Optimal Stent Graft Surface Area During Procedures
Precision-engineered to provide immediate vessel supporting the unique challenges of coronary artery disease.
Combines the mechanical support of a stent with the biological function of a graft, offering optimal performance in complex procedures.
Designed to Manage
Reduces the risk of restenosis while ensuring minimal thrombogenicity, backed by comprehensive clinical data.
Facilitates precise placement with superior radiopacity and a streamlined delivery system, guaranteeing confidence in deployment for physicians.
Advanced flexibility and conformability ensure a snug fit in tortuous coronary anatomies.
Restoring Blood Flow with ePTFE Material
ePTFE is a highly biocompatible material.
Non-stick properties of ePTFE help reducing the risk ofblood clots forming on the surface of the graft.
The ePTFE material is created with a porous structure, which allowsfor tissue ingrowth.
The patient's own tissue can grow into the graft, helping to stabilize it.
Material: Crafted from a state-of-the-art biocompatible ePTFE and a high-strength CoCr, ensuring longevity and stability.
Diameter: Ranging from 2.8 mm to 4.8 mm, providing options for various patient needs.
Length: Available from 18 mm to 29 mm, accommodating different arterial sizes.
Cell Design: Innovatively engineered cell structure delivers exceptional radial strength and flexibility, ensuring the stent conforms securely to the arterial wall.
Delivery System: Advanced delivery mechanism ensures precise deployment, easy navigation, and reduced procedure time, enhancing overall surgical efficiency.