Easily Reach Distal, Embolize Safely
Microcatheter system designed for therapeutic embolization and angiography in peripheral vessels.
It gives control with ease of use, kink resistance, and distal flexibility in your daily practice.
Flawless Visualization, Rigidity and Lubricity
Tungsten Coil construction, high kink resistance, and hydrophilic coating help navigate tortuous anatomy and deploy therapeutic agents or contrast media with ease.
Reinforced micro catheter is intended for the controlled selective infusion of physician-specified therapeutic agents or contrast media into the vasculature of the peripheral anatomy.
MICROCATHETERS
ARE DESIGNED
TO ALLOW
NAVIGATION
MicroDELIVERY Catheter
Liquid Embolic Agents
DMSO Compability
Mechanic Embolizations
Embolization Coils
Variable Stiffness Design
Composite Shaft: Incorporates multiple stiffness zones—providing a soft, flexible distal tip for navigating convoluted vessels and a stiffer, supportive proximal segment for stable device manipulation.
Adjustable Stiffness: Optimizes pushability in challenging anatomies while preventing excessive distal force that could jeopardize delicate vascular structures.
Stainless Steel Braided Support
Proximal-to-Distal Reinforcement: A braided structure extends from the proximal region to the last 35 cm of the catheter, maintaining shape integrity under torque and push forces.
Stable Delivery Platform: Minimizes shaft buckling or kinking, enabling precise advancement of interventional devices or guidewires.
Pebax Outer Sheath
Triple-Layer Configuration: Three layers of Pebax provide graduated proximal-to-distal stiffness, amplifying proximal support while preserving distal flexibility.
High Radial Strength: Facilitates reliable luminal patency in curved or compressed vascular segments, ensuring consistent device passage.
PTFE Inner Lining
Low-Friction Lumen: Polytetrafluoroethylene (PTFE) liner reduces friction during guidewire or device exchange, enhancing procedural control.
Smooth Passage: Helps maintain stable device alignment and lessens microcatheter “kick-back” when deploying stents or coils.
Stainless Steel Coil Design
Variable Pitch Coil: Within the distal catheter shaft, variable coil spacing grants added flexibility without compromising radial power.
Kink Resistance: This coil-based architecture protects against lumen collapse, even when navigating tight vascular turns.
Hydrophilic Distal Coating
Enhanced Lubricity: The distal segment is layered with a hydrophilic material to reduce friction, promoting safer, smoother catheter advancement.
Easier Navigation: Minimizes vessel wall contact forces, diminishing risk of endothelial trauma.
Composite Shaft: Incorporates multiple stiffness zones—providing a soft, flexible distal tip for navigating convoluted vessels and a stiffer, supportive proximal segment for stable device manipulation.
Adjustable Stiffness: Optimizes pushability in challenging anatomies while preventing excessive distal force that could jeopardize delicate vascular structures.
Proximal-to-Distal Reinforcement: A braided structure extends from the proximal region to the last 35 cm of the catheter, maintaining shape integrity under torque and push forces.
Stable Delivery Platform: Minimizes shaft buckling or kinking, enabling precise advancement of interventional devices or guidewires.
Triple-Layer Configuration: Three layers of Pebax provide graduated proximal-to-distal stiffness, amplifying proximal support while preserving distal flexibility.
High Radial Strength: Facilitates reliable luminal patency in curved or compressed vascular segments, ensuring consistent device passage.
Low-Friction Lumen: Polytetrafluoroethylene (PTFE) liner reduces friction during guidewire or device exchange, enhancing procedural control.
Smooth Passage: Helps maintain stable device alignment and lessens microcatheter “kick-back” when deploying stents or coils.
Variable Pitch Coil: Within the distal catheter shaft, variable coil spacing grants added flexibility without compromising radial power.
Kink Resistance: This coil-based architecture protects against lumen collapse, even when navigating tight vascular turns.
Enhanced Lubricity: The distal segment is layered with a hydrophilic material to reduce friction, promoting safer, smoother catheter advancement.
Easier Navigation: Minimizes vessel wall contact forces, diminishing risk of endothelial trauma.