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The new standard of safety and ease of usage in bifurcation stenting

  • Double Balloon SDS 
  • Full Safety: Full-Time access to side-branch 
  • User Friendly, Fast and Easy 
  • Closed Cell type design with variable stent geometry

Uncompromised Safety and Ease of Usage

  • Double Balloon SDS
    Stent is premounted on both balloons in its proximal portion, and only on the main-vessel balloon in its distal portion.
  • Full Safety: Full-Time access to side-branch
    While guide wire is maintained in the side-branch from the beginning to the end of the procedure, proper opening of the stent cell facing the side-branch is provided by the side-branch balloon. Besides leading to complete resolution of jailing, total access to the side-branch with any device of choice (balloon or stent) is also guaranteed to ultimately optimize the final result.
  • User Friendly, Fast and Easy
    • Self Positioning, really operator independent: once the carina of the bifurcation is reached, precise positioning of the stent is simply achieved since no further advancement of the SDS is possible. 
    • Unlimited Access to the Side-Branch: special Long Tip of side branch balloon, extending over the tip of main-vessel balloon, facilitates entry to the side branch and contributes in overall precise axial and circumferential stent positoning. 
    • User Friendly Handling: double rapid exchange design for both main vessel and side branch balloons, with 6 F guiding catheter compatibility

Efficacy achieved by the right scaffolding

•   Closed Cell type design with variable stent geometry

Optimal and reliable scaffolding is assured in each of the various sized and shaped portions of the bifurcation anatomy with consistent metal to artery ratio in vivo. Proximal (p) and distal (d) main vessel, as well as the area of the carina (c) are properly supported by a specially tuned stent platform able to withstand major deformation. Uniform strut expansion is enabled, free of uncontrolled gaps, without overall stent architecture overstretching.

Image below:

  1. Proximal Main Vessel and Carina district:
    Closed cell type structure with cells featuring extra perimeters for optimal adaptation to bigger sized vessel and proper side-branch ostium scaffolding. Max Cell expansion diameter:5.0 mm.
  2. Optimal scaffolding Side-Branch ostium
  3. Distal Main Vessel:
    Closed cell, standard type stent structure. Max Cell expansion diameter: 4.0 mm.
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