1. Surface Characterization of materials (UoM)
2. Basic Principles of Protein Adsorption (MLU)
3. Physics of Cell Adhesion (MLU)
4. Extracellular Matrix (MLU)
5. Cell Matrix & Cell-Cell Adhesion (MLU)
6. Signal Transduction in Cells (MLU)
7. Cells cytoskeleton - Structure and Function (MLU)
8. Apoptosis as Controlled death of Cells (MLU)
9. Biocompatibility Principles (UoT) / Ceramics and Scaffolds for Tissue Engineering (QUT)
Ceramics for Biomedical Applications Fundamental of Electrospinning
10. Primary Cells for Tissue Engineering (MLU or UoT)
11. Stem Cells for Tissue Engineering (UoM)
12. Nature derived polymers for tissue engineering (UoT)
13. Hydrogels (UoT)
14. Resorbable Polymers: Properties and Medical Applications (MLU)
15. Smart Biomaterials: Main properties and applications (UoM)
16. Survey on Making Scaffolds for Regenerative Medicine (MLU)
16. Ceramics and Scaffolds for Tissue Engineering (QUT)
17. Processing Techniques of natural origin polymers (UoM)
18. Green technologies towards the development of enhanced biomaterials (UoM)
19. Surface modification of biomaterials (UoT)
20. Immobilisation of Biopharmaceuticals (MLU)
21. Skin tissue engineering: from biomaterial development to in vivo tests (UoM).
22. Tissue Engineering of Peripheral Nerves (MLU)
23. Regeneration of myocardium: From artificial organs to cell therapy (MLU)
24. Bone Tissue engineering (QUT).
2. Basic Principles of Protein Adsorption (MLU)
3. Physics of Cell Adhesion (MLU)
4. Extracellular Matrix (MLU)
5. Cell Matrix & Cell-Cell Adhesion (MLU)
6. Signal Transduction in Cells (MLU)
7. Cells cytoskeleton - Structure and Function (MLU)
8. Apoptosis as Controlled death of Cells (MLU)
9. Biocompatibility Principles (UoT) / Ceramics and Scaffolds for Tissue Engineering (QUT)
Ceramics for Biomedical Applications Fundamental of Electrospinning
10. Primary Cells for Tissue Engineering (MLU or UoT)
11. Stem Cells for Tissue Engineering (UoM)
12. Nature derived polymers for tissue engineering (UoT)
13. Hydrogels (UoT)
14. Resorbable Polymers: Properties and Medical Applications (MLU)
15. Smart Biomaterials: Main properties and applications (UoM)
16. Survey on Making Scaffolds for Regenerative Medicine (MLU)
16. Ceramics and Scaffolds for Tissue Engineering (QUT)
17. Processing Techniques of natural origin polymers (UoM)
18. Green technologies towards the development of enhanced biomaterials (UoM)
19. Surface modification of biomaterials (UoT)
20. Immobilisation of Biopharmaceuticals (MLU)
21. Skin tissue engineering: from biomaterial development to in vivo tests (UoM).
22. Tissue Engineering of Peripheral Nerves (MLU)
23. Regeneration of myocardium: From artificial organs to cell therapy (MLU)
24. Bone Tissue engineering (QUT).