Size matters in particle treatments of traumatic injuries
A new analysis offers guidance on the size of nanoparticles that could be most effective at stopping internal bleeding.
Seven new faculty join the MIT School of Science
Departments of Biology and Brain and Cognitive Sciences welcome new professors.
New computational tool predicts cell fates and genetic perturbations
The technique can help predict a cell’s path over time, such as what type of cell it will become.
How Omicron escapes from antibodies
A computational study shows that dozens of mutations help the virus’ spike protein evade antibodies that target SARS-CoV-2.
Making RNA vaccines easier to swallow
A pill that releases RNA in the stomach could offer a new way to administer vaccines, or to deliver therapies for gastrointestinal disease.
Method for delivering immune system-stimulating drugs may enhance cancer immunotherapy
The targeted approach eliminated tumors in mice, with minimal side effects.
3 Questions: Kristin Knouse on the liver’s regenerative capabilities
The clinically-trained cell biologist exploits the liver’s unique capacities in search of new medical applications.
Measuring cancer cell state can reveal drug susceptibility
Study results also show that pancreatic tumor cells can be forced into a more susceptible state by changing their environment.
Immune system-stimulating nanoparticle could lead to more powerful vaccines
The potent new adjuvant could be used to help make vaccines against HIV and other infectious diseases.
MIT Future Founders Initiative announces prize competition to promote female entrepreneurs in biotech
Nine MIT researchers selected as finalists for 2021 prize supported by Northpond Ventures; grand prize winner to receive $250K toward commercializing her human health-related invention.
A stealthy way to combat tumors
MIT biologists show that helper immune cells disguised as cancer cells can help rejuvenate T cells that attack tumors.
The poetry of physics
Condensed-matter theory PhD candidate Makinde Ogunnaike is featured in the Poetry of Science project.
For stem cells, bigger doesn’t mean better
MIT biologists show that enlargement of blood stem cells restricts their ability to generate new blood cells during aging.
Modeling the mechanisms of metastasis
Collaborative team wins prestigious NIH grant to investigate the physical forces that influence metastatic cancer.
Hunting a “Jekyll-and-Hyde” molecule
A screening method developed by MIT researchers targets hydrogen peroxide in the search for new cancer therapeutics.