Study finds tracking brain waves could reduce post-op complications
Distinctive EEG patterns indicate when a patient’s state of unconsciousness under general anesthesia is more profound than necessary.
How Tau tangles form in the brain
A new study shows that truncated versions of the Tau protein are more likely to form the sticky filaments seen in the brains of people with Alzheimer’s disease.
Scientists pinpoint where thousands of individual proteins are made in intact tissue and single cells
A new technology called RIBOmap can give researchers valuable insight into how protein production in animal and human tissue is altered in disease.
Study: The ocean’s color is changing as a consequence of climate change
The color changes reflect significant shifts in essential marine ecosystems.
Thirty-four community members receive 2023 MIT Excellence Awards, Collier Medal, and Staff Award for Distinction in Service
Prestigious awards recognize community support of MIT’s goals, values, and mission.
Studying rivers from worlds away
A new technique uses remote images to gauge the strength of ancient and active rivers beyond Earth.
Magnetic robots walk, crawl, and swim
New soft-bodied robots that can be controlled by a simple magnetic field are well suited to work in confined spaces.
Focus on function helps identify the changes that made us human
A new approach for identifying significant differences in gene use between closely-related species provides insights into human evolution.
Andrea Lo ’21 draws on ecological lessons for life, work, and education
With a minor in literature and environmental sustainability, the biology alumna considers perspectives from Charles Darwin to Annie Dillard.
MIT physicists generate the first snapshots of fermion pairs
The images shed light on how electrons form superconducting pairs that glide through materials without friction.
Chemists discover why photosynthetic light-harvesting is so efficient
The disorganized arrangement of the proteins in light-harvesting complexes is the key to their extreme efficiency.
When computer vision works more like a brain, it sees more like people do
Training artificial neural networks with data from real brains can make computer vision more robust.
Summer 2023 recommended reading from MIT
Enjoy these recent titles from Institute faculty and staff.
Computer vision system marries image recognition and generation
MAGE merges the two key tasks of image generation and recognition, typically trained separately, into a single system.
Researchers uncover a new CRISPR-like system in animals that can edit the human genome
The first RNA-guided DNA-cutting enzyme found in eukaryotes, Fanzor could one day be harnessed to edit DNA more precisely than CRISPR/Cas systems.