Recent breakthroughs in neuroscience reveal how the brain can reconfigure networks within seconds, learn from a single experience, and interface with soft, blood-grown materials or long-lived ...

Functional gastrointestinal disorders (FGIDs), including irritable bowel syndrome, functional dyspepsia, and chronic visceral pain syndromes, affect a ...

The hippocampus follows a "tabula plena" model, starting with dense, random connections that are pruned into an efficient ...

Neuroplasticity and development have traditionally focused on synaptic mechanisms as the primary substrates of circuit remodeling. However, recent advances ...

Professor Lei Fu, the study’s corresponding author, says: “Our research suggests that plasmalogens may not just stop ...

Neuroscientists have identified a novel form of neuroplasticity, behavioral timescale synaptic plasticity (BTSP), that enables the brain to encode memories from a single experience. The mechanism, ...

Self-adhesive polymer substrates turn independently optimized transistor modules into snap-together electronic skin that ...

Neurons that fire together, wire together” is not the full story. A novel mechanism explains how the brain can learn across ...

Transcranial alternating current stimulation (tACS) has emerged as a promising noninvasive brain stimulation technique for treating neuropsychiatric disorders. Unlike transcranial direct current ...

New research shows that sleep loss alters specific memory circuits, but also hints that a familiar compound may help restore ...

Computational simulations indicate that classical psychedelics could induce hallucinations by co-opting neural circuitry dedicated to sleep-dependent replay and consolidation, providing a theoretical ...

This valuable study presents a plastic recurrent spiking network model that spontaneously generates repeating neuronal sequences under unstructured inputs. The authors provide solid evidence that, ...