Dipl.-Ing. Jennifer Fritz

Center for Regenerative Medicine

jennifer.fritz@donau-uni.ac.at
+43 2732 893-5384
To contact form
Campus Krems, Tract D, 2nd Floor, 2.08
University for Continuing Education Krems
Center for Regenerative Medicine
Dr.-Karl-Dorrek-Straße 30
3500 Krems
Austria

vCard

Projects (Extract Research Database)

Running projects

Regulating functional meniscus tissue regeneration by 3D-bioprinted complex geometrically precise hybrid scaffolds

Duration: 01/01/2022–31/12/2024
Principle investigator for the project (University for Continuing Education Krems): Alexander Otahal
Funding: Bundesländer (inkl. deren Stiftungen und Einrichtungen)

Add to favorites

Publications (Extract Research Database)

Moser, Anna-Christina; Fritz, Jennifer; Kesselring, Andreas; Schüssler, Florian; Otahal, Alexander; Nehrer, Stefan (2025). Biomechanical testing of virtual meniscus implants made from a bi-phasic silk fibroin-based hydrogel and polyurethane via finite element analysis. Journal of the Mechanical Behavior of Biomedical Materials, 162: 106830

Vukonic, L.; Nothnagel, R.M.; Groß, F.; Bauer, C.; Fritz, J.; Thurner, P.; Gachot, C.; Ripoll, M.R. (2025). Cartilage-inspired biocompatible double network PVA based hydrogels: A critical comparison of the role of agarose, chitosan, and silk fibroin additives. Materials Today Communications, 45: 1-11

Moser, Anna-Christina; Fritz, Jennifer (2023). Meniskusregernation durch 3D-(Bio)Druck. Jatros Orthopädie & Traumatologie Rheumatologie, 2: https://doi.org/10.

Lectures (Extract Research Database)

Integration von additiver Fertigung und in-silico Simulation: Design und Finite-Element-Analyse von 3D-druckbaren Meniskusimplantaten

Digital Orthopedics Award by OPED, 12/12/2024

3D bioprinted silk fibroin-based hydrogels for meniscus tissue engineering

6th MuSkITYR symposium, 04/11/2024

Advancements in the Development of 3D-Printed Meniscal Implants: Virtual Prototyping and Biomechanical Assessment

7th ICRS Summit, 27/09/2024

Meniskus Bioprinting: Biomaterialeigenschaften & Finite Elemente Analyse

AGA Denkfabrik, 06/07/2024

Biomechanische in-silico Evaluierung eines 3D gedruckten Meniskus-Implantates mittels Finiter Element Analyse

GOTS, 39. Jahreskongress, 20/06/2024

Wie wird eine Biotinte zum 3D gedruckten Gewebe für die Regenerative Medizin

Lange Nacht der Forschung 2024, 24/05/2024

3D printed shock absorbers for the human knee joint

Pint of Science, 14/05/2024

Enhancing meniscus implant biomechanics: an in-silico analysis through 3D printing

OARSI World Congress on Osteoarthritis, 18/04/2024

Comparison of two silk fibroin-based bioinks for meniscus bioprinting

OARSI World Congress on Osteoarthritis, 18/04/2024

Formulation and biomechanical characterisation of a silk fibroin-based bioink for meniscus replacement via bioprinting

LBG Meeting for Health Sciences 2023, 02/11/2023

from

Upskill at the University of Krems

Search for study programs

Core Facility

upgrade 1.25 – Stay confident

Dipl.-Ing. Jennifer Fritz

University for Continuing Education Krems