Researchers from MIT and Mass General Hospital have been named one of the winners of Popular Science’s 2016 Invention Awards for their work developing an ingestible electronic device that measures vital signs, reports Dialynn Dwyer for Boston.com.
Wesley Clark, who was known for his work at MIT’s Lincoln Lab on the design of the first modern personal computer, died on February 22nd, reports John Markoff for The New York Times. “Mr. Clark’s computer designs built a bridge from the era of mainframe systems…to personal computers that respond interactively to a user.”
Engadget’s Timpthy Seppala reports that MIT researchers have developed a model for estimating gas and electricity for every building in Boston. Seppla explains that, “the idea here is to use the model as a way of making Beantown more energy efficient across the board.”
Lincoln Lab researcher Albert Swiston speaks on NPR’s All Things Considered about the new sensor developed by MIT researchers that monitors vital signs through the gastrointestinal tract. “There are some bits of information from the body—namely the temperature of the body—that can only be monitored from inside the body,” explains Swiston.
Researchers at MIT and Massachusetts General Hospital have developed an ingestible device that monitors vital signs, reports Dialynn Dwyer of Boston.com. Dwyer explains that the device is a “pill-sized stethoscope with a microphone that, once swallowed, transmits data from inside the body.”
Nidhi Subbaraman reports for BetaBoston that MIT researchers have devised an ingestible microphone that allows doctors to monitor a patient’s vital signs. “A key innovation was developing algorithms that would distinguish important signals…from the noisy gurgling of the gut, and then translate them into numbers a physician can read and understand,” writes Subbaraman.
Researchers at MIT have developed an ingestible sensor that can measure vital signs without any external contact, reports Emily Reynolds for Wired. “The sensor works by using microphones—like ones found in mobile phones—that are able to pick up sound waves from the heart and lungs,” writes Reynolds.
Alexandra Ossola of Popular Science reports on an ingestible sensor that allows doctors to monitor vital signs by listening to the body’s gastrointestinal tract. The device could help treat “chronic illnesses, monitor soldiers in battle, or even help athletes train more effectively,” writes Ossola.
MIT researchers have developed an ingestible sensor that can monitor vital signs, reports Rae Ellen Bichell for NPR. "Trauma patients are a really clear winner here, because we can do vital sign monitoring without touching the skin," says Albert Swiston of Lincoln Laboratory.
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.”
Miles O’Brien of the PBS NewsHour reports on how scientists are developing cheaper and more efficient tests for Ebola, highlighting Prof. Lee Gehrke’s simple diagnostic kits. Gehrke explains that the test his team developed is “very simple, requires no refrigeration, no power, no special training.”
MIT researchers have developed a test for Ebola and other fevers using gold nanoparticle sensors that quickly identify the pathegon, writes Andrea Timpano for Boston Magazine. “It is important to recognize that the United States needs to have strategies for surveillance that will identify dangerous viruses,” says Professor Lee Gehrke.
“A promising new diagnostic test from MIT looks like it could be a game changer for rapidly diagnosing several important infectious diseases within minutes,” writes Judy Stone for Forbes. The paper test developed by MIT researchers can diagnose Ebola, yellow fever and dengue fever.
MIT researchers have developed a new silver nanoparticle-based paper test that can quickly detect dengue, yellow fever and Ebola, reports Vicki Davison for Scientific American. In addition to the paper test, the researchers are also working on developing a mobile application to ease diagnosis.
Writing for The Boston Globe, Kevin Hartnett reports on how MIT researchers have developed a new technique to help curb counterfeiting. The researchers have designed nanoparticles that can be used to determine the authenticity of items.