Study reveals a universal pattern of brain wave frequencies
Across mammalian species, brain waves are slower in deep cortical layers, while superficial layers generate faster rhythms.
Across mammalian species, brain waves are slower in deep cortical layers, while superficial layers generate faster rhythms.
Roger Levy, Pulin Li, and David McGee were nominated by peers and students for their exceptional instruction.
A new study finds that language regions in the left hemisphere light up when reading uncommon sentences, while straightforward sentences elicit little response.
MIT researchers find that in mice and human cell cultures, lipid nanoparticles can deliver a potential therapy for inflammation in the brain, a prominent symptom in Alzheimer’s.
Study shows computational models trained to perform auditory tasks display an internal organization similar to that of the human auditory cortex.
A new study finds that microglia with mutant TREM2 protein reduce brain circuit connections, promote inflammation, and contribute to Alzheimer’s pathology in other ways.
The neuroscientist is recognized for her ongoing work to understand molecular and cellular mechanisms that enable the brain to adapt to experience.
Using fluorescent labels that switch on and off, MIT engineers can study how molecules in a cell interact to control the cell’s behavior.
By analyzing bacterial data, researchers have discovered thousands of rare new CRISPR systems that have a range of functions and could enable gene editing, diagnostics, and more.
Jörn Dunkel and Surya Ganguli ’98, MNG ’98 receive Science Polymath awards; Josh Tenenbaum is named AI2050 Senior Fellow.
Award recognizes professor's synaptic plasticity research, its translation to potential amblyopia and autism treatments, and his career of mentorship.
MIT researchers who share their data recognized at second annual awards celebration.
Seed projects, posters represent a wide range of labs working on technologies, therapeutic strategies, and fundamental research to advance understanding of age-related neurodegenerative disease.
Professor Li-Huei Tsai studies how brain waves can be used to treat neurodegenerative diseases such as Alzheimer’s.
An advanced closed-loop anesthesia delivery system that monitors brain state to tailor propofol dose and achieve exactly the desired level of unconsciousness could reduce post-op side effects.