Screen LibraryNanofiber composites for biomedical applications /
Saved in:
| Corporate Authors: | |
|---|---|
| Group Author: | ; |
| Published: |
Woodhead Publishing is an imprint of Elsevier,
|
| Publisher Address: | Duxford, United Kingdom : |
| Publication Dates: |
[2017] ©2017 |
| Literature type: | eBook |
| Language: | English |
| Series: |
Woodhead Publishing series in biomaterials
|
| Subjects: | |
| Online Access: |
https://www.sciencedirect.com/science/book/9780081001738 |
| Carrier Form: | 1 online resource. |
| Bibliography: | Includes bibliographical references and index. |
| ISBN: |
9780081002087 0081002084 |
| Index Number: | TA418 |
| CLC: | TB383 |
| Contents: |
Introduction to nanofiber composites -- Introduction to nanofiber composites / Introduction -- Classification of nanofiber composites -- Properties of nanofiber composites -- Fabrication methods of nanofiber composites -- Characterization techniques of nanofiber composites -- Biomedical applications of nanofiber composites -- Clinical translational aspects of nanofiber composites -- Commercial aspects of nanofiber composites -- Concluding remarks -- References -- Ceramic nanofiber composites / Types of ceramic nanofiber composite -- Properties of ceramic nanofiber composite -- Fabrication methods -- Biomedical applications of ceramic nanofiber composite -- Polymer nanofiber composites / Nanofiber composites using electrospinning -- Modified electrospinning setup for scaffold design -- Biofunctionalization of fibrous scaffolds -- Application of nanofiber composites -- Future perspectives of polymer nanofiber -- Acknowledgments -- Metallic nanofiber composites / Technological aspect -- Metallic nanofiber composite applications in bio-medical and health care -- Conclusions and future perspectives -- Physicochemical characterization of nanofiber composites / Physicochemical characterization at molecular level -- Physicochemical characterization at surface level -- Physicochemical characterization at materials level -- Conclusion -- Mechanical characterization of nanofiber composites / Nanotechnology and biomedicine -- Tissue engineering -- Scaffolds for tissue engineering -- Electrospinning -- Mechanical properties of nanofibers: case studies -- Conclusion and future direction -- Acknowledgment -- Biological characterization of nanofiber composites / Morphological characterization of nano fibers -- Biomedical applications implicated characterization -- Cell nanofiber scaffold interactive characterization -- Biomedical Applications of Nanofiber Composites -- Nanofiber composites in drug delivery / Implications of nanofiber-based DDS in health care -- Composite nanofibers for drug delivery -- Applications of composite nanofibers as DDS -- Future prospects -- Nanofiber composites in biomolecular delivery / Importance of biomolecules in biomedical applications -- Composite nanofibers for biomolecular delivery -- Release strategy of biomolecules from composite nanofiber scaffolds -- Applications of composite nanofibers for biomolecular delivery -- Preclinical status -- Nanofiber composites in gene delivery / Nanofiber composites-mediated gene delivery -- Characterization techniques -- Classification -- Pharmacology and kinetics: gene delivery -- Current status -- Nanofiber composites in skin tissue engineering / Skin morphology -- Skin disorders -- Wound healing process -- Types of skin grafts and skin substitutes -- Composite Nanofibrous Mats -- Impact of nanofibers in skin regeneration process -- Nanofiber composites in bone tissue engineering / Topic overview -- Rationale for the selection of the inorganic phase for bone tissue engineering applications -- Electrospinning and its integration with other scaffold fabrication techniques for bone tissue engineering -- Three dimensional nanofibrous structures for bone tissue engineering -- Functionalized nanofiber composites -- In vivo applications of nanofiber composites for bone tissue regeneration -- Conclusions -- Acknowledgements -- Nanofiber composites in cartilage tissue engineering / Microstructure of cart |