Minnie® Support Catheter

Made for mobility

The Minnie® Support Catheter is designed with an advanced polymer shaft, fully encapsulated marker bands and smooth, tapered tip-to-guidewire transition. Combined, these features provide an exceptionally smooth catheter for deliverability and guidewire movement to navigate tortuous anatomy, access small vessels and support guidewires while crossing challenging lesions.

  • Impressive trackability — requires less force to advance the catheter over a guidewire through simulated anatomy1
  • Excellent guidewire movement — requires less force to advance the guidewire through the catheter1
  • Fully encapsulated radiopaque marker bands enhance guidewire movement and deliverability
  • Smooth, tapered tip-to-guidewire transition works together with the advanced polymer shaft to facilitate smooth vessel navigation
  • Advanced polymer shaft promotes trackability and prevents softening at body temperature

References:

  1. Data on file at Teleflex. Test data may not be indicative of clinical performance.
The Minnie® Support Catheters are intended to be used in conjunction with steerable guidewires in order to access discrete regions of the arterial and/or coronary vasculature. They may be used to facilitate placement and exchange of guidewires and other interventional devices. The Minnie support catheters also may be used to subselectively infuse/deliver therapeutic agents.

Refer to the Instructions for Use for a complete listing of the indications, contraindications, warnings and precautions. Information in this material is not a substitute for the product Instructions for Use.

CAUTION: Federal (USA) law restricts this device to sale by or on the order of a physician.

Not all products are available in all regions. Please contact customer service to confirm availability in your region.

Teleflex, the Teleflex logo and Minnie are trademarks or registered trademarks of Teleflex Incorporated or its affiliates, in the U.S. and/or other countries. MC-004204 Rev 0

Revised: 04/2018.