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Lecturer(s)
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Course content
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1. Introduction and classification of metallic and ceramic biomaterials. Historical development of implants. 2. Properties of metal biomaterials. 3. Requirements for metallic biomaterials in the body. 4. Steel and alloys in medicine, their production and use. 5. Non-ferrous metals, their production and use. 6. Amalgams, their preparation and properties. 7. Surface treatments of metal biomaterials in medicine. 8. Properties of ceramic biomaterials. 9. Requirements for ceramic biomaterials in the body. 10. Raw materials for ceramic biomaterials and their pretreatment. 11. Production of ceramic biomaterials. 12. Metal-ceramic biomaterials. 13. Glass and its biomaterial properties. 14. Comparison of properties with other biomaterials.
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Learning activities and teaching methods
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- Preparation for course credit
- 120 hours per semester
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| learning outcomes |
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| Knowledge |
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| design the appropriate material for the desired biomedical application |
| design the appropriate material for the desired biomedical application |
| evaluate the risks associated with the application of the selected material in the organism |
| evaluate the risks associated with the application of the selected material in the organism |
| design a basic procedure for the preparation of the selected material |
| design a basic procedure for the preparation of the selected material |
| design a refinement procedure for the selected material to improve the desired properties of the material when interacting with the organism |
| design a refinement procedure for the selected material to improve the desired properties of the material when interacting with the organism |
| Skills |
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| design the appropriate material for the desired biomedical application |
| design the appropriate material for the desired biomedical application |
| evaluate the risks associated with the application of the selected material in the organism |
| evaluate the risks associated with the application of the selected material in the organism |
| design a basic procedure for the preparation of the selected material |
| design a basic procedure for the preparation of the selected material |
| design a refinement procedure for the selected material to improve the desired properties of the material when interacting with the organism |
| design a refinement procedure for the selected material to improve the desired properties of the material when interacting with the organism |
| teaching methods |
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| Knowledge |
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| Lecturing |
| Lecturing |
| Methods for working with texts (Textbook, book) |
| Methods for working with texts (Textbook, book) |
| Skills |
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| Dialogic (Discussion, conversation, brainstorming) |
| Dialogic (Discussion, conversation, brainstorming) |
| Practice exercises |
| Practice exercises |
| assessment methods |
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| Knowledge |
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| Didactic test |
| Didactic test |
| Grade (Using a grade system) |
| Grade (Using a grade system) |
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Recommended literature
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MA, P. Biomaterials and Regenerative Medicine. Cambridge: Cambridge University Press, 2014. ISBN 9781107012097.
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PALMERO, P., DE BARRA, E., CAMBIER, F. Advances in Ceramic Biomaterials. Cambridge: Woodhead Publishing, 2017. ISBN 9780081008812.
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POKLUDA, J., KROUPA, F., OBDRŽÁLEK, L. Mechanické vlastnosti a struktura pevných látek: kovy, keramika, plasty. 385 s.. Brno: PC-DIR, 1994. ISBN 8021405759.
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TAYEBI, L., MOHARAMZADEH, K. Biomaterials for Oral and Dental Tissue Engineering. Cambridge: Woodhead Publishing, 2017. ISBN 9780081009611.
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TEMENOFF, J.S. Biomaterials: The Intersection of Biology and Materials Science.. Columbus: Pearson Education, 2008. ISBN 9780130097101.
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WEN, C. Surface Coating and Modification of Metallic Biomaterials. Cambridge: Woodhead Publishing, 2015. ISBN 9781782423034.
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YLANEN, H. Bioactive Glasses. Cambridge: Woodhead Publishing, 2017. ISBN 9780081009369.
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