Nanocellulose and Nanohydrogel Matrices

Dieses erste Buch über Nano-Hydrogele für biomedizinische Anwendungen ist einzigartig - diskutiert werden die jüngsten Entwicklungen auf dem Fachgebiet. Das Ergebnis ist ein umfassender, gut strukturierter Überblick über Nanokomposite und Nano-Hydrogele.

Auteur
Mohammad Jawaid is Fellow Researcher (Associate Professor), at Biocomposite Technology Laboratory, Institute of Tropical Forestry and Forest Products, Universiti Putra Malaysia (UPM) (Malaysia) and Visiting Lecturer to Aerospace Manufacturing Research Centre, Faculty of Engineering, UPM. He also serves as Visiting Professor at Department of Chemical Engineering, College of Engineering, King Saud University (Saudi Arabia) and Visiting Scholar to TEMAG Labs, Department of Textile Engineering, Istanbul Technical University (Turkey). He received his Ph.D. from Universiti Sains Malaysia (Malaysia) and holds more than 10 years of experience from teaching and research in both academics and industry. His areas of research interests include hybrid reinforced and filled polymer composites, fire retardants, lignocellulosic fibres and solid wood, as well as nano composites and nanocellulose fibres.
Faruq Mohammad is currently working as an assistant professor at the Surfactant Research Chair, Department of Chemistry, College of Science, King Saud University in Kingdom of Saudi Arabia since March 2016. His Post-Doctoral Research experiences are from Institute of Advanced Technology, Universiti Putra Malaysia (Malaysia), School of Pharmacy, North-West University (Republic of South Africa), and Health Research Center, Southern University and A&M College (USA). He obtained his Ph.D. from the department of Environmental Toxicology, Southern University and A&M College, USA, in May 2011. His present research interests include biosensors, polymeric nano drug delivery systems, nanomaterials toxicity, hyperthermia-based cancer therapy, as well as biomaterials for sustainability and catalysis.

Résumé
This first book on nanocellulose and nanohydrogels for biomedical applications is unique in discussing recent advancements in the field, resulting in a comprehensive, well-structured overview of nanocellulose and nanohydrogel materials based nanocomposites.
The book covers different types of nanocellulose materials and their recent developments in the drug delivery and nanomedicine sector, along with synthesis, characterization, as well as applications in the biotechnological and biomedical fields. The book also covers the current status and future perspectives of bacterial cellulose and polyester hydrogel matrices, their preparation, characterization, and tissue engineering applications of water soluble hydrogel matrices obtained from biodegradable sources. In addition, the chitosan-based hydrogel and nanogel matrices, their involvement in the current biofabrication technologies, and influencing factors towards the biomedical sector of biosensors, biopharmaceuticals, tissue engineering appliances, implant materials, diagnostic probes and surgical aids are very well documented. Further, the history of cellulose-based and conducting polymer-based nanohydrogels, their classification, synthesis methods and applicability to different sectors, the challenges associated with their use, recent advances on the inhibitors of apoptosis proteins are also included. The recent developments and applications in the drug delivery sector gives an overview of facts about the nanofibrillated cellulose and copoly(amino acid) hydrogel matrices in the biotechnology and biomedicine field. This book serves as an essential reference for researchers and academics in chemistry, pharmacy, microbiology, materials science and biomedical engineering.

Contenu

List of Contributors xvii

1 Application of Nanocellulose for Controlled Drug Delivery 1
Lalduhsanga Pachuau

1.1 Introduction 1

1.2 Biodegradability, Cytotoxicity, and Cellular Internalization of Nanocellulose 3

1.3 Nanocellulose in Nanoparticulate Drug Delivery 5

1.4 Nanocellulose in Microparticulate Drug Delivery 8

1.5 Nanocellulose in Tablet Formulations 10

1.6 Aerogel Systems 10

1.7 Hydrogels 11

1.8 Nanocellulose in Transdermal Drug Delivery 13

2 Bacterial Cellulose and Polyester Hydrogel Matrices in Biotechnology and Biomedicine: Current Status and Future Prospects 21
Rajnikant Borkar, Sanghratna S. Waghmare, and Tanvir Arfin

2.1 Introduction 21

2.2 Chemical Structure of Cellulose 21

2.3 Types of Cellulose 21

2.4 Bacterial Cellulose 22

2.5 Chemical Structure of BC 22

2.6 History of BC 23

2.7 Biosynthesis of Bacterial Cellulose 23

2.8 Properties 23

2.9 Present Status of BC 28

2.10 Applications 29

2.11 Future Prospects 33

2.12 Polyester Hydrogels 33

2.13 Chemical Structure of Hydrogels 33

2.14 Types of Hydrogels 34

2.15 Properties of Hydrogels 34

2.16 Historical Background of Polyester Hydrogels 36

2.17 Recent Developments of Polyester Hydrogels 37

2.18 Applications of Polyester Hydrogels 38

3 Bacterial Nanocellulose Applications for Tissue Engineering 47
Muhammed Lamin Sanyang, Naheed Saba, Mohammad Jawaid,Faruq Mohammad, and Mohd Sapuan Salit

3.1 Introduction 47

3.2 Cellulose 47

3.3 Nanocellulose and Its Types 50

3.4 Isolation and Preparation of Bacterial Cellulose 53

3.5 BC Properties for Tissue Engineering Applications 54

3.6 Tissue Engineering Applications 58

4 Cellulose-Based Nanohydrogels for Tissue Engineering Applications 67
Kalyani Prusty and Sarat K. Swain

4.1 Introduction 67

4.2 Preparation of Hydrogels/Cellulosic Hydrogels 69

4.3 Characterization of Hydrogels/Cellulosic Hydrogels 71

4.4 Properties of Hydrogels 76

4.5 Cellulose-Based Nanohydrogels for Tissue Engineering Applications 81

5 Chitosan-Mediated Layer-by-Layer Assembling Approach for the Fabrication of Biomedical Probes and Advancement of Nanomedicine 91
Faruq Mohammad and Hamad A. Al?]Lohedan

5.1 Introduction 91

5.2 Chitosan for Biofabrication 92

5.3 Derivatization of Chitosan 94

5.4 Chitosan-Mediated Biofabrication: Different Shapes and LBL Assembly 96

5.5 Chitosan-Mediated Assembly of Biomedical Probes and Devices 100

5.6 Factors Influencing the Characteristics of Chitosan toward Biomedical Applications 109

5.7 Summary and Conclusion 115

6 Hydrogels Based on Nanocellulose and Chitosane: Preparation, Characterization, and Properties 125
Meriem Fardioui, Abou el kacem Qaiss, and Rachid Bouhfid

6.1 Introduction 125

6.2 Polymeric Aerogels 126

6.3 Chitosan and Functionalized Chitosan Hydrogels 131

6.4 Biopolymeric Aerogels in Biomedical Applications 134

7 Cellulose Nanocrystals and PEO/PET Hydrogel Material in Biotechnology and Biomedicine: Current Status and Future Prospects 139
Shoeb Athar, Rani Bushra, and Tanvir Arfin

7.1 Introduction 139

7.2 Cellulose Nanocrystals 140

7.3 Polyethylene Oxide (PEO)/Polyethylene Terephthalate (PET) Hydrogel 155

8 Conducting Polymer Hydrogels: Synthesis, Properties, and Applications for Biosensors 175
Yu Zhao

8.1 Introduction 175

8.2 Synthesis and Processing of CPHs 177

8.3 CPHs for Electrochemical Biosensors 182

8.4 Conclusion 200 **9 Nanocellulose and Nanogels as Modern Drug Delivery Systems 209</b&gt...