Study links gene to cognitive resilience in the elderly
The findings may help explain why some people who lead enriching lives are less prone to Alzheimer’s and age-related dementia.
The findings may help explain why some people who lead enriching lives are less prone to Alzheimer’s and age-related dementia.
Students featured in public art exhibits in prominent locations throughout Boston.
Those selected for these positions receive additional support to pursue their research and develop their careers.
Neuroscientists find the internal workings of next-word prediction models resemble those of language-processing centers in the brain.
Professors Linda Griffith and Feng Zhang along with Guillermo Ameer ScD ’99, Darrell Gaskin SM ’87, William Hahn, and Vamsi Mootha recognized for contributions to medicine, health care, and public health.
When asked to classify odors, artificial neural networks adopt a structure that closely resembles that of the brain’s olfactory circuitry.
We seem to be wired to calculate not the shortest path but the “pointiest” one, facing us toward our destination as much as possible.
While the brain acquires resistance to continuous treatment with mGluR5 inhibitor drugs, lasting effects may still arise if dosing occurs intermittently and during a developmental-critical period.
Film examines the history and international impact of the 1999 Study on the Status of Women Faculty in Science at MIT, through interviews with Nancy Hopkins and other leading scientists.
Dedicated circuits evaluate uncertainty in the brain, preventing it from using unreliable information to make decisions.
The K. Lisa Yang Integrative Computational Neuroscience (ICoN) Center will use mathematical tools to transform data into a deep understanding of the brain.
Awards support high-risk, high-reward biomedical and behavioral research.
A study of mice watching movies shows our brain cells rely on a circuit of inhibitory neurons to help ensure that the same images are represented consistently.
Interdisciplinary research center funded by philanthropist Lisa Yang aims to mitigate disability through technologies that marry human physiology with electromechanics.
Neuroscientists at MIT and Massachusetts General Hospital develop a statistical framework that describes brain-state changes patients experience under ketamine-induced anesthesia.