Our material has been designed to dissolve progressively after its implantation. In all studies performed, no toxic nor inflammatory responses are generated.
Our material has been designed to dissolve progressively after its implantation. In all studies performed, no toxic nor inflammatory responses are generated.
Our material has been designed to dissolve progressively after its implantation. In all studies performed, no toxic nor inflammatory responses are generated.
Our material has been designed to dissolve progressively after its implantation. In all studies performed, no toxic nor inflammatory responses are generated.
Our device is specially designed to mimic the mechanical properties of the aorta. Our patch expands and contracts with every cardiac cycle.
Our device is specially designed to mimic the mechanical properties of the aorta. Our patch expands and contracts with every cardiac cycle.
Our device is specially designed to mimic the mechanical properties of the aorta. Our patch expands and contracts with every cardiac cycle.
The patch promotes re-endothelialization of the dissected part thanks to our patented microstructure.
The patch promotes re-endothelialization of the dissected part thanks to our patented microstructure.
The extracellular matrix molecules that decorate the patch promote re-endothelialization of the affected dissected part.
The patch promotes re-endothelialization of the dissected part thanks to our patented microstructure.
Our device could be used as a local drug delivery platform thanks to our patented microstructure and its drug-loading potential.
Our device could be used as a local drug delivery platform thanks to our patented microstructure and its drug-loading potential.
Our device could be used as a local drug delivery platform thanks to our patented microstructure and its drug-loading potential.
The ultimate solution for aortic diseases
The ultimate solution for aortic diseases
The ultimate solution for aortic diseases
© 2019. AORTYX.