Description: Step into the future of intravenous therapy with the Nipro Film ST IV WC ETFE R/O BC WOF Catheter, an advanced medical solution designed to meet the exacting standards of healthcare professionals. Created by Nipro, a trailblazer in medical advancements, this catheter delivers unparalleled precision, safety, and patient comfort.
Key Features:
- Innovative Film Technology: Utilizes cutting-edge film material to create a sterile barrier, reducing infection risks during insertion.
- ETFE Construction: Enhances patient comfort with a smooth, pain-free intravenous therapy experience.
- Radiopaque Marker and Winged Needle: Facilitate precise placement, ensuring accurate and efficient IV access.
- Back-Cut Technology: Minimizes tissue trauma during insertion, promoting a smoother, less invasive procedure.
- Wire-Wound Reinforcement: Provides superior kink resistance, maintaining a consistent fluid flow.
- Universal Luer Fitting: Enables versatile use in various clinical settings.
- Ultra-Sharp Siliconized Needle: Minimizes patient discomfort during injection, prioritizing their well-being.
- Latex, DEHP, and PVC Free: Demonstrates a commitment to patient safety, using the highest quality materials.
- Ethylene Oxide and Gamma Sterilization Options: Offers flexibility aligned with diverse facility preferences.
Benefits:
- Precision Placement: Ensures accurate and efficient intravenous access.
- Patient Comfort: ETFE material and innovative design prioritize a pain-free experience.
- Reduced Trauma: Back-Cut Technology minimizes tissue trauma during insertion.
- Versatility: Universal luer fitting and various configurations adapt to diverse clinical scenarios.
- Safety First: Latex, DEHP, and PVC-free construction underscores a commitment to patient safety.
- Infection Control: Innovative Film Technology maintains a sterile barrier, reducing infection risks.
Choose the Nipro Film ST IV WC ETFE R/O BC WOF Catheter for a groundbreaking solution that seamlessly integrates innovation, precision, and patient-centric design into the realm of intravenous access.
