Experience purpose-built vascular access ultrasound
Experience purpose-built vascular access ultrasound
From its larger screen and enhanced image quality to how the probe connects, the completely redesigned SiteRite™ 9 Ultrasound System helps deliver an impressive suite of advances - all focused on meeting the demands of vascular access.
Purpose-built for placement
The SiteRite™ 9 Ultrasound System with integrated Sherlock 3CG+™ Tip Confirmation System (TCS) is dedicated to vascular access and includes visualization tools to help identify and measure vessels during PICC procedures.
Easier does it
Offering a user-friendly experience thanks to its interface and a 15.6” touch screen display – 50% larger than SiteRite™ 8.
Supporting device selection
An ultrasound system that combines clear visualization of the vasculature with real-time measurement can help clinicians reduce any requirement for guesswork when choosing the most appropriate vascular access device. The system automatically detects the vessel then applies measurement tools and provides information about catheter-to-vein ratio to the clinician. This information can be used to apply catheter-to-vein ratio rules that align with current INS Standards.
Visible needle trajectory
Cue™ Needle Tracking Technology is used to provide visual feedback of needle trajectory and needle tip positioning in relation to the structure of interest. When compared to “blind” catheter placements real-time visibility has been shown to help reduce number of insertion attempts improving the ultrasound-guided needle insertion experience for everyone.
Why SiteRite™ 9 Ultrasound System
Sherlock 3CG+™ Tip Confirmation System / the market leader in tip location and confirmation technology
PowerGlide Pro™ Midline Catheter / incorporates a guidewire designed to assist with insertion success
PowerPICC™ Catheter / combines the efficacy of PICC access and power injection into one catheter
AccuCath™ Ace Intravascular Catheter / shown to increase first attempt success rates and extend dwell times
BD-95277 (10/23)