MIT researchers develop an AI model that can detect future lung cancer risk
Deep-learning model takes a personalized approach to assessing each patient’s risk of lung cancer based on CT scans.
Deep-learning model takes a personalized approach to assessing each patient’s risk of lung cancer based on CT scans.
The late MIT Professor Angelika Amon was recognized as Committed to Caring for her generous and encompassing mentorship.
Biologists have mapped out more than 300 protein kinases and their targets, which they hope could yield new leads for cancer drugs.
Groundbreaking research can help alleviate the challenges affiliated with studying carbohydrates.
Koch Institute event celebrates the new MIT Press biography “Salvador Luria: An Immigrant Biologist in Cold War America.”
By analyzing enzyme activity at the organism, tissue, and cellular scales, new sensors could provide new tools to clinicians and cancer researchers.
Researchers have developed a technique that could help fine-tune the production of monoclonal antibodies and other useful proteins.
Using biological, chemical, and engineering tools, she has developed strategies to attack molecules once thought to be “undruggable.”
Now in its second year, the Rise program targets exceptional teenage scholars from around the world for their potential as future change-makers.
Study finds the protein MTCH2 is responsible for shuttling various other proteins into the membrane of mitochondria. The finding could have implications for cancer treatments and MTCH2-linked conditions.
Hynes and two other scientists will share the prize for their discoveries of proteins critical for cellular adhesion.
As an MSRP-Bio student in the Vander Heiden lab, Alejandra Rosario helped to reveal how cancer cells maintain access to materials they need to grow.
A new model that maps developmental pathways to tumor cells may unlock the identity of cancers of unknown primary.
The findings of a large-scale screen could help researchers design nanoparticles that target specific types of cancer.
With particles that release their payloads at different times, one injection could provide multiple vaccine doses.