A collection of studies that chart how mammalian brain cells grow and differentiate is a ‘very valuable’ tool for ...

USC researchers built artificial neurons that replicate real brain processes using ion-based diffusive memristors. These ...

Researchers have discovered how newly created neurons depend on blood flow in the adult brain to travel from their site of ...

Lab-grown “reductionist replicas” of the human brain are helping scientists understand fetal development and cognitive ...

Parkinson’s disease steals ease and movement by striking a narrow band of midbrain neurons. If you study or cover neuroscience, you have seen the promise and frustration in efforts to grow these ...

Researchers have discovered a specific set of neurons in the amygdala that can trigger anxiety and social deficits when ...

The human brain can do many amazing things, but self-repair is not one of its repertoire of abilities. Once neurons die—from trauma, stroke, or disease—they rarely grow back.

Researchers have long believed that neurons rely on glucose nearly entirely for fuel. The brain’s enormous energy requirements were presumed to be supplied by sugar alone, in contrast to muscle or ...

A breakthrough in neuromorphic computing could lower the energy consumption of chips and accelerate progress toward artificial general intelligence (AGI). Researchers from the USC Viterbi School of En ...

As power and latency bottlenecks grow, engineers are exploring neuromorphic chips to deliver low-energy, real-time AI at the edge of embedded and IoT systems.

What if clinicians could place tiny electronic chips in the brain that electrically stimulate a precise target, through a ...

Summary: Scientists have built one of the most comprehensive single-cell maps of the developing human brain. The new BrainSTEM framework analyzed nearly 680,000 fetal brain cells to chart their growth ...