Biomaterials, 30 cr

Type of the study module

Advanced Studies

Contact

Jonathan Massera, Minna Kellomäki

Learning Outcomes

-	Students are able to design and develop biomaterials constructs and devices using biodegradable polymers, bioceramics and composites.
-	Students are able to identify and formulate problems and rise to these challenges in the field of biomedicine by applying materials science and engineering.
-	Students are able to identify and formulate problems and rise to these challenges in the field of biomedicine by applying materials science and engineering. Students are able to work in international and multidisciplinary society in the field of biomedical engineering and have good skills and knowledge from biomaterials science and technology. Students are able to design and develop biomaterials constructs and devices using biodegradable polymers, bioceramics and composites. -Students are able to manufacture constructs and devices made of above mentioned biomaterial groups and to study and analyze their properties. Students are able to find and follow regulations and standards in the development of the medical devices to produce commercial products.
-	Students are able to manufacture constructs and devices made of above mentioned biomaterial groups and to study and analyze their properties.
-	Students are able to work in international and multidisciplinary society in the field of biomedical engineering and have good skills and knowledge from biomaterials science and technology.

Prerequisites

Study block	Credit points	Mandatory/Advisable
Minor in Biomaterials (Materials Sicence)	20 cr	Mandatory
Biomaterials	25 cr	Mandatory

Content

Compulsory courses

If the student does his/her Master's thesis in Biomaterials, the course BMT-01907 Master's Seminar is compulsory, that replaces the seminar course MOL-12286 Master's Thesis Seminar in Materials Engineering common core studies.

Course	Credit points	Class
BMT-62356 Product Development of Biomedical Devices	5 cr	V
BMT-62416 Small Samples Data Analysis	5 cr	IV
BMT-73107 Bioceramics and their Clinical Applications	5 cr	IV
BMT-73206 Biodegradable Polymers	5 cr	IV
BMT-73256 Biodegradable Polymers Laboratory Course	5 cr	V
Total	25 cr

Optional Compulsory Courses

Course	Credit points	Alternativity	Class
BMT-62100 Viranomaisvaatimukset lääkinnällisten laitteiden suunnittelulle ja valmistukselle	3 cr	1	IV
BMT-62236 Medical Device Research and Productization	5 cr	1	IV

1. Select 1 courses. One of these is compulsory.

Complementary Courses

Must be extended at least to the minimum requirement of 30 cr or to extended requirement of 50 cr.

Course	Credit points	Additional information
BMT-62306 Research Project in Biomedical Engineering	5 cr
BMT-73316 Nanomedicine and Advanced Drug Delivery Technologies	5 cr
BMT-74206 Tissue Engineering Applications	5 cr
FYS-1350 Nanofysiikka	3 cr	1
FYS-1366 Nanophysics	5 cr	1
MOL-22216 Phase Transformations and Heat Treatments of Metals	5 cr
MOL-22306 Metals Technology	5 cr
MOL-32228 Electron Microscopy	5 cr
MOL-32307 Materials Performance	5 cr
MOL-32327 Analysis of Materials Performance	5 cr
MOL-42166 Rheology	5 cr
MOL-42196 Adhesion and Surface Modifications	5 cr
MOL-42316 Processing of Thermoplastics	5 cr
MOL-52026 Advanced Ceramics	5 cr
MOL-52056 Processing of Advanced Ceramics	5 cr
MOL-53246 Coatings and Surface Treatments	6 cr
MOL-53257 Thin Film Technologies	4 cr

1. Select only one of these.

Additional information

This module can be extended from the minimum requirement of 30 cr up to 50 cr.

Contact person: Jonathan Massera

Updated by:

Väisänen Outi, 11.01.2019