Hemocompatibility of Biomaterials for Clinical Applications: Blood-Biomaterials Interactions
Editat de Christopher Siedleckien Limba Engleză Hardback – 31 oct 2017
- Provides comprehensive information on the fundamentals of hemocompatibility and new technologies
- Combines research in the biomaterials field in a digestible format for clinical applications
- Provides a complete overview biomaterials in current use and test methods
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Specificații
ISBN-13: 9780081004975
ISBN-10: 0081004974
Pagini: 482
Dimensiuni: 152 x 229 mm
Greutate: 1.02 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0081004974
Pagini: 482
Dimensiuni: 152 x 229 mm
Greutate: 1.02 kg
Editura: ELSEVIER SCIENCE
Public țintă
researchers interested in blood-surface interactions, manufacturers of blood-contacting devices (e.g. stents, catheters, vascular grafts), researchers concerned with surfaces and interfaces, general biomaterials and medical device researchersCuprins
1. Introduction
Part I General
2. Blood composition, function and response to biomaterials
3. Modelling the hemocompatibility of biomaterials and medical devices
4. Tuning platelet responses to improve implant integration
5. Standards and test protocols for testing the hemocompatibility of biomaterials
6. Test methods for hemocompatibility of biomaterials
Part II Improving the hemocompatibility of biomaterial surfaces
7. Analysing biomaterial surfaces and blood-surface interactions
8. Techniques for modifying biomaterial surfaces to improve hemocompatibility
9. Coatings for biomaterials to improve hemocompatibility
Part III Improving the hemocompatibility of types of biomaterial
10. Improving the hemocompatibility of biomedical polymers
11. Improving the hemocompatibility of metallic biomaterials
12. Improving the hemocompatibility of ceramic biomaterials
13. Improving the hemocompatibility of biomedical composites
Part IV Improving the hemocompatibility of biomedical devices
14. Improving the hemocompatibility of stents
15. Improving the hemocompatibility of blood filters for biomedical applications
16. Improving the hemocompatibility of oxygenators for biomedical applications
17. Improving the hemocompatibility of vascular grafts
18. Improving the hemocompatibility of heart valves
19. Improving the hemocompatibility of neural implants
Part I General
2. Blood composition, function and response to biomaterials
3. Modelling the hemocompatibility of biomaterials and medical devices
4. Tuning platelet responses to improve implant integration
5. Standards and test protocols for testing the hemocompatibility of biomaterials
6. Test methods for hemocompatibility of biomaterials
Part II Improving the hemocompatibility of biomaterial surfaces
7. Analysing biomaterial surfaces and blood-surface interactions
8. Techniques for modifying biomaterial surfaces to improve hemocompatibility
9. Coatings for biomaterials to improve hemocompatibility
Part III Improving the hemocompatibility of types of biomaterial
10. Improving the hemocompatibility of biomedical polymers
11. Improving the hemocompatibility of metallic biomaterials
12. Improving the hemocompatibility of ceramic biomaterials
13. Improving the hemocompatibility of biomedical composites
Part IV Improving the hemocompatibility of biomedical devices
14. Improving the hemocompatibility of stents
15. Improving the hemocompatibility of blood filters for biomedical applications
16. Improving the hemocompatibility of oxygenators for biomedical applications
17. Improving the hemocompatibility of vascular grafts
18. Improving the hemocompatibility of heart valves
19. Improving the hemocompatibility of neural implants