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Biomaterials for Neural Tissue Engineering
- 1st Edition - April 18, 2023
- Editors: Oguzhan Gunduz, Cem Bulent Ustundag, Mustafa Sengor
- Language: English
- Paperback ISBN:9 7 8 - 0 - 3 2 3 - 9 0 5 5 4 - 1
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 9 0 6 7 4 - 6
Biomaterials for Neural Tissue Engineering covers a range of materials and technologies used for regenerating or repairing neural tissue. With a strong focus on biomateri… Read more
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Request a sales quoteBiomaterials for Neural Tissue Engineering covers a range of materials and technologies used for regenerating or repairing neural tissue. With a strong focus on biomaterials and scaffolds, the book examines the testing and evaluation pathway for in-vitro and in-vivo testing trials. This book introduces the reader to the fundamentals of the nervous system from a tissue engineering perspective and goes on to describe contemporary technologies used in the development of neural repair materials, as well as currently available biomaterials suitable for neural tissue repair and regeneration.
This detailed reference is ideal for those who are new to using biomaterials in tissue engineering, particularly those interested in the nervous system, including academics and early career researchers in the fields of materials science, regenerative medicine, biomedical engineering and clinical sciences.
- Provides readers entering the field with a core introduction to neural tissue engineering processes and real-world applications
- Comprehensively examines a variety of biomaterial approaches
- Discusses the most current in-vitro and in-vivo testing and their importance in treating nervous system disorders
- Details a broad range of natural and synthetic biomaterials used to engineer neural tissue
- Cover image
- Title page
- Table of Contents
- Copyright
- Contributors
- Biographies
- Chapter 1. The need for biomaterials in neural tissue engineering
- Chapter 2. Introduction to the nervous system from tissue engineering perspective
- 2.1. Introduction
- 2.2. Nervous system structure, neurons, neuroglial structure
- 2.3. Nerve injury and natural regeneration
- 2.4. Brain diseases and injury rehabilitation
- 2.5. Spinal cord injuries and central nervous system regeneration
- 2.6. Neural tissue engineering
- 2.7. Neural tissue scaffolding
- Chapter 3. Natural, synthetic, and hybrid and composite biomaterials for neural tissue engineering
- 3.1. Introduction
- 3.2. Material requirements
- 3.3. Natural materials
- 3.4. Synthetic materials
- 3.5. Hybrid materials
- 3.6. Conclusion
- Chapter 4. Carbon-based nanomaterials for nervous tissue engineering
- 4.1. Introduction
- 4.2. Overview of carbon-based materials (CBMs) for nervous tissue engineering
- 4.3. 1D carbon allotropes applied to nerve tissue engineering
- 4.4. 0D carbon allotropes applied to nerve tissue engineering
- 4.5. Final remarks
- Chapter 5. Microfluidic systems for neural tissue engineering
- 5.1. Introduction
- 5.2. Neural tissue engineering
- 5.3. Polymers used for neural tissue engineering
- 5.4. Methods used in neural tissue engineering
- 5.5. Overview of studies on neural tissue engineering using microfluidic system
- 5.6. Concluding remarks and future directions
- Chapter 6. Therapeutic polymer gel system in neural tissue engineering
- 6.1. Introduction
- 6.2. Neural tissue engineering
- 6.3. Natural polymer hydrogel for neural tissue engineering
- 6.4. Synthetic polymer hydrogel for neural tissue engineering
- 6.5. Conclusions
- Chapter 7. Growth factor delivery for neural tissue engineering
- 7.1. Introduction
- 7.2. Biological considerations
- 7.3. Material selection
- 7.4. Delivery strategies for growth factor
- 7.5. Conclusion
- Chapter 8. Computational methods in modeling of scaffolds for neural tissue engineering
- 8.1. Computer-Aided Tissue Engineering (CATE)
- 8.2. Finite element method—indispensable tool for TE scaffold design
- 8.3. TE scaffold optimization methods
- 8.4. Use of artificial intelligence methods in TE scaffold design
- 8.5. Numerical models of TE scaffold degradation
- 8.6. Computational models of tissue regeneration
- Chapter 9. Drug delivery systems for neural tissue engineering
- 9.1. Polymeric nanoparticles (PNPs)
- 9.2. Silica nanoparticles
- 9.3. Magnetic nanoparticles
- 9.4. Metallic nanoparticles
- 9.5. Liposomes
- 9.6. Lipoplex and polyplex nanoparticles
- 9.7. Lipid nanoparticles
- 9.8. Quantum dots (QD)
- 9.9. Carbon nanotubes
- 9.10. Dendrimers
- 9.11. Nanoemulsion
- 9.12. Micelles
- 9.13. Hydrogels
- 9.14. Nanofibers
- 9.15. Challenges and future perspectives
- Chapter 10. Biofabrication techniques for neural tissue engineering
- 10.1. Introduction
- 10.2. Fabrication techniques
- 10.3. Materials suitable for conduits networked architecture
- 10.4. Conclusion and future research
- Chapter 11. Stem cells, bioengineering, and 3D scaffolds for neural tissue engineering
- 11.1. Biomaterials for engineering neural tissue from stem cells
- 11.2. Microfluidic devices in tissue engineering
- 11.3. Drug delivery system for engineering neural tissue from stem cells
- 11.4. Extracellular matrix-derived tissues for neurological tissue engineering
- 11.5. Functionalization of self-assembling peptides for neural tissue engineering
- 11.6. New technologies for engineering neural tissue from stem cells
- 11.7. Generation of neural organoids from stem cells and genome editing for engineering neural tissue
- Chapter 12. Characterization of scaffolds for neural tissue engineering
- 12.1. Introduction
- 12.2. Neural tissue engineering
- 12.3. Ideal properties of scaffolds for forming neural scaffolds
- 12.4. Methods for fabrication of neural scaffolds
- 12.5. Characterization techniques of scaffolds
- 12.6. Concluding remarks and future directions
- Chapter 13. In vitro evaluation of biomaterials for neural tissue engineering
- 13.1. Introduction
- 13.2. The nervous system: cell biology
- 13.3. In vitro studies using biomaterials for neural tissue engineering
- Chapter 14. In vivo evaluation of biomaterials for neural tissue engineering
- 14.1. Realizing the problem and analyzing it comprehensively
- 14.2. Neural tissue engineering perspective in tissue engineering therapies
- 14.3. Regeneration of peripheral and central nervous system
- 14.4. In vitro and in vivo experiments
- 14.5. Animal choice
- 14.6. In vivo testing
- 14.7. Euthanasia
- 14.8. Evaluation of the results
- 14.9. Regulations
- Index
- No. of pages: 480
- Language: English
- Edition: 1
- Published: April 18, 2023
- Imprint: Woodhead Publishing
- Paperback ISBN: 9780323905541
- eBook ISBN: 9780323906746
OG
Oguzhan Gunduz
CU
Cem Bulent Ustundag
MS