MIT researchers have developed a new technique to stop the spread of cancer cells through the body by delivering microRNAs to the site of the primary tumor, reports Hallie Smith for Boston Magazine. The technique “may correct gene disruptions that put a patient at risk of metastatic cancer,” Smith explains.
A paper co-authored by Prof. Amy Finkelstein compares human and pet health care costs, reports Aimee Picchi for CBS News. The study found that, “spending on human medical care was 50 percent higher in 2012 than in 1996, while spending on pet health care jumped 60 percent,” writes Picchi.
Writing for USA Today about the benefits of exercise, Karen Weintraub spotlights MIT’s physical education requirement. Carrie Sampson Moore, director of physical education, explains that students are able to “establish a pattern of health that will help not only them,” but also prepare them to be “role models for their students and employees” in the future.
Eric Boodman writes for STAT that MIT researchers have developed a technique to produce biopharmaceuticals in remote locations. “Instead of making the drugs and then trying to keep them refrigerated over thousands of miles,” Boodman writes, the researchers, “want to give people the ingredients. These components don’t require refrigeration, and the instructions are as simple as they come: Just add water.”
CSAIL researcher have created a device that uses changes in heart beat and breathing to detect emotions, writes Forbes’ Kevin Murnane. The heart of the system,” writes Murnane, “is the algorithm that extracts the heartbeat from the RF signal. It’s an impressive achievement that solves a difficult problem.”
A device created by CSAIL researchers can detect emotions by wirelessly measuring heartbeats, according to the Associated Press. The device is “87 percent accurate in using heartrate and what it’s already learned about a person to recognize joy, pleasure, sadness or anger.”
CSAIL researchers have developed a device that can determine a person’s mood using wireless signals, write Jordan Graham and Donna Goodison for The Boston Herald. “We view this work as the next step in helping develop computers that can better understand us at an emotional level,” explains Mingmin Zhao.
CSAIL researchers have developed a device that can determine emotion by analyzing reflections from wireless signals bounced off the human body, writes Mary Beth Griggs for Popular Science. “Because it can measure heart rate, it might also be a less invasive way for doctors to monitor patient's heartbeats, potentially watching for conditions like arrhythmias,” writes Griggs.
Matt McFarland writes for CNN that CSAIL researchers have developed a non-invasive device that uses radio waves to detect human emotion. "Imagine if the machines around you can understand when you are stressed or your emotional state is negative,” explains Prof. Dina Katabi."[It could] try to detect depression."
In an article for U.S. News & World Report, Robert Preidt writes that researchers from MIT and the University of Oxford have found that atrial fibrillation is tied to a wider range of conditions than initially thought. The researchers found that the disorder was associated with “heart disease, heart failure, kidney disease, sudden cardiac death and death from all causes.”
ABC News reporter Gillian Mohney writes that Prof. Lydia Bourouiba has captured footage of a person sneezing, showing how far sneeze droplets can travel. Bourouiba found that “large droplets tended to land within 1 to 2 meters (about 3 to 6 feet) and that small droplets could get as far as 6 to 8 meters away (19 to 26 feet).”
MIT researchers have developed a portable system that could produce biotech drugs on demand, reports Lisa Rapaport for Reuters. “The table-top machine has the potential to one day produce proteins to treat any number of a wide range of conditions like cancer, diabetes, heart attacks, and hemophilia,” writes Rapaport.
A portable device developed by MIT researchers uses programmable yeast to create drugs on demand, reports Jamie Ducharme for Boston Magazine. The device “could be a lifesaver for doctors working in vulnerable conditions, such as the battlefield, a remote village, or even an ambulance,” writes Ducharme.
MIT researchers have developed a programmable vaccine that could be used to respond to disease outbreaks, reports Ben Gruber for Reuters. The vaccine harnesses “messenger RNA, a genetic material that can be programmed to fight any viral, bacterial or parasitic disease by provoking an amplified immune response.”
Popular Science reporter Samantha Cole writes that MIT researchers have developed a laptop-sized, portable device that can produce biopharmaceuticals for doctors in remote locations. Cole explains that the device can “produce a single dose of treatment with a series of steps, using genetically engineered yeast cells as a mini 'factory' for a variety of customizable drugs.”