Dr. Franziska Albrecht
Research assistant
+49 7121 271 1462
franziska.albrecht@reutlingen-university.de
Building 2, Room 008
- 3D Hydrogele
- Biomaterialien
- Zell-Material-Interaktion
- Bioprinting
- Humanes Fettgewebe
2019 – today | PhD: Nutritional Sciences, University of Hohenheim, Topic: Development and testing of a bioprinted, in vivo close-up 3D adipose tissue model based on primary cells of the human subcutis. |
2017 – 2019 | Master: Biomedical Sciences (Focus: Physiologie), Reutlingen University Topic: Establishment of an extrusion-based bioprinting process and GelMA bioink adaptation for the setup of 3D fatty tissue constructs |
2014 – 2017 | Bachelor: Biomedical Sciences, Reutlingen University Topic: Development of a chemically defined, xeno-free medium for the co-culture of human adipogenically differentiated stem cells from adipose tissue and microvascular endothelial cells. |
Albrecht, Franziska
2024 | |
Albrecht, Franziska; Ahlfeld, Tilman; Klatt, Annemarie; Heine, Simon; Gelinsky, Michael; Kluger, Petra (2024): Biofabrication's contribution to the evolution of cultured meat. - In: Advanced healthcare materials 13 (13). - S. 1-21. - DOI: https://doi.org/10.1002/adhm.202304058 | BibTeX | RIS DOIURN |
Klatt, Annemarie; Wollschlaeger, Jannis; Albrecht, Franziska; Rühle, Sara; Holzwarth, Lena; Hrenn, Holger; Melzer, Tanja; Heine, Simon; Kluger, Petra (2024): Dynamically cultured, differentiated bovine adipose-derived stem cell spheroids as building blocks for biofabricating cultured fat. - In: Nature communications 15 (Artikelnummer: 9107) - S. 1-13. - DOI: https://doi.org/10.1038/s41467-024-53486-w | BibTeX | RIS DOIURN |
Albrecht, Franziska (2024): Entwicklung und Charakterisierung verschiedener humaner 3D Fettgewebemodelle mit und ohne Hydrogelmatrix als in vivo nahe Alternative. (Dissertation, Universität Hohenheim, 2024) - Stuttgart : Universität Hohenheim. - S. I-108. - DOI: https://doi.org/10.60848/2146 | BibTeX | RIS DOI |
Albrecht, Franziska; Schick, Ann-Kathrin; Klatt, Annemarie; Schmidt, Freia; Nellinger, Svenja; Kluger, Petra (2024): Exploring morphological and molecular properties of different adipose cell models: monolayer, spheroids, gellan gum-based hydrogels, and explants. - In: Macromolecular bioscience (Artikelnummer: 2400320)- S. 1-20. - DOI: https://doi.org/10.1002/mabi.202400320 | BibTeX | RIS DOIURN |
Heine, Simon; Ahlfeld, Tilman; Albrecht, Franziska; Gelinsky, Michael; Kluger, Petra (2024): How biofabrication can accelerate cultured meat’s path to market. - In: Nature reviews. Materials 9 (2). - S. 83-85. - DOI: https://doi.org/10.1038/s41578-024-00650-9 | BibTeX | RIS DOI |
Albrecht, Franziska; Schmidt, Freia; Schmidt, Christian; Börret, Rainer; Kluger, Petra (2024): Robot-based 6D bioprinting for soft tissue biomedical applications. - In: Engineering in life sciences 24 (7). - S. 1-11. - DOI: https://doi.org/10.1002/elsc.202300226 | BibTeX | RIS DOIURN |
2022 | |
Albrecht, Franziska; Schmidt, Freia; Volz, Ann-Cathrin; Kluger, Petra (2022): Bioprinting of 3D adipose tissue models using a GelMA-bioink with human mature adipocytes or human adipose-derived stem cells. - In: Gels 8 (10). - 19 S. - DOI: https://doi.org/10.3390/gels8100611 | BibTeX | RIS DOIURN |
Albrecht, Franziska; Dolderer, Vera; Nellinger, Svenja; Schmidt, Freia; Kluger, Petra (2022): Gellan gum is a suitable biomaterial for manual and bioprinted setup of long-term stable, functional 3D-adipose tissue models. - In: Gels 8 (7). - 17 S. - DOI: https://doi.org/10.3390/gels8070420 | BibTeX | RIS DOIURN |
Wollschlaeger, Jannis; Maatz, Robin; Albrecht, Franziska; Klatt, Annemarie; Heine, Simon; Blaeser, Andreas; Kluger, Petra (2022): Scaffolds for cultured meat on the basis of polysaccharide hydrogels enriched with plant-based proteins. - In: Gels 8 (2). - 21 S. - DOI: https://doi.org/10.3390/gels8020094 | BibTeX | RIS DOIURN |
2021 | |
Dani, Sophie; Ahlfeld, Tilman; Albrecht, Franziska; Duin, Sarah; Kluger, Petra; Lode, Anja; Gelinsky, Michael (2021): Homogeneous and reproducible mixing of highly viscous biomaterial inks and cell suspensions to create bioinks. - In: Gels 7 (4). - 17 S. - DOI: https://doi.org/10.3390/gels7040227 | BibTeX | RIS DOIURN |