Stent Design

Adaptive cell size designed for optimal scaffolding and uniform drug dosing while preventing tissue prolapse.

EluNIR wizecell tiny

Lower is Better

Low Metal Footprint

Low cobalt-chromium footprint with ultra-narrow 40µm and 72µm struts.

Metal footprint 1

Data on file at Medinol

Tissue prolapse 1

Tissue Prolapse

Scaffolding & Conformability

EluNIR’s optimized cell size ensures uniform scaffolding and prevents tissue prolapse and strut overlap.

Data on file at Medinol

Design Features

  • Low metal footprint cobalt-chromium design

  • Exceptional Scaffolding and Conformability

  • Optimized side branch access

Metal Spring Tip

Enhanced Deliverability

Medinol’s patented Flexx² technology is a game-changer in coronary deliverability, especially in torturous anatomies. Flexx² is based on a tapered spring tip designed to eliminate tip flare out and buckling while enabling simultaneous flexibility and pushability.

EluNIR Flexx tiny

Highest Tip
Pushability &

EluNIR’s spring tip demonstrates an exceptional combination of pushability and conformability.

Group 17489

Tip Visibility

Purposefully designed spring tip for superior deliverability in challenging anatomies

Delivery System Features

  • Superior deliverability

  • Enhanced pushability & flexibility

  • Eliminates flare out and buckling

  • Catheter-tip visualization

Elastomeric Coating

Long Term Durability

The EluNIR’s novel coating has elastic properties that resists cracking and is designed to maintain surface integrity providing drug elution.

Optimal combination of coating and process design offers predictable and uniform release of Ridaforolimus.

nominal presure
At Nominal Pressure
At Rated Burst Pressure