Critically Ill Clinical Trial
Official title:
Ultrasound Guided Central Venous Vascular Access - Novel Needle Navigation Technology Compared With Conventional Method: A Prospective Randomized Study
Background: Central venous catheter (CVC) insertion is a very common procedure in the
intensive care setting. A recent international guidelines advocated the use of ultrasound for
routine internal jugular CVC insertion. The needle navigation technology is a new innovation,
also known as guided positioning system (GPS) which allows clinician to visualize the needle
position and trajectory in real time as it approaches the target. We hypothesised that the
use of GPS would increase success rate and decrease performance time in vascular access
procedures.
Objectives: To compare the success, efficacy and safety of the procedure using the ultrasound
guidance (UG) with conventional versus GPS method.
Methods: This was a prospective randomized controlled study in a single centre - intensive
care unit. 100 patients were randomized into two groups (50 each each). Subjects would
receive CVC insertion via internal jugular vein using ultrasound guidance out of plane
approach by conventional versus GPS method. Outcomes measured were the procedure efficacy,
safety, level of operators' experience and their satisfaction.
Introduction Central venous catheter (CVC) insertion is a very common procedure in the
intensive care setting. A recent international guideline advocates the use of ultrasound for
routine internal jugular central venous catheter insertion1. The needle navigation technology
is a new innovation, also known as guided positioning system (GPS) which allows clinician to
visualize the needle position and trajectory in real time as it approaches the target. We
hypothesised that the use of GPS would increase success rate and decrease performance time in
vascular access procedures. The objectives of this study are to compare the success, efficacy
and safety of central venous catheter insertion via internal jugular vein using the
ultrasound guidance with conventional method versus needle navigation technology.
Methods:
This was a prospective randomized controlled study. It was conducted in a single centre -
intensive care unit (ICU), University of Malaya Medical Centre, Kuala Lumpur, Malaysia from
February 2016 to October 2016. The ethic committee approval was obtained from the Malaysian
medical research and ethics committee, MREC at the www.nih.gov.my (NMRR-16-334-29476).
The inclusion criterion was patients in the ICU who required central venous vascular access.
The exclusion criteria were refusal to participate in this study by patient or their legal
representative and patient with known history of difficult central venous access at internal
jugular vein (IJV). The procedure operators were doctors in anaesthesia residency program
with various level of experiences classified into 3 groups: 1 to < 2 years, 2 to < 3years, 3
years and above. Simply speaking all the operators have had previous training in ultrasound
guided vascular access procedure. This would ensure that patient's safety is not compromised.
Study would be proceeded after obtaining consent from patient or the next of kin. The
emergency verbal consent would be taken if the next of kin was not immediately available with
subsequent written consent to follow. The available operator would perform CVC insertion via
IJV using ultrasound guidance out of plane approach either with conventional method or needle
guidance technology.
Study Protocol:
After obtaining consent, a computer generated randomisation would be assigned to either using
the conventional or GPS method. Identified operators using GPS method would receive a
standard 5 minute briefing on the needle guidance technology and got to practice with the new
technology using the vascular phantom (Blue Phantom Inc., Bothell, WA, USA). The operators
were allowed to practice until they were ready to perform on real patient.
All procedure would be performed using the ultrasound machine, eZono 4000 with eZGuide
(eZono, Jena, Germany) and linear array transducer L3-12NGS (3-12 MHz). This ultrasound
machine2 has a built-in adaptive needle recognition software called eZGuide. The navigation
technology of the ultrasound device is based on an electromagnetic field that communicates
with a transducer and an electromagnetic sensor sheathed by a vascular access needle. Needle
movements and related magnetic field variation allow navigation system to compute the
locations of the transducer and needle in the three dimensional space. The ultrasound screen
would display colour coded alignment of the needle and the position of the tip relative to
the imaging plane (Figure 1). Superimposed on the image is the real-time electronic needle
guidance system. The dashed line represents the predicted needle trajectory. The red box
represents the depth that the needle will cross the plane of the ultrasound. The solid lines
on either side of the dashed line represent the actual depth of the needle. The top left
corner shows a diagram of the transducer-needle relation. This allowed the user to identify
the correct needle trajectory, prior to puncturing the patient's skin and maintain the chosen
route to the target anatomy. Operators assigned to use GPS method would have activated the
eZGuide software while those performing conventionally would have the software technology
turned off when using the ultrasound machine.
The procedure time was measured in seconds using a stopwatch. The performance time was
defined as time measured from placing the needle on the skin to successful vessel puncture as
indicated by blood withdrawn into the syringe.
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