Request For Demo     Request For FreeTrial     Subscribe     Pay Now

Germany Project Notice - Innovative Imaging Insights (I3): Development Of MR-Compatible Bioreactors For Tissue Engineered Heart Valves


Project Notice

PNR 63998
Project Name Innovative Imaging Insights (I3): Development of MR-compatible Bioreactors for Tissue Engineered Heart Valves
Project Detail Given the escalating global burden of valvular heart disease and the pressing need for living heart valve replacements, I decided to focus my research on this healthcare challenge by acquiring new skills through advanced training and international interdisciplinary collaborations. My proposal I3 combines the design and application of a novel bioreactor for assessing tissue engineered heart valves (TEHVs) by highly advanced magnetic resonance imaging (MRI) to kickstart the innovation cycle in in-vitro experiments. Especially young patients with valvular heart disease will profit from TEHVs as they suffer from current heart valve replacements lacking the ability to self-repair and growth as well requiring the life-long intake of anticoagulants. Leveraging the high-dimensional, non-invasive analysis potential of MRI, my I3 proposal establishes new innovative tools for TEHV research to enable new insights in the resulting hemodynamics downstream of TEHVs, close the optimization loop in-vitro using patient-specific boundary conditions and reduce the need for ethically and monetary challenging animal experiments. Building on my expertise on advanced MRI, I will acquire new skills to develop a novel MRI-compatible bioreactor in the project. Enabling in-vitro experiments with high precision and repeatability, the imaged flow field in the bioreactor allows me to select and optimize a TEHV for specific hemodynamics of patients. In-vivo MRI-enabled feedback of the resulting hemodynamics offers further diagnosis. Furthermore, in-vitro and in-vivo measurements offer important information for optimization of TEHVs for patient-specific treatments. I will use the knowledge and skills gained from this inter-sectoral and inter-disciplinary project for my next career steps (incl. submission of an ERC starting grant) in the field of biomedical engineering research aimed at providing all patients with a suitable heart valve replacement. I3 is a major step towards making this a reality.
Funded By European Union (EU)
Sector Electronics
Country Germany , Western Europe
Project Value EUR 173,847

Contact Information

Company Name PHYSIKALISCH-TECHNISCHE BUNDESANSTALT
Web Site https://cordis.europa.eu/project/id/101152298

Tell us about your Product / Services,
We will Find Tenders for you