An influential hypothesis in neuroscience is that the brain may operate near criticality, a transition zone between ...

Functional connectivity reveals brain attractors that match predictions of free‑energy‑minimizing attractor theory, yielding an interpretable generative model of brain dynamics in rest, task, and ...

Long overlooked and underestimated, glial cells—non-neuronal cells that support, protect and communicate with neurons—are finally stepping into the neuroscience spotlight. A new Florida Atlantic ...

Neuroscientists have set up computer frameworks that can help model individual brain dynamics. The complexity of the human brain -- 86 billion neurons strong with more than 100 trillion connections -- ...

The axolotl (Ambystoma mexicanum) has extraordinary regenerative abilities—the salamander can regrow lost limbs and repair ...

What happens inside your brain when you hear a steady rhythm or musical tone? According to a new study from Aarhus University and the University of Oxford, your brain doesn't just hear it-it ...

In a recent study published in Nature, researchers investigate chromatin conformational and epigenomic reorganization during the development of the prefrontal cortex (PFC) and hippocampus (HPC). The ...

Summary: It’s a common reflex: to hear a faint sound better, we squeeze our eyes shut. However, new research suggests this strategy actually backfires in noisy environments. By monitoring brain ...

First-in-class isogenic model of the human neurovascular unit offers unparalleled human relevance for studying blood-brain barrier drug transport and neuroinflammation. Emulate, Inc., the leading ...

The complexity of the human brain – 86 billion neurons strong with more than 100 trillion connections – enables abstract thinking, language acquisition, advanced reasoning and problem-solving, and the ...