![]() ![]() Medical robots have been making increasing appearances in health systems worldwide, with a Bahrain COVID-19 isolation unit deploying a trial program for three medical robots in May last year. "Minimizing human contact with individuals who have COVID-19 but are otherwise healthy may reduce the risk of in-hospital disease transmission and enable health care professionals at high risk of infection to safely interact with patients through teletriage," wrote researchers in the study. Spot" – in the emergency department to interview 41 patients about their symptoms via video connection, more than 90% of participants reported that they were satisfied with the system. When researchers used one of their robots – nicknamed "Dr. Nearly half of the participants said it would be useful for obtaining nasal or oral swabs, and about 40% said it would be useful for placing an intravenous catheter or for performing phlebotomy. ![]() The online survey found that the majority of participants believed a robotic system would be useful for a variety of healthcare tasks, including facilitating telehealth interviews, acquiring vital signs and turning a patient in bed. "In this study we were trying to tease that out and understand if the population is receptive to a solution like this one," he added. "Often as engineers, we think about different solutions, but sometimes they may not be adopted because people are not fully accepting of them," said Traverso. However, explained the researchers, they wanted to ensure patients would be open to interacting with the robots. #Giovanni traverso skinThe robots' sensors could measure vital signs such as skin temperature, breathing rate, pulse rate and blood oxygen saturation, as well as carry an iPad that allowed for remote video communication with a provider. "The results of this study give us some confidence that people are ready and willing to engage with us on those fronts," he said.Īutomating tasks can become even more important at a time when physical distancing for safety reasons is still prioritized.Īfter the COVID-19 pandemic began last year, the research team worked with Boston Dynamics to create a mobile robot that could interact with patients as they waited in the ED. "We’re actively working on robots that can help provide care to maximize the safety of both the patient and the healthcare workforce," said MIT assistant professor Giovanni Traverso, who was the senior author of the study, in a statement. Next, they tested one of their robots – a doglike robot developed by Boston Dynamics – in the emergency department at Brigham and Women's Hospital last spring. Researchers from MIT and Brigham and Women’s Hospital first conducted an online survey of around 1,000 people asking about the acceptability of robots in healthcare. Traverso continues his efforts towards the development of novel diagnostic tests that enable the early detection of cancer.A study published this week in the Journal of the American Medical Association Network Open found that most participants believed that using a robotic system for facilitating healthcare tasks is acceptable. His current research program is focused on developing the next generation of drug delivery systems to enable efficient delivery of therapeutics through the gastrointestinal tract as well developing novel ingestible electronic devices for sensing a broad array of physiologic and pathophysiologic parameters. #Giovanni traverso seriesFor his post-doctoral research, he transitioned to the fields of chemical and biomedical engineering in the laboratory of Professor Robert Langer at the Massachusetts Institute of Technology (MIT) where he developed a series of novel technologies for drug delivery as well as physiological sensing via the gastrointestinal tract. Traverso’s previous work focused on the development of novel molecular tests for the early detection of colon cancer. He subsequently completed medical school at the University of Cambridge, internal medicine residency at the Brigham and Women’s Hospital and his gastroenterology fellowship training at Massachusetts General Hospital, both at Harvard Medical School. Bert Vogelstein at Johns Hopkins University. He received his BA from Trinity College, University of Cambridge, UK, and his PhD from the lab of Prof. Traverso grew up in Peru, Canada and the United Kingdom. Traverso is an Assistant Professor in the Department of Mechanical Engineering at the Massachusetts Institute of Technology and in the Division of Gastroenterology, Brigham and Women’s Hospital (BWH), Harvard Medical School. ![]()
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