STENTS

Intelligent Kinetics – PONTOS-pp
Peripheral Vascular Self-Expanding Stent System

The PONTOS-pp combines a highly durable nitinol stent with a Pin Pull delivery system for easy deployment and precise placement in lengths up to 200 mm.

Intelligent Kinetics – PONTOS
Peripheral Vascular Self-Expanding Stent System

The PONTOS Self-Expanding Peripheral Vascular Stent System is designed to deliver a selfexpanding nitinol stent to the peripheral vasculature via a sheathed delivery device.

Intelligent Kinetics – TALON Minor
Peripheral Balloon
Expandable Stent System

The TALON Minor– Peripheral Balloon Expandable Stent is a flexible, balloon-expandable stent, made of cobalt chromium alloy.

It is designed using our Micro-Invasive Technology for peripheral vessel Diameters from 5.0 mm to 10.0 mm. The TALONMinor– is mounted on an 0.018 over-the-wire delivery system and is available in a full range of diameters and lengths.

Intelligent Kinetics – TALON Minor
Peripheral Balloon
Expandable Stent System

The TALON Minor Peripheral Balloon Expandable Stent is a flexible, balloon-expandable stent, made of cobalt chromium alloy.

It is designed for peripheral vessel diameters from 8.0 mm to 10.0 mm. The TALON Minor is mounted on an 0.035 over-the-wire delivery system and is available in a full range of diameters and lengths.

Intelligent Kinetics – TALON Minor 6F
Peripheral Balloon
Expandable Stent System

The TALONMinor 6F Peripheral Balloon Expandable Stent System is a flexible, cobalt chromium stent mounted on an over-the-wire PTA balloon catheter.

It is designed for use in peripheral vessel diameters from 5.0 mm to 10.0 mm. The TALONMinor 6F is mounted on an 0.035” delivery system and is available in a full range of diameters and lengths with a shelf life of 2 years. The TALONMinor 6F Peripheral Balloon Expandable Stent System provides
a means of safely advancing the stent through the peripheral vessels to the desired location.

ZENFlex™ – Peripheral Stent System
Expandable Stent System

Unique Spiral Design
• Excellent flexibility
• Superior vascular compliance
• High radial support strength