The brain’s hemispheres are specialized for efficiency. Modern neuroscience shows lateralization enhances function without ...

Scientists rebuilt human brain circuits in the lab and discovered that the thalamus acts as a central organizer of cortical wiring. The findings offer new insight into how brain networks form and why ...

Modern neuroscience understands the brain as a set of specialized systems. Aspects of brain function such as attention, ...

New research suggests intelligence arises not from a single brain region, but from how networks across the brain work together as an integrated system. Neuroscientists often describe the brain as a ...

Scientists have discovered that the human brain understands spoken language in a way that closely resembles how advanced AI language models work. By tracking brain activity as people listened to a ...

Navigating a busy street, a new city, or even your own home requires more than just memory of landmarks. Deep inside your brain, specialized networks act like a compass, constantly recalibrating so ...

New research shows gut bacteria can directly influence how the brain develops and functions. When scientists transferred microbes from different primates into mice, the animals’ brains began to ...

Artificial intelligence was built to process data, not to think like us. Yet a growing body of research is finding that the internal workings of advanced language and speech models are starting to ...

Think your cerebellum only coordinates fluid movements? New 2026 research reveals how your "little brain" also creates the ...

In 1943, a pair of neuroscientists were trying to describe how the human nervous system works when they accidentally laid the foundation for artificial intelligence. In their mathematical framework ...

How do you intuitively know that you can walk on a footpath and swim in a lake? Researchers from the University of Amsterdam have discovered unique brain activations that reflect how we can move our ...

For the first time, clumps of human cells called organoids were fully integrated with the brains of rats—and influenced their behavior.