Real-time readouts of thinking in rats
New open-source system provides fast, accurate neural decoding and real-time readouts of where rats think they are.
New open-source system provides fast, accurate neural decoding and real-time readouts of where rats think they are.
Technique for preserving tissue allows researchers to create maps of neural circuits with single-cell resolution.
Picower Institute researchers discover the brain mechanism that helps details come flooding back when you visit a scene again.
Startup PlateJoy sends users personalized meal plans to help them achieve health goals.
When you slow down after exiting the highway, or hush your voice in the library, you’re using this brain mechanism.
Double major Kerrie Greene builds connections in her research and her community.
In a study that might enable earlier diagnosis, neuroscientists find abnormal brain connections that can predict onset of psychotic episodes.
Neuroscientists discover a circuit that helps redirect attention to focus on potential threats.
Speakers at the Picower Institute for Learning and Memory fall symposium highlight advances in microscopy, tissue engineering, and reporters of brain activity.
Mahdi Ramadan and Alexi Choueiri’s common experiences as Lebanese evacuees led both to study the human brain at MIT.
A new model shows how brain waves are key to both maintenance and control of information in the mind.
Strategies to compensate for uncertainty help the brain succeed at difficult mental computations.
Neurons in human and rat brains carry electrical signals in different ways, scientists find.
Picower Institute researchers find that a key protein linked to intellectual disability shapes electrical currents in neural connections.
3-D tissue model replicates the motor neuron connections affected by amyotrophic lateral sclerosis.