SMART and NTU researchers design polymer that can kill drug-resistant bacteria
Polymer may pave the way for drugs to which bacteria are significantly less resistant, a breakthrough that could save hundreds of thousands of lives per year.
Polymer may pave the way for drugs to which bacteria are significantly less resistant, a breakthrough that could save hundreds of thousands of lives per year.
Specialized invisible dye, delivered along with a vaccine, could enable “on-patient” storage of vaccination history to save lives in regions where paper or digital records aren’t available.
In a new book, Amy Moran-Thomas examines how diabetes is reaching epidemic levels in countries across the world.
Economists analyze how patients and health care providers value Medicaid.
Long-lasting capsule can remain in the stomach and release contraceptive drugs over several weeks.
Muscle relaxants delivered to the ureter can reduce contractions that cause pain when passing a stone.
Model quickly generates brain scan templates that represent a given patient population.
Senior and “people person” Adedoyin Olateru-Olagbegi brings a human touch to caring for people dealing with medical crises.
Team of researchers including MIT Professor Angela Koehler obtains $5.8 million grant to study fusion-positive alveolar rhabdomyosarcoma.
Researchers develop a method to isolate and sequence the RNA of T cells that react to a specific target.
MIT researchers identify pyrimidine biosynthesis as a target for the treatment of small cell lung cancer.
Finding could help overturn the prevailing notion that men and women experience angina differently.
MIT economist Nikhil Agarwal analyzes the efficiency of markets that match suppliers and consumers but don’t use prices.
New adhesive that binds wet surfaces within seconds could be used to heal wounds or implant medical devices.
Study shows tumors with softer, larger cells at their periphery are more likely to spread; may suggest new route for cancer therapy.