A storytelling robot developed by MIT researchers could be used to help boost language skills in young children and could help prepare children for learning in school, report Donna Lu for New Scientist. “If a child doesn’t start kindergarten ready to learn, it is very difficult and very expensive for them to catch up,” explains Prof. Cynthia Breazeal.
Newsweek reporter Hannah Osborne writes that MIT researchers have found that a lobster’s membrane, which protects its underbelly, is made of one of the toughest hydrogels in the world. “Its strength and flexibility,” Osborne explains, could “make it an ideal material to use as a blueprint for body armor.”
Wired reporter Emma Bryce highlights Prof. Dina Katabi’s work developing a wireless system that can help track a person’s health and could be used to monitor Alzheimer’s and Parkinson’s patients. Katabi explains that the system “can be used to detect and understand higher level information, not just monitoring the signs and the measurements, but really being able to understand the meaning of those measurements.”
Prof. Rosalind Picard speaks with NBC Mach reporter Jessica Wapner about how wearable devices could be used to help detect and predict episodes of depression. “We’d love to get to you before you get depressed,” explains Picard, “and help you put things back in your life before you get in trouble.”
Washington Post reporter Peter Holley writes that MIT researchers have found that the soft membrane covering a lobster’s joints and abdomen is as tough as industrial rubber. The researchers discovered, “lobsters could offer a solution to the problem plaguing most modern body armors: the more mobility an armor offers, the less it protects the wearer’s body.”
Bloomberg News reporter Eric Roston writes that a new study by MIT researchers finds that climate change is making summer thunderstorms more powerful and urban pollution more potent. “Summertime weather isn’t ventilating American cities at the rate that it did in the past,” explains graduate student Charles Gertler.
NIH Director Francis Collins highlights how MIT researchers have developed a new ingestible device, shaped like the shell of an African leopard tortoise, that can inject insulin directly into the stomach wall. Collins writes that, “this fascinating work serves as a reminder that when it comes to biomedical science, inspiration sometimes can come from the most unexpected places.”
MIT researchers have found that climate change could cause more thunderstorms and stagnant air in the summer, reports Martin Finucane for The Boston Globe. “With temperatures rising globally, and particularly in the Arctic, the energy in the atmosphere is being redistributed,” writes Finucane. “The result is that more energy will be available to fuel thunderstorms.”
Washington Post reporter Taylor Telford highlights a working paper by MIT researchers that examines how misinformation about vaccines spreads on social media. “The majority of misinformation about vaccines is spread by individuals,” explains Prof. Catherine Tucker. “That is a far harder problem to solve, as trying to clamp down on that kind of social sharing has tensions with trying to preserve free speech.”
MIT researchers have developed a new ingestible capsule that in the future could be used to deliver medication to diabetes patients, reports Dr. Erica Orsini for ABC News. “The oral route is preferred by both patients and health care providers,” explains visiting scientist Giovanni Traverso.
A new ingestible pill developed by MIT researchers positions itself against the walls of the stomach and can deliver insulin directly to the bloodstream, reports Gina Kolata for The New York Times. “It’s a very new concept and a really cool idea,” says Edith Mathiowitz, a professor of medical science and engineering at Brown University.
Financial Times reporter Clive Cookson writes that MIT researchers have developed an ingestible pill that can deliver insulin directly to a patient’s stomach. “This discovery has the potential to transform not only drug delivery but drug discovery as well,” explains Prof. Robert Langer, “since most current drug discovery efforts are aimed at creating small molecule drugs that patients can take orally.”
CBS This Morning correspondent Nikki Battiste visits MIT to learn more about a device developed by MIT researchers that uses wireless signals to detect food contamination. “We hope to be able to build a portable device that a person can take with them when they're trying to buy something from a supermarket or from a farmer's market,” explains Prof. Fadel Adib.
MIT researchers have developed a new ingestible capsule that can release insulin directly into the stomach and could be used to treat type 2 diabetes, reports Joe Palca for NPR. "We chose the stomach as the site of delivery because we recognized that the stomach is a thick and robust part of the GI tract," explains visiting scientist Giovanni Traverso.
Wired reporter Megan Molteni writes that MIT researchers have developed an ingestible capsule that could be used to deliver insulin to diabetes patients. The researchers were inspired by the leopard tortoise to create a self-orienting device that can position itself to deliver medication directly into the stomach. “The result was a roly-poly-pill that autonomously rights itself to be needle-down,” Molteni explains.