In this article and video, Nature reporter Corie Lok spotlights Prof Lydia Bourouiba’s work studying the fluid dynamics of coughing and sneezing. Bourouiba explains that her research combines “fluid mechanics to problems that are relevant in health and epidemiology to understand better how pathogens are transmitted.”
The Economist reports that Prof. Daniela Rus and Dr. Shuhei Miyashita have developed a tiny origami robot that can be swallowed and used to collect dangerous items that have been accidentally ingested. “The device is based on foldable robot technology that their team of researchers have been working on for years.”
Prof. Daniela Rus speaks on Marketplace Tech about the origami robot that her group developed to serve as a microsurgeon. “This robot is ingestible in the form of a capsule,” explains Rus. “Once the robot reaches the stomach, the robot unfolds and can do interesting tasks.”
In an article for USA Today, Mary Bowerman writes that MIT researchers have “developed a tiny robot that can unfold itself from a biodegradable capsule once ingested, and then crawl across the stomach to remove swallowed items like button batteries.”
K.G. Orphanides writes for Wired about an ingestible origami robot developed by MIT researchers to patch wounds in the stomach and remove foreign objects. “The robot is swallowed in a capsule and unfolds once in the stomach as its container dissolves,” Orphanides explains.
A pill-sized origami robot developed by MIT researchers could be used to help retrieve swallowed items, such as button batteries, reports Kate Baggaley for Popular Science. “The origami robots could help to move the battery through the digestive system faster, before it has time to break down and start leaking,” Baggaley explains.
Huffington Post reporter Thomas Tamblyn writes that MIT researchers have developed a tiny, origami robot that can be ingested liked a normal pill to retrieve swallowed items from the stomach and to patch small wounds. Tamblyn writes that once the robot “reaches the stomach the acids break away the outer shell allowing the robot to expand.”
In an effort to address the problems associated with children swallowing button batteries, MIT researchers have created an ingestible origami robot that can retrieve swallowed items and patch stomach wounds, reports Shanika Gunaratna for CBS News. Gunaratna explains that once “inside the body, the robot opens itself up and is steered by external magnetic fields.”
Prof. Daniela Rus and her team at CSAIL have developed an ingestible origami robot that can unfold itself in the body and retrieve items that may have been swallowed accidentally, like batteries. “The only thing a patient would have to do, in theory, is swallow — a bit like gulping down a spider to catch a wayward fly,” according to Ben Guarino at The Washington Post.
Jamie Ducharme at Boston Magazine writes about the new ingestible origami robots from researchers at CSAIL, University of Sheffield, and Tokyo Institute of Technology “that could be used to remove swallowed objects, patch stomach wounds, and deliver medication.”
Melinda Moyer of Scientific American reports that researchers have found that people who used acid blockers to treat heart burn are at increased risk for developing intestinal infections. Moyer explains that the blockers “may limit the gut's diversity by reducing its acidity and thus creating an environment that is more or less amenable to certain microbes.”
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.
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."
Prof. Jonathan Gruber writes for WBUR about health care reform in Massachusetts. Gruber notes that reforms, "raised insurance coverage, improved health and financial security, improved the efficiency of health care, lowered premiums in the non-employer market, and had no meaningful impact on employer-provided insurance coverage or premiums.”
Grad student Michael Stepner speaks with Peter O’Dowd of Here & Now about his research examining how the life expectancy gap between the rich and poor has grown. Stepner explains the research suggests an opportunity for local “policies to address these gaps and improve life expectancies for low-income Americans.”