Mark Bear wins Society for Neuroscience Julius Axelrod Prize
Award recognizes professor's synaptic plasticity research, its translation to potential amblyopia and autism treatments, and his career of mentorship.
Award recognizes professor's synaptic plasticity research, its translation to potential amblyopia and autism treatments, and his career of mentorship.
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.
Professor Mark Bear's research on brain plasticity spins off a promising candidate to treat amblyopia, or lazy eye.
Scientists have invested decades in piecing together how our vision is so good at recognizing what’s familiar. A new study overcomes an apparent discrepancy in data to reveal a new insight into how it works.
Five MIT faculty, along with seven additional affiliates, are honored for outstanding contributions to medical research.
Study finds that in worms, the HSN neuron uses multiple chemicals and connections to orchestrate egg-laying and locomotion over the course of several minutes.
By analyzing epigenomic and gene expression changes that occur in Alzheimer’s disease, researchers identify cellular pathways that could become new drug targets.
Neurons stochastically generated up to eight different versions of a protein-regulating neurotransmitter release, which could vary how they communicate with other cells.
Sixteen professors join the departments of Biology; Chemistry; Earth, Atmospheric and Planetary Sciences; Mathematics; and Physics.
In a simple game that humans typically ace, mice learn the winning strategy, too, but refuse to commit to it, new research shows.
A potential new Alzheimer’s drug represses the harmful inflammatory response of the brain’s immune cells, reducing disease pathology, preserving neurons, and improving cognition in preclinical tests.
Researchers compared a pair of superficially similar motor neurons in fruit flies to examine how their differing use of the same genome produced distinctions in form and function.
MIT researchers model and create an atlas for how neurons of the worm C. elegans encode its behaviors, make findings available on their “WormWideWeb.”