| Detailed information |
| Original study plan |
Master's programme Medical Engineering 2025W |
| Learning Outcomes |
Competences |
- Microfabrication: design and manufacture of microdevices for medical applications.
- Device integration: development of integrated systems that combine sensors, actuators and communication.
- Biocompatibility assessment: ensuring safe interaction with biological systems.
|
|
| Skills |
Knowledge |
- Manufacture of microelectromechanical systems (MEMS): use of lithography, etching and deposition techniques, as well as additive technologies (k1 - k3))
- Focus on microfluidics: use of microfluidic systems in medicine (k1 - k3)
- Focus on sensors and actuators: Functionality and implementation of microsensors in medicine (k1 - k3)
- Focus on data processing: analysing signals and outputs for medical diagnosis and monitoring (k4 - k5)
|
- Basic concepts of microsystems
- Materials for biomedical microsystems
- Microfabrication techniques
- Lab-on-a-chip principles
- Sensor technologies (e.g. chemical, biological, physical)
- Mechanisms of signal transduction
- Design of implantable devices
- Energy management in microsystems
- Clinical applications of microsystems
- Regulatory standards for medical devices
|
|
| Criteria for evaluation |
Oral examination and/or preparation and presentation of a literature review on a topic by arrangement
|
| Methods |
In the first part of the CT lecture with slides, in the second part of the CT independently created presentation by the participants on selected topics.
|
| Language |
German |
| Study material |
Lecture slides, supplementary:
Tian et al. ‘Microfluidics for Biological Applications’ ISBN 978 0 387 09479 3
Min-hang Bao ‘Handbook of Sensors and Actuators’ ISBN 978-0-444-50558-3
|
| Changing subject? |
No |
| Further information |
none
|
| Earlier variants |
They also cover the requirements of the curriculum (from - to)
554WMEMMMTK22: KV Medical Microsystems Technology (2022W-2025S)
|
