When muscles work out, they help neurons to grow, a new study shows
The findings suggest that biochemical and physical effects of exercise could help heal nerves.
The findings suggest that biochemical and physical effects of exercise could help heal nerves.
By sidestepping the need for costly interventions, a new method could potentially reveal gene regulatory programs, paving the way for targeted treatments.
The drug-device combination developed by MIT spinout Lumicell is poised to reduce repeat surgeries and ensure more complete tumor removal.
MIT engineers’ new model could help researchers glean insights from genomic data and other huge datasets.
The combination of phototherapy and chemotherapy could offer a more effective way to fight aggressive tumors.
SMART researchers find mesenchymal stromal cells are an attractive alternative to current costly, time-intensive treatments.
Labs that can’t afford expensive super-resolution microscopes could use a new expansion technique to image nanoscale structures inside cells.
A research scientist and internationally recognized authority in the field of blood cell development reflects on 45 years at MIT.
MIT’s innovation and entrepreneurship system helps launch water, food, and ag startups with social and economic benefits.
MIT researchers find that the first dose primes the immune system, helping it to generate a strong response to the second dose, a week later.
MIT scientists’ discovery yields a potent immune response, could be used to develop a potential tumor vaccine.
MD/PhD student Sayo Eweje seeks to develop new technologies for delivering RNA and protein therapies directly to the body’s cells.
Bioengineer and artist David Kastner seeks to unlock the secrets of catalysis and improve science communication through eye-catching visuals.
Custom plates display expressions of scholarship, creativity, and MIT pride among Institute affiliates.
The IDEAS Social Innovation Challenge helps students hone their entrepreneurship skills to create viable ventures for public good.