About the Book
Harnessing Fiber-based Natural Biomaterials: For Tissue Engineering and Regeneration explores in detail the utilization of these materials in tissue engineering and regenerative medicine. The chapters cover fabrication techniques, scaffold design, cell interactions, and regenerative therapies along with their mechanical aspects. The book begins with an introduction to fundamental concepts, key challenges, and future opportunities for utilizing these materials in biomedical applications. Emphasis is placed on their characteristics and properties, fabrication strategies such as electrospinning, and 3D printing, as well as the source of biomaterials such as plant, animal, marine or microbial-derived biomaterials. A range of applications in tissue engineering and regenerative medicine are detailed, including bone, cartilage, skin, and nervous tissue. This book is a valuable reference for academic and industrial researchers, materials scientists and engineers, manufacturers, chemists, biomedical engineers, and those working in the research and development of natural-based scaffolds for tissue engineering and regenerative medicine.
Table of Contents:
1. Introduction to fiber-based natural biomaterials for tissue engineering and regeneration
2. Characteristics and properties of fiber-based natural biomaterials
3. Strategies for fabrication of fiber-based biomaterials
4. Electrospinning for fabrication of fiber-based natural biomaterials for tissue engineering and regeneration
5. 3D printing technology for fabrication of fiber-based natural biomaterials for tissue engineering and regeneration
6. Plant-derived biomaterials for tissue engineering
7. Animal-derived biomaterials for tissue engineering
8. Marine-derived biomaterials for tissue engineering
9. Microbial-derived biomaterials for tissue engineering
10. Applications of fiber-based natural biomaterials in bone tissue engineering
11. Applications of fiber-based natural biomaterials in cartilage tissue engineering
12. Applications of fiber-based natural biomaterials in skin tissue engineering
13. Applications of fiber-based natural biomaterials in nerve tissue engineering
14. Applications of fiber-based natural biomaterials in cardiac tissue engineering
15. Challenges and advances in fiber-based natural biomaterials for tissue engineering
16. Toxicological and regulatory aspects of natural biomaterials for tissue engineering
17. Case Studies of successful implementation of natural biomaterials for tissue engineering applications
About the Author :
Dr. Mohit Kumar is a Research Scientist in the Natural Composites Research Group Lab, at King Mongkut's University of Technology North Bangkok, Thailand.
He holds a B. Tech from Kurukshetra University, in India; an M. Tech in Mechanical Engineering (Welding and Fabrication) from Sant Longowal Institute of Engineering and Technology (Deemed University), India; and a PhD in Mechanical Engineering (Polymer Composites) from Thapar Institute of Engineering and Technology, India. Dr. Kumar’s research interests mainly focus on the characterization and synthesis of polymer composite materials, with specialization in the aging and durability of FRP composites and finite element modeling. He is also active in exploring the development of natural composites for tissue engineering applications. Dr. Kumar participates in the peer review process for several international journals and serves on numerous editorial boards, reflecting his expertise in materials engineering and composite technologies.
Dr. Manoj Kumar Singh is a Research Scientist at King Mongkut’s University of Technology North Bangkok. He has considerable experience in polymer composite manufacturing and its various characterizations. Currently, he is acting as Associate Editor of Materials Science Section of Heliyon Journal and Guest Editor of International Journal on Interactive Design and Manufacturing, Springer. He is also the Section Editor of Polymer Processing and Engineering in Journal of Polymer Science and Engineering, EnPress. His research interests include plastic waste recycling, pyrolysis, polymer and polymer composites, sustainable manufacturing, additive manufacturing, flame-retardants, mechanical and thermal characterizations, tribology of polymer materials, machining of materials, and the degradability of polymer composites.
Sanjay Mavinkere Rangappa serves as a Principal Research Scientist and Advisor for International Development at King Mongkut's University of Technology North Bangkok, Thailand. He holds a BEng in Mechanical Engineering (2010), an MTech in Computational Analysis (2013), and a PhD in Mechanical Engineering Science (2018) from Visvesvaraya Technological University, India, followed by a Post-Doctorate from KMUTNB (2019). A prolific researcher in materials science and composites, his research focuses on natural fiber composites, polymer composites, and advanced material technology. He has received multiple accolades, including Outstanding Researcher Award 2021 from KMUTNB and recognition in Stanford University's Top 2% Most-Cited Scientists list. He also serves as an Associate Editor for Elsevier’s Heliyon and Frontier Materials, while holding seven patents across UK, Thailand, and India. Prof. Dr.-Ing. habil. Suchart Siengchin serves as the President of King Mongkut's University of Technology North Bangkok (KMUTNB). His academic journey spans German institutions, earning degrees in Mechanical Engineering, Polymer Technology, and Material Science, culminating in a PhD from the University of Kaiserslautern and habilitation from Chemnitz University. A distinguished researcher in polymer processing and composite materials, he serves as the Editor-in-Chief of KMUTNB’s International Journal of Applied Science and Technology. His excellence in research has been recognized with multiple KMUTNB Outstanding Researcher Awards (2010, 2012, 2013) and the National Excellence Researcher Award (2021) from the National Research Council of Thailand. He is ranked among Stanford University's top 2% scientists globally, reflecting his substantial impact in materials science and engineering. Dr. Ajay Sharma is a Natural Product Chemist with a strong Organic Chemistry, Photochemistry, Biochemistry, and Ethnobotany background. Presently, he is working as a Postdoctoral Research Fellow, at the University of Mississippi, Oxford, USA. Previously he worked as a Senior Executive - NFSI Nestle R&D Center, India. He completed his (B.Sc. Medical) from Govt. College Hoshiarpur (affiliated to Panjab University, Chandigarh), Master’s in Organic Chemistry (Natural Products) from Punjab Agriculture University Ludhiana and his PhD (Organic Chemistry – Natural product) from SLIET (Sant Longowal Institute of Engineering & Technology, Deemed University) Punjab. He has published over 45 peer-reviewed papers and book chapters with highly reputed publishers. Presently, he has five edited books under development with different international publishers. His research activities have focused on isolation and characterization of bioactive extracts from traditional medicinal plants and evaluation of their biological potential. Currently, his research group at Chandigarh University is investigating the field of more environmentally friendly synthesis of metal nanoparticles and carbon nanodots using plant extracts/plant-based biomass followed by assessing their biological, catalytic, and sensing potential.
