Our material has been designed to dissolve progressively two years after its implantation. No toxic nor inflammatory responses are expected.
Our material has been designed to dissolve progressively two years after its implantation. No toxic nor inflammatory responses are expected.
The microstructure of our device is specially designed to mimic the mechanical properties of the aorta. Our patch has the ability to expand and contract with every cardiac cycle.
The microstructure of our device is specially designed to mimic the mechanical properties of the aorta. Our patch has the ability to expand and contract with every cardiac cycle.
Controlled clotting of the false lumen allows a better restoration of flow through the true lumen and to avoid peripheral malperfusion.
Controlled clotting of the false lumen allows a better restoration of flow through the true lumen and to avoid peripheral malperfusion.
The extracellular matrix molecules that decorate the patch promote re-endothelialization of the affected dissected part.
The extracellular matrix molecules that decorate the patch promote re-endothelialization of the affected dissected part.
The extracellular matrix molecules that decorate the patch promote re-endothelialization of the affected dissected part.
Our device could be used as a local drug delivery platform thanks to the specially designed microstructure and the material used to create it.
Our device could be used as a local drug delivery platform thanks to the specially designed microstructure and the material used to create it.
The ultimate solution for aortic diseases
The ultimate solution for aortic diseases
The ultimate solution for aortic diseases
© 2019. AORTYX.