A new way to deliver drugs more efficiently
Core-shell structures made of hydrogel could enable more efficient uptake in the body.
Core-shell structures made of hydrogel could enable more efficient uptake in the body.
Thirteen new graduate student fellows will pursue exciting new paths of knowledge and discovery.
MIT spinout Kronos Bio, founded by Associate Professor Angela Koehler, studies the complex signaling networks of cancer cells to find new drug targets.
The Koch Institute’s Annual Symposium highlights emerging successes and challenges in the advancement of vaccines to prevent and treat cancer.
SMART researchers find the enzyme RlmN, which directly senses chemical and environmental stresses, can be targeted in drug development.
Ultrasound research specialist and 2023 MIT Excellence Award winner Nicole Henning adapts ultrasound technology for more sensitive, less invasive imaging for disease modeling.
A pilot-scale system, enabled by an $82 million award from the FDA, aims to accelerate the development and production of mRNA technologies.
“FrameDiff” is a computational tool that uses generative AI to craft new protein structures, with the aim of accelerating drug development and improving gene therapy.
SMART researchers combine rifaximin and clarithromycin to effectively restore the latter drug's efficacy.
A cancer vaccine combining checkpoint blockade therapy and a STING-activating drug eliminates tumors and prevents recurrence in mice.
The global health care company Sanofi is providing $25 million to advance RNA research.
MIT researchers built DiffDock, a model that may one day be able to find new drugs faster than traditional methods and reduce the potential for adverse side effects.
Researchers develop new, patient-friendly hydrogel platform for administering lifesaving biologics.
Using these RNA-delivery particles, researchers hope to develop new treatments for cystic fibrosis and other lung diseases.
Developed at SMART, the therapy stimulates the host immune system to more effectively clear bacterial infections and accelerate infected wound healing.