Researchers from MIT have developed a new kind of surgery that could offer amputees better control of their muscles and prosthetic limbs after surgery, reports Cara Murez for U.S. News & World Report. “In this new type of surgery — called agonist-antagonist myoneural interface, or AMI — surgeons reconnect those muscle pairs so they retain the push-pull relationship they've always had and improve sensory feedback,” writes Murez.
Smithsonian reporter Theresa Machemer writes that a new study by MIT researchers shows that C. elegans are able to sense and avoid the color blue.
Prof. Ruth Lehmann, director of the Whitehead Institute, speaks with STAT reporter Elizabeth Cooney about the importance of fundamental scientific research. “There are so many areas that are so important for science,” says Lehmann. “One is supporting fundamental research. But then there are other areas like diversity and disparities.”
New Yorker reporter Benjamin Wallace-Wells spotlights new research from the MIT Initiative on the Digital Economy, which shows “just telling people the accurate immunization rates in their country increased, by five per cent, the number who said that they would get the vaccine.”
Graduate student Ashley Beckwith speaks with BBC Radio 5 about her work developing a new concept for growing wood in the lab, as part of an effort to supplement traditional forestry methods. "We dedicate a lot of resources to growing whole plants, when all we use really is a very small portion of the plant,” says Beckwith. “So somehow we needed to figure out a more strategic way to reproduce materials that isn't so reliant on the land."
A new AI-powered system developed by researchers from MIT and other institutions can detect prostate cancer in urine samples as accurately as dogs can, reports Tanya Lewis and Prachi Patel for Scientific American. “We found we could repeat the training you use for dogs on the machines until we can’t tell the difference between the two,” says research scientist Andreas Mershin.
Prof. Kevin Chen speaks with NPR about his work developing a new microdrone inspired by how an insect flaps its wings. “Because our soft power robot is very robust, of course, we can do interesting maneuvers, such as doing a somersault, we can survive collisions, et cetera,” he explains.
TechCrunch reporter Brian Heater are developing a new prototype for a robot that can transform from soft to hard. “Combining the two fields could go a ways toward building safer collaborative robots for interacting with human workers,” writes Heater.
Speaking with WHDH, Prof. Kevin Cheng explains how he was inspired by the agility of insects to create tiny new drones that are acrobatic and resilient. “Think about a scenario, for example, a building collapse with people trapped inside, and what we’re thinking of is sending a swarm of drones into this collapsed building to search for survivors,” says Chen. “That’s something very difficult for traditional drones.”
MIT researchers have developed tiny, agile drones with insect-like wings, reports John Biggs for Gizmodo. “The goal is to use these tiny, soft drones to explore close spaces where rigid drones will break on contact with hard surfaces,” writes Biggs.
A new imaging technique created by researchers from MIT and other institutions has been used to shed light on the contents of an unopened letter from 1697, writes Matt Simon for Wired. “With fancy letterlocking techniques, you will forcibly rip some part of the paper, and then that will become detectable,” says Prof. Erik Demaine, of the method used to seal the letter.
Guardian reporter Alison Flood explores the new technique created by MIT researchers to virtually unseal an unopened letter written in 1697. The researchers, “worked with X-ray microtomography scans of the letter, which use X-rays to see inside the document, slice by slice, and create a 3D image,” writes Flood.
Jana Dambrogio, the Thomas F. Peterson Conservator at MIT Libraries, describes the new technique developed by researchers at MIT and other institutions that has allowed for the virtual exploration of a letter that has been sealed since 1697. “It's quite beautiful and it's thrilling that we can read it without tampering with the letter packet, leaving it to study as an unopened object,” says Dambrogio.
Researchers from MIT and other institutions have developed a new virtual-reality technique that has allowed them to unearth the contents of letters written hundreds of years ago, without opening them, writes New York Times reporter William J. Broad. “The new technique could open a window into the long history of communications security,” writes Broad. “And by unlocking private intimacies, it could aid researchers studying stories concealed in fragile pages found in archives all over the world.”
Using X-ray imaging and algorithms, MIT researchers have been able to virtually open and read letters that been sealed for more than 300 years, writes Priti Parikh for New Scientist. “Studying folding and tucking patterns in historic letters allows us to understand technologies used to communicate,” says Jana Dambrogio, a conservator at the MIT Libraries.