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2.2 Oxidative Biodegradation3 Biodegradable Polymer Used as Biomaterials for Bone Tissue Engineering; 3.1 Synthetic Polymer for TE; 3.1.1 Polyesters; 3.1.2 Polyanhydrides; 3.1.3 Polymers Including C-C Bond in Main Chain; 3.2 Natural Polymer for TE; 3.2.1 Polyhydroxyalkanoates; 3.2.2 Collagen; 3.3 Silk Fibroin; 3.4 Chitosan; 3.5 Alginate; 3.6 Cellulose; 3.7 Hyaluronic Acid; 4 Conclusions; References; Seaweed Polysaccharides: Structure and Applications; 1 Introduction; 2 Polysaccharides from Red Seaweeds; 2.1 Structure; 2.1.1 Carrageenans; 2.1.2 Agarans; 2.1.3 dl-Hybrids.

Preface; Contents; Synthesis and Applications of Carbohydrate-ƯBased Polyurethanes; 1 Introduction; 2 Classification of Polyurethanes: Thermoplastic or Thermosetting; 3 Synthesis of Polyurethanes: Formation of the Urethane Linkage; 4 Combination of Polyurethanes with Oligo- or Polysaccharides; 4.1 Alginate; 4.2 Chitin and Chitosan; 4.3 Heparin; 4.4 Starch and Cellulose; 5 Concluding Remarks; References; Part I: Medical Applications; Biodegradable Polymers for Bone Tissue Engineering; 1 Introduction; 2 Biodegradation of Polymeric Materials; 2.1 Hydrolytic Biodegradation.

2.1.4 Sulfated Mannans and Xylomannans2.2 Industrial Applications; 2.3 Biological Activities; 2.3.1 Antiviral Activity; 2.3.2 Anticoagulant Activity; 2.3.3 Antitumor Activity and Related Activities; 2.3.4 Other Biological Activities; 2.3.5 Toxicity of Carrageenans; 2.4 Biomedical Applications; 3 Polysaccharides from Brown Seaweeds; 3.1 Structure; 3.1.1 Alginates; 3.1.2 Fucoidans; 3.1.3 Industrial Applications; 3.2 Biological Activities; 3.2.1 Antiviral Activity; 3.2.2 Anticoagulant Activity; 3.2.3 Antitumor Activity and Related Activities; 3.2.4 Other Biological Activities.

3.3 Biomedical Applications4 Green Seaweed Polysaccharides; 4.1 Structure; 4.2 Biological Activities; 4.2.1 Antiviral Activity; 4.2.2 Anticoagulant Activity; 4.2.3 Antitumor Activity and Related Activities; 4.2.4 Other Biological Activities; 4.3 Biomedical Applications; 5 Conclusions; References; Innovative Systems from Clickable Biopolymer-Based Hydrogels for Drug Delivery; 1 Introduction; 2 Hydrogels and Click Chemistry; 3 Copper-Catalyzed Azide-Alkyne (CuAAC) Reaction; 4 Copper-Free Click Chemistry; 4.1 Strain-Promoted Azide-Alkyne Cycloaddition (SPAAC).

4.2 Radical-Mediated Thiol-ene Chemistry4.3 Diels-Alder Reaction; 4.4 Michael Addition; 5 Conclusions (Future Prospects); References; Applications of Glycosaminoglycans in the Medical, Veterinary, Pharmaceutical, and Cosmetic Fields; 1 Introduction; 2 Recent Advances in the Production of GAGS; 3 Alzheimer's Disease; 4 Antimicrobials and Antivirals; 5 Cancer; 6 Inflammation and Immunity; 7 Skin and Cosmetics; 8 Tissue Engineering: Cross-Linked GAGS for Biomedical Applications; 9 Other Applications; 10 Conclusions; References.

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