Medicine

Profs. Canan Dagdeviren and Hugh Herr speak with CNN discuss their work aimed at empowering patients and doctors. Inspired by her aunt’s experience with breast cancer, Dagdeviren and her students are developing new wearable devices that could help detect cancer at an earlier stage. Says Herr of his work developing prosthetics that can be controlled by the human nervous system: “There will be a point where technology is so sophisticated that we can actually rebuild limbs after amputation that will be as good and, ultimately, they will be better than intact biological limbs.” Herr adds that in the future he hopes “the conversation will not be about human limitation anymore. It will be about human ability and human expression.”

Victor Ambros ‘75, PhD ‘79 and Gary Ruvkun have won the 2024 Nobel Prize in Physiology or Medicine for “their groundbreaking work on how genes behave,” reports Patrick Smith for NBC News. Ambros and Ruvkun, who worked as postdocs in the lab of Professor H. Robert Horvitz in the late 1980s, discovered how microRNA molecules play a key role in gene regulation. "The pair sought to explore how nerve cells and muscle cells, for example, have very different characteristics despite having the same genetic information," writes Smith.

Prof. Regina Barzilay has received the WebMD Health Heros award for her work developing a new system that uses AI to detect breast cancer up to 5 years earlier, reports WHDH. “We do have a right to know our risk and then we, together with our healthcare providers, need to manage them,” says Barzilay. 

CNN visits the lab of Prof. Canan Dagdeviren to learn more about her work developing wearable ultrasound devices that could help screen for early-stage breast cancer, monitor kidney health, and detect other cancers deep within the body. “Wearable technology will grow rapidly in the near future,” says Dagdeviren. “But in the far future, they will be one of the most powerful tools that we will be seeing in our daily life.” 

Dr. Mark Price PhD '01 an orthopedic surgeon who augmented his military honors with Super Bowl rings in 2017 and 2019 and a World Series ring in 2018 through his sports medicine duties with the Patriots and Red Sox, has died at age 52, reports Bryan Marquard for The Boston Globe. Awarded a Bronze Star for service in Afghanistan, Price was an integral part of the Red Sox and Patriots organizations, with owner Robert Kraft commenting he “was a blessing to have on our staff for nearly a decade and we’re going to miss him dearly.”

Researchers at MIT and elsewhere have developed a new device “designed to detect the signs of an overdose and automatically deliver a dose of naloxone in as little as 10 seconds,” reports Tom Hawking for Popular Science. “The device [which has an associated smartphone app] also has a built-in alert system with auditory and tactile signals to wake the user, providing an alternative for those without smartphones or with uncharged devices,” says Prof. Giovanni Traverso. 

Interesting Engineering reporter Shubhangi Dua describes a new implantable device developed by MIT researchers that can detect and automatically treat an opioid overdose. “Having an automated robotic system that can sense and reverse opiate overdose could be transformational,” says Prof. Giovanni Traverso, “particularly for high-risk populations.” 

MIT researchers have discovered how propofol, a commonly used anesthetic, works on the brain, reports Francesca Benson for IFL Science. The research studied “the differences between an awake brain and one under anesthesia by looking at the stability of the brain’s activity,” writes Bensen. 

MIT scientists have discovered how propofol, a commonly used anesthetic, induces unconsciousness, reports Adam Kovac for Gizmodo. “The new research indicates that [propofol] works by interfering with a brain’s ‘dynamic stability’ – a state where neurons can respond to input, but the brain is able to keep them from getting too excited,” explains Kovac. 

Prof. Bob Langer and Prof. Giovanni Traverso have co-founded Syntis Bio, a biotech company that will use technology to “coat the stomach and potentially other organ surfaces, [change] the way that drugs are absorbed or, in the case of obesity, which hormones are triggered,” reports Allison DeAngelis for STAT. 

MIT have developed a new ingestible vibrating capsule that could potentially be used to aid weight loss, writes Newsweek’s Robyn White. Prof. Giovanni Traverso said the capsule “could facilitate a paradigm shift in potential therapeutic options for obesity and other diseases affected by late stomach fullness.”

MIT engineers have developed a new adhesive, low-cost hydrogel that can stop fibrosis often experienced by people with pacemakers and other medical devices, reports for Maria Bolevich Interesting Engineering. “These findings may offer a promising strategy for long-term anti-fibrotic implant–tissue interfaces,” explains Prof. Xuanhe Zhao. 

Forbes selects innovators for the list’s Healthcare & Science category, written by senior contributor Yue Wang. On the list is MIT PhD candidate Yuzhe Yang, who studies AI and machine learning technologies capability to monitor and diagnose illnesses such as Parkinson's disease.

MIT researchers have developed microneedle patches that are capable of restoring hair growth in alopecia areata patients, reports Ernie Mundell for HealthDay. The team’s approach includes a, “patch containing myriad microneedles that is applied to the scalp,” writes Mundell. “It releases drugs to reset the immune system so it stops attacking follicles.” 

Prof. Giovanni Traverso and colleagues have developed a new ingestible sensor that could be used to help diagnose gastrointestinal conditions, reports Jeremy Hsu for New Scientist. “Eventually, the futuristic device could provide treatments for gut illnesses through electrical stimulation via additional electrodes embedded in the sensor,” Hsu notes.