About 300.000 patients each year receive a heart valve replacement that is either a mechanical device or produced from animal tissue. Although these valves generally improve survival and quality of life, they do not consist of living tissue and therefore cannot grow with the patient or repair themselves in case of damage. Especially for younger patients this results in a high probability of repeated valve replacements, with associated risks to health and even life.
The researchers in the ImaValve (Intelligent materials for in-situ heart Valve tissue engineering) project want to realize the dream of a creating a living heart valve that is grown inside the patient’s body at the site of destination and that consists of the patient’s own tissue. As such, the valve should be able to repair itself and grow with the patient. The ImaValve is a device that consists of a slowly degrading elastomeric polymer, processed into a valve shape via a process called electrospinning. The valve can be placed in the body in a minimally invasive fashion using a stent and a delivery device.
ImaValve is a collaborative project funded by the European Commission under the Seventh European Framework Program. Within this consortium, leading academic and industrial partners in the field of biomaterials science and tissue engineering from The Netherlands (Leading House), Switzerland, and Germany are brought together to join forces. The project is coordinated by Carlijn Bouten, who is the head of the research group for Soft Tissue Engineering & Mechanobiology at Eindhoven University of Technology.
With a highly multidisciplinary approach, merging biomaterials research, in-vitro and in-silico modeling, and technological developments to preclinical studies, the ImaValve consortium aims at framing innovative solutions for the challenging research field of in situ cardiovascular tissue engineering. The ultimate goal of the project is the development of an off-the shelf available synthetic heart valve that gradually transforms into a living heart valve at the site of implantation and that lasts a life-time. ImaValve combines the unique expertise and experience necessary to achieve the ambitions of the project in a time frame of four years.
For more information, please contact project leader Laurens Schrijnemakers: tel. +31 40 247 4383, email: firstname.lastname@example.org