Engineers 3-D print a “living tattoo”
New technique 3-D prints programmed cells into living devices for first time.
New technique 3-D prints programmed cells into living devices for first time.
Studies by Richard Wurtman have led to development of nutrient mix shown to slow cognitive impairment in early stages of the disease.
Postdoc in the Langer Lab is honored for her contributions to the advancement of STEM fields and for her support of women and girls in science.
The 2017 Transcatheter Cardiovascular Therapeutics Career Achievement Award honors a pioneering biomedical engineer, scientist, professor, and cardiologist.
Jeremiah Johnson designs novel materials for drug delivery, energy, and other applications.
New technique could make it easier to use mRNA to treat disease or deliver vaccines.
Microparticles created by new 3-D fabrication method could release drugs or vaccines long after injection.
In study that may guide drug design, researchers find organelles encounter varying levels of resistance.
Summer Scholar Alejandro Aponte troubleshoots the design for an implantable pump that can deliver drugs to the brain.
Hydrogel-based capsules could expand and reside in the GI tract for days, slowly releasing medication.
Bonded layers of rubber and hydrogel yield tough, slippery, and impermeable coatings.
Mark Bathe develops molecular packages for targeted delivery of drugs, vaccines, and gene-editing tools.
Seed funding from the MIT Sandbox Innovation Fund helped Multiply Labs' founders launch their personalized dietary supplement startup.
Small sensors or drug delivery devices could reside in the GI tract indefinitely.
Ingestible electronic devices could monitor physiological conditions or deliver drugs.