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 deliveryâ 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.