assignments overview
The Department of Developmental BioEngineering has continuously various possibilities for tailor made bachelor and master assignments for students.
Please contact us discuss the possibilities for an assignment which fits your own interest and the curricular requirements.
assignments List
This is a partial list of our assignments, categorized by professor and/or daily supervisor. If you are interested in any of our research areas, please don't hesitate to reach out, even if you don't see a specific assignment listed.
- Injectable hydrogels for VHH antibodies delivery in OA treatment
- Development of a Ligament-on-chip
- Development of a Fat-pad-on-chip
- BMP7 attracting VHHs for improved cartilage repair in osteoarthritis
- MMP-13 targeting VHHs as potential therapeutics in osteoarthritis
- Development of a Joint-on-Chip Platform & First Characterization
- Development of a (Potentially Xeno-Free) Common Culture Medium for the Joint-on-Chip
- Studying Disease Phenotypes and Anti-Inflammatory Drugs in the Synovium- and Cartilage-on-Chip
- Studying Monocyte Extravasation in the Synovium-on-Chip using Different Inflammatory Stimuli
- Cell-attracting Hydrogels for Cartilage Repair
- Injectable hydrogels
- Revitalizing Wound Healing
- Supramolecular Polysaccharide Hydrogels: Design, Characterization, and Applications
- 3D-bioprinting on organ-on-chip
- Guiding organoid morphogenesis with bioprinting
- High-end image acquisition and data analysis automation
- Controlling iPSC behaviour in 3D microtissues using tunable microgels
- Microfluidic production of degradable microgels for advanced living microtissues
- Determining the viscoelastic properties of articular cartilage
- Engineering 3D microniches mimicking the mechanical properties of nondegenerated
- Studying cell behaviour at the single cell level in responds to changes in mechanical properties
- Uniform mechanical loading of encapsulated single cells
- Advanced bioprinting of macroporous living tissues
- Advanced 3D-printing of microfluidic devices to create living micro-building blocks
- Conductive G-Quadruplex Hydrogels for Cardiac Tissue Regeneration
- High-throughput fabrication of biofunctionalized polyacrylamide hydrogels as models for 2D cell culture
- Development of firefly-inspired bioinks with tunable stress-relaxing, self-healing and viscoelastic properties
- Injectable functional tissue-adhesives for controlled gene delivery to be used in cartilage repair
- Biofabrication with novel thiol-mediated dynamic covalent hydrogels
- Mapping transport properties of artificial 3D tissue viscoelastic microenvironments using on-chip hydrogel platforms