How to set up a low cost tele-ultrasound capable videoconferencing system with wide applicability

• Published in: Critical ultrasound journal Vol. 4; no. 1; p. 13
• Main Authors: Crawford, Innes, McBeth, Paul B, Mitchelson, Mark, Ferguson, James, Tiruta, Corina, Kirkpatrick, Andrew W
• Format: Journal Article
• Language: English
• Published: Milan Springer Milan 29.05.2012; Springer Nature B.V; BioMed Central Ltd; Springer
• Subjects: Critical Care Medicine; Diagnostic Radiology; Emergency Medicine; Imaging; Intensive; Interventional Radiology; Medicine; Medicine & Public Health; Original; Original Article; Radiology; Ultrasound; Tele-ultrasound; Trauma systems; Injury; Pre-hospital
• ISSN: 2036-7902; 2036-3176; 2036-7902; 2524-8987
• DOI: 10.1186/2036-7902-4-13

Background Worldwide ultrasound equipment accessibility is at an all-time high, as technology improves and costs decrease. Ensuring that patients benefit from more accurate resuscitation and diagnoses from a user-dependent technology, such as ultrasound, requires accurate examination, typically entailing significant training. Remote tele-mentored ultrasound (RTUS) examination is, however, a technique pioneered in space medicine that has increased applicability on earth. We, thus, sought to create and demonstrate a cost-minimal approach and system with potentially global applicability. Methods The cost-minimal RTUS system was constructed by utilizing a standard off-the-shelf laptop computer that connected to the internet through an internal wireless receiver and/or was tethered through a smartphone. A number of portable hand-held ultrasound devices were digitally streamed into the laptop utilizing a video converter. Both the ultrasound video and the output of a head-mounted video camera were transmitted over freely available Voice Over Internet Protocol (VOIP) software to remote experts who could receive and communicate using any mobile device (computer, tablet, or smartphone) that could access secure VOIP transmissions from the internet. Results The RTUS system allowed real-time mentored tele-ultrasound to be conducted from a variety of settings that were inside buildings, outside on mountainsides, and even within aircraft in flight all unified by the simple capability of receiving and transmitting VOIP transmissions. . Numerous types of ultrasound examinations were conducted such as abdominal and thoracic examinations with a variety of users mentored who had previous skills ranging from none to expert. Internet connectivity was rarely a limiting factor, with competing logistical and scheduling demands of the participants predominating. Conclusions RTUS examinations can educate and guide point of care clinical providers to enhance their use of ultrasound. The scope of the examinations conducted is limited only by the time available and the criticality of the subject being examined. As internet connectivity will only improve worldwide, future developments need to focus on the human factors to optimize tele-sonographic interactions.