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Natural Polymers in Wound Healing and Repair. From Basic Concepts to Emerging Trends

  • Book

  • June 2022
  • Elsevier Science and Technology
  • ID: 5527411

Natural Polymers in Wound Healing and Repair: From Basic Concepts to Emerging Trends presents comprehensive coverage on the development and application of natural polymers in wound healing and repair, including fundamental concepts, traditional approaches, cutting-edge methods and emerging trends. The application of natural polymers has evolved from their use in the simplest wound management material, to drug eluting matrices, to cell-laden constructs, and to 3D bio-printed skin equivalents. This book reflects the remarkable progress that has been made in recent years in this innovative field.

This is an essential resource for researchers, scientists, and advanced students across polymer science, biomaterials, bio-based and sustainable materials, biomedicine, biomedical engineering, pharmaceuticals, and materials science and engineering. It will also be valuable to R&D professionals, scientists, technologists and all those working in a medical setting who are interested in the latest developments in advanced materials for wound management, healing and repair.

Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.

Table of Contents

1. Fundamentals of skin wound healing and repair: Cellular and molecular pathophysiology of wound healing
2. Traditional and advanced wound dressings: Physical Characterisation and desirable properties for wound healing
3. Natural polymers for wound healing: Acellular matrix analogues use of natural polymers
4. Controlled drug delivery system for wounds healing: formulations and delivery required therapeutic agents
5. Natural polymers for wound healing: Cell laden matrix analogues use of natural polymers
6. Artificial skin: Current advanced methods of fabrication and development
7. Natural polymer based hydrogel systems for wound management
8. Natural polymer based electrospun systems for wound management
9. 3D bioprinting using natural polymers as bioinks for wound healing and repair
10. Blood derived products as additives in wound healing and repair
11. Natural antimicrobial and bioactive agents as additives in wound dressings
12. Curcumin based strategies in wound healing and repair
13. Collagen-based strategies in wound healing and skin tissue engineering
14. Silk based strategies in wound healing and skin tissue engineering
15. Chitin and chitosan-based strategies in wound healing and skin tissue engineering
16. Alginate based strategies in wound healing and skin tissue engineering
17. Eggshell membrane based strategies in wound healing and skin tissue engineering
18. Decellularized extracellular matrices-based strategies in wound healing and skin tissue engineering
19. Innovative approaches and future perspectives of natural polymers in wound healing and repair

Authors

Mahesh K. Sah Assistant Professor, Department of Biotechnology, Dr. B. R. Ambedkar National Institute of Technology, Jalandhar, Punjab, India. Dr. Mahesh K. Sah is Assistant Professor at the Department of Biotechnology, Dr. B. R. Ambedkar National Institute of Technology, Jalandhar, Punjab, India. Dr. Mahesh received his PhD from Department of Biotechnology and Medical Engineering, National Institute of Technology Rourkela, Odisha, India in 2013. After gaining post-doctoral training from Department of Biomedical Engineering, Indian Institute of Technology Hyderabad, he joined at Department of Biotechnology, National Institute of Technology, Andhra Pradesh, and since January 2018 he is serving Department of Biotechnology, National Institute of Technology Jalandhar, Punjab. He has been awarded Bharat Vikas Award-2016 and Green Thinkerz Award-2019 for his contribution in the area of biotechnology. He is working on development of natural based biomaterials for tissue regeneration equipped with advanced tools and techniques in the field aiming for green materials and techniques for tissue engineering. Naresh Kasoju Sree Chitra Tirunal Institute for Medical Sciences and Technology, Thiruvananthapuram, India. Dr. Kasoju obtained Ph.D. from Department of Biotechnology, Indian Institute of Technology, Guwahati, India in 2012, followed by post-doctoral training from Institute of Macromolecular Chemistry, Prague, Czech Republic, Department of Zoology, as well as Institute of Biomedical Engineering, University of Oxford, Oxford, UK, before joining Sree Chitra Tirunal Institute for Medical Sciences and Technology, Thiruvananthapuram, India in October 2017. His areas of research interests include fabrication of novel biomaterial structures, understanding cell - material interactions and development of tissue engineered constructs. Joao F. Mano Full Professor, CICECO - Aveiro Institute of Materials, Department of Chemistry, University of Aveiro, Campo Universitario de Santiago, Aveiro, Portugal. Jo�o F. Mano (CEng, PhD, DSc) is a Full Professor at the Chemistry Department of University of Aveiro, Portugal, where he is directing both the MSc and PhD programs of Biotechnology. He is the founder and director of the COMPASS Research Group, from the Associated Laboratory CICECO - Aveiro Institute of Materials. His research interests include the use of advanced biomaterials and cells towards the progress of transdisciplinary concepts to be employed in regenerative and personalised medicine. In particular, he has been applying biomimetic and nano/micro-technology approaches to polymer-based biomaterials and surfaces in order to develop biomedical devices with improved structural and (multi-)functional properties, or in the engineering of microenvironments to control cell behaviour and organization, to be exploited clinically in advanced therapies or in drug screening. Jo�o Mano is the Editor-in-Chief of Materials Today Bio (Elsevier). He has been coordinating or involved in many national and European research projects, including Advanced and Proof-of-Concept Grants from the European Research Council. Jo�o Mano is an elected fellow of the European Academy of Sciences.