NEWS & EVENTS
Researchers have developed a new surgical tool that uses low-frequency intravascular ultrasound to break down blood clots that cause deep vein thrombosis. The tool is the first ultrasound 'drill' that can be aimed straight ahead, allowing doctors to better target clots -- which holds promise for significantly reducing treatment time. To date, the technology has been tested only in synthetic blood vessels. Read more at NC State News.
A research team is pioneering an infused 3-D-printed patch that guides the growth of new blood vessels, avoiding some of the problems with other approaches to treating ischemia. Read more at BU College of Engineering.
A mechanism that controls the formation and function of plate-like nanocrystals that play a critical role in bone composition has now been discovered by researchers. Read more at University of Arkansas News.
Engineering researchers have developed a revolutionary process for 3D printing stretchable electronic sensory devices that could give robots the ability to feel their environment. The discovery is also a major step forward in printing electronics on real human skin. Read more at University of Minnesota News.
Biomedical engineers are now able to take a live, holistic look at the inner workings of a small animal with enough resolution to see active organs, flowing blood, circulating melanoma cells and firing neural networks. The technique uses the best of both light and ultrasound, breaking long-standing resolution and speed barriers in small-animal whole-body imaging, providing full cross-sectional view of a small animal's internal functions in real-time. Read more at Duke Pratt School of Engineering News.
Studies have suggested a link between fitness and memory, but researchers have struggled to find the mechanism that links them. A new study found that the key may lie in the microstructure of the hippocampus, a region in the middle of the brain involved in memory processes. Read more at Illinois Research News.
An ingestible electronic capsule, complete with a capsule-sized antenna capable of receiving a radio signal wirelessly, can safely power a device in the gastrointestinal tract in preclinical models, investigators report. Read more at MIT News.