Monitor volume flow of blood, priming and buffer solutions within extracorporeal tubing circuits with transit-time
ultrasound technology. Sterile Tubing Flowsensors clip onto the tubing to continuously monitor actual flow delivery to
the patient. The sensors do not compromise tubing sterility or non-thrombogenic surfaces.
Proactive Patient Management:The Transonic Bypass System helps ensure optimal perfusion for enhances safety for the patient. Designed
for ease of use in the critical care setting, Transonic Systems' HT110 Bypass Flowmeter is dedicated for the monitoring of volume flow of
blood, priming and buffer solutions within extracorporeal tubing circuits. External Sterile Tubing Flowsensors clip onto the tubing to
continuously monitor actual flow delivery to the patient.The sensors do not compromise tubing sterility or non-thrombogenic surfaces.
Non-invasive
Continuous
Actual flow in ml/min or L/min
Flowmeter Options include an alarm for bubble detect and low/high flow alarms. Data Acquisition: Flow information can be
recorded with the personal computer interface (-P) Option or a strip chart recorder.
Transonic Sterile Tubing Flowsensors
Transonic XL Sensor
Our Sensors clip around the outside of standard tubings to
provide a non-invasive measure of volume flow to enhance the safety of extracorporeal procedures
The integrity of non-thrombogenic surfaces is maintained.
For use with blood, saline and other non-aerated aqueous solutions.
Molded clip-on design for easy care and handling.
'X'- pattern of ultrasound insonification to ensure precision measurements
Stable low zero offset and accurate under perturbed flow conditions
Compatible with a wide range of tubings sizes and materials
OEM Modules
Transonic Systems invites original equipment manufacturers (OEMs) to incorporate Transonic's precise and reliable extracorporeal flowsensor
technology into their systems.
Proven Accuracy in Clinical and Experimental Flow Measurement in:
Bypass Pumps
ECMO Apparatus
Infusion/transfusion/perfusion Apparatus
Dialysis Systems
Organ Preservation Apparatus
Ventricular Assist Devices Transonic "Inside"
Ultrasound that Measures Volume Flow, Not Velocity
Using wide-beam illumination, transducers pass ultrasonic signals back and forth,
alternately intersecting flowing blood in upstream and downstream directions. The transit time of the ultrasonic beam is decreased when traveling downstream with the blood
flow and increased when traveling upstream against the flow. The difference between the integrated transit times is a measure of volume flow
