1. Definition, practice, history, present and future of biomechanics (from bionics to genetic engineering and biocompatibility).
2. Methods of medical and engineering diagnostics (RTG, CT, MRI, statistics, experiments).
3. Anatomy of musculoskeletal system and motoric of animals and humans. Laboratory autopsy of fish.
4. Analysis of material behaviour. Focused on biomaterials of skeletal systems of humans and animals including their remodelation and degradation.
5. Analysis of loads, boundary and initial conditions for skeletal systems of humans and animals.
6. Biomechanics of motion, gait and sports (anasysis of a process).
7. Biomechanics of injury (analysis of a process ans type of accidents and their causes, traffic accidents).
8. Experimental measurements in biomechanics. Kinematic a dynamic analysis.
9. Numerical modelling in biomechanics and model creation of living tissues.
10. Design and proposition of osteosynthetic materials for traumatology and ortopaedics (external and internal fixators).
11. Ergonomics of human work, prosthesis, orthesis and design.
12. Analysis of material behaviour of biomaterials for soft tissues, their remodellation and degradation.
13. Analysis of loads, boundary and initial conditions for soft tissues.
14. Experimental measurements of stress states in biomechanics.
15. Mechanical tests of parts for prosthesis and implants.
16. Numerical modelling in biomechanics and creation of proposal.
17. Design and proposition of devices for surgery, prosthetics and orthetics.
18. Clinical use of biomechanical methods in practice.
19. Anthropology, anthropometry.
20. Dendrometry.
21. Biomechanics of animals.
22. Biomechanics of plants.
2. Methods of medical and engineering diagnostics (RTG, CT, MRI, statistics, experiments).
3. Anatomy of musculoskeletal system and motoric of animals and humans. Laboratory autopsy of fish.
4. Analysis of material behaviour. Focused on biomaterials of skeletal systems of humans and animals including their remodelation and degradation.
5. Analysis of loads, boundary and initial conditions for skeletal systems of humans and animals.
6. Biomechanics of motion, gait and sports (anasysis of a process).
7. Biomechanics of injury (analysis of a process ans type of accidents and their causes, traffic accidents).
8. Experimental measurements in biomechanics. Kinematic a dynamic analysis.
9. Numerical modelling in biomechanics and model creation of living tissues.
10. Design and proposition of osteosynthetic materials for traumatology and ortopaedics (external and internal fixators).
11. Ergonomics of human work, prosthesis, orthesis and design.
12. Analysis of material behaviour of biomaterials for soft tissues, their remodellation and degradation.
13. Analysis of loads, boundary and initial conditions for soft tissues.
14. Experimental measurements of stress states in biomechanics.
15. Mechanical tests of parts for prosthesis and implants.
16. Numerical modelling in biomechanics and creation of proposal.
17. Design and proposition of devices for surgery, prosthetics and orthetics.
18. Clinical use of biomechanical methods in practice.
19. Anthropology, anthropometry.
20. Dendrometry.
21. Biomechanics of animals.
22. Biomechanics of plants.