CNN reporter Bronte Lord spotlights Prof. Kevin Esvelt’s proposal to introduce genetically engineered mice to the islands of Martha’s Vineyard and Nantucket in an effort to stop the spread of Lyme disease. "We want to heritably immunize the local white-footed mice," Esvelt explains. "The idea is fewer infected ticks means fewer infected kids."
Yahoo! reporter Elise Solé highlights how Alejandra Falla successfully completed her PhD studies at MIT while pregnant with her daughter, Clara. Clara sported a miniature MIT regalia to Commencement. “It started as a joke but we decided that Clara had earned her Ph.D. in the womb,” says Falla. “She deserved to graduate with me.”
Researchers from a number of universities, including MIT, have developed a new refillable, implantable device that can deliver drugs to the heart tissue to help treat a heart attack, reports Xinhua. "After a heart attack we could use this device to deliver therapy to prevent a patient from getting heart failure," explains Prof. Ellen Roche.
Prof. Kevin Esvelt speaks with Dylan Matthews of Vox about the potential for a CRISPR gene drive to eradicate malaria. Esvelt considers both the risks and rewards of this approach, noting that “the future of our civilization will primarily be determined by the technologies we develop and the wisdom with which we choose to deploy them or refrain.”
Using specially engineered E. coli bacteria and electronics that fit into an ingestible pill, MIT researchers have created a device that can detect internal diseases and send wireless alerts, reports Karen Kaplan for The Los Angeles Times. The device could eliminate the need for colonoscopies, which alter “the physiology inside the intestines, potentially masking signs of disease,” explains Kaplan.
USA Today reporter Sean Rossman writes about how MIT researchers have created an ingestible sensor that can monitor the digestive tract and send information to a smartphone or tablet about a person’s health. Rossman explains that the device, “can detect blood in the stomach, something that would otherwise require an endoscopy and sedation.”
MIT researchers have developed an ingestible capsule that uses genetically engineered bacteria to detect potential health problems, reports Carla Johnson for the Associated Press. The researchers hope the capsule could eventually be used to, “find signs of ulcers, inflammatory bowel disease or even colon cancer.”
Wired reporter Megan Molteni writes that a team of MIT researchers has developed an ingestible sensor that could spot gastrointestinal issues. The sensor contains, “millions of genetically engineered glowing bacteria inside a AAA-battery-sized capsule,” Molteni explains.
Writing for the Boston Herald, Lindsay Kalter reports that MIT scientists have built an ingestible capsule that could allow doctors to diagnose gastrointestinal diseases without invasive procedures. Graduate student Mark Mimee explains that the device, “sets the stage for having a pill that can give you a big biochemical profile of the gut related to various diseases.”
Popular Mechanics reporter David Grossman writes that a new ingestible medical device developed by MIT researchers could monitor the health of the human gut. Calling the project “a true team effort,” Grossman explains that it required expertise in biological engineering techniques, electronic circuit design, materials, and gastroenterology.
Professors Edward Boyden and Feng Zhang have been named to the 2018 class of Howard Hughes Medical Institute investigators, reports Jonathan Saltzman for The Boston Globe. “We selected these scientists because they know how to ask hard and interesting questions with skill and intellectual courage,” says David Clapham, vice president and chief scientific officer of the institute.
MIT spinout Ginkgo Bioworks is highlighted on the 2018 CNBC Disruptor 50 list, reports CNBC’s Andrew Zaleski. Zaleski notes that Ginkgo Bioworks, “has developed an automated process for combining genetic parts that has made it the largest designer of printed DNA in the world. That breakthrough has positioned the start-up to change the face of a variety of industries.”
Elise Takahama writes for The Boston Globe that MIT researchers have developed a new technique to create “xenoproteins,” manmade proteins that could be used to battle infectious diseases like Ebola. Unlike drugs developed with natural proteins, the xenoproteins, “are more stable, easier to administer, and manufactured more quickly,” Takahama explains.
Synlogic, founded by Prof. Jim Collins and Associate Prof. Tim Lu, is programming probiotic bacteria to treat certain genetic or acquired metabolic disease, reports Robin Seaton Jefferson for Forbes. One product is used for people whose bodies can’t maintain a healthy level of ammonia and “has been specifically engineered to convert the excess ammonia to a harmless metabolite,” explains Seaton Jefferson.
MIT startup Ministry of Supply has developed a jacket that utilizes AI to keep its wearer warm. “The jacket…can also be voice-controlled through devices like the Amazon Echo or manually with an app,” writes Erin Black for CNBC.