Researchers from MIT and elsewhere have developed a swallowable “technopill” that can monitor vital signs from inside the body, reports Dennis Thompson for HealthDay. “The ability to facilitate diagnosis and monitor many conditions without having to go into a hospital can provide patients with easier access to healthcare and support treatment,” says Prof. Giovanni Traverso.
Prof. Russ Tedrake and Max Bajracharya '21 MEng '21 speak with TechCrunch reporter Brian Heater about the impact of generative AI on the future of robotics. “Generative AI has the potential to bring revolutionary new capabilities to robotics,” says Tedrake. “Not only are we able to communicate with robots in natural language, but connecting to internet-scale language and image data is giving robots a much more robust understanding and reasoning about the world.”
MIT researchers have developed a supercapacitor comprised of concrete and charcoal, that can store electricity and discharge as needed, reports Aleks Phillips for Newsweek. Researchers hope the device can provide “a cheap and architectural way of saving renewable energy from going to waste,” writes Phillips.
New Scientist reporter Alice Klein writes that MIT researchers have developed an ingestible electronic device that “can measure your breathing and heart rate from inside your gut [and] could potentially diagnose sleep apnea and even detect opioid overdoses.” The device could one day allow “people to be assessed for sleep apnea wirelessly and cheaply while at home.”
Researchers at MIT and elsewhere have developed a new type of cancer treatment – a gel that can be used to deliver cancer drugs for solid tumors, reports WHDH. “It’s really transformative to try and help patients whose tumors are very resistant to therapy,” says Prof. Giovanni Traverso.
Researchers at MIT and elsewhere have developed a swallowable electronic capsule that can be used to help diagnose sleep apnea and other sleep disorders, reports Ian Randall for Newsweek. “Conventional laboratory and home sleep studies require the patient to be attached to many different sensors,” says Prof. Giovanni Traverso. “As you can imagine, trying to sleep with all of this machinery can be challenging. [The] ingestible capsule just requires that the patient swallow the vitamin-sized pill. It's easy and unobtrusive and can accurately measure both respiratory rate and heart rate while the patient sleeps."
George Hadjigeorgiou MSc '98 co-founded Zoe, a personalized nutrition program that “aims to improve gut and metabolic health,” reports Julia Kollewe for The Guardian. “Zoe has identified almost 5,000 never-before-seen gut bacteria,” writes Kollewe. “Of those, 100 were strongly associated with health across all 35,000 participants – 50 good and 50 bad. This feeds into the app and members’ personalized scores will be updated over time”
President Biden has awarded Prof. Emeritus Subra Suresh ScD '81, the former dean of the MIT School of Engineering, the National Medal of Science for his “pioneering research across engineering, physical sciences, and life sciences,” reports Alexa Gagosz for The Boston Globe. Prof. James Fujimoto '79, SM '81, PhD '84, research affiliate Eric Swanson SM '84, and David Huang '85, SM '89, PhD '93 were awarded the National Medal of Technology and Innovation, “the nation’s highest award for technical achievement.”
A number of MIT spinouts and research projects – including the MOXIE instrument that successfully generated oxygen on Mars, a new solar-powered desalination system and MIT spinout SurgiBox – were featured on TIME’s Best Inventions of 2023 list.
Researchers at MIT have developed a conceptual design for a system that can efficiently produce “solar thermochemical hydrogen,” reports Xinhua. “The system harnesses the Sun's heat to directly split water and generate hydrogen -- a clean fuel that can power long-distance trucks, ships, and planes, while in the process emitting no greenhouse gas emissions.”
Insider reporter Katie Hawkinson explores how MIT researchers developed a new solar-powered desalination system that can remove the salt from seawater for less than the cost of U.S. tap water. Creating a device that relies on solar power, “eliminates a major financial barrier, especially for low-income countries experiencing water scarcity,” Hawkinson explains.
MIT researchers have developed a new desalination system that uses solar energy to convert seawater into drinkable water, reports Tony Ho Tran for the Daily Beast. The device could make it possible to, “make freshwater that’s even more affordable than the water coming from Americans’ kitchen faucets.”
The Hill reporter Sharon Udasin writes that MIT researchers have developed a new solar-powered desalination device that “could last several years and generate water at a rate and price that is less expensive than tap water.” The researchers estimated that “if their model was scaled up to the size of a small suitcase, it could produce about 4 to 6 liters of drinking water per hour,” writes Udasin.
Maria Telleria ’08, SM’10, PhD ’13 speaks with Forbes contributor Stuart Anderson about her experience immigrating to the U.S. as a teenager, earning her PhD at MIT, and co-founding a company. “I don’t think I would have had these opportunities if I could not have come to the United States,” said Telleria. “I think it helped me grow by being exposed to two cultures. When you have had to think in two different ways, I think it makes you better understand other people and why they’re different. Coming to America has been an amazing opportunity.”
MIT researchers have developed a new underwater system that could enable long-range and low-power underwater communication, reports Edd Gent for IEEE Spectrum. “The reason why this is really exciting is because now you start opening up many of the coastal monitoring applications,” says Prof. Fadel Adib. “It’s a turning point from this being a technology that is intellectually super interesting that we hope will work, to saying we know that this works and we have a path to deployment.”