Advances in Biomedical Polymers and Composites

Advances in Biomedical Polymers and Composites

Materials and Applications

Verma, Sarika; Datta, Pallab; Srivastava, Avanish Kumar; Barui, Ananya; Pal, Kunal; Hashmi, S.A.R.

Elsevier - Health Sciences Division

09/2022

844

Mole

Inglês

9780323885249

15 a 20 dias

1680

Descrição não disponível.

1. Introduction to Biomedical Polymer And Composites
2. Foundations of biomedical composite science
3. Biopolymer-based composites for drug delivery applications- A scientometric analysis
4.Characteristics and characterization techniques of bacterial cellulose for biomedical applications
5. Engineering scaffolds for tissue engineering and regenerative medicine
6. Recent Trends in Polymeric Composites and Blends for 3D Printing and Bioprinting
7. Polymers for additive manufacturing and 4D-printing
8. Bioprinting of Hydrogels for Tissue Engineering and Drug Screening Applications
9. Smart polymers for biomedical applications
10. Chitosan-based nanoparticles for ocular drug delivery
11. Conducting polymers for potential biomedical applications
12. Introduction to biomedical shape memory polymers
13. Contemporary rapid prototyping processes in biomedical applications
14. Self-assembled polymer nanocomposites in biomedical applications
15. Thermoresponsive polymers and polymeric composites
16. Ceramic particle dispersed polymer composites
17. Electrospinning for biomedical applications
18. Advances in Biomedical Composites as Drug Delivery Systems
19. Natural gums of plant and microbial origin for tissue engineering applications
20. Polymers and Nanomaterials as gene delivery systems
21. Essential oil-loaded biopolymeric films for wound healing applications
22. Biomedical Antifouling Polymer Nanocomposites
23. Antiviral polymer materials
24. Biosensor: Fundamental, Biomolecular Component and Applications
25. Microbial cell encapsulation
26. Carbon Nanotubes Based Composites Materials for Biomedical Applications: An Overview
27. Cryogels as Smart Polymers in Biomedical Applications
28. Naturally Derived Bioceramics - Polymer Composite for Biomedical Applications
29. Molecularly imprinted polymers for biomedical applications
30. Natural biopolymer scaffolds for bacteriophage delivery in the medical field

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3D bioprinting; 3D cell culture; 3D printing; 3D-(bio)printing; 4D printing; Activation temperature; Additive manufacturing; Alginate; Analytes; Anti-body; Antibacterial property; Antifouling; Antiviral activity; Applications; Bacterial cellulose; Bacteriophages; Bio-receptor; Bio-sensing; Biocompatibility; Biocomposite; Biofilm; Bioimaging; Biological properties; Biomaterial; Biomaterials; Biomedical; Biomedical application; Biomedical applications; Biomedical field; Biomedical fouling; Biomedical polymer; Biomedical polymer composites; Biopolymers; Biosensor; Biotechnology; Biowaste materials; Cancer therapy; Carbon nanotubes; Chitosan; Clinical applications; Composites; Computational; Conducting polymers; Conductive shape-memory polymers; Copolymers; Cryogel; Cryopolymerization; Customized products; Delivery; Dendrimer; Development; Drug delivery; Drug screening; Electrodeposition; Electrodes; Electrospinning; Emulsification; Encapsulation; Energy; Enzymes; Essential oils; Eye; Flexible; Fracture healing; Functional polymer; Functionalization; Gas permeability; Gellan gum; Gene delivery systems; Gene therapy; Glass transition; Guar gum; Hydrogel bioink; Hydroxyapatite; Immobilization; Instrumental analysis; MWCNTs; Magnetization; Metallic implants; Molecular dynamics; Molecularly imprinted polymers (MIPs); Nanocomposites; Nanoparticle; Nanoparticles; Natural and synthetic polymer; Natural gum; Ocular drug delivery; Optical properties; Parameters; Patient-specific scaffolds; Physicochemical properties; Polymer; Polymer composite fabrication; Polymer composites; Polymer synthesis; Polymer-drug conjugates; Polymeric composites and blends; Polymeric gel; Polymers; Printability