1. Fundamentals of hydrogels I - mechanical characterization<br>2. Fundamentals of hydrogels II - architecture and biodegradability<br>3. Natural Hydrogels: synthesis, composites, and prospects in delayed wounds<br>4. Elastin-like hydrogels as tissue regeneration scaffolds<br>5. In silico simulation for designing hydrogels<br>6. Hydrogel functionalisation and crosslinking strategies for biomedical applications<br>7. Sterilization methods<br>8. Patents and regulatory issues<br>9. Ionic- and photo-crosslinked hydrogels<br>10. Enzymatic-crosslinked hydrogels<br>11. Thermo-responsive hydrogels<br>12. pH-responsive hydrogels: synthesis and physico-chemical properties<br>13. Conductive Hydrogels<br>14. Self-assembling hydrogels based on polymer networks<br>15. Memory-shape hydrogels<br>16. Hydrogels formed by polyelectrolyte complexation<br>17. Interpenetrating polymer networks (IPN) hydrogels<br>18. Biocomposites hydrogel-based scaffolds in Tissue Engineering and Regeneration<br>19. DNA based programmable hydrogels for tissue engineering and regenerative medicine<br>20. Hydrogels as 3D scaffolds materials in tissue engineering and as organoid platforms<br>21. Hydrogels as filler materials<br>22. Hydrogels as tissue barriers<br>23. Hydrogels as stents<br>24. Silk Hydrogel Based Delivery of Cell and Bioactive Molecules for Osteochondral Tissue Engineering Applications<br>25. Hydrogels for development of bioinks<br>26. Hydrogel-inorganic filler composites for 3D bioprinting<br>27. Hydrogels for microfluidics<br>28. Hydrogels for 3D TE models<br>29. Hydrogels for imaging<br>30. Hydrogels as dynamic networks for skin repair<br>31. Hydrogels for cancer treatment<br>32. Natural-based injectable hydrogels for osteoarthritis treatment<br>33. Hydrogels as biologics/gene delivery systems<br>34. Current design and advances of hydrogel for retinal tissue engineering and regenerative medicine<br>35. Hydrogels for dental applications<br>36. Biological applications of hydrogel coatings<br>37. Hydrogels for immunomodulation
