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OBGYN.net UltrasoundPortable Ultrasound - A Peek at the Future
Some of you know that I have long been an advocate of
miniaturization in Sonography, and predicted that we will all be Cyborgs
within 5 years. Well, one of our own, Master Sgt. Cheryl Vance, a
diagnostic sonography instructor assigned to the 382nd Training Squadron
at Sheppard Air Force Base, Texas (yes, SDMS Region 3 rules the future!)
may well be the first Sonographic Cyborg on Earth! Or would that be a
"SonoBorg"? We had asked Cheryl to demonstrate her new toy(s) at the SDMS Annual Conference, but the Air Force declined because they were afraid it would
appear to be commercially biased toward one vender. However, since they
have now published their own article in the Air Education and Training
Command (AETC) newspaper, perhaps they will let Master Sgt. Vance
demonstrate at a future conference. Peace, Terry
J. DuBose, M.S., RDMS, |
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NCO Helps Create New Ultrasound Technology By 2nd Lt. Nathan Broshear Reprinted with permission of the U.S. Air Force, please click on image for larger view. SHEPPARD AIR “At first, it does make you look a little like a cyborg, but once you get used to the equipment it’s second nature,” said Master Sgt. Cheryl Vance, a diagnostic ultrasound instructor at the 382nd Training Squadron and the impetus behind the creation of the “wearable ultrasound.” The newest addition to the Diagnostic Ultrasound Course is a vest that holds the ultrasound probe and central processing unit, a wristband keyboard and mouse, and a single eyepiece that displays the same type of interface a common Microsoft user would recognize. Students call the machine the “wearable” ultrasound. “There isn’t really a name for it yet, but I bet once it’s on the market nation-wide they’ll think of something,” said Staff Sgt. Rebecca Gibson, a student attending the course from Wright-Patterson Air Force Base, Ohio. Appearances aside, the “wearable” ultrasound from Sheppard’s 882nd Training Group provides an important advance in ultrasound technology. “We’re excited about the possibilities,” said Col. Jeanie Kearney, 882nd Training Group commander. “This merger between the Windows platform, wearable computing, and cutting-edge ultrasound equipment has freed the operator to go to the patient instead of vice-versa. We hope to make this commonplace in our curriculum.”
“Many people don’t realize that ultrasound technology is more than simply a machine to look at babies,” said Colonel Kearney. “Instructors in other courses will use this new tool to illustrate the body’s anatomy to students while walking around the room during a lecture. It’s a more hands-on approach to teaching medicine.” The machine also has the ability to store images on the hard drive, or transmit them over a network in video or as an e-mail attachment. “Soon a doctor in Texas will be able
to scan a patient while speaking directly with a specialist across the
country for instant expert opinion. Advances you see in your desktop
computer will certainly filter into this one,” said Sergeant Vance. Even without a network connection, the wearable ultrasound can be taken places a traditional machine would never be located. “Previously, patients had to be taken to an ultrasound area where a 300-pound machine was used to perform the procedure,” explained Sergeant Vance. “With this machine we can go to them -- in the field, on an airplane or any type of austere location.” It’s not surprising Sergeant Vance is the expert on the wearable ultrasound; it is her concept. Six months ago, she submitted a proposal through the Education and Training Technology Application Program to research and develop her project. “The underlying technology already existed, the trick was to combine the two components,” said Sergeant Vance. The joint venture between the Air Force and the two private companies resulted in a machine that has all the capabilities of the previous refrigerator-size ultrasound but at about one-seventh the cost. Even simulators, at $75,000 each, are almost twice as expensive as the estimated $36,000 cost for the basic wearable ultrasound. “While a conventional machine works fine, the wearable ultrasound … allows us to leapfrog a lot of interface issues and get right to the heart of our training -- diagnosis,” said Sergeant Vance. It’s this direct impact on training that has caught the eye of leadership. “We expect to increase student’s hands-on training time by 100 percent,” said Colonel Kearney. “This will decrease the washout rate, but most importantly, make for a better trained professional at graduation.” It currently costs $78,000 to train a single ultrasound technician. “Regardless of the field benefits, if we can help just one student through their courses, then this machine pays for itself,” said Colonel Kearney.
“I couldn’t have done this without all of the support I got at work and at home. To be honest, I was just hoping to help our class and it seems to have just exploded,” she said. Brig. Gen. Arthur Rooney, 82nd Training Wing commander, points to the wearable ultrasound as another example of the “culture of innovation” he has come to expect from Sheppard’s technical training courses. “We are constantly ‘transforming’ our training to meet the needs of our customers by bringing cutting-edge technology directly to the classroom,” General Rooney said. “This is another example of how our training has become more hands on … no longer is technical training just books, brick, and mortar.” All images provided courtesy of the U.S. Air Force. |
