“A promising new diagnostic test from MIT looks like it could be a game changer for rapidly diagnosing several important infectious diseases within minutes,” writes Judy Stone for Forbes. The paper test developed by MIT researchers can diagnose Ebola, yellow fever and dengue fever.
MIT researchers have developed a new silver nanoparticle-based paper test that can quickly detect dengue, yellow fever and Ebola, reports Vicki Davison for Scientific American. In addition to the paper test, the researchers are also working on developing a mobile application to ease diagnosis.
Michelle Roberts reports for BBC News on a new, “smart insulin” being developed by MIT researchers that switches on when blood sugar rises. The engineered insulin could make it easier for those suffering from diabetes to manage the disease, Roberts explains.
Kevin Hartnett of The Boston Globe looks at Professor Christine Ortiz’s work to develop better body armor technology by mimicking the tough qualities of fish scales. “Armored fish have multi-hit capability,” explains Ortiz. “Basically, when it gets hit, it just cracks locally in a circle.”
Karen Hopkin of Scientific American writes about a new method developed by MIT researchers for increasing the size of tissue samples to allow for better observation. Thus far, the researchers have used the new technique to “peer into the brains of mice, fruit flies and zebrafish,” Hopkin explains.
Using a polymer found in diapers that swells on contact with water, Prof. Ed Boyden and his colleagues have developed a method for enlarging tissue samples to allow for better 3-D imaging, writes Jessica Hamzelou for New Scientist. The team can enlarge samples to more than four times their original size, Hamzelou reports.
John Markoff writes for The New York Times about a new technique for observing minuscule features in biological samples developed by Prof. Ed Boyden and his colleagues. The researchers “were able to increase the physical size of cultured cells and tissue by as much as five times while still preserving their structure,” Markoff explains.
Rebecca Jacobson of the PBS NewsHour reports that MIT researchers have developed a new technique to enlarge tissue samples, allowing scientists to create high-resolution images of specimens. Prof. Ed Boyden explains that “now you can see tiny structures with your own eyes.”
Carolyn Johnson of The Boston Globe writes that MIT researchers have developed a new way to enlarge microscopic lab samples to allow for more-detailed imaging of brain cells. The new technique “may offer an inexpensive way for people to examine fine cellular structures at a detailed level using off-the-shelf ingredients.”
A team of MIT researchers has devised a new method for obtaining super-high resolution images from lab microscopes, writes Malcolm Ritter for the AP. The researchers found that by permeating a tissue sample with a specialized version of sodium polyacrylate they were able to enlarge the sample, making them easier to image.
Cynthia Graber of Scientific American reports that MIT researchers have developed a new technique that turns a smartphone into a sensor that can detect hazardous gases and environmental pollutants. "The method was tested with ammonia, cyclohexanone and hydrogen peroxide. And the tags could sense the substances at levels of a few parts per million,” reports Graber.
MIT engineers are developing a paper test that can identify Ebola, writes BetaBoston reporter Nidhi Subbaraman. Prof. Lee Gehrke’s goal is to develop a “cheap, disposable front-line detector for this disease that many people can get their hands on — and fast,” Subbaraman reports.
Presidential Medal of Freedom recipient Prof. Mildred Dresselhaus speaks with Julianna Goldman of CBS Evening News about her career at MIT and what continues to inspire her to come to work seven days a week. "Every year there's something new that comes along that's too exciting to quit," says Dresselhaus.
A new technique developed by MIT researchers for capturing waste heat that can be used to produce electricity has been named one of 10 World Changing ideas by Scientific American, reports Ryan Bradley. “This is something attractive,” says Dr. Yuan Yang, a postdoctoral associate at MIT, “because low-grade heat is everywhere.”
Boston Globe reporter Callum Borchers writes about how MIT researchers have developed a new coating that could reduce the risk posed by ingesting batteries. The battery has “been shown in lab tests to deactivate an ingested battery without compromising its performance in electronic devices,” writes Borchers.