Wired reporter Sarah Scoles spotlights how graduate students Thomas Abitante and Rachel Bellisle, both Draper Scholars, are developing new spacesuits and muscle toning devices that could help keep astronauts healthy while in space. “We need to make sure they're as healthy as possible,” says Abitante. “But we can't really add more exercise. So what else can we add?”
WCVB reporter Jessica Brown shares the story of Heather Walker, vice president of public relations for the Boston Celtics, who is currently enrolled in a MIT glioblastoma research study. The team of MIT researchers are examining “the tumor’s DNA, looking for gene mutations and abnormal proteins that make it unique,” says Brown. “With that information, the group designs a custom vaccine that trains the body’s immune system to recognize the cancerous cells and attack them.”
WCVB reporter Maria Stephanos shares the experience of Heather Walker, vice president of public relations for the Boston Celtics, who is enrolled in an MIT glioblastoma research study. Walker’s family and friends have created the Heather Walker Fund for Glioblastoma Research at Dana Farber, where “all the money raised will go to supporting a glioblastoma research study at MIT [that is] using immunotherapy and personalized vaccines,” says Stephanos.
Reuters reporter Nancy Lapid writes that researchers from MIT and other institutions have found that Covid-19 can infect cells in the inner ear, which “may help explain the balance problems, hearing loss and tinnitus, or ringing in the ears experienced by some COVID-19 patients.”
A new study by MIT researchers finds that Covid-19 may impact the inner ear, affecting hearing and balance, reports Robert Preidt for HealthDay News. “Their results suggest that the SARS-CoV-2 virus can infect the inner ear, specifically hair cells that are crucial for hearing and balance,” writes Preidt. “To a lesser degree, the coronavirus can infect Schwann cells, which insulate neurons.”
Forbes contributor Frederick Daso spotlights Fitnescity, a startup founded by MIT graduates that offers “a streamlined online platform to help consumers select lab kits, get tested, and display their data on a digital dashboard.” CEO and co-founder Laila Zemrani MBA ’13 explains that: “Fitnescity was founded to give people access to the information they need to improve their health and wellness.”
Alicia Chong Rodriguez SM ’17, SM ’18 speaks with Boston Globe reporter Pranshu Verma about the inspiration for her startup BloomerTech, which is focused on addressing heart disease in women, and the underrepresentation of women in clinical trials. As part of this effort, BloomerTech is developing a “sensor-enabled bra that feeds real-time heart data to doctors running clinical trials on women’s cardiovascular disease.”
Nature reporter Eric Bender spotlights MIT startup Kytopen, which has developed a microfluidic platform to create induced pluripotent stem (iPS) cells and other forms of cell therapy. We want to do minimally invasive surgery,” says Kytopen co-founder Prof. Cullen Buie.
Bloomberg’s Janet Wu speaks with alumna Nan-Wei Gong PhD '13, co-founder of Figur8, an MIT startup applying AI to help diagnose musculoskeletal problems. “Figur8 is a tool that really brings lab experience into the field so everyone can quantify their musculoskeletal injuries,” says Gong. “We invented a wearable system that allows you to capture biomarkers of your musculoskeletal health and pinpoint injury through our AI algorithm.”
Postdoc Freddy Nguyen, former co-director of the MIT Hacking Medicine hackathon, speaks with Forbes contributor Michelle Greenwald about how transitioning to virtual hackathons during the Covid-19 pandemic shed light on how to improve hackathons going forward. "One of the benefits of being virtual was that it allowed participants from around the globe that normally couldn’t afford the airfare or time to go to overseas, to take part,” writes Greenwald. “As a result, there were more participants, more diversity of thought, and a wider range of mentors involved, comporting well with MIT’s belief that great ideas can come from anywhere.”
A study by graduate student Carly Ziegler finds that how cells in the nose respond to the coronavirus could help predict how sick a person might become with Covid-19, reports Nancy Lapid for Reuters. "If further studies support our findings, we could use the same nasal swabs we use to diagnose COVID-19 to identity potentially severe cases before severe disease develops, creating an opportunity for effective early intervention," says Ziegler.
Forbes reporters Amy Feldman and Aayushi Pratap spotlight Vicarious Surgical, a startup founded by MIT graduates that is developing a tiny robot paired with a VR headset for abdominal surgeries.
WHDH spotlights how MIT and Harvard researchers are creating wearable biosensors that could be used to detect Covid-19 in a person’s breath. “At the end of the day, what we wanted to do was basically to blend both to potentially produce a product that was more easily incentivized patients to both wear a mask and to get tested,” explains Luis Soenksen of the Abdul Latif Jameel Clinic for Machine Learning in Health.
A new sensor developed by MIT and Harvard researchers can be embedded in a face mask and used to alert the wearer if they have Covid-19, reports CBS Boston. “Small disposable sensors can diagnose the wearer of the mask within 90 minutes," reports CBS Boston. "The technology has been used before to detect Ebola and Zika, but now researchers are embedding it into face masks and lab coats as a new method to safeguard health care workers.”
Researchers from MIT and Harvard have developed a new sensor technology that can be embedded in a face mask to detect whether the wearer has Covid-19, reports Pranshu Verma for The Boston Globe. “We worked hard, sometimes bringing nonbiological equipment home and assembling devices manually,” says Luis Soenksen of the Abdul Latif Jameel Clinic for Machine Learning in Health. “It was definitely different from the usual lab infrastructure we’re used to working under, but everything we did has helped us ensure that the sensors would work in real-world pandemic conditions.”