Picower and MIT scientists awarded BRAIN Initiative grants
Researchers will advance our understanding of the human mind and discover new ways to treat, prevent, and cure neurological disorders.
High-speed biologics screen
Engineers devise technology for rapidly testing drug-delivery vehicles in zebrafish.
Engineering new bone growth
Coated tissue scaffolds help the body grow new bone to repair injuries or congenital defects.
Recycling old batteries into solar cells
Proposal could divert a dangerous waste stream while producing low-cost photovoltaics.
RNA combination therapy for lung cancer offers promise for personalized medicine
Researchers improve therapeutic response in clinically relevant model of lung-tumor growth.
New analysis reveals tumor weaknesses
Identifying epigenetic markers in cancer cells could improve patient treatment.
Advanced thin-film technique could deliver long-lasting medication
Nanoscale, biodegradable drug-delivery method could provide a year or more of steady doses.
Following biological clues to better materials
Brad Olsen creates bioinspired and biofunctional materials for widely diverse applications.
Advancing medicine, layer by layer
Studies by graduate students Stephen Morton and Nisarg Shah show progress toward better cancer treatment and bone replacement.
After a determined fight with leukemia, Paul Uche ’13 dies at 23
Recent alumnus died on June 19 from causes related to leukemia.
Robert Langer receives Kyoto Prize
Institute Professor cited as "a founder of the field of tissue engineering."
Faculty highlight: Paula Hammond
Engineering tiny paths to cancer treatment, bone regrowth, and wound healing, Paula Hammond serves as an exemplary researcher-educator within the MIT community.