From the April 2022 issue of HealthCare Business News magazine
The aim, according to Paton, is to assess the safety and feasibility of short-term variable pacing in patients with temporary external pacing wires fitted following surgery. "We will make analogous measures to those in the sheep, such as cardiac output, ejection fraction, biomarkers, sleep disordered breathing and exercise tolerance."
RWJUH, RWJMS install first FDA-approved clinical robotic tele-cardiac ultrasound system
Robert Wood Johnson University Hospital, an RWJBarnabas Health facility in New Jersey, and Rutgers Robert Wood Johnson Medical School performed a trans-Atlantic exam in February with the first FDA-approved clinical robotic tele-cardiac ultrasound solution in the U.S.
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Designed by ultrasound manufacturer AdEchoTech in France, the MELODY robotic tele-cardiac ultrasound system enables remote diagnostic imaging and was used by the providers, while based in the U.S., to assess a patient in France. The exam was performed for several hours in real time over a routine 4G cellular network.
“Imagine that a patient comes to an emergency department in the middle of the night and there are no sonographers present to perform the imaging exam that he or she needs. In the very near future, we can connect with a sonographer at another hospital or from their home to perform a cardiac ultrasound exam that could be lifesaving,” said Dr. Partho Sengupta, Henry Rutgers professor of cardiology and chief of the division of cardiology at RWJMS, in a statement.
Sengupta leads the RWJUH and RWJMS Cardiovascular team, which began to perform successful ultrasounds with the system the day after the trans-Atlantic test. It plans, over the next two months, to teach sonographers how to use the technology in clinical settings and will make it available to the public later this year.
The solution consists of a robotic arm, an ultrasound machine and video conferencing technology that connects the patients and doctors. It can be installed in and outside of the hospital. In addition to improving access to diagnostic real-time imaging, it is expected to help detect disease early and reduce travel time and transport costs for patients.
For healthcare professionals, the technology is designed to reduce risk of work-related injuries from overuse and repetitive movements due to manual ultrasound imaging. It also may help make up for the chronic shortage of ultrasound technologists and sonographers nationwide and reduce exposure to infectious diseases such as COVID-19 and influenza, as well as radiation in catheterization labs.
