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BBC News reporter Michelle Roberts writes that MIT researchers have developed a new material that can hide wrinkles and could eventually be used to deliver medicines and sun protection. The researchers found that skin “coated with the polymer was more elastic than skin without the film. And, to the naked eye, it appeared smoother, firmer and less wrinkly.”
Wired reporter Emily Reynolds writes about Anna Young, who works with the Little Devices Lab at MIT, and her talk at “WIRED Health” on bringing innovation to hospitals. "There's another side of medical devices," says Young. “I consider myself a medical device archaeologist. I want to take these tools apart, understand how they work."
Huffington Post reporter Carolyn Gregoire writes that MIT spinoff Synlogic is working on reprogramming gut bacteria to act as a living therapeutic. “It’s become really clear that the bacteria living in us and on us affect our bodies in a variety of different ways — in ways that we never imagined,” explains Prof. Timothy Lu.
Tech Insider’s Chris Weller reports on a new study by MIT researchers that examines how sneezes travel and spread viruses. The findings could help researchers “predict and prevent disease spread,” Weller explains. “If they know how quickly a pathogen spreads via sneeze, then they can learn more about the risks posed by the viruses themselves.”
MIT researchers used high-speed cameras to examine how sneezes travel, reports Gillian Mohney for ABC News. The researchers found that “instead of a uniform cloud of droplets, a single sneeze would fragment in the air similar to paint being flung onto a canvas.”
In this Reuters video, Ben Gruber examines how MIT researchers are working on developing new treatments for diabetes. "What we developed is basically a new material that acts like an invisibility cloak,” explains Prof. Daniel Anderson. “It coats the cells but allows them to function and live but protects them from the immune system.”
STAT reporter Andrew Joseph writes that MIT scientists have developed a potential new treatment for diabetes. Joseph explains that the new technique could allow healthy insulin-producing cells to be successfully transplanted into patients.
Lindsay Kalter reports for The Boston Herald that researchers from MIT, Philips, and Boston Medical Center are developing a non-invasive way to diagnose head injuries. Kalter explains that the study is part of a new collaboration between MIT and Philips and will “use data from an ultrasound machine taking measurements of blood pressure and flow.”
Researchers from MIT, Philips and Boston Medical Center are collaborating on new technology to diagnose brain injuries, reports Nidhi Subbaraman for BetaBoston. “The goal is to investigate whether ultrasound readers can help doctors assess the severity of a head injury,” Subbaraman writes.
Researchers at MIT and Harvard have developed a new device that can quickly detect Ebola, reports Robert Preidt for U.S. News & World Report. “The new paper-based test takes minutes and the device does not require electricity,” writes Preidt. “The test works in a similar manner to over-the-counter pregnancy tests.”
Jamie Ducharme of Boston Magazine writes about a polymer gel being developed by researchers from MIT and Massachusetts General Hospital that could allow for swallowable medical devices. “Improving slow-release safety could open the door for devices that control hunger in obese patients, diagnose gastrointestinal issues, extend the effects of drugs, and more,” Ducharme explains.
MIT researchers have “developed a new ring-like device made of a polymer that can deliver drugs to the stomach over the course of a week,” writes Alexandra Ossola for Popular Science. The team anticipates that the technology could be used for a variety of medical applications.
MIT researchers have found that nitrous oxide or laughing gas is a stronger anesthetic than previously believed, writes Nitya Rajan for The Huffington Post. The researchers found that nitrous oxide caused changes in patient brainwaves and a pattern of electrical firing across the brain.
Scientific American reporter Cynthia Graber speaks with Prof. Sangeeta Bhatia about her new research that shows how bacteria could be used to detect cancer. “I think there's really a whole world of possibilities once you start thinking about using bacteria as a platform upon which to engineer functions,” says Bhatia.
In an article for Nautilus, Elizabeth Preston writes about Prof. Lydia Bourouiba’s work examining how rain can spread crop diseases. Through a close examination of high-speed images, Bourouiba found that how raindrops bounce off different plant leaves “is really at the root” of the spread of pathogens among plants.