07.11.2023
Forschung für die Zukunft c/o Otto-von-Guericke-Universität Magdeburg Transfer- u. Gründerzentrum
Biosensors - Customized microfluidic chips with integrated sensors
One of the promising research directions for biopolymer-based applications is lab-on-chip as a microfluidic platform for cell culture purposes. Advantage of such a platform over the classical approach using a Petri dish is the possibility to emulate a mechanically compliant microfluidic environment in a well-controlled and reproducible manner. However, measurements of physical or biochemical parameters in close proximity to the cells (in situ) are desirable to characterize tissue functionality and cell responses, e.g., in the presence of drugs. Therefore, the integration of sensors into such platforms is essential for cell culture. Corresponding solutions for tailored approaches for tissue engineering and single cell experiments will be presented.
Vorteile / Advantages
Kontakt
Otto-von-Guericke-Universität Magdeburg
Lehrstuhl Messtechnik, Fakultät Elektrotechnik und Informationstechnik
Prof. Ulrike Steinmann
Tel.: +49 (0) 391 67 58309
ulrike.steinmann@ovgu.de
https://www.messtechnik.ovgu.de/
ifak - Institut für Automation und Kommunikation
Geschäftsfeld Messtechnik & Leistungselektronik
Sebastian Wöckel
Tel.: +49 391 9901430
sebastian.woeckel@ifak.eu
https://www.ifak.eu/de
Ausstellerdatenblatt
Vorteile / Advantages
- flexbile sensors
- biocompatible solutions
- animal testing alternative
- µm-thin membranes
- Lab-on-Chip Systems
- tissue engineering
- wearable for health monitoring
- biomedical engineering
Kontakt
Otto-von-Guericke-Universität Magdeburg
Lehrstuhl Messtechnik, Fakultät Elektrotechnik und Informationstechnik
Prof. Ulrike Steinmann
Tel.: +49 (0) 391 67 58309
ulrike.steinmann@ovgu.de
https://www.messtechnik.ovgu.de/
ifak - Institut für Automation und Kommunikation
Geschäftsfeld Messtechnik & Leistungselektronik
Sebastian Wöckel
Tel.: +49 391 9901430
sebastian.woeckel@ifak.eu
https://www.ifak.eu/de
Ausstellerdatenblatt