STAT reporter Casey Ross writes about how MIT researchers have developed a new ingestible Prof. Timothy Lu explains that he hopes that the sensor “opens up a really new window into how the gut and the rest of the body are connected, and hopefully provide new diagnostic strategies as well.”
Scientific American reporter Jeff Hecht writes that MIT researchers developed a new flexible material that can harvest energy from wireless signals. “The future of electronics is bringing intelligence to every single object from our clothes to our desks and to our infrastructure,” explains Prof. Tomás Palacios.
MIT researchers developed a super-thin, bendy material that converts WiFi signals into electricity, reports Ian Sample for The Guardian. “In the future, everything is going to be covered with electronic systems and sensors. The question is going to be how do we power them,” says Prof. Tomás Palacios. “This is the missing building block that we need.”
Prof. Polina Anikeeva speaks with Forbes contributor Poornima Peiris about her work developing materials that could be used to help explore and better understand the brain and nervous system. “I am not interested in just improving things, I want to work on innovative ideas,” says Anikeeva.
TIME reporter Jamie Ducharme highlights how Prof. Dina Katabi has developed a device that uses wireless signals to collect information about how well a person is sleeping. “If we can monitor health continuously but passively in a patient’s natural environment, that can help dramatically,” explains Katabi.
Writing for Forbes, Jeff Kart highlights how MIT researchers have developed a new technique to process samples of bacteria and gauge whether the bacteria can produce electricity. “The vision is to harness the most-powerful bacteria for tasks like running fuel cells or purifying sewage water,” Kart explains.
Wired reporter Matt Jancer writes about Embr Wave, a wearable device developed by several MIT alumni, which helps users regulate their body temperature. Jancer notes that a button on the Wave “turns it hotter or colder, and when it heats up or cools, your inner wrist you feel as if you turned on a personal thermostat only for you.”
New York Times reporter Steve Lohr writes about the MIT AI Policy Conference, which examined how society, industry and governments should manage the policy questions surrounding the evolution of AI technologies. “If you want people to trust this stuff, government has to play a role,” says CSAIL principal research scientist Daniel Weitzner.
MIT researchers found that the silicone gloves football players wear are 20 percent stickier than a human hand, reports David Waldstein for The New York Times. Prof. Anette Hosoi explained that the “key to their performance was how soft and deformable the silicone is, meaning it covers and adheres to the tiniest variations on the surface of the ball,” writes Waldstein.
Popular Mechanics reporter David Grossman writes that MIT researchers have developed a new imaging technique that allows entire neural circuits in the brain to be explored at speeds 1,000 times faster than currently available methods. The new technique could allow scientists to “spot where brain diseases originate or even the basics of how behavior works.”
MIT researchers have developed a new high-resolution technique to image the brain that could be used to create more precise maps of the brain and identify the causes of brain disease, reports Megan Thielking for STAT. “If we can figure out exactly where diseases begin,” explains Prof. Edward Boyden, “that could be pretty powerful.”
Guardian reporter Ian Sample writes that MIT startup Synlogic are developing a “living” medicine” made from genetically modified bugs. “By engineering these bacteria, we are able to control how they operate in the human gastrointestinal tract,” says Caroline Kurtz of Synlogic. “It allows us to think about many other diseases where you may need to produce something beneficial, or remove something that is toxic for the patient.”
Tanzina Vega of The Takeaway speaks with WGBH reporter Kirk Carapezza about how MIT is training workers in the field of integrated photonics to help fill a labor gap. “MIT has been working with community college students, helping them get internships,” explains Carapezza, “and trying to simultaneously develop the technology and train people how to use it.”
MIT researchers have found that a small gelatinous structure, called the tectorial membrane, gives the human ear its extraordinary ability to detect faint sounds, reports the Xinhua news agency. The findings “could help devise ways to treat hearing impairment via medical interventions that alter the pores or the properties of the fluid in the membrane.”
HealthDay reporter Robert Preidt writes that a new study by MIT researchers finds that long stays in space can cause spinal muscles to shrink and become fatty. “As NASA plans for future missions to Mars and beyond, these results can be used to guide future countermeasures,” says graduate student Katelyn Burkhart.