5.00 credits
30.0 h + 30.0 h
Q2
Teacher(s)
Kerckhofs Greet;
Language
English
> French-friendly
> French-friendly
Prerequisites
No mandatory prerequisites
Main themes
- Fundamentals of the structure, function and biological performance of main biomechanical systems
- Biomechanics of the musculoskeletal system
- Biomechanics of the cardiovascular system
- Introduction to the biomechanics of the respiratory system
- Introduction to analytical and computational modelling of the systems mentioned above
Learning outcomes
At the end of this learning unit, the student is able to : | |
1 |
With respect to the AA referring system defined for the Master in Biomedical Engineering, the course contributes to the development, mastery and assessment of the following skills :
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Content
This course provides a link between the structure, function and biological performance of the main biomechanical systems: the musculoskeletal and the cardiovascular system. A brief introduction on the structure and function of these systems is provided, and the added value of both experimental characterization as well as computational modelling for a better understanding of the (mis)function of the main biomechanical systems is discussed, and examples of both are described in detail. The course aims at showing that engineering solutions, such as experimental characterization and computational modelling, have their place in (bio)medical practice to solve biomechanical problems.
The course deals with cell biomechanics, the musculoskeletal system and the cardiovascular system. During the exercise sessions, an introduction will be provided into some experimental characterization techniques of the biological systems (Project 1), as well into analytical solutions for (bio)mechanical questions. Project 2 will focus on computational modelling, and will provide students with an introduction to finite element simulations of a biomechanical application.
The course deals with cell biomechanics, the musculoskeletal system and the cardiovascular system. During the exercise sessions, an introduction will be provided into some experimental characterization techniques of the biological systems (Project 1), as well into analytical solutions for (bio)mechanical questions. Project 2 will focus on computational modelling, and will provide students with an introduction to finite element simulations of a biomechanical application.
Teaching methods
- Theoretical lectures
- Exercise sessions to get acquainted with experimental and analytical approaches in biomechanics
- Project work
Evaluation methods
- Closed-book written examination (55% of the final grade)
- Projects with written reports, and oral evaluation (45% of the final grade)
Online resources
Bibliography
- Introductory Biomechanics : From cells to organisms; C. Ross Ethier and Craig A. Simmons (Cambridge Texts in Biomedical Engineering)
Teaching materials
- Transparents relatives aux séances de cours disponibles sur Moodle. Course slides available on Moodle.
Faculty or entity
GBIO
Programmes / formations proposant cette unité d'enseignement (UE)
Title of the programme
Sigle
Credits
Prerequisites
Learning outcomes
Master [120] in Biomedical Engineering
Master [120] in Mechanical Engineering
Master [120] in Computer Science and Engineering
Master [120] in Electro-mechanical Engineering
Master [120] in Mathematical Engineering