MIT researchers have developed a new stent based on kirigami, the Japanese art of cutting and folding paper. The stent “can provide localized drug delivery through needle-like projections that pop out when the stent is extended,” reports Conn Hastings for Medgadget.
A team from MIT has been named a co-winner of this year’s STAT Madness, a bracket-style competition for biomedical research. The team, led by visiting scientist Junwei Li and Prof. Gio Traverso, “developed a solution that, once inside the small intestine, undergoes a reaction and coats it with a temporary adhesive,” which could be used “to make drug delivery more efficient," reports Rebecca Sohn for STAT.
Prof. Giovanni Traverso has been highlighted by Wired as one of 32 innovators who are changing the world, writes Sanjana Varghese for Wired. Prof. Robert Langer notes that Traverso is “transforming how we interact with medications, for example through the development of pills that remain in the body for multiple weeks or months to address medication non-adherence, or the creation of small, swallowable devices enabling the delivery of biologics like insulin.”
Fast Company reporter Adele Peters spotlights Particles for Humanity, an MIT spinoff that is developing a new technology that makes it possible to deliver multiple doses of a vaccine in one shot. “The new technology works like traditional drug delivery,” writes Peters, “but with the addition of tiny time-release capsules filled with antigens, the part of the vaccine that stimulates the immune system so that it can later respond to a virus.”
MIT researchers have created a new synthetic lining that could be used to help treat digestive diseases, reports Pratibha Gopalakrishna for STAT. “We wanted to develop a liquid system that is easier to take compared to tablets or capsules, but had enhanced capabilities,” explains Prof. Giovanni Traverso.
New Scientist reporter Alice Klein writes that MIT researchers have developed a synthetic glue that could be used to line the small intestine and help treat several conditions, including diabetes and lactose intolerance. “The researchers found they could control the uptake of different nutrients,” writes Klein, “by adding various substances to the synthetic lining.”
STAT reporter Kate Sheridan spotlights MIT startup Lyra Therapeutics, which is developing a long-acting treatment for chronic rhinosinusitis.
Writing for the Financial Times about how technology is advancing the field of health care, John Browne spotlights Prof. Bob Langer’s work developing new methods of delivering drugs with improved precision. Browne explains that Langer is working on “a device smaller than a grain of rice that he can inject into a tumour to test the efficacy of dozens of chemotherapy agents in parallel.”
President Emerita Susan Hockfield discusses her new book, “The Age of Living Machines,” her work as a neuroscientist, and the future of science and technology during a curated lunch conversation with HUBweek and Boston.com. Hockfield explains that a revolution spurred by the convergence of biology with engineering will lead to new technologies built by biology.
In an excerpt from her new book published in The Wall Street Journal, President Emerita Susan Hockfield explores how the convergence between biology and engineering is driving the development of new tools to tackle pressing human problems. Hockfield writes that for these world-changing technologies to be realized requires “not only funding and institutional support but, more fundamentally, a commitment to collaboration among unlikely partners.”
President Emerita Susan Hockfield speaks with Jim Braude of WGBH’s Greater Boston about her book, “The Age of Living Machines.” “We are looking at a population of over 9.7 billion by 2050,” explains Hockfield. “We are not going to get there without war or epidemics or starvation if we don’t develop technologies that will allow us to provide energy, food, water, health and health care sustainably.”
MIT researchers have developed tiny robots powered by magnetic fields that can be used to bring drugs nanoparticles from the bloodstream into a tumor or disease site in the human body, reports the Xinhua news agency.
MIT researchers have developed a new drug-releasing coil that could be used to help treat tuberculosis, reports Ruby Prosser Scully for New Scientist. Scully explains that the coil is “too large to leave the stomach, so it stays there, and the medicines threaded onto it leach out at a rate depending on the type of drug and the polymer the developers use to make the pills.”
MIT researchers have developed a pill that could potentially deliver insulin, which the BBC’s Adrienne Bernhard describes as “a kind of edible Swiss Army knife that can deliver life-saving medicine without the pain of needle injection.”
NIH Director Francis Collins highlights how MIT researchers have developed a new ingestible device, shaped like the shell of an African leopard tortoise, that can inject insulin directly into the stomach wall. Collins writes that, “this fascinating work serves as a reminder that when it comes to biomedical science, inspiration sometimes can come from the most unexpected places.”