Prof. Paula Hammond speaks with Tom Ashbrook of NPR’s On Point about Vice President Biden’s new cancer initiative. Hammond likens the challenge to “going to the moon and back, it’s creating a permanent space station out there as well that allows us to continue to learn about some of the new approaches.”
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.
MIT researchers have devised a technique for desalinating water, reports Nina Godlewski for Boston.com. “The process, called shock electrodialysis, filters water through a material made of small glass particles,” writes Godlewski. “When an electric current is introduced to the system, the water divides into areas of high or low salt concentration.”
MIT researchers have developed a new hydrogel that is 90 percent water, reports Carmen Drahl for Forbes. The new hrydogel “adheres to surfaces like glass, titanium, aluminum, and ceramics with a toughness approximating that of nature’s interfaces between tendons and bone."
In this BBC News segment, Prof. Robert Langer, winner of the Queen Elizabeth Prize for Engineering, discusses his work exploring how to get the human body to respond to vital drugs. Langer explains that his approach to medicine is to “come up with engineering solutions to different medical problems.”
MIT researchers have developed a new method of delivering drugs to the gastrointestinal tract via ultrasound waves, reports Alexandra Ossola of Popular Science. The new drug-delivery method could prove effective in treating diseases like Crohn’s and ulcerative colitis.
Robert Preidt writes for U.S. News & World Report that MIT researchers have found that ultrasound waves can be used to deliver drugs to the digestive system. Preidt explains that the new approach, “might potentially benefit people with inflammatory bowel disease (IBD), such as Crohn's disease and ulcerative colitis.”
MIT researchers have developed an ultrasound device that can deliver medication to the digestive system, reports Leah Samuel for The Boston Globe. The researchers “found that using ultrasound enhanced absorption of the drugs they tested up to tenfold,” writes Samuel.
In a Boston Globe article about the high level of patent activity in Massachusetts, Emeralde Jensen-Roberts highlights MIT postdoctoral fellow Keith Hearon’s work developing a new type of biodegradable styrofoam, which he is patenting. “Now in the development phase, Hearon believes the citrus plastic with styrofoam has vast potential for larger-scale applications, thanks to its strength.”
Jamie Ducharme of Boston Magazine writes about a polymer gel being developed by researchers from MIT and Massachusetts General Hospital that could allow for swallowable medical devices. “Improving slow-release safety could open the door for devices that control hunger in obese patients, diagnose gastrointestinal issues, extend the effects of drugs, and more,” Ducharme explains.