Tips on How to Field Test Ultrasound Transducers From Conquest Imaging
In today’s blog, we are going to go over some tips from Conquest Imaging’s Matt Tomory. Moving forward, a common theme you will often see in our blog is preventative maintenance tips for medical equipment.
Tue Jul 16 2013
In today’s blog, we are going to go over some tips from Conquest Imaging’s Matt Tomory. Moving forward, a common theme you will often see in our blog is preventative maintenance tips for medical equipment. Results from our latest survey indicated that our users would like to see more PM tips for equipment, so naturally MedWrench aims to please. Below, you will find a run down from Matt on how to field test ultrasound transducers.
In a recent article on Conquest Imaging’s website, Matt Tomory, Vice President of Sales, Marketing, and Training at Conquest Imaging, states that Conquest Imaging “often gets questions regarding testing of transducers in the field; specifically how to perform testing of transducer lenses, arrays, cables, connectors and overall performance when performing repairs or preventative maintenance on-site.”
At the repair facility for Conquest Imaging, they perform several tests that are difficult or impossible to do when in the field. This includes things such as a computer-generated platform of tests that electronically measure element sensitivity, cable capacitance and overall performance, as well as a clinical examination by their in-house registered sonographer to validate transducer performance from a clinical perspective.
According to Matt, “there are several ways to field test a transducer. The first is an overall visual and mechanical inspection.” He goes on to state that you should “begin with the lens and check for nicks, cuts or gaps between the nosepiece and lens, or lens swelling.”
Next, “while watching the image (especially the near field), hold the scan head by the strain relief and gently flex the scan head at the strain relief and look for dropouts or noise being generated in the image.” If you see either one of these issues, Matt states that “you have one or more broken cables in the neck of the probe.”
Moving down the cable, you should “check for any nicks or cuts along the entire length. Now inspect the connector for any broken or bent pins and remove from service immediately any probes that have connector damage. A bent or broken pin can damage the connector board on a system, which will in turn damage the next probe that is plugged into that port.”
Now, you should test the electrical safety by preparing a water bath with a saline solution. Matt states that he “prefer(s) to use the top of a tissue mimicking phantom so (he) can combine this with the next test.” By setting up your leakage meter for chassis leakage, energizing the probe with the ultrasound system, inserting the nosepiece in the solution, and completing the circuit by inserting your leakage probe into the solution and then lifting the ground, you can test for transducer leakage current.
Lastly, “scan your phantom and look for any dropouts or irregularities in the image to check for dead or weak elements.” Matt goes on to state that “by moving a transducer slowly across the phantom and watching for darker areas that move with the probe, you can identify problem elements.”
If performed correctly, the simple tests described here will enable a service engineer to perform a well-rounded evaluation of a transducer’s safety and performance when in the field.