Palindrome™ H–Heparin Coated Dialysis Catheter

The Palindrome™ symmetric tip dialysis catheter has a unique symmetric tip and laser-cut side slots minimize recirculation and the likelihood of positional occlusion, as well as reduce clot formation by decreasing debris attachment

Maximum Flow Rates

The Palindrome™ Precision dialysis catheter - with its internal lumen design, 14.5Fr diameter, and durable Carbothane™ material - is able to consistently deliver high flow rates.

High tensile strength material and internal lumen design optimize inner diameter integrity without compromising flexibility or kink resistance.

Dependable Patency

The unique symmetric tip design and laser-cut side slots promote catheter patency∙

  • Side slots are designed to reduce the likelihood of positional occlusion.
  • Laser-cut surfaces are designed to discourage platelet adhesion and minimize debris attachment.

Reduces Recirculation

The Palindrome™ Precision catheter reduces recirculation rates to meet NKF/KDOQI guidelines when in forward or reverse flow:

  • Studies show that dialysis lines are frequently reversed.
  • When lines are reversed, blood recirculation increases.

H–HEPARIN COATING

The Clinical Challenge: Thrombosis

Catheter thrombosis can present challenges, including:

  • As many as 40 percent of catheter failures are attributed to venous thrombosis and fibrin sheath formation.
  • Approximately 17–33 percent of catheter removals are attributed to thrombosis.
  • Complications from thrombosis result in inadequate flow rates, longer dialysis times, and increased costs

 

Our Solution: Noneluting Heparin Coating Technology

 

Our noneluting heparin coating covers the external surface of the catheter from tip to cuff and internally from tip to adapters — providing total protection.
The heparin coating has a triple-action formula:

Heparin — Antithrombogenic
Negative charge — Nonthrombogenic
Hydrophilicity — Nonthrombogenic

Our noneluting heparin coating reduces the likelihood of platelet adhesion on the catheter surface and inhibits fibrin sheath propagation.