![]() “Centers that can’t afford that overhead would have access to this treatment technology,” said Monsky. A headset and electromagnetic tracking system could fit in a roller bag and travel to remote areas far from the traditional setting of an urban hospital angiography suite. He thinks VR’s small footprint also could make interventional radiology portable. Food and Drug Administration before it could be deployed with actual patients. The tests provided proof of concept, but the idea still must be scrutinized and approved by the U.S. (With VR), we think we can come away from a lot of that – hopefully all of it,” Monsky said. “We always try to minimalize every patient’s exposure, but these complex procedures are currently performed with X-ray exposure to the patient, in the name of curing their disease. More critically, since VR employs a magnetic field to visualize the catheter, it greatly reduces and may eliminate the need for the radiation exposure that comes with X-ray navigation. ![]() He recently presented study findings that underscore VR’s value: In tests of a phantom patient, VR guidance got him to the destination faster – about 40 seconds faster, on average, over 18 simulations – than was the case with X-ray guidance. It’s a sizable leap forward from the 2D, black-and-white X-ray perspective that has guided Monsky’s catheters through vessels for most of his career. The catheter's tip is equipped with sensors that visually represent its exact location to the VR headset. By following an anatomically correct, dynamic, 3D map of a phantom patient's vessels, Monsky navigates the catheter through junctions and angles. Monsky and two collaborators have pioneered VR technology that puts the operator inside 3D blood vessels. With this approach, they (and cardiologists, vascular surgeons, and neuro-interventionalists) treat an array of conditions: liver tumors, narrowed and bleeding arteries, uterine fibroids, and more. Interventional radiologists use catheters, thin flexible tubes that are inserted into arteries and veins and steered to any organ in the body, guided by X-ray visuals. And really, that’s the sensation: You’re in it,” he said. “As a child, and today, I’ve been amazed at the premise that one day you can swim around inside someone’s body. The experience reminds him of “Fantastic Voyage,” the ’60s-era sci-fi film about a submarine and crew that are miniaturized and injected into a scientist’s body to repair a blood clot. (I’m) moving up to the mesenteric artery and I can’t believe what I’m seeing,” he recalled. “When you put the (VR) headset on, you have a giddy laugh that you can’t control – just sheer happiness and enthusiasm. Wayne Monsky is an interventional radiologist at UW Medicine in Seattle. When UW Medicine interventional radiologist Wayne Monsky first saw virtual reality’s vivid, 3D depiction of the inside of a phantom patient’s blood vessels, his jaw dropped in childlike wonder.ĭr. ![]()
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