applications
2. Synthesis of polymeric nanomaterials for biomedical applications
2.1 Introduction
2.2 Types of polymers used in nanomaterials
2.3 Synthesis of polymeric nanoparticles
2.4 Synthesis of polymeric scaffolds
2.5 Characterization of the nanomaterials
2.6 Future trends
2.7 References
3. Engineering nanoporous biomaterials
3.1 Introduction
3.2 Nanotubes and etched nanoporous surfaces
3.3 Self-assembled supramolecular organic templates
3.4 Self-assembled colloidal templates
3.5 Conclusion
3.6 References
4. Layer-by-layer self-assembly techniques for nanostructured devices in tissue engineering
4.1 Introduction
4.2 Interaction between biomaterials as ingredients for multilayer formulations
4.3 Scalability to three dimensions
4.4 Application of nanostructured multilayer devices in tissue engineering
4.5 Conclusion
4.6 References
5. Synthesis of carbon based nanomaterials for tissue engineering applications
5.1 Introduction
5.2 Carbon nanotubes and fibers
5.3 Fullerenes (C60)
5.4 Graphene
5.5 Nanodiamond systems
5.6 Carbon-nanostructured materials
5.7 Conclusion
5.8 References
6. Fabrication of nanofibrous scaffolds for tissue engineering applications
6.1 Introduction
6.2 Methods for nanofibrous scaffolds fabrication
6.3 Surface modification of nanofibrous scaffolds
6.4 Applications of nanofibrous scaffolds in tissue engineering
6.5 Conclusion
6.6 References
7. Fabrication of nanomaterials for growth factor delivery in tissue engineering
7.1 Introduction
7.2 Strategies for controlled growth factor delivery in tissue engineering
7.3 Nanostructures for growth factor delivery in tissue engineering
7.4 Nanofibers
7.5 Nanoparticles
7.6 Strategies for dual growth factor, drug and gene delivery
7.7 Clinical prospective of nanostructures with growth factor delivery in tissue engineering
7.8 Conclusion and future trends
7.9 References
Part II Application of nanomaterials in soft tissue engineering
8. Nanomaterials for engineering vascularized tissues
8.1 Introduction
8.2 Biocomplexity of vascularized tissues
8.3 Engineering nanomaterials to improve vascularization of tissues
8.4 Clinical progress
8.5 Conclusion and future trends
8.6 References
9. Nanomaterials for cardiac tissue engineering
9.1 Introduction
9.2 Heart muscle structure and diseases
9.3 Cardiac tissue engineering (CTE)
9.4 Application of nanomaterials and nanofabrication methods in CTE
9.5 Case study: magneto-mechanical cell stimulation to promote CTE
9.6 Conclusion and future trends
9.7 Acknowledgements
9.8 References
10. Nanomaterials for neural tissue engineering
10.1 Introduction to neural tissue engineering
10.2 Nano-scaffold design techniques
10.3 Nano-structures
10.4 Biomaterials for scaffold design
10.5 Drawbacks of the use of nanomaterials
10.6 Conclusion and future trends
10.7 Acknowledgements
10.8 References
11. Nanomaterials for cartilage tissue engineering
11.1 Introduction
11.2 Cartilage biology and structure
11.3 Clinical approaches in the treatment of cartilage defects
11.4 Nanomaterials: strategies for cartilage regeneration
11.5 Conclusion
11.6 References
12. Biomaterials and nano-scale features for ligament regeneration
12.1 Introduction
12.2 Anterior cruciate ligament (ACL) composition, structure and properties
12.3 Injury, healing and treatment of the ACL
12.4 Engineered scaffold materials for ligament regeneration
12.5 Methods for enhancing engineered scaffolds for ligament regeneration
12.6 Conclusion and future trends
12.7 References
Part III Application of nanomaterials in hard tissue engineering
13. Nanomaterials for hard–soft tissue interfaces
13.1 Introduction
13.2 Nanoparticles
13.3 Nanofibers
13.4 Strategies incorporating nanomaterials in hard–soft tissue interfaces
13.5 Conclusion and future trends
13.6 Acknowledgments
13.7 References
14. Mineralization of nanomaterials for bone tissue engineering
14.1 Bone: a nanobiocomposite material
14.2 Collagen as a biomaterial
14.3 Approaches to the mineralization of collagenous constructs
14.4 Conclusion
14.5 References
15. Nanomaterials for dental and craniofacial tissue engineering
15.1 Introduction
15.2 Nanotechnology for engineered substrates
15.3 Engineering mineralized collagenous craniofacial structures
15.4 Nano-scale scaffolds with integrated delivery systems
15.5 Micro/nano-arrays as libraries for high-throughput characterization
15.6 Conclusion
15.7 References
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Tags: Akhilesh Gaharwar, Shilpa Sant, Matthew Hancock, Nanomaterials, Fabrication