Product details:
| ISBN13: | 9780323856614 |
| ISBN10: | 0323856616 |
| Binding: | Paperback |
| No. of pages: | 790 pages |
| Size: | 228x152 mm |
| Language: | English |
| Illustrations: | 150 illustrations (50 in full color) |
| 700 |
Category:
Biomaterials for Precision Cancer Medicine
Publisher: Woodhead Publishing
Date of Publication: 1 October 2024
Normal price:
Publisher's listprice:
EUR 330.00
EUR 330.00
Your price:
122 557 (116 721 HUF + 5% VAT )
discount is: 10% (approx 13 617 HUF off)
The discount is only available for 'Alert of Favourite Topics' newsletter recipients.
Click here to subscribe.
Click here to subscribe.
Availability:
Not yet published.
Long description:
Biomaterials for Precision Cancer Medicine bridges the gap between materials science and medicine, providing insights into novel biomaterial-based treatments for cancer. The book describes the various smart biomaterial-based treatments available, reviewing how they can be designed to target specific tumor types, adapt to changes in the cell microenvironment and offer smart, personalized therapy for different cancer variants, especially those which are drug-resistant. The book provides a materials-focused look at precision cancer medicine, and is thus useful to materials scientists, biomedical engineers, and biomedical scientists - including cancer and genetic specialists - with an interest in alternative cancer therapies.
Table of Contents:
1. Introduction to cancer
2. Cancer therapy in the era of precision medicine
3. Precision medicine: Aspects in translational medicine
4. Biomaterials: Fundamentals, processing, and applications
5. Possible targets for biomaterials in cancer treatment
6. Biomaterials-based cancer diagnostics: Recent advances
7. Anti-cancer biomaterials: A special design for precision medicine
8. Natural plant-derived anti-cancer biomaterials
9. Combination cancer therapy by bio-macromolecules and small molecules
10. Biomaterials for cancer immunotherapy
11. Biomaterials for engineering tumor microenvironment
12. Biomaterials for cancer targeted drug delivery
13. Engineered smart biomaterials for anti-cancer gene delivery
14. Biofunctionalization of materials for targeting cancer cells
15. Reactive oxygen species (ROS)-responsive materials in cancer therapy
16. Natural polymers for diagnosis and treatment of cancers
17. Synthetic polymers for malignancies treatment
18. Polymer-protein and polymer-drug conjugates in cancer therapy
19. Magnetic calcium phosphates for imaging and treating of cancers
20. Hydroxyapatite nanoparticles as anti-cancer agents
21. Bioactive magnetic glass-ceramics for cancer treatment
22. Mesoporous glasses in cancer therapy
23. Carbon biomaterials for cancer therapy: opportunities and challenges
24. Metals and metal compounds for cancer photothermal therapy
25. Smart nanoparticles for the treatment of drug-resistant tumors
26. Managing malignancies by magnetic electrospun nanofibers
27. Multiparametric preclinical assessment of theranostics materials
28. Health risk assessment of anti-cancer biomaterials
29. Future perspectives and challenges for biomaterials
2. Cancer therapy in the era of precision medicine
3. Precision medicine: Aspects in translational medicine
4. Biomaterials: Fundamentals, processing, and applications
5. Possible targets for biomaterials in cancer treatment
6. Biomaterials-based cancer diagnostics: Recent advances
7. Anti-cancer biomaterials: A special design for precision medicine
8. Natural plant-derived anti-cancer biomaterials
9. Combination cancer therapy by bio-macromolecules and small molecules
10. Biomaterials for cancer immunotherapy
11. Biomaterials for engineering tumor microenvironment
12. Biomaterials for cancer targeted drug delivery
13. Engineered smart biomaterials for anti-cancer gene delivery
14. Biofunctionalization of materials for targeting cancer cells
15. Reactive oxygen species (ROS)-responsive materials in cancer therapy
16. Natural polymers for diagnosis and treatment of cancers
17. Synthetic polymers for malignancies treatment
18. Polymer-protein and polymer-drug conjugates in cancer therapy
19. Magnetic calcium phosphates for imaging and treating of cancers
20. Hydroxyapatite nanoparticles as anti-cancer agents
21. Bioactive magnetic glass-ceramics for cancer treatment
22. Mesoporous glasses in cancer therapy
23. Carbon biomaterials for cancer therapy: opportunities and challenges
24. Metals and metal compounds for cancer photothermal therapy
25. Smart nanoparticles for the treatment of drug-resistant tumors
26. Managing malignancies by magnetic electrospun nanofibers
27. Multiparametric preclinical assessment of theranostics materials
28. Health risk assessment of anti-cancer biomaterials
29. Future perspectives and challenges for biomaterials