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Last update: PhDr. Mgr. Jitka Malá, Ph.D. (13.02.2024)
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Last update: PhDr. Mgr. Jitka Malá, Ph.D. (13.02.2024)
The aim of the course is to understand and be able to work further with the knowledge of biomechanical relationships of the musculoskeletal system and the influence of electrotherapeutic currents on the human body. - The student will define physical quantities, recognize quantities by the sign and units used. - The student is able to explain the basis of the action of electric currents on the body, and is able to distinguish the effect of different currents on the body. - Is able to define the basic indications and contraindications for the use of electrotherapeutic currents for the organism. - Describes the main relationships of the movement segments in relation to each other, understands the biomechanical principles of movement of individual joints and the relationships between movement segments. - The student will be able to describe the biomechanical specifics of each region of the musculoskeletal system. Competences: - The student is able to assess and compare the results of examinations and the effects of therapy on clients using various biophysical methods. - The student uses the acquired knowledge and skills to make decisions about the prevention of damage to the body by applying physical phenomena to clients. - Is able to identify indications and contraindications for the use of electrotherapeutic currents for physical therapy. - Is able to define the usefulness of movement in relation to the biomechanical properties of movement. |
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Last update: PhDr. Mgr. Jitka Malá, Ph.D. (13.02.2024)
Requirements for credit Examination: oral according to SIS schedule |
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Last update: PhDr. Mgr. Jitka Malá, Ph.D. (13.02.2024)
Exam requirements: The topics for the exam are the topics covered in the individual lectures throughout the academic year. Deadline: exam period, login via SIS required |
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Last update: PhDr. Mgr. Jitka Malá, Ph.D. (13.02.2024)
1. Physical significance of electricity in physiotherapy 2. Physical basis of electricity in electrotherapy, low frequency currents 3. Physical basis of electricity in electrotherapy, medium and high frequency currents 4. The importance of magnetic fields for the body 5. Radiofrequency waves, shock waves 6. Phototherapy, laser 7. Physical basis of imaging methods (X-ray, CT, NMR) 8. Biomechanics of the axial system - cervical spine 9. Biomechanics of the axial system - thoracic and lumbar spine 10. Biomechanics of the lower limb 11. Biomechanics of the upper limb 12. Biomechanics of the locomotor and manipulative system - completion 13. Biomechanical princples of muscle tension, muscle chaining 14. repetition |
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Last update: PhDr. Mgr. Jitka Malá, Ph.D. (13.02.2024)
MS teams |