Neuroscientists have long dreamed of watching thoughts unfold as they happen, without disturbing the fragile tissue that ...

An interactive toolbox for standardizing, validating, simulating, reducing, and exploring detailed biophysical models that can be used to reveal how morpho-electric properties map to dendritic and ...

Scientists at Brown University have developed CaBLAM, a bioluminescent tool that allows long-term, high-resolution imaging of ...

In C. elegans worms, a single neuron named HSN uses multiple chemicals and connections to orchestrate egg-laying and locomotion over the course of several minutes. A new MIT study that focuses on a ...

An interdisciplinary team of researchers has developed a soft implantable device with dozens of sensors that can record single-neuron activity in the brain stably for months. Recording the activity of ...

The deep learning field has been dominated by “large models” requiring massive computational resources and energy, leading to unsustainable environmental and economic challenges. To address this, ...

Researchers have used a novel manufacturing technique to create a minimally invasive, customizable sensor that can wirelessly record deep brain activity down to a resolution of one or two neurons. The ...

(Nanowerk Spotlight) Computing systems have made impressive progress, but they still fall short when compared to the human brain’s energy efficiency and adaptability. Biological neurons handle complex ...

A new MIT study that focuses on a single cell in one of nature’s simplest nervous systems provides an in-depth illustration of how individual neurons can use multiple means to drive complex behaviors.